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English Pages [420] Year 1988
Scanning Electron Microscopy in Archaeology
edited by
Sandra L. Olsen
BAR International Series 452
1988
B.A.R. 5, Centremead, Osney Mead, Oxford OX2 ODQ, England.
GENERAL EDITORS A.R. Hands, B.Sc., M.A., D.Phil. D.R. Walker, M.A.
BAR -S452, 1988: 'Scanning Electron Microscopy in Archaeology' © The Individual Authors, 1988
The authors’ moral rights under the 1988 UK Copyright, Designs and Patents Act are hereby expressly asserted. All rights reserved. No part of this work may be copied, reproduced, stored, sold, distributed, scanned, saved in any form of digital format or transmitted in any form digitally, without the written permission of the Publisher. ISBN 9780860545798 paperback ISBN 9781407347370 e-book DOI https://doi.org/10.30861/9780860545798 A catalogue record for this book is available from the British Library This book is available at www.barpublishing.com
D edicated t o D on B rothwell, w ho f oresaw t wenty y ears a go t he g reat c ontributions s canning e lectron m icroscopy h as t o o ffer a rchaeology.
CONTENTS Part I:
Methods and Techniques
SANDRA L. OLSEN: Introduction: Applications Electron Microscopy to Archaeology. DONALD CLAUGHER: Viewing Uncoated MEEKS: NIGEL Archaeological
Preparative Materials.
Methods,
Scanning
Replicating, and Imaging
Electron
Backscattered Materials.
of
of
9
23
Archaeometallurgy
Part II:
A. DAVID Complementary
SCOTT: Methods
SEM of
Analysis:
Microprobe and Investigation.
DANA E. GOODBURN-BROWN: Metalworking Tools and Practices: Interpretation of Worked Metal Rubber Moulds. Silicone via
Part III:
Workshop Surfaces Material
of Organic Products.
WATSON: Identification JACQUI Metal Corrosion Preserved by
47
55 65
Pottery
DONALD J. BLAKESLEE and RICHARD K. DUNN: Subsoil Inclusions in Pomona Ceramics. Part IV:
Stone
Artifacts
and
Identification
of
Grains Studies: Archaeologists by
Chemical Etching KJEL KNUTSSON: Experimental Quartz Tools.
Wear
FRANCESCO Study of
d'ERRICO: The Use Lithic Use-Wear.
of
Features
of
Resin
Replicas
FRANCESCO d'ERRICO: A Study of Epipaleolithic Engraved Pebbles.
Upper
Paleolithic
Plant
79
Mineralogy
P. A. BULL and A. W. MAGEE: Quartz for Reconstruction Environmental Scanning Electron Microscopy.
Part V:
3
for
on the and
103 117 155 169
Materials
JULIET PRIOR: Methods Used in Charcoal the Relationship between Woods Used in Times and the Present Fuelwood Crisis.
iii
and Analysis Archaeological
187
BRUCE
D .
SMITH:
Morphological
S EM
and
t he
I ndicators
of
I dentification
Domestication
of
i n
M icro-
S eed
P lants. E .
2 03
ANN
BUTLER:
Particular SUSAN
M .
The
S EM
Reference COLLEDGE:
Animal
T IM YATES: Marine
I dentification,
w ith 2 15
Some
Wild
Wheats
a nd
Ryes. 2 25
Materials
T he Detection of Diagenetic C hanges i n Non-
S IMON
H ILLSON: of
PAT
S eed
V icieae.
S hells.
S tudy
a nd
the
S EM S tudies o f t he C ell P atterns o f t he
Pericarp Layers o f Methods and P roblems. Part V I:
a nd
t o
2 39 The
Ancient
S HIPMAN: Hominid
FRIEDEMANN
S canning
Electron
Microscope and
t he
Teeth.
2 49
Actualistic
S tudies
o f
Animal
Resources
Activities. SCHRENK:
Makapansgat
2 61
Actualistic
Limeworks
Bone
PAT S HIPMAN and JENNIE ROSE:
SEM
S tudies
on
t he
Breccia. Bone
2 87
Tools:
An
Experimental
Approach. SANDRA Tool
3 03
L .
Part V II: P .
OLSEN:
Marks
F .
on
The I dentification
Bone
Hominid
P UECH,
Fluoride
F .
o f
S tone
and
Metal 3 37
Artifacts.
Remains C IANFARANI,
Content
and
A .
MARKITZIU,
Microwear
of
and I .
Teeth
i n
GEDALIA:
the P eninj 3 64
Australopithecus. KEITH
DOBNEY
Microscope YOLANDA Buccal
DON of
BROTHWELL: Archaeological
FERNANDEZ-JALVO and S triations
Atapuerca CATRYN
and
S tudy
on
t he
A
S canning
Dental
Electron 3 72
C alculus.
JOSE MARfA BERMÜDEZ d e CASTRO: Hominid
Anterior
T eeth
f rom 3 86
( Spain).
POWER
I nterproximal
a nd V .
R .
Abrasion
O 'SULLIVAN: Grooves
i n
i v
The
O ccurrence
o f
Some I rish P opulations.
4 02
L IST O F C ONTRIBUTORS J ose M aria B ermüdez d e C astro M useo Nacional d e C iencias N aturales J ose G utierrez Abascal,
2
2 8006 Madrid S pain D onald J .
B lakeslee
D epartment o f Anthropology T he W ichita S tate U niversity Wichita,
Kansas 6 7208
U .S.A . D on B rothwell D epartment o f Human E nvironment I nstitute o f Archaeology U niversity C ollege U niversity o f L ondon 3 1-34 Gordon S quare L ondon,
E ngland WC1H OPY
P eter A .
B ull
S chool o f G eography U niversity o f O xford O xford, E .
England OX1 3 TB
Ann Butler
D epartment o f Human E nvironment I nstitute o f A rchaeology U niversity C ollege U niversity o f L ondon 3 1-34 Gordon S quare L ondon,
E ngland WC1H OPY
Frangois C ianfarani D epartment o f F orensic M edicine Faculte d e M edecine L a T imone 2 7 B d J ean M oulin Marseille C edex 5 F rance 1 3
3 85
D onald C laugher E lectron Microscope U nit B ritish Museum ( Natural H istory) C romwell Road, London,
England S W7 5 BD
S usan C olledge D epartment o f Human E nvironment I nstitute o f Archaeology U niversity C ollege U niversity o f L ondon 3 1-34 G ordon S quare L ondon,
E ngland W C1H O PY
K eith D obney D epartment o f A rchaeology B radford U niversity B radford,
E ngland
R ichard K . D unn D epartment o f G eology T he W ichita S tate U niversity W ichita,
K ansas 6 7208
U .S.A . F rancesco d 'Errico Laboratoire d e P rehistoire, C .N.R.S.
U .A .
1 84
I nstitut d e P aleontologie Humaine
1 R ue R ene P anhard 7 5013 P aris F rance a nd Human P aleontology L aboratory D epartement o f Human P aleontology a nd P hysiology U niversity o f T urin C orso M . 1 0126,
D ' Azeglio 5 2
I taly
Y olanda F ernAndez-Jalvo M useo N acional d e C iencias Naturales J ose G utierrez Abascal, 2 8006 M adrid,
2
S pain
I tzhak G edalia D ental R esearch H ebrew U niversity Hadas s ah S chool o f D ental M edicine J erusalem, D ana E .
I srael 9 1
1 20
G oodburn-Brown
M useum o f L ondon L ondon,
E ngland
v i
S imon H illson D epartment o f Human E nvironment I nstitute o f A rchaeology U niversity C ollege U niversity o f L ondon 3 1-34 Gordon S quare L ondon,
E ngland WC1H O PY
K jel K nutsson D epartment o f A rchaeology U ppsala U niversity U ppsala,
S weden S -75220
A lfred W .
Magee
S chool o f G eography U niversity o f O xford O xford,
E ngland OX1 3 TB
J udy M .
M aguire
B ernard P rice I nstitute f or P alaeontological R esearch U niversity o f t he Witwatersrand J ohannesburg 2 001,
S outh A frica
A lice Markitziu O ral D iagnosis H ebrew U niversity Hadassah S chool o f D ental Medicine J erusalem, N igel D .
I srael 9 1120
Meeks
T he B ritish Museum R esearch Laboratory G reat R ussell S treet L ondon,
E ngland WC1B 3 DG
S andra L .
O lsen
D epartment o f C ell B iology a nd Anatomy T he J ohns Hopkins U niversity S chool o f M edicine 7 25 N orth Wolfe S treet B altimore,
Maryland 2 1205
U .S.A . V .R.
O 'Sullivan
D epartment o f Anatomy U niversity C ollege C ork C ork, C .
I reland
P ower
D epartment o f Archaeology U niversity C ollege C ork C ork,
I reland
v ii
J uliet P rior D epartment o f P ure a nd Applied B iology I mperial C ollege o f S cience a nd T echnology P rince C onsort Road L ondon,
E ngland S W7 2 BB
P ierre-Fran cois P uech D epartment o f P rehistory M us e d e l 'Homme d e P aris B .P.
1 91,
2 r ue S aint-Antoine
Nimes C edex,
F rance 3 0 0 08
J ennie Rose D epartment o f C ell B iology a nd Anatomy T he J ohns H opkins U niversity S chool o f M edicine 7 25 N orth Wolfe S treet Baltimore,
Maryland 2 1205
U .S.A . Friedemann S chrenk H essisches Landesmuseum Friedensplatz 1 6 100 D armstadt West G ermany David S cott T he G etty C onservation I nstitute 4 503B G lencoe Avenue Marina d el R ey,
California 9 0292-6537
P at S hipman D epartment o f C ell B iology a nd Anatomy T he J ohns Hopkins U niversity S chool o f Medicine 7 25 N orth Wolfe S treet Baltimore, Maryland 2 1205 U .S.A . B ruce D .
S mith
D epartment o f Anthropology N ational Museum o f N atural H istory/National Museum o f Man S mithsonian I nstitution Washington,
D .C.
2 0560
U .S.A . J acqui Watson Ancient Monuments Laboratory H istoric B uildings a nd Monuments C ommission f or E ngland Fortress H ouse 2 3 S avile R ow L ondon,
E ngland W 1X 2 HE
v iii
T im Yates D epartment o f Geography U niversity College U niversity o f London G ower S treet L ondon,
England WC1H OAP
i x
P ART I :
METHODS AND T ECHN IQUES
INTRODUCTION: ARCHAEOLOGY
APPLICATIONS
O F
S CANNING
ELECTRON
M ICROSCOPY
T O
S andra L . O lsen
T his
v olume
i s
E lectron M icroscopy
t he
p roduct
o f
i n A rchaeology,
a c onference
h eld
i n
1 986,
a t
e ntitled t he
S canning
I nstitute o f
A rchaeology, t he U niversity o f L ondon. A g athering o f o ver 6 0 s cientists f rom 1 0 n ations s pent t wo d ays p resenting t heir r esearch a nd o penly d iscussing t heir m ethods. I t w as a r are o pportunity f or a rchaeologists, c onservators, a nd s pecialists f rom a n umber o f o ther f ields t o s hare t heir v iews a nd e xchange i deas a bout t he p otential u ses o f s canning e lectron m icroscopy ( SEM) t o a m yriad o f s cientific p roblems. T he r esults w ere r ewarding: r esearchers w ho w ork o n v ery d ifferent m aterials f ound t hat m any o f t he d ifficulties t hey h ad e ncountered w ere s hared b y o thers a nd t hat, b y i nteracting w ith e ach o ther, t hey c ould d iscover s olutions t o t hese p roblems. A s a r esult o f t his m eeting, t hose w ho p resented p apers, a nd o thers w ho s ubsequently c ame f orward, h ave c ontributed t o t his v olume t o f urther d isseminate i nformation
o n
m ethods
o f p reparation o f
a rchaeological
s pecimens
a nd
a pplications o f S EM t o t he a nalysis o f a rchaeological d ata. B rothwell
( 1969)
w as
o ne o f
t he
f irst
t o a dvocate
t he u se o f S EM
i n t he a nalysis o f a rchaeological s amples. H e p ointed o ut t he a dvantages o f S EM o ver o ptical m icroscopy, d emonstrating h ow i t c ould b e u sed t o s tudy a ncient b one, d entition, t extile f ibers, h air, p lant r emains, a nd s tone t ools ( Brothwell 1 969: 5 64-566). I t i s c lear, b y t he d iversity o f s ubjects c overed i n t his v olume a nd t he i ncreasing r eference t o s canning e lectron m icroscopy i n r ecent p ublications, t hat SEM has become an important t ool i n t he i nterpretation o f a rchaeological d ata. T he S EM h as b een s hown t o h ave n umerous s pecific a pplications o n a wide v ariety o f m aterials, b ut b ecause o f t ime, e xpense, a nd d ifficulties i nvolved w ith s pecimen p reparation, i t i s r arely u sed i n e xclusion o f o ther a nalytical i nstruments. I n f act, o ne o f t he g reat s trengths o f S EM i s i ts c omplementarity w ith o ptical m icroscopes. W hereas t he o ptical m icroscope p rovides a s imple a nd i nexpensive m eans o f a nalyzing b ulk s amples, t he S EM a chieves a h igher s tandard o f a nalysis o n a g reatly r educed p opulation o f o bjects. T he w ell-known a dvantages
o f
t he
s econdary e lectron e mission m ode
o ver o ptical m icroscopy a pply t o t he s tudy o f a rchaeological m aterials a s w ell a s o ther o bjects. T hese i nclude: t he v ast, c ontinuous r ange o f m agnifications g reatly e xceeding t he o ptical l imit o f a round 1 000 t imes, t he i ncreased d epth o f f ield ( which i s a bout 3 00 t imes g reater t han f or a n o ptical m icroscope), a nd t he h igh r esolution ( practically s peaking a round 2 00 9 i i n t he S EM).
A ll o f t hese f eatures a re i mportant
r easons f or c hoosing S EM f or a rchaeological a nalysis o f m icroscopic s urfaces. E ven a t l ow m agnifications t he h igh q uality o f s canning e lectron m icrographs a nd s tereo-pairs e nables t he r esearcher d emonstrate h is o r h er f indings c learly i n p ublished f orm . M ost p rimarily
a rchaeological s tudies w ith t he o bservation o f
t o
w hich e mploy S EM a re c oncerned s urface t opography a nd, t herefore,
3
r ely m ainly o n t he s econdary e lectron i mage ( SEI). M uch o f t he w ork i nvolves l ow m agnifications b etween 1 0 a nd 1 ,000 t imes, a lthough s pecific p roblems m ay o ccasionally r equire h igher m agnifications. A w ide r ange o f a rchaeological m aterials i ncluding m etals, g lass, f aience, p ottery, s tone, s oil p articles, p igments, b one, t eeth, f ingernails, s kin, h air, e ggshell, m ollusks, i nsects a nd p arasites, p lant r emains, w ood, p ollen, s econdary e lectron i maging.
f ibers,
a nd s o o n h ave b een e xamined w ith
T he s econd m ost c ommon u se o f t he S EM i s f or d etermining c omposition, g enerally u sing e nergy d ispersive x -ray a nalysis ( EDAX). T he a dvantages o f u sing x -ray m icroanalysis w ith a S EM a re n umerous. I t p rovides a r elatively q uick a nd n ondestructive m eans o f o btaining q ualitative i nformation o n t he c onstituents o f am aterial w ithout m uch s pecimen p reparation. A t t his l evel t he s ample m ay o nly n eed t o b e c oated w ith c arbon, u nless i t i s s ufficiently c onductive w ithout c oating. F or m ore q uantitative s tudies t he s ample m ay n eed t o b e s ectioned a nd p olished, b ut t his s till a llows t he s pecimen t o b e u sed f or o ther f orms o f a nalysis. A n x -ray m icroprobe i s s ometimes p referred b ecause o f i ts s uperior q uantitative r esults, b ut s ince t hese i nstruments a re g enerally m ore e xpensive a nd l ess c ommon, a ccess m ay b e l ess c onvenient t han f or a S EM-EDAX. X -ray m icroanalysis h as b een u sed b y r esearchers o n m etals, c eramics, g lass, f aience, b one, a nd o ther a rchaeological materials. E lemental m apping h as b een e xtremely e nlightening i n t he s tudy o f m etal a lloys a nd f or i dentifying i nclusions i n p ottery. B ackscattered e lectron i maging ( BEI) h as s een m ore l imited a pplication, b ut h as t he a dvantage o f s upplying b oth t opographic a nd c ompositional i nformation s imultaneously. I t a lso e liminates t he p roblem o f t he e dge b right-up e ffect d ue t o c harging, a c ommon p roblem w ith a rchaeological s pecimens t hat a re p oorly c onductive. T his i s e specially i mportant i f t he e dge o f t he o bject i s t he c hief a rea o f s tudy a s i n w ear a nalysis o f s tone, b one, o r m etal t ools ( Meeks, e t a l., 1 982). Cathodoluminescence ( CL) h as r eceived l ittle a ttention b y a rchaeologists, b ut i t h as b een s hown t o h ave v alue i n t he e xamination o f q uartz g rains b y s oil a nalysts ( Krinsley a nd H yde, 1 971) a nd f or d etermining t he l ikely s ources o f t hermoluminescence s ignals i n p rehistoric c eramics ( Singhvi a nd Z immerman, 1 979). A uger e lectron e mission i s o ne o f t he l east c ommonly e mployed S EM m odes i n a rchaeology. T his may b e d ue t o a c ombination o f l imited a ccessibility t o m icroscopes w ith A uger d etectors a nd a l ack o f c ommon k nowledge a mong a rchaeologists a bout t he p rinciples a nd a pplications o f t his m ode. I n o ne c ase, h owever, A uger e lectron s pectroscopy w as u sed t o a nalyze t he c onstituents o f G reek b ronze a rrow t ips ( Polak e t a l., 1 983).
P reparation M ethods f or Archaeological S pecimens W orking samples a re m icroscope.
w ith a rchaeological m aterials m ay p ose p roblems w hen p repared f or e xamination w ith a s canning e lectron S ometimes a rchaeological s pecimens a re r eplaceable o r
4
a vailable i n v ast q uantities, a s w ith s oil s amples, p ollen, a nd c ertain k inds o f s tone, b one, o r p ottery c ollections. I n t hese c ases i t i s e asy e nough t o j ustify t he s ectioning, m etal-coating, o r o ther d estructive a lterations n ecessary f or o ptimal o bservation i n t he S EM. V ery o ften t his i s n ot t he c ase, h owever, a s w hen t he s amples a re u nique o r v ery r are a nd c onservation b ecomes a p rimary c oncern f or t he r esearcher. I n t hese s ituations a lternative m ethods o f s pecimen p reparation m ust b e f ound, s uch a s t he a voidance o f c oatings a nd a dhesives, t he s election o f f ragments o f m aterial s mall e nough t o f it i nto t he c hamber w ithout s ectioning, o r t he u se o f r eplicas. T hought m ust b e g iven t o t he k inds o f a nalysis t o b e p erformed o n t he s ample b efore a ny p reparation i s c arried o ut. F or e xample, i f m icroanalysis i s t o b e c onducted, o bviously t he s pecimen s hould b e c oated w ith c arbon r ather t han a m etal a lloy, s uch a s g old-palladium. I n s ome c ases f urther a nalytical t echniques m ay n eed t o b e p erformed a fter S EM o bservation, r equiring c areful p lanning d uring p reparation. O n r are o ccasions, t he s ample m ay b e l ater r adiocarbon d ated, i n w hich c ase c ontamination b y c oatings a nd a dhesives s hould b e a voided. W henever p ossible t he u se o f c oatings a nd a dhesives s hould b e r estricted t o s amples t hat a re c onsidered e xpendable o r r eplaceable; i f s everal k inds o f a nalysis a re t o b e p erformed o n a g iven s ample, t hen t he m ost d estructive t ests o r p reparation t echniques s hould b e d one l ast. I t i s n ot u nusual f or s pecimens t o b e h oused a nd m useum w hich d oes n ot h ave a l oan p olicy f or i ndividuals o r w ill n ot a llow m odifications t o b e p erformed o n t he t hese s ituations t he r esearcher m ay f ind i t n ecessary t o s pecimen i n o rder t o s tudy i t a t o ther f acilities d estructive t reatment o f t he o riginal.
c urated i n a o r f oreigners o bjects. I n r eplicate t he o r t o a void
I n a ddition t o p roblems p ertaining t o t he c onservation m easures a ssociated w ith t he c are a nd h andling o f r are a rchaeological s amples, m any o f t he d ifficulties e ncountered i n p reparation a re s pecifically related t o t he n ature o f t he m aterial e xamined. T he s ize, c onductivity, p orosity, a nd s tate o f p reservation o f a rchaeological s amples a re t he c hief s ources o f p roblems w ith p reparation. W ith i ncreasingly l arger S EM s pecimen c hambers, a rchaeologists n ow h ave m ore f reedom t o s tudy w hole a rtifacts w ithout t he n eed t o r eplicate o r s ection t hem . T he o ption o f v iewing s mall f ragments r ather t han c omplete o bjects i s v ery o ften f easible, s ince s o many a rchaeological m aterials a re f ragmentary w hen r ecovered. E ven w ith a l arge v acuum c hamber,
s ize l imitations m ay s till b e a
s erious p roblem i f t he m aterial i s v ery p orous. B one a nd a ntler, e xample, a re p roblematical s ince i t m ay b e d ifficult t o e vacuate
f or t he
c hamber i f l arge s amples a re u sed. P lacement o f s pecimens i n a d esiccating c hamber f or t wo t o t hree d ays p rior t o o bservation i n t he S EM c an f acilitate o utgassing. I f a C harge F ree A nticontamination S ystem ( CFAS) i s i ncorporated i n t he S EM, t hen l arge, p orous s pecimens c an b e s tudied. T he C FAS m aintains a s ignificant v acuum d ifferential b etween t he c olumn a nd t he c hamber, s o t hat o bjects c an b e v iewed i n a p oor v acuum . T he r esults
5
a re s ignificant f or a rchaeologists, s ince n ot o nly c an l arge s amples b e s tudied, b ut a lso n onconductive s amples c an b e v iewed w ithout c oating ( Claugher, t his v olume). I f a C FAS i s n ot a vailable, t hen t he c onductivity o f t he a rchaeological m aterial i s i mportant. A s m entioned a bove, m etal c oating a ncient
m ay n ot a lways b e a v iable p rocedure w ith r are o r v aluable o bjects o r t hose t hat w ill b e d isplayed i n m useum e xhibits.
T here a re s everal a lternatives t o m etal c oating, h owever, w hich m inimize t he p roblem o f c harging c onsiderably. M any a rchaeological m aterials
a re
s ufficiently
c onductive
w ithout
c oating
i f
c ertain
p recautions a re o bserved a nd i f o nly l ow m agnifications a re t o b e u sed . T ransparent a nti-static c oatings c an b e a pplied j ust p rior t o v iewing t o r educe c harging w ith n o v isible d eleterious e ffects. S lowing t he s canning s peed, r educing t he a ccelerator v oltage a nd m inimizing t he v iewing t ime p rior t o p hotographing a p articular a rea w ill a ll h elp a void c harging e ffects. W rapping a m etal w ire a round t he o bject a nd t wisting i ts e nds a round t he s pecimen m ount w ill h elp d rain o ff c harging, a s w ell. I t h as b een f ound t hat s tone, b one, s hell, p ottery, a nd m etals c an u sually b e s tudied a t m agnifications u nder 1 000 t imes i f t he a bove r ecommendations a re f ollowed. W henever p ossible, s uch a s w hen s amples a re e xpendable, o r w hen e xperimental i mitations a re t o b e e xamined, i t i s c learly p referable t o c oat t he o bject w ith g old-palladium f or n ormal i maging o r c arbon f or m icroanalysis a nd t o a ttach t he s pecimen f irmly t o a s tub w ith a c onductive a dhesive s uch a s s ilver o r c arbon d ag. I n m any c ases t he b est s olution f or S EM a nalysis o f a rchaeological s amples i s t o r eplicate t he a rea t o b e s tudied . T he m ost c ommon p rocedure i s t o m ake a s ilicone r ubber m ould o f t he s urface o f t he o bject. T he n egative r eplica c an t hen b e c overed w ith a c onductive m etallic c oating a nd v iewed d irectly i n t he S EM, o r i t c an b e u sed t o p roduce a p ositive r esin r eplica f or s tudy. C onsiderable i nformation h as b een p ublished o n r eplicating t echniques w ith u seful c omparisons b etween d ifferent c ommercial p roducts ( Pfefferkorn a nd B oyde, 1 974; P ameijer, 1 979; L arsen, 1 979; d 'Errico e t a l., 1 982/83; R ose, 1 983; B romage,
1 985).
C onclusions A lthough
t his
v olume
d oes
n ot
e xplore
t he
f ull
p otential
o f
s canning e lectron m icroscopy i n a rchaeological a nalysis, i t i s h oped t hat t he r eader w ill b e p rovided w ith a s ample f rom t he r ange o f possible applications. A s l esser-known S EM m odes, s uch a s c athodoluminescence a nd A uger e lectron e mission b ecome m ore c ommon, t heir u se i n a rchaeology w ill u ndoubtedly i ncrease. S canning e lectron m icroscopes a re, t hemselves, b ecoming m ore r eadily a vailable a nd a ffordable, s o t he s ize o f s amples w hich c an b e s tudied w ith S EM i s r apidly e xpanding. T he i mprovements i n i maging t hrough f rame s torage a nd d igitalizing, a s w ell a s o ther c omputerized f eatures, i ncrease t he q uality o f i nformation o btained t hrough S EM . O ne o f t he m ost i mportant p oints w hich c ontributors i n t his v olume h ave a ttempted t o c onvey i s t he c omplementarity o f S EM w ith o ther f orms o f a nalysis. I t i s n ot v iewed a s a s ubstitute o r r eplacement f or o ptical m icroscopy, b ut
6
rather
an
independent
means
o f
c ontributing
i nformation
t o
a rchaeological r esearch.
References B romage,
T .
1 985.
S ystematic
r eplica c ombinations f or S EM. B rothwell,
D .
1 969.
i nquiry
i n
t ests
o f
n egative/positive
J ournal o f M icroscopy 1 37(2):
2 09-216.
T he s tudy o f a rchaeological materials by means o f
t he s canning e lectron m icroscope: a n i mportant n ew f ield. C hapter 4 8 i n D . B rothwell a nd E . H iggs ( eds.), S cience i n A rchaeology, pp. 5 645 66.
T hames a nd H udson,
C laugher, D . 1 987. u ncoated materials. i n A rchaeology. d 'Errico, 1 1:
S econd e dition,
r evised a nd e nlarged.
P reparative methods, r eplicating a nd v iewing o f I n S .L. O lsen ( ed.), S canning E lectron M icroscopy
B AR I nternational S eries,
F .,
r eplicas:
L ondon.
G iacobini,
a n ew method
G .
f or
a nd
London.
P uech,
P .F.
1 982/1983.
Varnish
t he s tudy o f w orked bone s urfaces.
O ssa 9 -
2 9-51.
K rinsley,
D .H.
s ediments. M icroscope
a nd H yde,
P .J.W .
P roceedings
o f
S ymposium P arts
1 971. t he
I a nd
C athodoluminescence s tudies o f
F ourth
I I:
Annual
4 11-413.
S canning
E lectron
I IT R esearch I nstitute,
C hicago. Larsen,
E .B.
1 979.
C onservation, M eeks,
N .D.,
M oulding a nd C asting o f Museum Objects.
d e G .
S ieveking,
G .,
T ite, M .S.
a nd C ook,
J .
a nd u se-wear t races o n f lint s ickles a nd s imilar phenomena. A rchaeological S cience 9 :
G .
G loss
J ournal o f
t echniques w ith n ew d ental d ifferent n egative i mpression
S canning E lectron M icroscopy 1 979/II:
P fefferkorn,
1 982.
3 17-340.
P ameijer, C .H. 1 979. R eplication i mpression materials i n c ombination w ith materials.
S chool o f
C openhagen.
a nd B oyde,
A .
s canning e lectron m icroscopy.
1 974.
5 71-574.
R eview o f r eplica t echniques f or
S canning E lectron M icroscopy 1 974/I:
7 5-
8 2. P olak, M ., a pplied
t o
Baram, t he
2 5(1):
5 9-67.
Rose,
J .J.
J .
1 983.
m icroscopy:
a nd P elleg,
a nalysis
A
a pplications
o f
A .K .
f ine-grain
a nd
s amples
f or
Z immerman, f rom
1 983.
r eplication
P hysical A nthropology 6 2(3): S inghui,
J .
Auger e lectron s pectroscopy
a rchaeological
a rtifacts.
t echnique
f or
a nthropologists.
Archaeometry
s canning
American
e lectron
J ournal
o f
2 55-261. D .W .
1 979.
a rchaeological
7 3-77.1
7
T he
l uminescent m inerals i n
c eramics.
Archaeometry
2 1(1):
P REPARATIVE M ETHODS, R EPLICATING, AND V IEWING OF U NCOATED MATERIALS D .
C laugher
I ntroduction S ince t he a dvent o f t he f irst S EM i n 1 965 d esign h as i mproved a nd m icroscopes h ave b ecome m ore v ersatile. E arly S EMs w ere o nly c apable o f p roducing s econdary e lectron i mages, b ut q uite r apidly i t w as f ound t hat a nalytical f acilities c ould b e i ncorporated t ogether w ith a n umber o f a lternative m ethods o f i maging. I n s hort t he S EM b ecame a u niversal t ool f or s cientists i n a l arge n umber o f d isciplines. D espite
t he
i mprovement
o f
t he
m icroscope,
o ne
t hing
h as
n ot
c hanged, a nd t hat i s i ts i nability t o p roduce a f irst c lass i mage f rom p oorly p repared s pecimens. M any p eople i nvolved i n t he p reparation o f material f or S EM e xamination g ive l ittle t hought t o s pecimen p reparation a nd t his l ack o f t hought, o r p erhaps l ack o f u nderstanding, l eads i nvariably t o d isappointing r esults, f or w hich t he i nstrument o r t he o perator i s b lamed. I n a ll f airness i t m ay b e s aid t hat t here a re a n umber o f o perators, w ho t hrough l ack o f u nderstanding a re u nable t o g et t he b est f rom t heir i nstruments, b ut t he r esults f rom e ither o f t hese c ircumstances i s a d isappointing m icrograph. E xcluding t he s pecialised t echniques o f a nalysis a nd m etallurgy, I w ould l ike t o d well o n m ethod o f g etting t he b est f rom y our s pecimen b y o utlining s ome o f t he t echniques t hat t wenty y ears o n a v ariety o f m aterials.
h ave
b een
u sed
o ver
t he
l ast
S pecimen P reparation M ethods o f p reparation d epend u pon t he m aterial b eing e xamined, a nd t he s tate i n w hich i t i s f ound. S pecimens f rom a m arine e nvironment r equire d ifferent t reatment t o t hose f rom a t errestrial o ne. G enerally s peaking a ll s pecimens t o b e e xamined i n t he S EM s hould b e c lean a nd a bsolutely d ry. D rying c an b e a chieved b y d esiccation o ver s ilica g el w ith o r w ithout v acuum, o r s imply b y p lacing t he s pecimen i n a 3 7 C o ven t ill i t i s d ry. W et o r d amp s pecimens w ill n ot s tick t o S EM s tubs e ven w ith t he m ost s uitable a dhesives, a nd i f a dhesion i s o btained b y s ome o ther m ethod, t he m icroscope w ill n ot b e a ble t o a chieve o perating p ressure i f t here i s v apour b eing g iven o ff b y t he s pecimen. S ome m icroscopes a re a ble t o t olerate a p oorer v acuum t han o thers, b ut t he p oorer t he v acuum t he p oorer t he r esolution a nd t he w orse t he q uality o f t he m icrograph. S pecimens r ecovered f rom d amp o r w et e nvironments m ust h ence b e t reated t o r emove m oisture. A ir d rying o r d esiccation m ay c ause c onsiderable s hrinkage a nd t herefore o ne m ust c onsider a lternative m ethods. T he t wo m ost c ommonly u sed a re f reeze d rying a nd c ritical p oint d rying.
9
Freeze Drying Specimens may be washed or sieved to remove adherent material and may, depending on the durability of the specimen, be subjected to ultrasonic treatment. After this initial treatment they should be thoroughly washed in at least three changes of double glass distilled water, noting that deionised water should not be used as a substitute, for glass distilled water. After the cleaning, the material should be frozen in a minimal quantity of distilled water and placed in a previously cooled freeze drying chamber. The apparatus is · then evacuated and the drying proceeds. The rate of drying is dependent upon the physical size and the density of the specimen, it is better to leave the specimen too long in the apparatus than to take it out before the drying cycle is complete. Critical Point Drying Specimens for critical point drying are usually "fixed" in the biological sense, that is to say that they have been treated with a chemical substance, usually formalin or alcohol, to preserve them. Archaeological fixatives or consolidating substances such as polyvinyl acetate emulsion should not be used on specimens intended for SEM examination, as the presence of this substance will obscure fine detail on the surface. Specimens that do not appear to dry well with the Material for freeze drying method may be critical point dried. critical point drying is dehydrated through ascending grades of alcohol or acetone in water. The starting solution may be as low as 10%, then the specimens are transferred through the ascending grades of 20%, 30%, 40%, 50%, and so on till 100% is reached, then two changes of the absolute solvent follows, in order to ensure that all the water has been removed. If alcohol has been used to dehydrate the material it should be treated in two changes of acetone prior to the next stage. When dehydration is complete the material is placed in the critical point drying apparatus and drted. The two methods outlined above give satisfactory results, but you may find that some materials respond better to freeze drying and others to critical point drying; much depends upon the material and its state when found. It must be emphasised that material recovered from the sea must be thoroughly washed in distilled water prior to further treatment. Freeze drying rather than critical point drying appears to be more suitable for artifacts that have been recovered from the sea. Assuming that you have a clean specimen, the riext stage is to mount it on a stub, and this is where many mistakes are made. There are very few mountants that are suitable for this purpose. It is popularly assumed that any adhesive will suffice to hold the specimen onto the stub, but in fact nothing could be further from the truth, as there are very few adhesives that are stable inside the microscope. It was common practice some years ago to mount specimens on double sided adhesive tape, indeed some firms still sell stubs made up with double sided tape, but these should be avoided if you value your specimens or the inside of your instrument. Double-sided tape is convenient to use
b ut i nteracts w ith t he e lectron b eam t o p roduce v apours t hat d eposit o n t he f inal a pertures a s c arbon, r educing t he r esolution o f t he i nstrument. O ther d rawbacks o f d ouble-sided t ape a re t hat i t d ehydrates even outside t he m icroscope, a nd c racks, c ausing c onductivity p roblems w ith t he s pecimens. M any o ther a dhesives h ave d isadvantages: t he p opular d ags, s ilver a nd c arbon, a re n ot s uitable f or s oft o r a bsorbent s pecimens, a s t hey . tend t o c reep a nd b e a bsorbed b y t he s pecimen. E xperience h as s hown t hat
f or
g eneral
p urposes
t here
i s
n othing
t o
e qual
A raldite
f or
a ttaching s pecimens t o s tubs. T here a re t wo t ypes o f d omestic A raldite a vailable, q uick s etting a nd n ormal. T he n ormal t ype s hould b e u sed, a s t he r apid o r q uick s etting v ariety o ften d oes n ot c ompletely c ure.
t o
E xperience w ill s how t hat e ven t he s mallest s amples m ay b e f ixed a s tub w ith A raldite w ithout c reeping. W ater s oluble R esin " W",
m ade b y E vostick, a nd D urof i x, m ade b y R awlplug, a re t wo o ther s uitable a dhesives. D urofix m ay b e d iluted w ith b utyl o r e thyl a cetate o r a cetone. W hen e ither o f t hese a dhesives i s u sed i t i s n ot d ifficult t o r emove t he s pecimens f rom t he s tubs o nce t hey h ave b een e xamined .
C oating S putter c oating h as n ow r eplaced t he o nce c oating; i t i s m uch c heaper a nd m ore e fficient.
p opular
e vaporative
U ncoated Material T here i s n ow a y stem m arketed u nder t he n ame o f C FAS, w hich e nable t he e xamination o f u ncoated materials i n t he S EM. C FAS s tands for C harge F ree A nticontamination S ystem , w hich i s p robably a m isleading t itle, a s o ne w ould n ot n ecessarily a ssociate i t w ith a s ystem f or l ooking a t u ncoated m aterial a lthough i t i s. T he C FAS s ystem makes u se o f t he R obinson b ackscattered d etector w hich i s q uite d ifferent t o t he m ore c ommonly a vailable a nd c heaper d iode e quivalent. T he R obinson d etector i s n ormal s econdary d etector
a s cintillator t ype m uch t he s ame a s t he f ound i n a ll S EM 's, a nd h as a m uch g reater
s ensitivity t o backscattered e lectrons t han t he d iode d evice. W hen C FAS i s f itted t o a n S EM, t he g un i s maintained a t a h igher v acuum t han t he s pecimen c hamber. T his d ifferential i s a chieved b y u sing t he d iffusion p ump t ogether w ith t he t wo s tage r otary p ump f or t he g un a nd a s econd t wo s tage r otary p ump f or t he s pecimen c hamber, e nabling t he v acuum i n t he c hamber t o b e v aried d epending u pon t he m aterial b eing e xamined. B ecause r esidual g as
i t o r
i s p ossible t o v iew s pecimens i n a p oor v acuum, t he a ir i n t he c hamber i s a ble t o c onduct a way a ny c harge
t hat m ay b uild u p, a llowing o bservations t o b e m ade w ithout c oating a t m agnifications u p t o X 10,000 f or s ome m aterials. T his t ype o f s et-up h as b een u sed i n t he E M u nit o f t he B ritish M useum ( Natural H istory) f or t he l ast f ive y ears a nd h as p roduced t housands o f p hotographs o f b oth c oated a nd u ncoated m aterial ( Figs. 1 t o 6 ), i ncluding m inerals, b ryozoans,
o stracods,
i nsects,
p lants
1 1
a nd
a rchaeological
a rtifacts.
Captions f or Plate I A ll
s pecimens
o n
t his
monoliferum ( Milne G edgrove, S uffolk .
Fig.
1 .
Gold
p late
Edwards)
c oated
a re f rom
s econdary
f ossil t he
bryozoans,
P liocene
e lectron
i mage.
M etrarabdotos
C oralline
C rag
o f
Bar
= 3 00
m icrons.
= 1 0
microns.
P rint magnification X 15.
Fig.
2 .
Gold
c oated
s econdary
e lectron
i mage.
Bar
P rint magnification X 750.
Fig.
3 .
Gold c oated backscattered
i mage.
Bar
= 3 00
microns.
P rint
= 1 0 microns.
P rint
magnification X 15.
Fig.
4 .
G old
c oated
backscattered
i mage.
Bar
magnification X 750.
Fig.
5 .
U ncoated
C FAS
I mage.
B ar = 3 00 m icrons.
P rint magnification
6 .
U ncoated
C FAS
i mage.
B ar
P rint magnification
X 15.
Fig.
= 1 0 m icrons.
X 750. N ote
t here
i s
b etter
d etail on t he l ow power C FAS i mage i n F ig. 5 t han 3 . H owever, a t a h igher magnification t he c oated s econdary e lectron i mage i n F ig. 2 i s b etter t han t he C FAS r esult i n F ig. 6 . o n t he c oated s econdary e lectron i mage i n F ig.
19
P late 1 .
1 3
V aluable t ype s pecimens w ithout d amage.
t hat
m ay
n ot
b e
c oated
h ave
b een
e xamined
O ne o ther a dvantage o f t he R obinson d etector i s t hat i t a cts a s a n a tomic n umber d iscriminator a nd v arious p hases a re d istributed
may g ive a n i ndication o f h ow w hen l ooking a t o bjects t hat
c omposed o f m ore t han o ne t ype o f m etal o r m aterial. t o t he m icroscope w hen u sing t his t ype o f d etector
t he a re
A s imple a ddition i s a n I mage M icro
A nalysis S ystem ( IMAS) o r a s imilar a pparatus c alled a S elected P hase I maging M odule. B oth o f t hese s ystems e nable s imple q ualitative a nalysis t o b e c arried o ut o n s uitable s pecimens. I t s hould b e s tressed t hat t his o nly a pplies t o . inorganic m aterials. A t ypical e xample o f t he u se o f t he C FAS m odule i s a s f ollows. M icroscopical e xamination o f s urface t races o n b ones a nd f lints c an i ndicate i f t hey w ere f ashioned i ntentionally b y h umans f or a particular p urpose, o r i f t hey a re m erely p roducts o f n ature. I t i s i mpractical i n s ome c ases t o c oat a rtifacts p rior t o e xamination i n t he S EM a nd t his i s w here t he C FAS module c omes i nto i ts o wn. S ome h undreds o f p ieces o f b one a nd f lint h ave b een e xamined b y C ook ( 1985) a nd A ndrews a nd C ook ( 1986) i n t he S EM t o e stablish t heir a uthenticity, f or t he m ost part w ithout c oating. R esults o btained s how t hat p hotographs produced u sing t his m ethod a re o f a h igh q uality s uitable f or publication.
t he a nd
Replicas R eplicas h ave b een u sed f or e xamining m icroscopical d etail f or w ell o ver a h undred y ears. I singlass was u sed b y m ineralogists t o r eplicate t he s urface d etails o f c rystals a s f ar b ack a s 1 843 a nd b otanists w ere u sing s hellac f or making r eplicas o f l eaf s urfaces a t t he t urn o f t he c entury. S ince t hen a variety o f materials h ave b een u sed, i ncluding p laster o f P aris, p araffin w ax, e lectroplating, a nd v arious r ubber c ompounds. T he
a dvent
o f
t he
e lectron m icroscope a nd l ater t he S EM c reated a
d emand f or r eplicas w ith a m uch g reater r esolution t han w as p reviously t hought n ecessary, b ecause t hese i nstruments w ere c apable o f r esolving d etail t hat w as i mpossible t o s ee w ith t he o ptical m icroscope. T he e arly t ransmission e lectron m icroscopists d evised s ome v ery r efined r eplicating m ethods f or e xamining t he s urfaces o f materials t hat c ould n ot b e e xamined d irectly i n t he m icroscope. T hese m ethods p roduced r eplicas o f a v ery h igh r esolution, a nd e nabled t he i maging o f d etail d own t o b elow 1 0 n m . H owever f or t he g eneral u ser, t he m ethods w ere n ot a lways p ractical a s m any o f t hem i nvolved t he d estruction o f t he m aterial t hat w as b eing r eplicated. T he a dvent o f t he S EM g ave u s a m ethod o f l ooking d irectly a t s urfaces w ithout a lways n eeding t o r eplicate, b ut t he r estriction i mposed b y t he s ize o f t he c hamber o n t he s ize o f t he o bject a gain t urned u ser's m inds t owards r eplicating m aterials a nd m ethods. P fefferkorn a nd B oyde ( 1974), P ameijer ( 1978), Hamilton-Waters ( 1983) a nd B romage ( 1984) a ll e xamined v arious r eplicating m aterials w ith a v iew t o t hem b eing u sed i n t he S EM, a nd t heir f indings a nd r ecommendations a re a g ood s tarting p oint f or a ny w ork o n t his s ubject. T he e arly S EM 's w ere c apable o f a r esolution o f 2 0
n m,
w hich w as
r arely a chieved.
P resent d ay i nstruments a re c apable
1 4
of achieving a resolution of 2 run which places them in the same resolving category as a TEM, and it is necessary when making replicas to bear this in mind. The nature of the material to be replicated often dictates to some degree the type of moulding material to be used. Tough materials such as bone, flint and ceramic, can frequently withstand harsher treatment than skin, wood or plant remains. For tough, resilient materials cellulose acetate replica peels can be made simply by applying a strip or larger piece of cellulose acetate sheet, softened in acetone, to the surface to be replicated. When the acetone has evaporated, the cellulose acetate is peeled away from the specimen, and sputter coated and may then be examined in the SEM as a negative impression. High resolution images can be obtained using this method (Figs. 17 and 18) (Hill, 1986). Alternatively, a positive may be made using a silicone rubber compound such as Dow Corning 9161. Resolution to the order of 100 nm can be achieved with this material, and it appears to have a good dimensional stability. D'Errico et al. (1984), published some excellent examples of surface features on worked bone obtained using a nitrocellulose compound containing a plasticiser, with results very similar to those achieved by the acetate peel method. The advantage of both of these peel methods is that the results may be examined using transmitted light microscopy as well as scanning electron microscopy. There are a great variety of moulding compounds available at the present time. Many of these are used in dentistry for taking impressions prior to making dentures or crowns, but the degree of replication of detail required for this type of moulding is often not as great as that required for SEM investigations. Some of the dental materials are expensive and the results obtained from them are poor for high resolution work, see Figs. 7 to 16. Watson and Alvin (1976) encountered some difficulty when using Silflo, a two stage dental silicone rubber compound for reproducing details of silicified plants.. Work in our laboratory with Silflo has shown that it is not suitable for high resolution moulds as it does not reproduce detail well at a microscopical level, it tends to wrinkle, and is very prone to beam damage in the microscope. Siveter (1982) used Silcoset 105, to reproduce details of the fine o r n a m e n t a t i o n o n o s tracods and found that it fulfilled his requirements. We have also used this material with great success on a number of different types of specimens (Figs. 13 and 14), but have found that Dow Corning 9161 (Figs. 15 and 16) gave superior results, particularly when outgassed under partial vacuum before applying to the Reprosil is another silicone rubber, which gave poor specimen. resolution (Figs. 9 and 10). Wacker RTV-ME 622A&B is not suitable for this type of work as it is readily inhibited by the presence of contaminating material such as plasticine, a material commonly used in moulding processes. Xantopren Blau (light body) (Figs. 7 and 8) is a silicone rubber compound which gave average results. M-Polymer Wacker 4352 is not a silicone, but�consists of mixed polymerisates embedded into a matrix of polydimethylesiloxanes. It is a fairly rigid material when set but does not have the dimensional stability required for 15
captions for Plate 2 All specimens illustrated on this plate are spore·s or part of a spore of Qasimia, a new genus of marattialean fern from the Permian of Saudi Arabia.
Fig. 7.
Xantopren blau.
Bar
=
6 microns.
Print magnification X2500.
Fig.
Xantopren blau.
Bar
=
5 microns.
Print magnification XlOOO.
8.
Fig. 9. X2500.
Reprosil light body.
Bar
=
6 microns.
Print magnification
Fig. 10. Reprosil light body. XlOOO.
Bar
=
5 microns.
Print magnification
Fig. 11. Rubber latex.
Bar
=
6 microns.
Print magnification X2500.
Fig. 12. Rubber latex.
Bar
=
5 microns.
Print magnification XlOOO.
16
P late 2 . 1 7
Captions f or P late 3 A ll o f
s pecimens Q asimia,
i llustrated o n
a n ew g enus
t his plate
a re
s pores
o r part
o f a s pore
o f marattialean f ern f rom t he P ermian o f S audi
Arabia. Fig.
1 3.
I .C.I.
S ilcoset.
Bar = 6 microns.
P rint magnification X 2500.
Fig.
1 4.
I .C.I.
S ilcoset.
Bar = 5 microns.
P rint magnification X 1000.
Fig.
1 5.
D ow
C orning
9 161.
B ar
= 6 microns.
P rint
magnification
1 6.
Dow
C orning
9 161.
B ar
= 5 m icrons.
P rint
magnification
X 2500.
Fig. X 1000.
Fig.
1 7.
C ellulose a cetate peel.
Bar = 6 microns.
P rint magnification
C ellulose a cetate peel.
B ar = 5 microns.
P rint magnification
X 2500.
Fig.
1 8.
X 1000.
1 8
P late 3 .
1 9
m icroscopical w ork. I w ould s tress t hat t here a re l iterally d ozens o f p roprietary s ilicone r ubber m oulding c ompounds b ut v ery f ew o f t hem a re s uitable f or r eproducing m icroscopical d etail. a vailable m aterial t hat h as b een t ried i s r ubber
A nother c ommonly l atex ( Figs. 1 1 a nd
1 2) p robably t he c heapest a nd e asiest o f a ll m oulding c ompounds t o u se. I t i s m ade u p i n a n a mmonia b ased s olution a nd c an b e a pplied i n v ery t hin l ayers w hich c an b e b uilt u p a nd r einforced. T he r esulting m oulds g ive p oor r esolution b ut a re s table i n t he m icroscope. W hen u sing t his t ype o f l atex i t c an b e p ushed i nto t he s pecimen w ith a f ine j et o f c ompressed a ir f rom a " dust o ff" c an o r a c ompressor. I t i s s uggested t hat D ow C orning 9 161 b e u sed w ith c atalyst 9 162 f or m oulding m aterials t hat a re t oo d elicate t o b e t reated b y t he p eel m ethod. T he m oulding c ompound c an b e b lown i nto t he s urface w ith c ompressed a ir o r a pplied u nder v acuum a nd w hen t he m aterial h as s et i t c an b e p eeled o ff t he s pecimen. M oulds m ay b e f ixed t o s tubs a nd c oated b ut i f t his i s p roposed a s mall p iece o f f ilter p aper s hould b e e mbedded i nto t he b ack o f t he r ubber b efore i t s ets t o e nable t he m ould t o b e a ttached t o t he s tub, a s i t i s v ery d ifficult t o s tick s ilicone r ubber c ompounds t o m etal. M oulds n ormally h ave t o b e c oated b efore t hey a re v iewed i n t he S EM, b ut i f o ne i s u sing a C FAS a pparatus t hey c an b e v iewed u ncoated . I f
positive
c asts
a re
r equired
t hey
m ay
b e
m ade
w ith
A raldite,
h owever t his m aterial f requently c harges i n t he m icroscope e ven a fter c oating, a nd i t i s a dvisable t o m ix a l ittle powdered g raphite w ith i t b efore making t he c ast t o e liminate a ny c harging p roblems. Appendix R obinson b ackscattered d etector
i s p art o f
t he
C FAS
s ystem b ut
i t m ay
b e u sed i ndependently o f t he s ystem . I t i s a h igh g ain d etector, a nd i t a nd t he S elected P hase I maging M odule s ystem a re a vailable f rom, E xpo Sem L td., M oat F arm, C hurch R oad, M ilden, I pswich, I P7 7 AF, E ngland. I MAS: I mage a nd M icro A nalysis S ystem i s a vailable f rom C ambridge T echnology, C hesterton M ill, F rench's R oad, C ambridge C B4 3 NP, E ngland. S olid S tate D iode D etector i s a vailable f rom K .E. D evelopments L td., T he M ount, T oft, C ambridge, C B3 7 RL, E ngland. T his particular d etector i s v ery g ood f or backscattered w ork. I t i s d ivided i nto f our q uadrants a nd e ach c an b e u sed i ndependently i n e ither p olarity a llowing s um a nd d ifference s tudies t o b e m ade. A cknowledgements T he a uthor i s i ndebted t o, a nd w ishes t o p lace o n r ecord, h is a ppreciation o f t he i nterest t aken i n t his p aper b y D r. C .R. H ill a nd f or h is p ermission t o u se F igs. 7 t o 1 8. T hanks a re a lso d ue t o D r. P .D. T aylor f or t he u se o f F igs. 1 t o 6 , a nd t o t he p hotographic s taff, a nd m embers o f t he P alaeontological l aboratory o f t he B ritish M useum ( Natural H istory).
2 0
R eferences A ndrews,
P .
a nd
C ook,
t emperate s etting. B romage,
T .G.
J .
1 985.
M an 2 0:
1 985.
J .
1 985.
T he
J ournal o f M icroscopy 1 37:
a pplication
o f
s canning
t aphonomic a nd a rchaeological problems. t he
U pper
t o
b ones
i n
a
S ystematic i nquiry i n t ests o f n egative/positive
r eplica c ombinations f or S EM. C ook,
N atural modification
6 75-691.
P alaeolithic
o f
B ritain
I n R oe,
a nd
2 09-216.
e lectron microscopy D .A .
N orthwest
( ed.),
t o
S tudies i n
E urope.
Oxford,
B ritish A rchaeological R eports. D 'Errico,
F .,
G iacobini,
G .
a nd P uech,
P .F.
1 984.
n ew m ethod f or s tudying worked bone s urfaces. H amilton-Waters, materials
a nd
P .
1 985.
t echniques
A i n
r eview
u se
B ritish M useum ( Natural H istory). H ill, i n
C .R.
f ossil
1 986.
t axonomy.
a nd
T axonomic
C .H.
1 978.
m icroscopy-a r eview. P fefferkorn,
G .
I n
D .J .
J .
a nd
c asting
l aboratory,
3 7-43.
R .A . i n
a nd A lvin,
a nd
T homas,
B .A.
P alaeobotany.
A .
C asts
K .L.
( eds.),
S ystematics
1 23-136.
R eplica
a nd Boyde,
1 982.
S picer,
t echniques
f or
s canning
1 974.
e lectron
8 31-836.
R eview o f r eplica t echniques f or
S canning E lectron M icroscopy part
i llustrating
o stracod. I n B ate, R .H., R obinson, E . F ossil a nd R ecent O stracods, pp. 1 05-122. L td. W atson,
moulding
S canning E lectron M icroscopy part 2 :
s canning e lectron m icroscopy. 8 2. S iveter,
t he
palaeontology
T he C onservator 7 :
A pproaches
A ssociation S pecial Volume 3 1: P ameijer,
o f t he
a
2 9-51.
T he e pidermis/cuticle a nd i n s itu s pores a nd pollen
p lant
S ystematic
a t
Varnish r eplicas,
O SSA 9 -11:
1 976.
f ine
o rnament
o f
1 :
7 5-
a S ilurian
a nd S heppard, L .M . ( eds.), C hicester: E llis a nd Horwood
S ilicone r ubber c asts o f s ilicified
p lants f rom t he C retaceous o f S udan.
2 1
P alaeontology 1 9:
6 41-650.
RACKSCATTERED E LECTRON I MAGING O F ARCHAEOLOGICAL MATERIAL N igel M eeks I ntroduction B ackscattered e lectron ( BSE) i maging i n t he s canning microscope h as g ained s tature i n r ecent y ears b ecause
e lectron o f t he
availability o f m ore e fficient d etectors t hat c an e xploit t he c ompositional o r a tomic n umber c ontrast b etween c losely s imilar p hases i n p olished s amples. T he c ompositional c ontrast i ncreases a nd c larifies t he i nformation a vailable f rom a s ample a nd t herefore s peeds i nterpretation, a s w ell a s d eepening t he k nowledge o btained f rom e xamining t he m aterial. A n a dditional b enefit o f B SE i s t he s uppression o f s pecimen c harging i n t he S EM t hat o ccurs w ith s econdary e lectron i mages, f or e xample o n t he s urface o f a ntiquities d ue t o c orrosion a nd b urial d ebris, a nd o n s amples t hat a re d ifficult t o vacuum c oat, b ut c harging i s g enerally a bsent i n B SE i mages. T opographic i nformation i s a lso o f i mportance i n t he B SE s ignal c oming f rom t he s pecimen. H owever, t he t ype o f i mage o btained, w hether c ompositional, t opographic o r m ixed d epends n ot o nly o n t he p repared c ondition o f t he s ample ( eg p olished, e tched, f ractured, e tc.), b ut a lso o n t he c hoice o f S EM a ccelerating v oltage a nd p robe c urrent, w hich can be particularly important f or c eramic m aterials. T he d etector/specimen g eometry a lso h as a n i mportant e ffect o n t he t ype o f i mage a s d oes t he s ize a nd d esign o f t he B SE d etector t o s ome e xtent. T herefore, d etectors m ounted w ith d ifferent g eometries a nd w orking d istances g ive i mages w ith d ifferent c ontributions o f c ompositional a nd t opographic c ontrasts. o r s uppressed.
" Edge b right-up"
e ffects m ay a lso b e
e nhanced
T he p urpose o f t his p aper i s t o i llustrate w hat h as b een f ound t o b e t he b est B SE i maging c onditions f or a v ariety o f a rchaeological m aterials.
D etector G eometries T he S EM u sed f or t he w ork i n t his paper i s a J EOL 8 40 w ith t hree p urpose-designed b ackscattered e lectron d etectors, t he g eometries o f w hich a re i llustrated i n F ig. 1 . D etector ' A ' i s a s plit s olid-state a nnular d evice m ounted o n t he f inal l ens a nd c lose t o t he e lectron b eam a xis a t a w orking d istance o f 3 9 mm f rom t he s ample ( JEOL, 1 980). T his d etector i s t echnically i n t he i deal p osition t o g ive maximum a tomic n umber c ontrast, b eing l ocated w ithin a 4 0- c one r egion a bove t he s ample ( Fig. 2 ). I n p ractice, h owever, i t i s r ather s mall i n s urface a rea f or s imilar,
t he b ut
s tandard l ong w orking d istance. D etector ' B ' i s a l arger d iameter s olid-state d evice m ounted o n t he
r etractable o ptical m icroscope a rm . I n i ts n ormal p osition i t h as a w orking d istance o f 4 mm a bove t he s ample. I n p ractice, t his w orking d istance i s t oo c lose, a s t he d etector e lements a re o utside o f t he 4 0 c one
r egion
a nd,
a s
a
c onsequence,
t he
c ompositional
c ontrast
i s
r educed a nd " edge b right-up" e ffects a re e nhanced. M oving t he s ample s tage d own t o g ive 1 3 m m w orking d istance c ures t he p roblem a nd t he d etector i s t hen w ell p ositioned f or g ood c ompositional c ontrast a nd l ow n oise. I n t his p osition t he d etector h as a s ignificant s ignal t o
2 3
Fig.
1 .
D iagram
of
t he
J EOL
8 40
geometries.
2 4
backscattered
e lectron
d etector
E 5 -40kV
F ig. 2 . D iagram t ake-off a ngles.
i llustrating
t he
2 5
t ype
o f
i mage s een
a t v arious
B SE
noise and contrast advantage over the small detector 'A' . The third BSE detector, 'C' , is a retractable, large surface area scintillator device (Robinson type design). but which for technical reasons has an odd geometry. It is inclined 12° from the horizontal, and because the active area is asymmetrical about the electron beam axis and because of its large size it crosses the boundary between the compositional contrast and the topography regions and collects BSE over a 100° wide cone angle. Consequently, this device always makes a topographic contribution to the compositional image. The detector can be retracted out of the electron beam axis into a position where it is excellent for topographic imaging. This device also works at 'TV' rate with low probe currents in contrast to the solid-state detectors which require excessive probe currents in this mode due to signal loss in the amplifier. However, under normal probe current conditions and at slow scan rates the solid-state detectors can given excellent compositional images free from topography and "edge bright-up" effects. Compositional Contrast There are two fundamental properties of the backscattered electron radiation from the surface of a polished sample. The first property is the dependence of the BSE yield on the mean atomic number of the phases present (Fig. 3), which results in the higher mean atomic number phases appearing as brighter areas of the resulting image (Goldstein, 1981; Reed, 1975). Differences in atomic number of about 0.1 are claimed to be observable (White, 1984), and our system has been able to image a difference of 0. 9 between two intermetallic compounds of copper/tin. The contrast between these two phases was difficult to observe in the unetched condition due to much higher contrast from adjacent areas of However, the chemical the metal sample (Hall and Lloyd, 1981). compositions of these two compounds were very easily distinguished by EDX analysis ( E: phase 38.2% Sn and o phase 32. 6% Sn), and they were also distinguished by colour contrast in the optical microscope. This raises the need for a cautionary note that compositional imaging will not always clearly show phase differences that are present, and in practice they may be mar� obvious by optical microscopy and EDX analysis. However, etching does reveal phase boundaries that can be easily seen by topographic imaging in the SEM. The second fundamental property of the backscattered electron radiation from the surface of a polished sample is that the contributions of compositional contrast and topographic contrast in the signal vary with the BSE take-off angle. This important property is often overlooked in publications but it plays an important role in the resulting image. The compositional contrast increases to a maximum as the take-off angle approaches the vertical at which point the topographic contrast is very low, and conversely the topographic contrast increases at low take-off angles where the compositional contrast is very low. The distribution of the backscattered electrons from the sample and hence the type of image seen at various detector geometries is illustrated in Fig. 2. A dramatic demonstration of the change in compositional contrast and topographic contrast with BSE take-off angle is shown in Figs. 4 and 5. The glass spherule from the combustion of a 14C charcoal sample
26
A u P b i l
A gS n 44
C u F e 4 C a l S i N a 4 4
1 0
2 0
3 0
4 0
5 0
6 0
7 0
8 0
Dependence o f b acksca t ter ing c oe f i c ien t /o n a tom ic n umber Z f o r E , = t o-3o k eV ( a f ter B ishop , 1 966a ) .
F ig. 3 . D iagram i llustrating t he r elationship o f e lectron y ield t o t he a tomic n umber o f t he e lements.
2 7
t he
b ackscattered
Fig. 4 . Glass s pherule s howing t he t opographic B SE t he r etracted s cintillator d etector ( C).
Fig.
5 .
G lass
s pherule
t he s olid-state d etector
i mage
t aken w ith
s howing t he c ompositional B SE i mage taken w ith ( B)
d irectly a bove t he s ample.
2 8
s hown i n F ig. 4 w as t aken w ith t he r etracted s cintillator d etector ' C ' ( shown i n F ig. 1 ) a nd t he i mage w as d ominated b y t opographic i nformation, b ut a l ittle c ompositional c ontrast w as a lso s een. F or c omparison, F ig. 5 w as t aken w ith t he s olid-state d etector ' B ' d irectly a bove t he s ame s ample a t 1 3 mm w orking d istance a nd c learly s hows t he c ompositional v ariation o f t he c alcareous c onvection l ines i n t he o nce m olten g lass.
T herefore,
t o o btain maximum a tomic n umber c ontrast f rom
a s ample, t he d etector m ust b e p laced h orizontally a nd s ymmetrically a bove t he s ample a nd c lose t o t he e lectron o ptical a xis. I t s hould c ertainly b e w ithin a c one o f a bout 4 0- f rom t he p oint o f f ocus o n t he s ample, w hich i s f ound t o b e t he r egion o f maximum c ompositional c ontrast ( Fig. 2 ). A d etector ( such a s ' A ') m ounted i n t his p osition w ill e ffectively f latten t he i mage a nd g ive a ' clinical' v iew o f t he compositional c ontrast f ree f rom " edge b right-up" e ffects a nd t opography. C onversely, o utside o f t his 4 0 c one r egion t he s ubtle c ompositional c ontrast e ffects r educe d ue t o i ncreased B SE i nteractions i n t he s ample t hat o ccur a t l ower t ake-off a ngles. H owever, t hese l owa ngle B SE g ive g ood t opography a nd e dge c ontrast d ue t o t he l ine-ofs ight t rajectories. F or h igh c ontrast a nd l ow n oise c omposition i mages, t he d etector s hould b e r easonably c lose t o t he s ample, p rovided t hat t he d etector e lements r emain w ithin t he 4 0 c one r egion. H owever, i f t he d etector i s t oo c lose a nd t he d etector e lements a re o utside o f t he 4 0 c one r egion t heir c ompositional c ontrast r educes a nd " edge b right-up" e ffects d ominate. T his i s p articularly n oticeable o n p olished c eramics w hich h ave m icrotopography a nd p orosity, y et f or d eep-etched m etal s amples t his e ffect c an b e u nexpectedly a dvantageous. T he c eramic s ample s hown i n F ig.
6w hich d emonstrates t he " edge b right-
u p" e ffect a nd l oss o f c ompositional c ontrast w as t aken w ith d etector ' B' a t 4 mm w orking d istance, a nd w as t herefore t oo c lose t o t he s ample. T he s ame a rea i s s hown i n F ig. 7 b ut t aken a t 1 3 m m w orking d istance w ith t he s ame d etector. T his d ramatically s hows t he m uch i ncreased c ompositional t he c orrect d istance e liminated. T he
S EM
i nformation t hat t he i s u sed a nd " edge
a ccelerating
v oltage
h as
a n
s ample h as t o o ffer w hen b right-up" e ffects a re
e ffect
o n
t he
i mage d ue t o
b eam p enetration, a lthough t he b ackscattering c oefficient d oes n ot s ignificantly c hange. F or c ompositional c ontrast, m etal s amples n ormally b enefit f rom h igher k V s ettings, e g 2 0 k V u pwards, w hile c eramics a nd g lassy m aterial b enefit f rom l ower v alues i n t he r egion o f 1 5 k V w hich r educes b eam p enetration a nd " edge e ffects" t hat w ould o therwise r educe t he c ompositional c ontrast. L ower v alues d own t o 5k V c an b e u sed t o s how s ubtle p hase c ontrasts i n s ome c eramics, b ut r esolution b egins t o f all. I n m etals, c rystallographic g rain o rientation o r e lectron c hannelling c ontrast c an a lso b e s een m ore c learly a t r educed k V ( between 8 -15 k V), a gain r educing b eam p enetration a nd a llowing o nly t he s urface c rystals t o a ffect t he b ackscattered ( and a bsorbed) e lectron y ield ( Joy, 1 973; N ewbury, 1 974; W ells, 1 974; S chur, 1 974).
T opographic C ontrast T opographic i maging i s a chieved i n f our w ays. I n t he f irst t he s plit a nnular d etector ( 'A ' o r ' B' i n F ig. 1 ) m ounted d irectly a bove t he s ample i s s witched t o t he t opography m ode ( ie, t he s ignals f rom t he t wo
2 9
F ig. 6 . C eramic s ample c ompositional c ontrast w hen s ample.
F ig.
7 .
T he
c ompositional
s ame
c eramic
c ontrast
w hen
s howing ' edge b right-up ' a nd l oss o f t he B SE d etector ( B) i s t oo c lose t o t he
s ample t he
B SE
w orking d istance.
3 0
a s
F ig.
d etector
6 b ut ( B)
s howing i s
a t
t he
d etailed c orrect
d etector
e lements
a re
s ubtracted)
b ut
t his
g ives
a r ather
a rtificial
t ype o f i mage t hat m ay a lso l ose i mportant d etail. S econdly, i t i s m uch b etter t o m ove t he d etector ( 'B' o r ' C ') o ff-axis, o ut o f t he 4 0" c one r egion a nd u se i t i n t he c omposition m ode ( je, s ummation o f t he t wo d etector e lement s ignals) f or l ine-of-sight B SE d etection. I n t his c ase t he c ontrast i s m uch b etter a nd d etail i s e nhanced o ver t he f irst m ethod. T hirdly, t he s econdary e lectron c ollector h igh v oltage ( HV) c an b e t urned o ff f or a s imilar, b ut m ore n oisy i mage t han t he o ff-axis B SE d etector, a nd f ourthly a nd m ore u nusually, c ertain o bjects o r s amples s een a t l ow m agnification m ay h ave a s triking t hree-dimensional i mage w hen v iewed f rom d irectly a bove i n t he c ompositional m ode. I n t his w ay t he s ample i s s een w ith a u niform ' illumination', a s ituation w hich i s p articularly t rue o f g old c oated s amples v iewed a t a l ong w orking d istance. T opographic B SE i maging h as r ather m ore a pplications t han i s p erhaps g enerally r ealised, a nd i n p ractice a n i ncreased b eam c urrent w hich r educes n oise, o ften h elps t o s how t his p otential.
S ample P reparation R esin
m ounted
p olished
s ections
a nd
g lass
m ounted
t hin
s ections
a re p repared i n t he n ormal w ay f or o ptical m icroscopy; t he b etter t he p olish t he b etter t he r esults a re f or b oth t echniques. S EM e xamination o f m etals b y B SE b efore e tching i s a n a dvantage i n t hat t he s ubtleties b etween p hases, d iffusion z ones a nd c oring a re v isible, a nd i s e ssential f or E DX a nalysis i n o rder t o e nsure t hat n o m etals h ave b een d issolved f rom t he s urface. E tching c an f ollow c ompositional B SE i maging a nd E DX a nalysis. I t i s o ften b est i f d eeper e tching t han f or n ormal o ptical m icroscopy i s u sed f or S EM e xamination i n o rder t o e nhance g rain b oundary d etail. C arbon c oating i s u sed f or a ll p olished s amples
i n
r esin
m ounts,
b ecause
t he
c ompositional
c ontrast
c learly
s hows t hrough t he c arbon c oat. S ome t hree d imensional s amples f or t opographic i maging, f or e xample s ilicone r ubber m oulds, c an b e g old c oated t o i ncrease t he B SE y ield. G old c oating e ffectively s uppresses a tomic n umber c ontrast f rom t he s ample b ut e nhances t opography. T apered s ections a re polished t hrough t he s urface l ayers o f s ome a rchaeological o bjects i f s amples c annot b e t aken. W ith t apered s ections, t he o bject i s p olished a t a l ow a ngle t o t he s urface, o ften o n a c onvex e dge. T he s urfaces o f u ncleaned c orroded o bjects c an b e s uccessfully e xamined b y B SE t echniques b ecause c harging e ffects a re s uppressed.
Examples o f A rchaeological Material Viewed by B ackscattered E lectrons T o
i llustrate
t he
a rchaeological m aterial,
r ange
o f
e xamples
o ptions
a vailable
a re g iven
f or B SE
i maging o f
f or a v ariety o f m aterials
t hat h ave b een r ecently e xamined. M etals.
A n u nprepared b ronze F rankish s trap-end o f t he 5 th c entury A D
i s s een a t l ow m agnification i n t he B SE c ompositional m ode i n F ig. 8 . T he s urface o f t he o bject c learly s hows t he d eep d ecorative p attern, b ut i n a ddition d isplays a reas o f w ear t hrough t he l ight-coloured
3 1
F ig.
8 .
T he u nprepared
s urface o f
a F rankish
s trap-end
s hown
i n t he
c omposition m ode.
F ig.
9 .
D etail o f
t he w orn
s urface o f
t he
F rankish s trap-end s howing
t he d endritic c ore m etal a nd t he t wo i ntermetallic c ompound l ayers a nd e psilon) o f t he t inned s urface.
3 2
( eta
s urface l ayers t o t he c ore m etal b elow. T hese a reas o f w ear f orm n atural t apered s ections t hrough t he s urface l ayers. F ine d endrites o f t he c ast m etal c an b e s een i n t hese a reas. F ig. 9 s hows a v iew a t h igher m agnification, i n w hich t he d endrites a re s een t o b e t otally c orroded, b ut s till r etain t heir o riginal c ored s tructure. T he l ow-tin p rimary d endrites a re d ark a nd t he h igher-tin o uter d endrite l ayers a re l ight. A dditionally, a + 6 e utectoid i slands a re s een i n t he i nterdendritic h igh-tin regions. T hus a c lassical b ronze microstructure i s clearly s hown o n a n u nprepared o bject b y c ompositional B SE i maging. T he t wo l ight s urface l ayers i n F ig. 9 ( at t he e dges o f t he w orn t apered s ection) a ppear a s t wo d istinct g rey l evels w hich, w hen a nalysed, w ere f ound t o b e t he c ompositions o f t he i ntermetallic c ompounds n a nd E . T hese l ayers a re t ypical o f a b ronze t hat h as b een t in p lated b y m elting t in o nto t he s urface o f t he b ronze. T apered
s ections
o f,
o r
s amples
f rom
m etal
o bjects
o ften
s how
g reat d etail i n p olished, b ut u netched, s ection w hen v iewed b y c ompositional c ontrast. I n t he f orged c oin o f s ilver-clad c opper a lloy s hown i n F ig. 1 0, s etting t he B SE c ontrast t o g ive a f ull r ange o f g rey l evels e mphasizes t he l ayered s tructure o f t he c oin. T he r esin m ount h as l ow B SE y ield a nd i s t herefore b lacked o ut, w hile t he t hree-layered s tructure o f t he c oin i s c learly s een. T he w hite o uter l ayer c onsists o f s ilver o verlying a g rey i ntermediate b ody m etal. T he b ody m etal h as l ight
l ayer s pots
a nd a d ark c opper a lloy s howing t he p resence o f
s mall l ead g lobules, a nd b lack c orroded a reas a nd r esidual c oring a re a lso v isible. A s econd'micrograph a t h igher m agnification ( Fig. 1 1) i s s hown w ith e xpanded c ontrast t hat h as b lacked o ut b oth t he p lastic m ount a nd t he c opper c ore. T his e xaggerates t he c ontrast b etween t he t wo s urface l ayers a nd s hows t he l ight s ilver s urface l ayer c learly b onded t o t he s ilver/copper e utectic s older r egion w hich j oins t he s ilver t o t he c opper c ore. E tched m etals c an s how t heir s tructure v ery c learly b ut t he i mage t ype d epends o n w here t he d etector i s p laced. T he d eep e tched h igh-tin b ronze s hown i n F ig. 1 2 i s a nnular s plit d etector ( 'A ')
t aken i n t he c omposition m ode w ith m ounted a t 3 9 mm a bove t he s ample.
t he T he
e tched s tructure s hows n o t opography a t t he g rain b oundaries, b ut c learly s hows t he l ighter, h igh-tin a+ 5 e utectoid r egions a djacent t o t he d arker, c ored, l ow-tin b ronze a p hase. C asting p orosity i s s een a s d ark a reas d ue t o t he l ow B SE y ield f rom t hese r egions, a lthough t he l arge p ores d o s how s ome d etail w ithin. A lso n ote t hat s everal t iny g lobules o f l ead a re d istributed t hroughout t he s ample a nd s how u p a s w hite s pots. v iewed b y t he
C ompare t his w ith t he s ame a rea i n F ig. 1 3 w hich i s l arger d iameter a nnular d etector ( 'B ') a t 4 mm w orking
d istances, w ith t he d etector e lements w ell o utside o f t he 4 0" ' c one r egion. I n t his c ase t he i mage i s v ery c learly t opographic a lthough t he
d etector
i s
s witched
t o
t he
c ompositional
m ode
y et
r etains
s ome
c ompositional i nformation. T he t opography i s e mphasised b y t he b right e dge e ffects o n t he e utectoid a djacent t o i ts o wn s hadow w hich i s c ast o n t he b ronze. N ote a lso h ow t he d etail i s l ost i n t he p orosity d ue t o t he l ow a ngle o f t he B SE, p roducing t he s hadow e ffect i n t he h oles. A dditionally, t he l ead g lobules a re n ow i nvisible d ue t o t he b right-up" a nd r eduction o f a vailable a tomic n umber c ontrast.
" edge M uch
d etail i s v isible i n t he b ronze b ody m etal i n t his i mage. F igure 1 4 s hows t he s ame s ample t aken w ith t he l arge s cintillator d etector ( 'C ')
3 3
F ig. 1 0. F orged s ilver-clad c oin s howing t he d ark c ore m etal, l ight s urface s ilver l ayer a nd t he m id-grey f usion z one b etween.
F ig. 1 1. D etail o f t he e utectic s older m icrostructure l ight s ilver l ayer a nd t he d ark c opper a lloy c ore.
3 4
b etween
t he
t he
F ig.
1 2.
H igh-tin
b ronze
d istance, d etector ' A '. g lobules c an b e s een.
T he
i n
t he
c omposition
m ode
a t
e tched s ample a ppears f lat,
F ig. 1 3. H igh-tin b ronze i n t he c omposition d istance, d etector ' B'. N ote t he t opographic f ine d etail i n t he e tched b ody m etal.
m ode t ype
a t o f
l ong
w orking
a nd t iny l ead
s hort w orking i mage a nd t he
F ig. 1 4. H igh-tin b ronze t aken w ith t he l arge a rea s cintillator d etector i n t he c omposition m ode. N ote t he m ixed t opographic a nd c ompositional i nformation i n t he i mage.
3 5
d irectly a bove t he s ample a nd i s c learly a c ombination o f a tomic n umber c ontrast a nd t opography. T he c ombination o f a tomic n umber c ontrast a nd g rain o rientation o r e lectron c hannelling c ontrast i s s hown i n F ig. 1 5, t aken w ith d etector ' B ' a t 1 3 m m w orking d istance. I n t his p olished c ross-section o f a B ronze-Age s piral g old t orc f rom S hropshire t he f our a rms c learly s how t he p atchwork o f l arge a nnealed g rains. T he e nds o f t he a rms a re b urred o ver a nd t he g old g rains a re v ery s mall, i ndicating t hat a l ot o f c old w orking w as f ollowed b y a nnealing t o s often t he p repared r od b efore c oiling t he t orc. T his t extural d etail i n t he i mage i s p urely t he e ffect o f g rain o rientation c ontrast, a s t he g old i s a h omogeneous a lloy ( Au 8 0.3%, A g 1 6.2%, C u 3 .5%). I n t wo r egions b etween t he a rms, h owever, t here i s a s older i nf i ll o f t he f ollowing c omposition: A u 7 7.6%, A g 1 3.9%, C u 8 .5%. T he s older h as a l ower m ean a tomic n umber t han t he g old t orc m etal a nd i s t herefore d arker. T he s older r egion s hows a d endritic s tructure w ith g rain o rientation c ontrast a nd c oring s uperimposed. H igher magnification o f o ne a rm w ith a s oldered r egion i s s hown i n F ig. 1 6. T he d iffusion z one b etween t he g old a nd s older i s v isible d ue t o a tomic n umber o r c ompositional c ontrast, w hile t he g rains o f t he t orc a ppear b y m eans o f g rain o rientation c ontrast, r evealing t he g rowth o f g rains a cross t he c ompositional b oundary. ( A s imilar i mage i s o btained f rom t he s pecimen c urrent s ignal, b ut t his t echnique i s n ot d iscussed i n t he p aper.) N iello o f t he t ernary m etal s ulphide t ype h as a d istinctive m icrostructure t hat s hows c learly i n B SE c ompositional i maging a nd c an b e o bserved i n s itu o n f avourable o bjects i f n o s ample c an b e t aken. T he t ernary c opper/silver/lead s ulphide n iello s hown i n F ig. 1 7 i s a n e xperimentally p repared s ample t hat s hows t he l ight d endrites o f l ead s ulphide, t he s ilver/copper s ulphide e utectic f orming t he m atrix, a nd t he d ark s treaks o f c ovellite, C uS. C eramics a nd g lass. T here i s a n e normous r ange o f a rchaeological m aterial c omposed o f s ilica-based o r m ineral t ype m atrices t hat c an b e v ery e ffectively v iewed i n p olished s ection b y c ompositional c ontrast. T hese i nclude c eramics, g lass, s lag, a nd r efractory m aterials, f aience, E gyptian b lue, n atural m inerals a nd c orrosion p roducts. V itrification a nd d iffusion z ones w ithin t hese m aterials c an b e c learly o bserved a s w ell a s t he m ineral p hases t hat a re f used i n t he m atrices. T he B SE t echniques o ften c omplement t ransmitted l ight p etrographic a nalysis o f t hin-sectioned m aterial, a nd t he s ame s amples a re n ormally e xamined i n t he S EM a fter c arbon c oating. T he m atrices a re o ften v ery c omplex, b ut c ompositional c ontrast i maging p resents t he c omponent p hases i n a c lear a nd d etailed manner. A dditionally, t he ' edge e ffects' a nd b eam p enetration e ffects a re e liminated, a long w ith t he m icro-topography t hat o ften a ccompanies t hese p olished m aterials. I t i s f ound t hat f or t he b est c ompositional i nformation t he s ample s hould b e v iewed a t a r elatively l ong w orking d istance t o e nsure t hat t he d etector i s w ell w ithin t he 4 0- c one r egion, t hereby m inimising t he ' edge e ffects' a nd maximising a tomic n umber c ontrast. L ower a ccelerating v oltage o f a round 1 5 k V l imits b eam p enetration, e nhancing r esolution. T heoretically, t here i s m ore c ontrast b etween t he p hases i n t his t ype o f matrix a t l ower a ccelerating v oltages, e ven a s l ow a s 5 k V i n s ome c ases. T he p robe c urrent ( ie s pot s ize) s hould b e l arge
3 6
F ig. 1 5. G rain o rientation c ontrast s een i n t he g old t orc s ection. S older i nf i ll i s s een i n t wo a reas b etween t he a rms o n t he r ight.
F ig. 1 6. D etail o f o ne o f t he t orc a rms s howing t he g rain o rientation c ontrast w hich r eveals f ine g rains i n t he h eavily w orked e nd r egion. C ompositional c ontrast i s s een b etween t he s older a nd g old a rm , a nd a s d endritic c oring i n t he s older.
3 7
Fig. a re
1 7. s een
T ernary i n
s ulphide
t he matrix o f
s treaks a re c ovellite,
F ig.
1 8 .
n iello. e utectic
P rimary d endrites o f l ead s ulphide c opper/silver
s ulphide.
T he b lack
C uS.
C eramic s ample s hown i n s plit i mage:S - s econdary e lectron i mage s howing g ross c harging e ffects R = s cintillator d etector
( C)
B SE i mage s howing m ixed
c omposition/topography i mage L = s olid-state d etector
( A)
c ompositional c ontrast.
3 8
B SE i mage s howing t he b est
e nough t o maximise c ontrast a nd m inimise n oise, b ut n ot l arge e nough t o a ffect r esolution. U nder t hese c onditions, c lear a nd d etailed i mages a re o btained a t b oth l ow a nd h igh m agnification i mages o f t he m ineral d istribution o f c eramics a nd o f t he v itrification s tructures a cross f urnace f ragments. F igure 1 8 s hows a t ypical p olished c eramic s ample f rom a w ell v itrified c rucible f ragment. T he m icrograph s hows t hree d ifferent i mages r ecorded s equentially b y s witching t o d ifferent d etectors. T he t op ( marked S ) i s a s econdary e lectron i mage w hich d emonstrates t he p roblems o f l ow p hase c ontrast a nd s evere c harging i n t he p orosity . T he c entre ( marked R ) i s a b ackscattered e lectron I mage u sing t he l arge s urface
a rea
s cintillator d etector
( 'C')
a bove t he s ample.
T his s hows
s ome i mprovement i n a tomic n umber c ontrast, b ut t opography i s a n oticeable f eature, d ue t o t he o dd d etector g eometry d iscussed a bove. T he b ottom ( marked L ) i s t aken u sing t he s mall a nnular s olid-state d etector ( 'A ') m ounted d irectly a bove t he s ample o n t he f inal l ens o f t he S EM. I t i s i deally p laced, b eing b oth s ymmetrically a round, a nd v ery c lose t o t he e lectron a xis. N ote b oth t he d ramatic i ncrease i n t he c ompositional
i nformation b etween
t he q uartz g rains a nd t he g lassy
m atrix, a nd t he v ery f ine a nd s ubtle i nformation w hich i s s een w ithin t he g lassy m atrix. A r ound g lobule o f i ron s ulphide i s v isible a s a s mall w hite b lob o n t he l eft. A lso, a s ubtle g radation i s s een i n t he g lassy matrix f rom s lightly l ighter o n t he l eft t o s lightly d arker o n t he r ight d ue t o t he p resence o f a h igher 1 (20 c oncentration o n t he l eft. I n t he l ower i mage ( L) t here i s n o t opographic i nformation o r ' edge e ffects', b ut r ather j ust a c lean p resentation o f t he s tructure. F igures 1 9 a nd 2 0 a re l ow m agnification m icrographs o f t he s ection t hrough a f urnace l ining, f rom R io T into i n S pain, t aken u sing t he s olid-state d etector ( 'B') a t 1 3 mm a bove t he s ample t o g ive i ncreased s ignal a nd l ow n oise, c ompared t o t he s maller d etector ' A ' a t l onger w orking d istance. F igure 1 9 s hows t he f ine s tructure o f t he l ow-fired o uter s urface o f t he w all w ith q uartz a nd c rushed s lag u sed a s g rog. F igure 2 0 s hows t he h ighly v itrified i nner s urface o f t he w all o f t he f urnace, d iffusion z ones o f g lassy m aterial, a nd l ead-rich g lass h aving b een i ncorporated i nto t he p urface l ayers. T his c ompositional c ontrast t echnique i s n ow u sed b y u s a lmost e xclusively t o i mage p olished s ections o f c eramics a nd g lassy m aterials i n t he S EM . O ther
m aterials.
S ilicone
r ubber
m oulds
t aken
f rom
t he
s urface
o f
a ntiquities t o d emonstrate t ooling c an b e e ffectively i maged b y B SE m ethods. T he m ould s hown i n F ig. 2 1 i s t aken f rom a d rilled e dge o n a c ast b ronze f igure o n o ne o f t he b ronze B asse-Yutz f lagons i n t he B ritish M useum a nd w as c ompared w ith s imilar m oulds f rom t he s econd f lagon. I t i s i maged b y t he r etracted s cintillator d etector ' C ' w hich g ives h igh r elief c ontrast t o t he g old-coated m ould. T his i s c ompared t o F ig. 2 2, s howing t he s ame s ample v iewed w ith t he s plit s olid-state d etector ' A ' a bove t he s ample a nd s witched t o t he t opography m ode. T he f ormer l atter. i n t he 2 2. A i n t he
g ives a f ar m ore ' real' i mage w ith m uch b etter d etail t han t he F or e xample, t he l ow p rofile t urning l ines o n t he s ample s tub u pper l eft h and c orner o f F ig. 2 1 a re t otally m issing i n F ig. s econdary e lectron i mage b y c omparison a lso s hows l ack o f d etail l ow-profile s cored l ines o n t he m ould.
3 9
F ig. 1 9. F urnace w all s howing v ery f ine d etail c ompositional c ontrast o f t he l ow-fired c eramic, a t l ow m agnification.
F ig.
2 0.
H igh-fired r egion o f t he f urnace w all s howing d iffusion z ones
i n t he g lassy m atrix a nd i ntrusions o f l ead-rich g lass.
4 0
F ig. 2 1. T opographic i mage o f a g old c oated s ilicone r ubber m ould t aken w ith t he r etracted s cintillator d etector, s howing h igh r elief c ontrast w ith g ood d etail.
F ig. 2 2. T opographic i mage o f t he s ilicone r ubber m ould t aken w ith t he s olid-state d etector a bove t he s ample. N ote t he l oss o f f ine d etail.
4 1
C harcoal o r w ood s ections c an s ometimes b e d ifficult t o e xamine i f s pecimen c harging o ccurs w ithin t he v essels. B SE i maging f rom d irectly a bove t he s ample i n t he c omposition m ode s uppresses c harging a nd e ffectively b lacks o ut t he v essel p ores, l eaving a c lear a nd d etailed s ection. T his g ives a ' drawing' q uality t o t he s ection a nd e mphasizes t he v essel s ize d istribution t hat f orms t he s equence o f s pring a nd s ummer g rowth a nd w inter
d ormancy .
F igure 2 3 s hows a f racture s ection
t hrough a p iece o f h earth c harcoal f rom a '4 C s ample. T he r oughness o f t he c arbon-coated f racture s ection i s b eneficially f lattened i n t his c omposition m ode i mage. T he n egative f orm o f t he i mage m ay b e p referred a nd i s s hown i n F ig. 2 4.
C onclusions A tomic n umber o r c omposition c ontrast i maging i s n ow a r outine p ractice f or e xamining p olished s ections o f a ll t ypes o f m aterial. I ndeed, i t i s o ften t he s ole t echnique u sed. T he b asic r ules r egarding t he g eometry o f t he d etector w ith r espect t o t he s ample, B SE y ield w ith r espect t o p robe c urrent, a nd t he e ffects o f t he a ccelerating v oltage o n t he r esulting i mage o f t he s ample a re s traightforward. B earing t hese r ules i n m ind, t he S EM may b e i n a l ess t han i deal c ondition f or B SE i maging w ith t he f ixed parameters d ictated b y E DX a nalysis. T herefore, f or b est r esults, B SE i maging n eeds t o b e d ecoupled f rom m icroanalysis, a lthough c ompromise c onditions c an b e s atisfactory, particularly w hen t he t ype o f m aterial u nder e xamination i s k nown. W ith u nknown s amples i t i s b est t o i nitially u se l arger probe c urrents ( than f or E DX a nalysis), a l ong w orking d istance a nd, w hen p ossible, f ast s can r ates f or g eneral c ontrasts m ore o bvious. T his a dvantage o ver B SE
i nformation s econdary
' slow-scan o nly'
t opographic
archaeology
s urvey w ork t o m ake t he c ompositional i s w here ' TV' r ate d etectors h ave a r eal
t han c an
b e
e lectron
t he
i maging
d etectors. i s
s econdary
p erhaps e lectron
o btained b y t his m eans. i maging/ t he
t raditional
l ess m ode,
g enerally b ut
u sed
m uch
F rom o ur v iewpoint s taple
d iet o f
i n
u seful i t
S EMs,
i s
t hat
i s n ow o ut o f f ashion. O ne o f t he r emarkable t hings a bout t he c ompositional c ontrast t echnique i s t hat i t i s s o c omplementary t o o ptical m icroscopy. A part f rom c arbon c oating f or t he S EM, s ample p reparation i s e ssentially t he s ame f or b oth t ypes o f e xamination. T he h igh q uality p olished s pecimens r equired f or l ight m icroscopy a re i deal f or c ompositional i maging i n t he S EM. U se o f t he c ompositional c ontrast t echnique h as r evolutionised o ur c apability f or s tudying a rchaeological m aterial.
Acknowledgements T he f ollowing R esearch L aboratory s taff a re t hanked f or t heir c ontributions t o t his p aper: D r. M .S. T ite f or u seful c omments, S usan L a N iece f or p roviding F igures 1 0 a nd 1 1, a nd T ony M ilton f or p rinting t he m icrographs. T he s cintillator d etector u sed i s m anufactured b y C ambridge T echnology, a nd t he s olid-state d etectors u sed a re J EOL p roduction-standard d evices.
4 2
e
. 4 . . .• .. . .zr i wr •3 • •iv • , . : % . 12 141. , h t e ete tiefe l , 14 ,y » . ; ; :• :. . : r . ; • i i •:• ' . . . '7 . •. "* : . ; '« ' . . ; «' ; "
r 3 : 4 , ;; . , s . ; . .4• . . , , rt vi . , : . .› , y e e t . A . A .,' i . e . .‚ ` 7 ‚ 1 b ,.* .
2 c.
% i t 'e ‘& , : y
I x
. 4 4 . z . . f r
•
;
o i t A x y ,1 . 1 . 10 , : 2 . ,. . . , .. i f r
41 34
t z :
fe Z‘i
e t24). : A ssi •
iv e l l t> ' e *. • * ;; . ft:;
.•
5 4 :
• • -• 4f1 -04 • •
t i rje . 1 4 3 , . b e
' .i . * , r; : . ' ;' . .i ' ; • : : , .
.i t ikr e fer ie
.
h
•e •
4N it tee
..
. .
K
› •• . .2 4 . *• : , . ‘ , . . . ..•, , .• .• •' . ! . . ,' ,i : . •t • zu . e. %. .e t " ; K . :. • s te i l ik z t . 4 . 4 1 tr ,e ; i : : 4 , •. • • • .: 99 : j * I . h . f te a l * ' . : 4 ( • • i f e • I t . e ; • e • : • d e : b e e . . . ; . :, 43 . :t ; s . ,„ , ef i . , . , A . ..4, -?rtf b i4 r ? ; :
*N
*A P ' .
4 44 7
,
0 4 el , g u t . .e g e • 4. 2. „ letv e , « . . ` p, i
‘ii i
r a . .te •I r k t . g e
. #f
e u f b
%
i
i > al t
t -
1 .3 . 1 .44 ,. i . *2
4.
4
e
. .
f
., ' . .• • . :o r' F .: s e .:,5 : . , ; • : i i . 4 , 4 : / : . ; • .4. : . 4 1 , . , ., • . ,4 " . , ,. . . . . . i • l › . . . % : . , • : • • • : . 1 . i . • : ;• . • :d r . „ i t e e * . r4I P .• d o b ' * • ' ` . " J . t . .42 t ne i * * > . . • .eZ vi l i e* * b .. * 1 4 ,4 1 , ,g , : t : e r .3g t e # , * 2 d ` e a 4 '. ‚ f' . •. c r i -e •/ n i b .7 0• 4
%, A ,
• ,
,,
S
I I*
4
• e. i
,•;.
. r . . . ,
, j;:e ;4 . :
e
4
l
:
I • i•
: .• . .
I N
"
.
d ibe
"A
I
1 71
4
•. L i o ,
• 4 #
• $ • * , : • :• k * 4 1 .4 4 ,
v ..12 b i
F ig. 2 3. F racture s ection o f a c harcoal s ample v iewed w ith t he s olids tate d etector i n t he c omposition m ode. N ote h ow t he u neven f racture s ection i s a pparently f lattened. T he a nnual g rowth r ings a re c learly s een a t l ow magnification, i n t he h orizontal d irection, w hile m edullary r ays a re t he v ertical w hite l ines o n t he m icrograph.
F ig.
2 4.
N egative i mage o f t he c harcoal s ample.
4 3
t he
References G oldstein,
J .I.
e t
a l.
M icroanalysis.
L ondon:
H all,
L loyd,
M .G.
a nd
1 981.
S canning
E lectron M icroscopy a nd X -Ray
P lenum P ress. G .E.
1 981.
T he
S EM
e xamination
o f
g eological
s amples w ith a s emiconductor backscattered e lectron d etector. M ineralogist 6 6: J EOL,
1 980.
s ystem . J oy,
B ackscattered e lectron
J EOL N ews
D .C.
S canning
1 973.
1 8e:
1 :
D .E.
t he
1 974. S EM
S ystems 1 8:
T he
c ontrast.
7 th Annual
a nd e lectron optics
c ontrol
C rystallographic e ffects f rom i mperfect c rystals.
o f P hysics C onference S eries
c hannelling
i mage
1 5-18.
E lectron M icroscopy:
N ewbury,
American
3 62-368.
I n
I n
T he I nstitute
2 88-293.
o rigin,
S canning
S ymposium,
a nd Applications.
pp.
d etection
a nd
u ses
E lectron M icroscopy, 1 048-1057.
o f
e lectron
P roceedings o f
I IT R esearch
I nstitute,
Analysis.
C ambridge:
C hicago. R eed,
S .J.B.
1 975.
E lectron
Microprobe
C ambridge U niversity P ress. S chur,
K .,
B laschke,
R .
a nd P fefferkorn,
G .
1 974.
I mproved c onditions
f or b ackscattered e lectron S EM micrographs o f polished s ections u sing a modified
s cintillator
P roceedings
o f
t he
R esearch I nstitute, W ells,
O .C.
1 974.
d etector.
7 th
Annual
I n S EM
S canning S ymposium,
E lectron pp.
M icroscopy,
1 004-1010.
I IT
C hicago. S canning
E lectron
M icroscopy.
N ew York:
M cGraw
H ill. White,
S .H.,
S haw,
H .F.
a nd
H uggett,
J .M.
1 984.
T he
u se
o f
backscattered e lectron i maging f or t he petrographic s tudy o f s andstones a nd s hales. J ournal o f S edimentary P etrology 5 4: 2 : 4 87-494.
P ART I :
ARCHAEOMETALLURGY
4 5
S EM A ND M ICROPROBE ANALYSIS: D avid A .
C OMPLEMENTARY METHODS OF I NVESTIGATION
S cott
I ntroduction S canning e lectron m icroscopy, e specially w ith e nergy d ispersive a nalysis f acilities, r epresents o ne o f t he m ost u seful t echniques f or t he v isual e xamination o f a ncient m etallic s pecimens. A t t he p resent t ime, s ome s canning e lectron m icroscopes a re a vailable w ith s ample c hambers s ufficiently l arge t o e nable c omplete o bjects s uch a s h and g uns o r f ragments o f v ery l arge o bjects t o b e a ccommodated. F or c arrying o ut c ompletely n on-destructive a nalysis o f t he u nprepared s urface o f m etallic a rtefacts, t his f acility i s e xtremely u seful. T he k ind o f s amples, o n t he o ther h and, w hich c an u sefully b e e xamined b y e lectron p robe m icroanalysis, o r e lectron m icroprobe a nalysis ( EPMA) a s i t i s o therwise k nown, a re m ore l imited i n s cope a nd s ize. T he i deal s ample f or E PMA s tudy i s a p olished s ection w hich c an b e c oated w ith a t hin f ilm o f c arbon. C arbon c oating i s u sually n ecessary i n E PMA a nalysis b ecause h igh a ccelerating v oltages a re u sed i n o rder t o o btain s ufficient x -ray e mission t o g ive g ood a nalytical d ata. T he a ccelerating v oltages m ay b e t ypically 2 0kv o r 3 0kv. T he f unction o f t he t wo m ethods o f a nalysis a re e ssentially d ifferent: t he S EM i s p rimarily d esigned a s a n i maging m achine w ith a nalytical f acilities o f s econdary i mportance w hilst w ith E PMA, a nalysis t akes p riority o ver i maging. W ith m odern E PMA m achines, s uch a s t he J EOL S uperprobe 7 33, t he q uality o f t he i mage o btained m ay, n onetheless, b e e xtremely g ood, a lthough t he d egree o f s pecimen m ovement i n t he c hamber i s u sually more r estricted t han t hat w hich t he S EM p ermits. O lder E PMA m achines o nly a llow t he p olished s ample t o b e m oved i n i ts p osition r elative t o t he e lectron b eam b ackwards a nd f orwards o r u p a nd d own w hilst r etaining t he s ame g eometrical p osition a s f ar a s t he b eam i s c oncerned. L imited s ample s ize a nd m ovement, c ombined w ith a n e mphasis o n a nalysis h as m eant t hat t he e lectron m icroprobe h as n ot r eceived p articularly w idespread a ttention. T his i s c ompounded b y t he p rice o f t he i nstrument w hich, a t 1 986 p rices, m ay c ost $ 400,000. E PMA h as f ound m ost f avour w ith g eologists a nd m etallurgists a nd i s l ess s uitable f or o rganic m aterials w hich m ay b e d amaged b y t he b eam, e ven i f c arbon c oated . A w ide r ange o f a ncient m aterials m ay h owever b e e xamined b y E PMA, s uch a s c eramics, s lag, m etallurgical w aste p roducts, r ock a nd m ineral s amples, c orrosion p roducts, c ore m aterials a s w ell a s m etallic a rtefacts t hemselves. a nalysis o ften s tart a s r eflected l ight o ptical c arefully i n i nterest c an
I nvestigations t o b e f ollowed u p b y E PMA t hin s ections, o r a s p olished s ections f or m icroscopy. H aving e xamined t he m aterial
r eflected l ight m icroscopy m ode, b e o btained b y E PMA . T here a re
a nalyses o f a reas o f u sually t he f ollowing
f acilities o n t he E PMA i nstrument: ( 1) ( 2) ( 3)
e nergy d ispersive a nalysis. c rystal s pectrometers f or w avelength a nalysis. l ine s canning a cross t he s pecimen s urface u sing e ither w avelength o r e nergy d ispersive m odes.
4 7
e lemental m apping o f s elected a reas o f t he s pecimen u sing e ither w avelength o r e nergy d ispersive m odes. a nalysis p rogrammes w hich p rovide p rint-outs i n t erms o f o xides b ased o n f ixed r atios b etween t he e lements s ought a nd o xygen. s torage o f e lemental s tandard d ata w ith r eference t o c obalt. b ack-scattered a nd s econdary e lectron i maging: i n m ore r ecent m achines t his m ay b e q uite s atisfactory f or o btaining g ood i mages, E lements d ifficult t o
a lthough t he S EM i s g enerally s uperior.
b elow a nalyse
s odium i n t he p eriodic t able a re g enerally b y E PMA, b ut u sing c rystal s pectrometers e ven
o xygen m ay n ow b e a nalysed w ith s ome c onfidence. I t i s s tandard f or m any m etallic e lements t o b e p rofiled a nd t he i nformation s tored f or f uture a nalyses b y r eference t o a c obalt s tandard w hich i s c arbon c oated a t t he s ame t ime a s t he s pecimens f or s tudy a re c oated . W ithout c oating, e ven v ery c onductive s amples m ay b uild u p a s urface c harge, e specially w hen t hey a re m ounted a nd p olished i n a r esin m ount, a s m ost a rchaeological s amples a re. A d ab o r s treak o f s ilver p aint t ouching b oth t he s pecimen h older a nd s pecimen m ay a lso b e n ecessary, a lthough s ome c are m ust b e t aken t hat t his d oes n ot m ask o ff a reas o f i nterest i n t he s ample. T he E PMA i s e quipped w ith g ood o ptical m icroscopes w hich a llows v isual c ontact w ith t he c oated s ample. 'T his i s m ost n ecessary, p articularly w here s elected a reas o f
i nclusions,
c orrosion p roducts,
o r s urface f eatures a re t o b e
e xamined. C arbon c oating a ffects t he v isual c ontrast b etween a reas o f t he s pecimen w hich m ay b e o f d ifferent c omposition, s o i t i s t herefore i mportant t hat t he c arbon c oating i s n ot e xcessively t hick . I t i s a lso i mportant t hat t he a rea s elected b y o ptical e xamination i s c entred e xactly f or t he p osition o f t he e lectron b eam, o therwise w hen t he s ample i s p resented t o t he b eam t he a rea a nalysed i s n ot t he s ame a s t hat s elected o ptically. S pot a nalyses may n ow b e c omputer d riven, a s m ay b e t he w avelength s pectrometers w hich w ere f ormerly r ather t imec onsuming t o u se. N either t he S EM o r E PMA p rovide t he p erfect s olution t o t he p roblems o f i nclusion c haracterisation i n a rchaeological m aterial. I f t he i nclusion o r f eature i s o nly s ome 2 -3 m icrons a cross t hen i t i s v ery d ifficult t o e xclude m atrix e xcitation a s w ell. A n e xample o f t his p roblem i s s een w hen a ttempting t o i dentify t he p recipitation o f A gAu r ich p hases i n g old-copper-silver a lloys w hich a re j ust b eginning t o s how s igns o f t wo p hase c omposition. T he s hape a nd s ize o f t hin p lates o r p articles, e specially w hen t hey d iffer o nly s lightly f rom t he m atrix c omposition m ake t hem v ery d ifficult t o a nalyse. L arger i nclusions, m easuring p erhaps 1 0 m icrons a cross p resent l ess t rouble. A s a n e xample, l et u s l ook a t t he n ature o f t he m ineral i nclusions i n a p lacer
g old
t ributary C olombia.
8 5.1%
o f
A nalysis C u: n d
n ugget t he
f rom R io
t he
a rea
M agdalena
o f o n
t he t he
R io
d e
l a
M iel,
a w estern
C aldas-Antioquia
b order,
o f t he g old m atrix b y E PMA g ave t he f ollowing d ata: A u: A g: 1 1.7 F e: n d P t: n d T otal: 9 6.8%. W ith t he E PMA,
s pot a nd l ine s cans f or g old a nd s ilver c an b e c arried o ut t o s ee i f a ny e lemental v ariation o ccurs w ithin t he g old m atrix; h ere t he p lacer
4 8
n ugget w ithin
w as
f airly
t he
g old
u niform
w ere
s amarium,
g adolinium
m onazite,
a nd
f ound a nd
a s pecial
E PMA c ould b e
u sed
t o
i n
c omposition.
p hosphorus. a nalysis
o btain
T he
E PMA
b ecause
i s
t he
q uantitative
u seful
c asting
material
c arbonised p lant e xample
l ess
w ith
o f
m aterial o f
m ineral
f or
may
w hich t his
i nclusions
c erium,
i nclusions o perating
n eodymium,
a re a t
i nformation.
t herefore
3 0kv T he
o n
t he
p rint-out
1 . t he
r emains,
i tself
material
T he
p rogramme
f rom t his a nalysis i s g iven i n T able
a ssociated
T he
t o b e r ich i n l anthanum,
s tudy
o f
i nclusions
a s
c ore
m aterial.
T his
i s
c omponents,
s uch
a s
s uch c ontain
i s
n ot
k ind
o rganic
w ell
i s
s uited
g iven
i n
w hich
t o E PMA
F igure
a re
s tudy.
A n
T he
S EM
1 .
s econdary e lectron i mages a re f rom a f ragment o f c ore m aterial c omposed o f b y
c lay a nd c harcoal. T he o bject i tself was a d ebased g old a lloy c ast t he l ost-wax p rocess: a T airona n ecklace p iece f rom t he S ierra
N evada
d e
S anta
i nteresting s een
a
M arta
d etail
f ragment o f
w ithout
r eference
p ercentage
t he
p its,
m aterial
o f
C olombia.
c omposition; c ell
o f
a nalysis,
c arbon present
i n
S EM
e mployed
t he material,
r ecognisable
h ardwoods,
c annot b e
t aken
h ere
r eveals
l a a nd b c an b e
c ontaining
t ropical
i dentification
T he
i n F igures
s tructure
t ypical
Microchemical o f
North
c ore
a woody
v estured
p resent.
i n
t he
o f
r emains a t
o f
t o
a lthough
a ny
f urther
d etermine
g ave a r esult o f
t he
1 9.66%,
f airly t ypical f or s ome o f t hese l ost-wax c asting c ores. T he c an
b e
s tudy
e xamination e lemental p ipe
o f
c arried
f rom
c orrosion
o ut
may
b e
m apping t he
i n v ery
o f
b e
g rains
t he
material
t he
d epressed c orrosion
has
b een
s een
a reas t he
s lightly
distribution ( composition
i n
the
e xample
m etallic
E PMA :
o f
t he
o f
D epartment
2 .
C orrosion
b oth E PMA
f ragments
m ethods r esults
o f f or
a d ebased g old pano f
h as
N arino, l eft
S outhern
s ome
o f
t he
i mage
s hown
i n
F igure
2 a.
A s a r esult
t owards t he s urface r egion o f t his p iece n ote
a lso
t he
i n
t his
g old-copper-silver
silver
2 5.9%
t he
i n a s ea o f c orrosion c orresponding t o
e nhanced;
of
a bout
B SE
c ontent
c orroded
c ross-section
F igure
t he
a nd
P upiales,
i solated
i n
g old
o f
a nd
S EM An
a polished
c an
o f
t he
u seful.
Municipio
C olombia, o f
p roducts
both
g old;
6 2.4%
c opper
s lightly
a nd
4 .0%
s egregated
s ilver
a lloy
b y
E PMA
a nalysis). A f urther e xample o f t he u se o f t he E PMA f or t he s tudy o f c orroded m etallic m aterials i s g iven i n F igures 3 a nd 4 . F igure 3 s hows a s ketch o f a c ross-section o f a b ronze r od f rom I ran ( Scott, 1 985). a cross t his
F igure t he
k ind,
4 s hows
c orroded
t he
r od.
s lowly ' h aving
c opper T he
t he
a nd
t in
i nformation
d istributions r evealed
b y
a s l ine
t hey vary s cans
s pecimen a cross t he p ath o f t he b eam,
o f c an
b e e xtremely u seful i n a ttempting t o i nvestigate s urface c omposition o f g ilded
o r
s ilvered
c orrosion e ffects.
o r
t inned
s urfaces,
o r
f or
i nvestigation
o f
I n F igure 4 c an b e s een a n umber o f d ifferent z ones
o f s tructure o f t he r od w hich c an b e d escribed b riefly a s f ollows: Z one
1 :
bronze m etal
g rains c ontaining a bout 9 .5% t in g rading
i nto a r egion o f c orroded metallic g rain r emnants. Z one 2 : Z one
3 :
a r egion o f massive t in p recipitation. c ompact
c uprite
l ayers
i nterspersed w ith s ome t in
precipitation. Z one 4 : Z one
5 :
t he o riginal s urface o f t he r od. t he
o uter
c orrosion c rust w hich o nly c ontains v ery s mall
t races o f t in.
4 9
Table 1 .
Monazite I nclusions
A t ypical
EPMA print-out
Cambridge
Mark
U niversity a pparent A fter
ZAF
5
f or
t he
c orrections
t he
a nalyses
c arried
a re have
T he s hown
been
f it
i n
f igures out
of a re by
t he
t he f or
t he
f irst
part
o f
applied,
quoted EPMA
t o
are
a nd
a n
oxygen
concerned
t hree
r eally
c arried
Dept.
i ndex
t he
e lement
f rom Colombia
a nalysis
a t
t hen t he quantitative print-out
percentage
Although
a quantitative
Microanalyser
London.
c oncentration
monazite a ssigned,
f or
X -Ray
C ollege,
i n P lacer Gold N ugget
d ecimal only
of
out
data the
and
content
f or
places,
a ccurate
to
t o t he
t he
results one
CONC.
ERROR
LA
7 .820
C E
2 2.300
0 .256
P R
2 .655
0 .256
( WT.
% )
0 .190
ND
1 4.486
0 .199
S M
2 .169
0 .157
EU
0 .384
0 .176
GD
0 .796
0 .138
DY
0 .047
0 .114
P
1 2.951
0 .056
CA
0 .083
0 .024
FE
0 .046
0 .054
2 S IGMA
MN
0 .032
0 .089
2 S IGMA
T I
0 .013
0 .045
2 S IGMA
2 S IGMA
NUMBER OF OXYGEN ATOMS - 1 ( 1 2 3 ZAF) 3 0.00 KV
T ILT=0.00
S PECTRUM:
1 037.A4
ELEVATION=75.00
AZIMUTH=0.00
COSINE-0.00
LAST ELEMENT BY S TOICHIOMETRY ELMT
Z AF
% ELMT
%OXIDE
FORMULA
LA
0 .901
C E
0 .945
8 .691
1 0.193
0 .039
2 3.710
2 7.771
0 .107 0 .013
P R
0 .946
2 .807
3 .285
ND
0 .942
1 5.419
1 7.984
0 .067
S M
0 .924
2 .347
2 .722
0 .010
E U
0 .903
0 .426
0 .493
0 .002
GD
0 .774
1 .029
1 .187
0 .004
DY
0 .865
0 .055
0 .063
0 .000
P
1 .041
1 2.477
2 8.593
0 .254
CA
1 .129
0 .074
0 .103
0 .001
FE
0 .942
0 .049
0 .062
0 .001
MN
0 .942
0 .000
0 .000
0 .000
T I
1 .002
0 .000
0 .000
0 .000
O
0 .303
2 5.372
0 .000
1 .000
9 2.456
9 2.456
TOTAL
5 0
f or
decimal
F IT I NDEX = 2 .86 APP.
both
oxide.
place.
ELMT
t he
print-out.
i s g iven below, and
on a
Geology,
F ig. 1 . S EM s econdary e lectron i mages o f a f ragment o f c asting c ore f rom a T airona n ecklace b ead. a . L ow m agnification v iew s howing e xtensive r emains o f c arbonised p lant m aterial u sed i n t he f abrication o f t he c ore b efore t he w ax w as a pplied f or m odelling o f t he s hape. S cale = 3 0 m icrons.
b .
H igh m agnification v iew o f t he p its e vident i n
t he l arge w ood s tructure o f F igure l a. T he p its i n t he w ood h ere c an b e s een t o b e v estured, t ypical o f t ropical h ardwoods. S tudies s uch a s t his c an p rovide i mportant c lues t o m anufacturing t echnique a nd l ocal p references m icrons.
i n
t he
f abrication o f
l ost
5 1
w ax c asting
c ores.
S cale - 3 0
F ig.
2 .
E lemental
m aps
d ebased g old p an-pipe e lectron v iew s howing o ccurring a s i solated s howing
s ome
f or
g old,
c opper
a nd
s ilver
a cross p art o f
a
f rom N ar Ao, C olombia. a . B ack-scattered s urface t opography w ith s ound m etal g rains e levated a reas. b . E lemental m ap f or g old
e nrichment
t owards
t he
o uter
s urface
a s
a r esult
o f
c orrosion. N ote t he u ncorroded m etal g rains a ppear l ess r ich i n g old, b ecause h ere c opper h as n ot b een l ost. c . E lemental m ap f or c opper, s howing t hin l ayer o f c opper r ich c orrosion t o t he o uter s urface a nd s everal w ell-preserved m etal g rains i n t he c orroded m aterial w hich c orrespond t o t he e levated r egions s hown i n F igure 3 . 2 d. E lemental m ap f or s ilver s howing s ome s egregation i n t he c orroded m atrix. T he m atrix i tself i s n ow m ostly c uprite c ontaining b oth g old a nd s ilver. T he s ilver i s c orroded h ere t o s ilver c hloride.
5 2
F ig. 3 . S ketch o f t he c ross-section o f o bject A l 8 62, t he b ronze r od f ragment f rom I ran, s howing t he l ocation o f t he e lectron m icroprobe l ine s can f or c opper a nd t in: a . b ronze m etal g rains c ontaining 9 .5% t in, b . c ompact l ayers w hich a re p rincipally c uprite a nd t in o xide i n s egregated a reas, h igh C a c ontent
c .
o riginal s urface o f t he o bject,
( soil m ineral i nclusions),
e .
d .
s ome r egions o f
o nly t race a mounts o f t in
i n t he o uter c orrosion c rust, f . o uter a reas c ontain F e a nd C u i mmediately a djacent t o t he s urface.
s ome
S n,
C l,
C a,
COPPER T IN
ZONE 5
Z ONE 4
ZONE 3
Z ONE 2
ZONE 1
F ig. 4 . S ketch s howing t he p rincipal z ones t o b e f ound i n t he c rosss ection o f o bject A l 8 62. T he n ature o f t he d ifferent r egions i s e xplained i n t he t ext. - c opper, -- - - - t in.
5 3
T he o ther e lements m entioned i n F igure 3 w ere a lso d etermined by E PMA a nalysis u sing i ndividual s pot d eterminations i n d ifferent r egions. D espite f or
d ifficulties
w ith
c haracterisation
o f
s pot
t he
a nalyses,
c omposition
t hese o f
a re o ften v ery u seful
t he o riginal m etal b efore
c orrosion, s imply by a nalysis o f u ncorroded metallic g rains, a nd i t i s a lso t he m ost c ommonly u sed t echnique f or t he s tudy o f r ocks a nd m inerals products.
i n
T hese
t hin
b rief
s ection,
e xamples
a s
s how
w ell
s ome
a s
o f
a rchaeometallurgical
t he
l imitations
waste
a nd a dvantages
o f E PMA a nalysis: f or f urther d etails c oncerning t he t echnique t he r eader i s r eferred t o t he v ery r eadable a ccount provided by L ong ( 1977) a lthough
i t
s hould b e
b orne
i n mind
t hat
t he
s cope
a nd s ophistication
o f t he probes c urrently a vailable a re f ar i n a dvance o f t hat d escribed.
References C ope, f or
L .H.
a nd Warren,
d etermining
C hemical 2 49.
a nd
R .
H allerman,
Metallurgical
G .
a nd
o f
L ong,
J .V.P.
1 977.
L ondon:
A cademic P ress. D .
P roceedings 4 11-429.
T ite,
M .S.
M ethods
1 973. o f
t he
1 972.
S cott,
D .A .
1 985.
1 969. t he
a nd G .
N ew York:
i n
I n M ethods o f
C oinage,
probe
Metallurgical
T he
precision Marton
8 ,
pp.
i nfluence o f
( eds.),
2 37-
L ondon. of
t he
e lectron
probe
E lectron
P robe
A cademic P ress. m icroanalysis.
D eterminative
8 th National
N ew Orleans:
L ondon a nd N ew Y ork:
on
E lectron
P hysical
O 'Boyle,
M .L.
T onsimis
1 97-225.
( ed.),
c oins.
S pecial P ublication No.
s pecimens
I n A .J.
M icroanalysis, pp.
a ncient
I nvestigation o f Ancient
P icklesimer,
metal
m icroanalysis.
C omparison o f EPMA w ith o ther methods
c omposition o f
Royal Numismatic S ociety:
preparation
pp.
1 972.
t he bulk
I n
Mineralogy,
a pplications
o f
J .
2 nd
Z ussman e dition.
t he m icroprobe.
I n
Conference o n E lectron P robe Analysis,
E lectron P robe Analysis S ociety o f America.
M ethods
o f
P hysical
Examination
i n
Archaeology.
S eminar P ress. P eriodic c orrosion phenomena i n b ronze a ntiquities.
S tudies i n C onservation 3 0:
4 9-57.
5 4
M ETALWORKING T OOLS A ND W ORKSHOP P RACTICES: METAL S URFACES VIA S ILICONE R UBBER MOULDS
I NTERPRETATION
O F WORKED
Dana E . G oodburn-Brown
I ntroduction
w hich
T his i s
p aper f ocuses o n t he r ecovery o f t echnological i nformation s tored o n t he s urfaces o f m etal a rtefacts. I t i s a n on-
d estructive t echnique o f a nalysis, w hereby a s ilicone r ubber m ould ( Dow C orning S ilastic 9 161) i s t aken f rom t he s urface o f a n a rtefact t o b e s tudied. I t i s t his m ould, r ather t han t he a rtefact i tself, w hich i s then s ectioned and manipulated u nder t he m icroscope. T he m agnifications u tilized s pan a r ange f rom x 20 - x 1000 a nd a re d ependent o n t he l evel o f q uestion b eing a sked a bout t he s urface t exture. T he m etalworking t ools, t ype o f m aterials b eing u sed i n t he w orkshop, a nd e ven w rought a nd a nnealing p rocesses u sed i n t he p roduction o f a n a rtefact m ay b e e xamined. T he t erm ' workshop ' h ere r elates t o t he hypothetical surroundings o f a m etalworker d uring f abrication p rocesses, a nd s pecifically r efers t o t he e ntire c ollection o f t ools a nd m aterials i nvolved i n t he p rocess o f manufacture.
T oolmarks T he f irst l evel o f i nterpretation i s c oncerned w ith t ool m arks; t hat i s, t he i dentification o f t ool t ype a nd u ltimately t he r ecognition o f i ndividual m arks o r " signatures". T ool t ypes may b e d istinguished b y t he m anner i n w hich t hey a re u sed i n m anufacture; f or e xample, a S CRIBER i s
o ften u sed a s a p encil,
i ts
s harp p oint b reaks t hrough t he
m etal s urface a nd l eaves a c haracteristic b urr. A T RACER i s u sed w ith a h ammer a nd d epresses m etal; w hereas a G RAVER i s h and-held a nd a ctually c uts a way m etal f rom i ts path. A P UNCH a lso d epresses m etalb ut i t i s a pplied w ith a s ingle b low, w hereas a t racer i s h ammered a long i n s uccession i n o rder t o c reate l inear d ecoration. B y e xamining t he c haracteristics o f a t oolmark, t he t ype o f t ool u sed t o c reate t he m ark m ay b e d etermined. T his k ind o f s tudy i s b est c arried o ut i ndirectly, v ia s ilicone r ubber m oulds o f a rtefacts' w orked s urfaces. A side f rom t he r ecording o f f ine d etail, t he u se o f a s ilicone r ubber m ould i n t his w ork h as t wo major a dvantages. F irstly, i t f acilitates a n e xtensive t echnological e xamination o f a n a rtefact, t aking p lace q uite r emoved f rom t he a rtefact i tself; a nd s econdly, i t r eproduces a r aised i mage o f t he t oolmark, r ather t han t he r ecessed f eature w hich i s o bserved w hen e xamining a n a rtefact f irst-hand. T he v alue o f t echnological r esearch c arried o ut o n s ilicone r ubber m oulds i s a ttested t o b y t he w orks o f L arsen ( 1985), S horer ( 1984), L owery, S avage a nd W ilkins ( 1971). S tated s uccinctly: " indirect e xamination, s ince i t p resents t he b ottom a nd s ides o f t he g roove r elief u ncamouflaged b y c olour d ifferences i n s tain o r p atina,
i n i s
a lmost a lways m ore i nformative, a nd w e w ould h esitate t o a ttribute m any t ypes o f l ine w ithout i t" ( Lowery e t a l., 1 971:176).
5 5
T ool t ypes may u sually b e d istinguished w ith t he u se o f a h and l ens ( x10) o r a n o ptical m icroscope; a lthough t he g reater r esolution a nd d epth o f f ield a vailable w ith t he S EM m ay b e r equired i n s ome c ircumstances. I t i s i n t he s earch f or i dentifying c haracteristics o f i ndividual t ools t hat t he S EM i s o f g reat v alue. S cars o r n icks o n t he f ace o f a t ool w ould l eave d etails w hich m ay b e i dentified v ia s ilicone r ubber m oulds. B enner L arsen ( 1984) s peaks o f t oolmarks a s b eing " fingerprints" o r t he " signatures" o f t he i ndividual t ools u sed. I n h is s tudy o f S candinavian I ron A ge m etalwork, u sing t he S EM a nd s ilicone r ubber m oulds, h e h as b een a ble t o v erify t hat t he s ame t ool w as u sed t o d ecorate d ifferent p ieces o f j ewelry r ecovered f rom a s ingle g rave a nd h as a lso o bserved t he u se o f a n i ndividual t ool o n o bjects r ecovered f rom m ore t han o ne g rave. I n a p reliminary s tudy w hich e xplores s ome a spects o f l ate P reC olumbian m etalworking t echniques, a n u nusual t racer t ype h as b een o bserved o n a d ecorated g old a lloy d isk f rom S outhern P eru ( Brown, 1 984). T he t ool a ppears t o h ave a b roken o r j agged e dge, a nd i t i s t his k ind o f c haracteristic d etail w hich m ay b e u sed t o v erify t he m ultiple u se o f a s ingle t ool ( Fig. 1 ). W hile t he r ecognition o f t ool t ypes i s r elatively e asy, t he i dentification o f a n i ndividual t ool's s ignature i s c omplicated b y v ariables i n t he manufacturing p rocess. F actors s uch a s t he a ngle o f a pplication, f orce o f h ammer b lows, a nd t he s harpening a nd/or w earing d own o f a t ool m ay h inder c omparative s tudies. T he b uild-up o f s urface d eposits o n a w orked p iece may a lso o bscure t he r equired l evel o f d etail f or t ool s ignature r ecognition. I t s hould b e n oted t hat m etal a rtefacts s hould b e c arefully e xamined i n o rder t o a scertain t he r esearch v alue, a s w ell a s t he c ondition, o f t he v arious s urfaces, p rior t o t aking a ny s ilicone r ubber m oulds.
S urface T exture:
( Imprints)
A nother l evel o f t echnological i nterpretation c oncerns i tself w ith t he i dentification o f s urface i mprints w hich r eflect t he f abric o f o ther m aterials u sed i n t he w orkshop. I n t he p reliminary s tudy d escribed a bove ( Brown, 1 984), a n a ttempt w as made t o d etermine t he t ype o f s urface ( e.g., a rtefacts w ere w orked.
l eather,
w ood,
s tone,
o r m etal) u pon w hich s uch
A s eries o f P eruvian g old a lloy p lume h olders a nd b eakers d epicting f aces w ith l arge p rotruding n oses, w as e xamined. I t h as b een s uggested t hat s uch i tems w ere manufactured o n w ooden f ormers ( Easby, 1 966). S ilicone r ubber m oulds w ere t aken f rom t he i nterior s urface o f t he a rtefacts a nd e xamined w ith t he S EM . T races o f w ood g rain s tructure w ere f ound t o b e p resent. A s
t he
p roduction p lume
S EM a nalysis o f
h older
t he w as
s uggests
a rtefacts, p roduced.
t hat a w ooden f ormer w as u sed i n t he
a f ormer w as
c arved a nd a n e xperimental
E xperimental w ork
s erves b oth t o
s upport
a nd a ugment o bservations o btained f rom t he o bjects t hemselves. T he s urface t exture o f t he s ilicone r ubber m ould t aken f rom t he i nterior o f t he e xperimental p lume h older s hows a c haracteristic r esemblance t o
5 6
1 5KH
F ig.
1 .
d isk,
S ilicone
2 726
r ubber mould,
1 00
t aken
O U
C RYST
f rom a P re-Columbian g old a lloy
i llustrating t oolmarks f rom a j agged e dged t racing t ool.
( Brown,
1 984).
F ig.
2 .
P air o f
P re-Columbian g old
a lloy vases
w hich h ave b een manufactured u sing a wooden f ormer
5 7
( private ( Brown,
c ollection), 1 984).
t hat o f t he t extures o n t he m oulds t aken f rom c orresponding f eatures o f t he p lume h olders a nd b eakers s tudied . E xamination u nder m agnifications g reater t han x 50 p rovides t he o nly r eliable m eans o f s urface t exture a nalysis; a lthough e ven h ere, o ne m ust b e a ware t hat t he s urface u nder o bservation r eflects t he e ntire m anufacturing p rocess, a s w ell a s c orrosion a nd p erhaps c leaning/restoration p rocesses s ubsequent t o f abrication. F or e xample, t he m etal s heet w hich w as u sed i n t his e xperimental w ork w as ' thinned' t hrough s teel r ollers b efore t he f orming p rocess w as b egun. W hen e xamining t he r esulting o verall t exture, c are h ad t o b e t aken n ot t o c onfuse t he s triations o f w ood g rain ( Fig. 3 ). w ith t he c haracteristic s triations r esulting f rom m odern ' rolled ' s heets ( Fig. 4 ).
M icrostructure T he t hird l evel o f i nterpretation d eals w ith t he m etal s tructure b y o bserving t he s urface w hich r eflects t he m etalworker's m anipulation o f t he m aterial's p hysical p roperties t hrough w rought a nd a nnealing p rocesses. D uring S EM a nalysis c arried o ut o n s ilicone r ubber m oulds o f s ome P eruvian g old a lloy a rtefacts, i t w as n oted t hat t he s ilicone r ubber w as c apable o f r eproducing t he c rystalline s tructure o f a n a rtefact's s urface. P referential c orrosion a t t he g rain b oundaries h ad o ccurred; c onsequently, t he s ilicone r ubber p icked u p t his m icrocrystalline c hange i n ' texture' ( Fig. 5 ). I n r esponse t o t his o bservation, a n a nalysis o f t he e tched s urface o f a n e xperimental a xe w as u ndertaken, i n c ollaboration w ith P eter S horer, a c onservation t echnologist w orking i n L ondon. S horer p rovided a s ilicone r ubber m ould t aken f rom t he s urface o f a c ast 5 t in-bronze a xe, w hich h e h ad h ammered a nd a nnealed 5 t imes ( working f rom t he c utting e dge t owards t he h afting h ole). S amples w ere c ut f rom t he s ilicone r ubber m ould f rom f our a reas, e ach o ne d epicting v ariously w orked a reas o f. t he b ronze s urface. S ample 1 r epresents d endritic s tructures " as c ast"; s amples 2 a nd 3 r epresent t he s urface a t i ntermediate s tages o f w orking; a nd s ample 4 r epresents t he s urface a t i ts f inal w ork-hardened s tate. E ach s ample ( approx. 1 c m s q.) w as c arbon-coated a nd e xamined w ith t he S EM a t v arious m agnifications: x 100, x 150, x 500, x 1000. T he x 1000 s eries i s i llustrated h ere ( Figs. 6 -9). T he c onclusions d rawn f rom t his p reliminary e xamination r ely o n t he a ssumption t hat c hanges i n t he m icrostructure f rom t he " as c ast" s tate t hrough t he i ntermediate a nd f inal w orking s tages m ay b e d etectable a t t he s urface o f a n a rtefact, u sing s ilicone r ubber a nd t he S EM. F urther w ork, w ith a l arger s ample o f m aterial, m ay e stablish m anufacturing p rocesses.
t he
a ccuracy
o f
i nterpretations
o f
s uch
I n o rder t o b etter u nderstand t he c hanges o bserved i n t he m icrostructure a t t he s urface, a nd t o e nable t he p ossible c orrelation o f s uch c hanges w ith v arious s tages i n t he w orking o f m etal, a m ore c ontrolled e xamination i s r equired. A p roposed s tudy w ould i nvolve t he c asting a nd w orking o f a b ronze b ar; s ilicone r ubber m oulds w ould b e
5 8
Fig.
3 .
Wood
f rom i nterior F ig. 2 ( Brown,
Fig.
4 .
g rain
S ilicone
experimental
s tructure
s urface 1 984).
w ork.
c ase), r eflect ( Brown, 1 984).
t he
o f
e vident
projecting
r ubber
mould
P arallel a ction o f
o n
n ose
t aken
s triations,
t hinning
5 9
t he
s ilicone o f
r ubber m ould
P re-Columbian
f rom
c opper
( raised s heet
s heet
f eatures
t hrough
t aken
vase,
s teel
s ee
u sed i n
i n
t his
r ollers
Fig.
5 .
G rain b oundaries v isible o n a s ilicone r ubber mould t aken f rom
t he s urface o f a P re-Columbian g old a lloy d isk
6 0
( Brown,
1 984).
Fig.
6 .
M icrostructure
o f
a n e xperimental bronze a xe,
a s ilicone r ubber mould s howing a portion o f t he a xe
F ig.
7 .
M icrostructure
e videnced o n h ammering.
a s ilicone
o f
t he
s ame
r ubber m ould
6 1
e xperimental
s howing
a n
a s e videnced o n
' as c ast'.
b ronze
i ntermediate
a xe,
a s
s tage
o f
F ig. 8 . M icrostructure o f t he s ame e xperimental m ould s howing a l ater s tage o f h ammering.
b ronze
F ig. 9 M icrostructure o f t he s ame e xperimental b ronze a xe, f inal w ork-hardened, c utting e dge.
6 2
a xe,
r ubber
s howing i ts
t aken
b oth
f rom
t he
e tched
s urface
s tage o f
working
( i.e.
I n
manner,
a r eference
t his
b ronze b e
a lloy
c ompared
s ections.
' as
c ast,
a s
w ith
t he
C ase
c ast', s et
c hanges
a bove,
may
b e
a nd
i n
s ection,
h ammered,
c ompiled
a t
a nnealed,
f or
t he
e ach
e tc.).
particular
i n t he m icrostructure a t t he s urface may
c hanges
s tudies
a s
a nnealed,
w ould
o bserved t hen b e
a t
t he
c orresponding
u ndertaken
i n
o rder
c ross-
t o t est t he
a pplications o f s uch e xamination o n a rchaeological m etals.
Conclusions T he s urface l evel c larification o f various t ypes
c an
b etter
b e
a nalysis d escribed h ere m ay a id i n t he p hases o f t he manufacturing p rocess. T ool
i dentified w ith
u nderstanding
o f
g reater
a ncient
a ccuracy
a nd
m etalworking
t his
may
r ecognition o f t ool k its f rom t he a rchaeological r ecord. i ndividual
t ool
r ecognition
o f matching
a n
o n
u nderstanding
o ne
o f
a brasion
f orming
d ecorative
s urface
preliminary
t echnique c ompared
l ies
i n
w ith
t oolmark
a nd o f
e mployed
b e
t o
i n
have a nd
n on-destructive a nalysis,
a
t he
T he u se o f a n
d etermined
c utting m etal
b een
i n
by
d escribed
T he
t he
s tages
o f
i s
t he
w ire
t o
t he
a bove.
s ignificance
n ature w hich
s heet,
a ddition
a nnealing
d ate.
t o
a nd
I t i s possible t o gain
t echniques,
hammering
c ross-section
may
" signatures".
w hich
t esting t he
o bjects
f inishing
s tages
i nterpretation
r eceived
more
t he m ethods
production, a nd
o r
l ead
t echnology
T he
has
o nly
o f
t his
process;
presently
a s
u sed
t o
r etrieve t his t ype o f d ata.
Acknowledgements I would
l ike
t o g ive
a nd i nspired m y w ork: P eter
S horer.
S andra a re
i n
T hanks
O lsen, a ny
f or
way
s pecial t hanks t o t hose w ho have both h elped
B enner Larsen, a lso
r eading
t o:
P hillip L owery,
Damian
G oodburn,
my manuscript.
r esponsible
f or
a ny
R ichard S avage a nd P eter
H owever,
e rrors
n one
w hich may
K vietok o f
s till
t he
a nd
a bove
r emain
i n
t his t ext. References B rown, D . T echniques. o f L ondon, E asby,
1 984. A R econnaissance o f S ome P eruvian G oldworking D issertation f or t he D iploma i n C onservation, U niversity I nstitute o f A rchaeology
D .
1 966.
American 2 4:
4 :
L arsen,
1 985.
B .
E arly
( unpublished).
metallurgy
i n
t he
N ew
W orld.
S cientific
7 3-81. V aerktoejsspor
O g
O verfladestruktur.
M etoder
T il
I dentification A f Vaerktoejsspor O g O verfladestrukturer P a A rkaeologisk Materiale. C openhagen, L arsen, t races.
S chool
o f
C onservation,
R oyal
D anish
Art
A cademy.
2 08 p p.
B .
1 985. I n
T he
T he T hird
G undestrup N ordic
C auldron,
C onference
S cientific M ethods i n A rchaeology 5 :
6 3
5 61-574,
i dentification o n
t he
H elsinki,
o f
Applications F inland.
t ool o f
L arsen, a nd
B .
1 984.
d ocumentation
T racing o f
t he
t ools
t oolmarks,
b y
o bjects f rom t he E arly G ermanic I ron A ge. L owery, s corper,
P .R.,
S avage,
t racer:
R .D.A .
t heir
i llustrated
a nd W ilkins,
n otes o n e xperiments
t races.
I dentification
t hrough
p unch-decorated
K UML 1 982-83: R .L .
1 971.
8 4.22:
6 4
g raver,
1 67-182.
S horer, P .H.T. 1 984. I nterpretation t hrough r usted 1 0th c entury V iking i ron s liding k ey. C openhagen 2 :
S criber,
i n b ronzeworking t echnique.
P roceedings o f t he P rehistoric S ociety 3 7:
T riennial M eeting,
1 69-180.
3 3-43.
r econstruction o f a I COM P reprints, 7 th
I CCROM,
R ome.
T HE
I DENTIFICATION
O F
O RGANIC
MATERIALS
P RESERVED
BY
M ETAL C ORROSION
P RODUCTS J acqui Watson
I n B ritain, o rganic o bjects a re w aterlogged e xcavations s olely a s t races
o ften i n t he
p reserved f rom n onc orrosion p roducts o f
a djacent m etalwork. C orroding i ron, c opper a nd l ead p roduce s alts t hat p rotect o rganic m aterials f rom m icro-organism a ctivity a nd p reserve r ecognisable m icrostructures. S uch c haracteristic s tructures c an f requently b e i dentified b y v isual e xamination i f w ell-preserved, b ut t he u se o f o ptical m icroscopy a lone i n s ome i nstances m ay p roduce i ncorrect i dentifications, a s m inerals a nd a lteration b y f ungi s uggest d iagnostic f eatures w hich w ere n ot a ctually p resent o n t he o riginal o rganic m aterial. I n s uch c ases, t he s canning e lectron m icroscope c an o ften b e e mployed t o c onfirm t he i dentification o f a n o rganic m aterial. The p otential o f t hese m ineral-preserved t races w as f irst r ecognised b y L . B iek ( 1963). S ince t hen, t he A ncient M onuments L aboratory ( AML) h as b uilt o n t he w ork o f E . C rowfoot a nd C . K eepax ( 1975), s o t hat w e a re n ow a ble t o i dentify w ood a nd s ometimes l eather t o
s pecies
e t a l.,
l evel,
a nd d istinguish b etween b one,
h orn a nd i vory
( Cronyn
1 985).
M ineral P reservation o f Organic M aterials I n
o rder
f or
o rganic
m aterial
t o
b e
p reserved,
i t
m ust
b e
i n
c ontact w ith m etalwork t hat i s c orroding r apidly a nd t he s alts p roduced m ust c over t he o rganic m aterial b efore i t i s c onsumed b y m icroo rganisms. T he c orrosion p roducts o n t he m etalwork a re u sually a v ariety o f i ron o xides, b asic c opper c arbonates a nd b asic l ead c arbonates. T he i deal e nvironment f or t he p reservation o f o rganic m aterial i s, t herefore, o ne w hich i s a ggressive t o m etals, s ometimes c onverting t hem t otally t o m inerals. B urials o ften p rovide t his e nvironment, p robably b ecause o f t he p roximity o f a d ecomposing b ody ( Janaway, 1 985). O rganic w ays:
m aterials
c oating,
a re
p reserved
b y
m etal
s alts
i n
o ne
o f
t hree
r eplacement, o r i mpregnation.
C oating. T his i s t he m ost c ommon f orm o f m ineral p reservation. I n t his c ase, t he o riginal o rganic m aterial i s l ightly c oated w ith m etal s alts w hich i nhibit m icro-organism a ctivity. T he m orphological s tructure o f t he o rganic m aterial i s t hus p reserved a nd c an s ometimes b e i dentified u sing c onventional m eans, s uch a s t ransmitted l ight m icroscopy o n t hin-sections a fter t he s alts h ave b een r emoved w ith a s equestering a gent. T his t echnique i s m ainly a pplicable t o w ood o r f ibres p reserved b y c ontact w ith c opper o r l ead c orrosion p roducts t hat a re o ften i n t he f orm o f l arge c rystals ( Fig. 1 ) t hat o bscure t he s urface d etail. I f t he m etal i s a llowed t o c ontinu- c orroding a t a r apid r ate a fter e xcavation, t he f ormation o f l arge c rystals w ill d isrupt
a nd
d eform
t he
p reserved
6 5
o rganic
m aterial.
T he
o rganic
1
3 5,8X * MK
3 O r3 J s 2
3 .8XV 8 0 251M
S 2 8800 P 0 8883
•
4
3
F ig.
8 2,1X M UM
3 222
1 .
M ineral p reserved w ood w ith l arge c rystals o f c opper c orrosion
p roducts. F ig.
2 .
C ross s ection o f w ood p reserved b y c opper s alts t hat h ave b een
l aid d own i n l ayers o f d iffering d ensities. F ig.
3 .
C ross s ection o f S alix s p.
o r P opulus s p.
p reserved b y a l ight
c oating o f i ron o xides. F ig.
4 .
C ross
s ection o f w ood c onsolidated w ith i ron o xides, b ut w ith
t he c ell w all s till i ntact.
6 6
material itself can still warp and collapse out of shape if allowed to dehydrate too quickly after excavation. Under these circumstances, it may be very difficult to identify the type of organic material, not to mention the species. This is a less common type of preservation than coating. Replacement. It is frequently observed in iron corrosion products, but can also be seen to a lesser extent with copper salts. Replacement takes place when the organic material becomes consolidated with corrosion products. The original structure then decays, leaving a negative impression of the organic m a t e r i a l in t h e m i n e r a l. Su f f i c i e n t m o r p h o l o g ical characteristics may be preserved to allow identification of the material, despite the fact that only a negative impression is preserved. In the case of wood, very fine surface detail can be preserved, so that standard microscope keys can be used. With textiles and fleece, the individual fibres have been encapsulated with corrosion products, forming moulds of the fibre casts which may exhibit enough surface detail to make identification possible even when the originals have gone. Replacements in copper salts do not have the same fine detail as those in iron oxides and identification can prove more difficult. In Figure 2, it is possible to see that the copper salts have been laid down in two layers of differing densities, with the more granular one next to the cell wall. Obviously, this granular layer is incapable of reproducing the fine details of features in the cell wall, such as the pit chambers and apertures often seen in the replacements in iron oxides. It is quite common for org anic material such as wood and textiles to be preserved by both coating and replacement on the same sample. Impregnation of porous organic material by metal salts. This is the main type of preservation for bone, antler, ivary, horn and leather. These materials appear unalter�d microscopically, but are fragile and powdery. Preservation by impregnation can occur with both iron and copper salts. Iron oxide-impregnated organic materials tend to be more powdery than those preserved by copper corrosion products. Sample Selection Preservation by metal corrosion products is non-discriminating, so it is essential that the occurrence of preserved organic material is correctly interpreted before destructive techniques are used to take samples for identification of the metal. Any organic material lying adjacent to corroding metalwork may be preserved whether it is part of the object, a piece of organic material that the metal object is lying in or above, or relates to the context in which the metal object has become incorporated. From contexts such as urban rubbish pits, many kinds of organic material may be preserved that are important in interpreting the context, but which have no direct relationship to the object upon which they are preserved.
67
M etalwork
f rom
o rganic m aterial.
B y
g raves
m ay
s tudying
h ave
d ifferent
l ayers
o f
p reserved
t hese i t m ay b e p ossible t o r econstruct
t he o riginal o rganic o bjects b uried w ithin t he g rave. F or t his r eason t he i dentification o f m ineral-preserved o rganic m aterial h as b een m ost b eneficial i n t he i nterpretation o f c emetery r emains, w here, w ith t he a id o f g rave p lans, i t h as b een p ossible t o r econstruct m ost o rganic o bjects f rom t races p reserved o n d ifferent p ieces o f m etalwork. I t i s e ssential t hat t he s pecialist s ees t he o bjects w ith t he m ineral-preserved o rganic m aterial i n s itu, r ather t han b eing p resented w ith s mall f ragments. W ith o ut-of-context s amples, t he s pecialist w ill o nly b e a ble t o s upply t he i dentification o f t he o rganic m aterial, a t b est. I mportant i nformation r egarding t echnology m ay b e l ost t otally, i f k ey f eatures, s uch a s s titches, t he s elvage o f a m ineral-preserved t extile, o r e vidence f or d owels i n j oinery a re a ccidentally t aken f or s amples. A dditionally, i t i s d ifficult, i f n ot i mpossible, t o r econstruct l arge o rganic o bjects f rom t races o n v arious s mall p ieces o f m etalwork. T he e thics o f s ampling a lso n eed t o b e r aised i n c ases w hen a ll t he m ineral-preserved o rganic m aterial h as t o b e r emoved f rom t he m etalwork i n o rder f or i t t o b e i dentified. I f t his c annot b e a voided, t he i dentification r eport s hould b e s upported b y a f ull p hotographic r ecord, i ncluding m icrographs o f a ny p reserved s tructures s o t hat f urther s tudy a nd i nterpretation c an b e m ade i f n ecessary a t a l ater d ate. F or f urther d etails o n t he c ategories o f m aterial p reserved m etalwork s ee E dwards ( AML r eport N o. 4 124 a nd f orthcoming).
o n
S ample P reparation U sing t he S EM o ne c an o bserve t he s urface o f t he s ample i n d etail. S pecimens h ave t o b e m ounted w ith f ractured s urfaces, s ince c utting c an s mear t he d etail o r c ause t he s ample t o b e r educed t o p owder. W hen i dentifying w ood, t he s amples s hould b e m ounted i n t hree planes: cross-section, radial l ongitudinal, a nd t angential l ongitudinal. H owever, w hen d ealing w ith r eplaced w ood i t i s o ften d ifficult t o o btain a c ross-section, s o o ne o ften h as t o t ry t o f ind e nough f eatures t o i dentify t he m aterial f rom t he t wo l ongitudinal s ections. F or o ther m aterials s ection a re u sually r equired.
o ne
l ongitudinal
s ection a nd a c ross-
I n t his s tudy, s amples w ere m ounted o n b rass o r a luminum s tubs w ith s ilver d ag a nd w ere c oated w ith e ither e vaporated g old/palladium o r s puttered g old. U sing a C ambridge S 200, w hich h as a l arge v acuum c hamber, i t h as b een p ossible t o e xamine w hole o bjects, a v ery v aluable f acility w hen l ittle o rganic m aterial i s p reserved a nd s ectioning w ould r emove t he e ntire e vidence. E ven s o, w here p ossible, s ectioned s amples w ere m ounted i n o rder t o l ook a t t he i nternal s tructure.
6 8
A lthough i t w as o ften n ot n ecessary t o c oat s pecimens w ith a c onductive l ayer o f m etal, c oating w as d one w henever p ossible t o i nsure b etter r esolution f or v iewing d elicately p reserved f eatures.
I dentification o f Wood T he a natomical f eatures o f w ood p reserved i n m etal c orrosion p roducts c an b e u sed t o i dentify t he w ood s pecies b y c onsulting a n a tlas ( Schweingruber, 1 982) o r a m icroscope k ey ( Brazier a nd F ranklin, 1 961). T he u se o f a s uitable r eference c ollection c an a id i n e stablishing a ccurate i dentification. A s m entioned e arlier t he d iagnostic f eatures n eed t o b e a ssembled f rom t hree d ifferent p lanes. T he f ollowing l ists p rovide a n i ndication o f w hich s ections e xhibit t he d ifferent f eatures. O n t he w hole t his i s a pplicable t o b oth c oated a nd r eplaced s amples. A g lossary o f t he t erms u sed c an b e f ound i n B utterfield a nd M eylan ( 1980). 1 .
C ross-sections
( Transverse s ections, o r T .S.):
a .
P ore a rrangement, u sually v isible i n s amples p reserved u nder l ight c oatings o f m etal s alts ( Fig. 3 ).
b .
R esin c anals,
c .
A ny u nusual f eatures o f t he r ays, a nnual r ing b oundary.
d .
D istribution o f a xial p arenchyma.
i f p resent,
i n c onifers. s uch a s n oding a t t he
W hen w ood i s h eavily i mpregnated w ith m etal s alts, b ut r etains c ell w alls i ntact, i t i s a lmost i mpossible t o m ake a t axonomic i dentification b ecause o f t he l ack o f t opographical d etail ( Fig. 4 ). I n w ood p reserved b y r eplacement, i t i s i mpossible t o o btain c rosss ections f or s tudy b ecause t he m ineral b reaks u p i nto s mall s plinters s ince t here i s n o c ell w all t o m aintain t he p ore a rrangement. 2 .
R adial l ongitudinal s ections a .
b .
( R .L.S.):
P erforation p lates i n v essels ( however, n ote t hat s calariform p erforation p lates i n r eplaced s amples m ore e asily r ecognised i n T .L.S.). S piral
t hickening
i n v essels
o r
t racheids
( this
c an
a re
a lso
b e s een i n T .L.S.). I n u naltered a nd l ightly c oated w ood t his c an b e o bserved a s r aised l ines o n t he c ell w all ( Fig. 5 ), b ut i n r eplaced m aterial i t a ppears a s d epressions
i n
t he
c ast
( Fig.
6 ).
T his
i s
a n
i mportant
d iagnostic f eature a nd i ts p resence s hould b e c onfirmed b y u sing t he S EM. I n i ncident l ight m icroscopy, o ptical b irefringence c aused b y t he m ineral c omponent m ay g ive t he i llusion o f s piral t hickening. E tching o f t he c ell w all b y f ungal h yphae c an a lso b e m isinterpreted a s a s piral t hickening,
e specially
6 9
a s
t he
h yphae
t end
t o
f ollow t he
6
8
F ig. 5 . S ection o f v essel w ith s piral-thickening, p reserved b y a l ight c oating o f i ron o xides.
f rom
T ilia
s p.
F ig. 6 . S piral t hickening i n i ron o xide r eplaced w ood f rom T ilia s p. T he o riginal c ell w alls h ave d issolved l eaving c asts o f t he p it c hambers i n r elief. F ig. 7 . S ection t hrough a v essel w hich h as b een c olonised b y f ungi. T he w ood, S alix s p. o r P opulus s p., h as b een p reserved b y a c oating o f i ron o xides. F ig. 8 . I ron o xide p reserved w ood ( either S alix s p. o r P opulus s p.). T he v essel h as b een a ttacked b y f ungi, a nd t he e tching o f t he o riginal c ell w all c an b e s een i n r elief.
7 0
s piral o rientation o f c ellulose i n t he c ell w all ( Fig. 7 ). B y S EM e xamination t his w ill a ppear a s t roughs i n t he c ell w all, a nd i n t he r eplaced e xamples t he e tching w ill b e i n r elief ( Fig. 8 ). T his m irrors s piral t hickening. c .
P itting i n t racheids c an b e i ndicative o f c ertain s pecies, b ut s hould n ot b e c onsidered a s d iagnostic.
d .
C ross f ield p its: t he m ost i dentification o f c onifers.
e .
L ongitudinal f eatures o f r ay c ells.
f .
I n r eplaced s amples, t he R .L.S. m ay f rom w hich o ne c an e stablish w hether d iffuse p orous.
3 .
i mportant f eature i n t he
T angential l ongitudinal s ections
b e t he o nly s ection t he w ood i s r ing o r
( T.L.S.):
a .
C ross-section o f r ay c ells a nd t heir a rrangement a mong t he w ood f ibres.
b .
P erforation p lates i n r eplaced v essels, e specially s calariform p erforation p lates w here t he v oids m ay b e c ounted t o o btain t he n umber o f b ars i n t he o riginal p late ( Figs. 9 a nd 1 0).
c .
A xial r esin c anals i n c onifers.
d .
A xial p arenchyma.
I n o rder t o c onfirm t he s pecies o f t he p reserved w ood, i t i s e ssential t hat o ne l ooks a t a ll t hree s ections. H owever, i t i s p ossible t o s uggest t he w ood s pecies f rom t wo s ections; f or h ardwoods t he T .S. a nd T .L.S. a re m ost i ndicative, a nd R .L.S. a re r equired.
w hereas f or c onifers t he T .S.
O ther Materials V arious t ypes o f a nimal t issue s uch a s b one, a ntler, i vory, h orn, l eather, p elts, a nd h airs a re p reserved b y c ontact w ith c orroding m etalwork. A ll t hese m aterials h ave a p orous m atrix w hich c an b e i mpregnated w ith m etal s alts, p reserving t he o rganic s tructure. A s y et, t here a re n o e xamples o f r eplacement o f e xception o f h airs a nd f ibres ( see b elow).
i t
t hese
materials
w ith
t he
A nimal t issues a re m uch m ore d ifficult t o i dentify t han w ood, a nd i s o nly p ossible t o d istinguish t he m aterial u sed r ather t han t o
i dentify t he s pecies o f a nimal f rom w hich i t w as d erived. B ased o n t he w ork i nitiated i n t he A ML, f urther s tudy o n d istinguishing b etween t he d ifferent t ypes o f h ard a nimal t issue w as u ndertaken a s a s tudent d issertation t opic b y G . M oraitou ( 1983). I n t his w ork s he d iscusses t he m orphology a nd d egradation o f t hese
7 1
9
1 0
1 2
1
F ig.
9 .
S calariform p erforation p late
i n
R LS
o f
A lnus
s p.,
p reserved
b y a c oating o f i ron o xides. F ig.
1 0.
S calariform
p erforation
p late
i n
A lnus
s p.
r eplaced
b y
i ron
o xides a nd v iewed i n T LS. F ig.
1 1.
R adial
s ection
o f
e lephant
i vory
e xhibiting
u ndulating
l ines
o f d entinal t ubules. F ig. i vory
1 2.
T angential
s ection
( same s ample a s F ig.
o f
t he
1 1).
7 2
o penings
o f
d entinal
t ubules
i n
m aterials
a nd m akes
s uggestions
o n
t he d iagnostic f eatures t hat m ay b e
u sed.
B one a nd A ntler.
B one c an
s ometimes b e
r ecognised b y
t he p resence o f
H aversian c anals, b oth i n l ongitudinal a nd c ross-sections. I t i s v ery d ifficult t o d istinguish b etween n ormal b one a nd a ntler i n s mall s amples p reserved o n m etalwork a nd f urther r esearch i n t his f ield i s n eeded. I vory. t usks,
T echnically, t he t erm i vory s hould o nly a pply t o e lephant b ut i t i s c ommonly a lso u sed t o d escribe a rtifacts m ade f rom
o ther l arge mammalian w art h og.
t eeth,
I n w ell-preserved
s uch a s w alrus,
s pecimens
i t
i s
h ippopotamus,
n arwhal a nd
e asy t o d istinguish b etween t he
d ifferent t ypes o f d entine ( Penniman, 1 952), b ut i n m ineral-preserved e xamples a ll t hat u sually r emains i s a f ine p owder w ith n o o bvious g rain o rientation. I n t he l atter c ondition, t he u se o f t he S EM c an c onfirm t hat t he m aterial i s d entine b y t he p resence o f d entinal t ubules s een a t m agnifications o f 5 00-1000x. F igure 1 1 s hows a r adial s ection w ith d entinal t ubules a rranged i n u ndulating l ines, w hile F igure 1 2 s hows t heir c ross-section. I t i s a lmost i mpossible, h owever, t o d istinguish b etween t he d ifferent t ypes o f " ivory" o n t he b asis o f s uch f eatures. H orn. U nlike t he p revious t hree m aterials, h orn i s c omposed s olely o f a n o rganic c omponent - k eratin. T hrough b urial, h orn b reaks u p i nto f ine, r ippled l ayers w hich p robably c orrespond t o t he o riginal l ayers d eveloped b y t he a nimal, a lthough t his s tructure i s n ot e asily d istinguished i n f resh h orn. W hen p reserved b y m etal c orrosion p roducts, t he l ayered s tructure i s m aintained a nd i s u sually r ecognised b y t he r ows o f parallel r idges, w hich c an r esemble w ood g rain a t l ow m agnifications ( Fig. 1 3). B y u sing t he S EM, t hough, i t i s o ften e asy t o d istinguish b etween h orn a nd w ood b y t he a pparent l ack o f m orphological f eatures i n h orn a t a ny m agnification. I n i dentifying m ineral-preserved h orn, c omparisons w ere m ade w ith d egraded h orn, r ather t han f resh m aterial, s ince t hat p reserved b y m inerals s alts. L eather
a ppeared
a nd
P elts.
t o h ave b een a ltered b efore
A t
p resent
l eather
c an
g rain p attern o f t he h air f ollicles s urvives,
i mpregnation w ith m etal
o nly
b e
i dentified
i f
a
a nd o ften s uch d etail h as
b een r emoved b y a brasion w hen t he l eather a rticle w as i n u se. T he s tructure i n t he c ross-section o f s kin o ften r emains, h owever,and f urther r esearch m ay p rovide a m eans t o i dentify l eather w hen t he g rain p attern n o l onger s urvives.
m etal
T he h airs o f p elts m ay b e i dentified b y w ell-preserved m oulds i n c orrosion p roducts ( Fig. 1 4), a fter t he o riginal h airs h ave
d eteriorated. T he m oulds u sually e xhibit n egative b ract p atterns w hich a re d iagnostic o f d ifferent a nimals ( Fig. 1 5). H owever, s ome e xperience a nd a ccess t o a r eference c ollection a re r equired b efore o ne c an u se t his f eature a lone t o i dentify t he s pecies o f a nimal i nvolved ( Appleyard, 1 978).
7 3
i
1 3
1 4
1 5
F ig.
1 3.
S tructure o f i ron-oxide p reserved h orn.
F ig. 1 4. C ross-section o f i ron p reserved f leece. T he r esidual h airs h ave s hrunk a nd p reserve l ess s urface d etail t han t he c asts. F ig. 1 5. T he i mpression o f a h air i n i ron c orrosion p roducts, w ith t he s cale p attern o f t he o riginal c learly p reserved.
7 4
T extiles a nd F ibres. f ibres
i n
a
C orrosion products c an e ncapsulate t he i ndividual
t extile
a nd
s imultaneously
d istinguished macroscopically. pattern o n d istortion. I n
a
b y u sing
t he
Q uite s urprisingly,
m ineral-preserved
l ightly-coated
c orrosion
a llow
may
r emain
f ibres
c an
b e
a gents
t o
b e
t he o verall w eave
t extile
s amples,
s equestering
w eave
f airly
e xtracted
s uch a s E DTA,
f ree
f rom
o f
t he
a nd b e i dentified
u sing t ransmitted l ight m icroscopy.
W ith t extiles preserved o n h eavily
c orroded
t o
f ibres
o bjects, f rom
i t
t heir
may
b e
e asier
moulds
i n
t he
u se
S EM
t echniques
c orrosion
i dentification o f a nimal f ibres s ee Appleyard f ibres s ee C atling a nd G rayson ( 1982).
t o
p roducts.
( 1978),
i dentify F or
a nd
t he
f or v egetal
S u mary U nder c orroding Most
o f
c ertain
c onditions
metalwork t his
u naltered
a nd
work
t he
c an
material.
b e
i dentifying
u ndertaken
H owever,
d istinguishing between bone o f
o rganic
l eather
materials
r esultant
u sing
t here
a nd
f rom
s tructures
preserved b e
e stablished
i s
a ntler,
a re c an
s cope
f or
b y
i dentified.
k eys more
f or
t he
work
i n
a nd l ooking a t t he possibility
c ross-sections
r ather
t han
t he
r arely
preserved g rain patterns. U sing
t he
S EM
t o
make
s pecialist o rganic d etails,
r ather
material. t his
w ork
t han
a ccurate
a n
optical
microscope
i dentifications
I n
c ombination
f orms
t he basic
w ith
t he
o f
e nables
t he
mineral-preserved o f
t echnological
r ecord o f perishable
s tudy
r aw materials
u tilised i n a ncient m etalworking periods.
Acknowledgements T he
work
presented
i n
t his
paper
was
u ndertaken
a t
t he
Ancient
Monuments Laboratory o f t he H istoric B uildings a nd Monuments C ommission f or
E ngland,
a nd
t he
a uthor would l ike t o t hank t he C ommission f or i ts
c ontinued s upport o f t his r esearch.
References Appleyard,
H .M.
2 nd e dition. B iek,
L .
1 978.
L eeds:
1 963.
G uide t o t he I dentification o f A nimal F ibres.
W IRA .
Archaeology
a nd
t he
M icroscope.
L ondon:
L utterworth
P ress. B razier,
J .D.
a m icroscope L ondon:
k ey.
F orest
G .L.
1 961.
P roducts
I dentification o f hardwoods:
R esearch
Laboratory
B ulletin
4 6:
H .M.S.O.
B utterfield, o f Wood.
a nd Franklin,
B .G.
a nd M eylan,
2 nd e dition.
L ondon:
B .A .
1 980.
T hree-Dimensional S tructure
C hapman a nd Hall.
7 5
C atling,
D .
a nd
F ibres.
L ondon:
C ronyn,
J .,
G rayson,
J .
1 982.
T he
I dentification
o f
V egetable
C hapman a nd Hall.
P ye,
E .
a nd
Watson,
J .
1 985.
T he
r ecognition
a nd
i dentification o f t races o f o rganic materials i n a ssociation w ith m etal artifacts.
I n
L aboratory,
pp.
P hillips,
2 4-27.
P .
L ondon:
( ed .),
T he
Archaeologist
C BA R esearch R eport N o.
a nd
t he
5 8.
E dwards, G ., f orthcoming. G uidelines f or d ealing w ith material f rom s ites w here o rganic r emains h ave b een p reserved b y m etal c orrosion products. I n E vidence P reserved i n C orrosion P roducts. L ondon: UKIC O ccasional P aper. J anaway,
R .C.
materials
i n
A lso a vailable a s a n AML r eport, 1 985.
m etal
i nhumation g raves.
D ust
t o
a rtefact
d ust:
c orrosion
t he
N o.
4 124.
preservation
products
S cience a nd Archaeology 2 7:
w ith
B one,
G .
A ntler,
1 983. H orn,
S tructure, a nd
I vory.
t extile t o
2 9-34.
K eepax, C . 1 975. S canning e lectron m icroscopy o f wood i ron c orrosion products. J . Archaeol. S ci. 2 : 1 45-150. Moraitou,
o f
r eference
D eterioration, U npublished B .
a nd
S c.
r eplaced b y
I dentification
d issertation,
o f
U niv.
L ondon. P enniman, a nd
T .K.
a ntler.
Museum,
U niv.
S chweingruber,
1 952. O xford:
P ictures O ccasional
o f
i vory a nd
P aper
o n
o ther
a nimal t eeth,
T echnology,
5 ,
P itt
bone
R ivers
O xford. F .H.
1 982.
M icroscopic
Wood
S wiss F ederal I nstitute o f F orestry R esearch.
7 6
Anatomy,
2 nd
e dition.
P ART I I :
POTTERY
7 7
I DENTIFICATION O F S UBSOIL I NCLUSIONS I N P OMONA C ERAMICS D onald J . B lakeslee a nd R ichard K . D unn
I ntroduction T his p aper i llustrates t he u se o f t he S EM i n c onjunction w ith t hin-section a nalysis i n r esolving a p roblem i nvolving p rehistoric c eramics. P revious d escriptions o f P omona c eramics f rom t he e astern G reat P lains o f N orth A merica d isagree o n t he n ature o f t he t empering m aterial u sed. R ecent r eports e mphasize t he w ide r ange o f materials s een - u p t o 2 5 d ifferent c ombinations i n o ne s tudy - a nd v arious a nalysts r eport c onflicting r esults f rom t he s ame a ssemblages. T he s tudy r eported h ere c ombined S EM e xamination o f f reshly b roken s herd e dges w ith o ptical e xamination o f g round e dges a nd t hin s ections. T he r esults i ndicate t hat P omona c eramics r epresent a n u nusual a daptation t o a p articular e nvironment, t he O sage C uestas p hysiographic p rovince. F requently, t he c lays w ere u sed w ithout t he a ddition o f t emper a nd w ith a m inimum o f p reparation. S ubsoil s tructures, i ncluding p eds, c oncretions a nd c lay-lined v oids mimic a v ariety o f t emper t ypes, a nd most s herds c ontain a c ombination o f t hese s ubsoil i nclusions. T he n ature o f t he c lay a nd t he p resence o f t he i nclusions p recluded t he n ecessity o f p urposefully a dding t emper. L ack o f a ging o f t he c lay t o r emove o rganics m andated a l ow f iring t emperature.
Background T he P omona v ariant ( originally t he P omona f ocus) i s a n e xpression o f t he P lains V illage t radition o f c entral N orth America. S ites o f t his c omplex d ate t o A .D. 9 50-1400. T hey a re f ound i n t he O sage C uestas p hysiographic p rovince o f e astern K ansas a nd w estern M issouri ( Fig. 1 ). T he s ites c onsist o f t he r emains o f l ightly-built w attle a nd d aub h ouses w ith a ssociated r ock-filled h earths, s torage p its a nd a ctivity a reas ( Blakeslee a nd R ohn, 1 986; B rown, 1 984; R ohn a nd D aniel, 1 984; W itty, 1 967, 1 981). * The c ontents o f t he s ites a re i ndicative o f am ixed e conomy t hat i ncluded h orticulture, h unting a nd g athering. T he P omona v ariant i s b ordered b y o ther u nits o f t he P lains V illage t radition. T o t he n ortheast i s t he S teed-Kisker c omplex, i n t he K ansas C ity a rea. T he c eramics o f t his u nit, h eavily i nfluenced b y t he M ississippian s tyles o f t he e ast, a re u sually t empered w ith c rushed s hell. T he N ebraska p hase, w hich l ies n orth o f t he P omona r ange, a lso h as s ome s hell-tempered p ottery, b ut t he b ulk i s t empered w ith c rushed g ranite. T o t he n orthwest i s t he S moky H ill p hase, a lso w ith s ome s hell t empering, b ut w ith a m ajority o f g rog ( crushed p ottery) t emper. S outh o f t he P omona a rea a re u nits o f t he C addoan t radition, w hose p ottery i s u sually t empered w ith c rushed b one. T he v arious c ultural g roups m entioned,
a nd o thers o f t he s ame t ime
p eriod, h ave a t endency t o g rade i nto o ne a nother n ear t heir b oundaries. T ransitional s ites, i n w hich a ttributes o f c eramics a nd o ther a rtifacts a re b lended, a re c ommon. T hus, i t i s n ot s urprising t o l earn t hat s ome P omona s ites y ield v essels w ith s hell, c rushed g ranite,
7 9
N E I A _
o v -
• \ H i l lsda le L ake
CN
K S
OK
_
— 1 . I 'M O I
AK
Caddban A rea
F ig.
1 .
L ocation o f t he P omona v ariant a nd c ontemporary c omplexes.
8 0
g rog, o r b one t emper ( Witty, 1 967: 4 -5). W hat s ets P omona a part f rom t he o thers i s a n a pparent l ack o f a p redominant t emper t ype i n i ts c ore a rea. P omona p ottery i s a s imple, g enerally u ndecorated, u tilitarian w are. J ars a re s mall a nd g lobular, u sually w ith a h igh, n early v ertical r im . T hey w ere f ormed b y l ump-modelling, f ollowed b y s haping a nd t hinning u sing t he p addle a nd a nvil t echnique. I n m any i nstances, t he a nvil a ppears t o h ave b een t he p otter's h and. T he p addle w as l oosely w ound w ith c ordage ( in s ome c ases, n etting), w hich h as l eft i mpressions o n t he e xterior s urfaces o f t he j ars. T he v essels w ere f ired a t r elatively l ow t emperatures. E vidence f or l ow f iring t emperatures i ncludes t he s oftness o f t he s herds ( averaging j ust a bove 2 o n M ohs' s cale o f h ardness) a nd g ray c ores v isible i n s herd c rosss ections i ndicating u nderfiring. E xperimental v essels m ade f rom O sage C uesta s ubsoils a nd f ired i n a s mall s urface c ampfire w ere h arder t han P omona s herds. A c eramist w ho e xamined a s et o f P omona p ottery c ame t o t he s ame c onclusion a bout f iring t emperature, i ndependently ( Wright, c ited i n W ilmeth, 1 970: 2 7). T he l ow f iring t emperatures y ielded c eramics t hat w ere r eadily a braded a nd e roded a fter d eposition i n t he g round. A s a r esult, m ost s herds f rom P omona s ites h ave m ore o r l ess r ounded e dges. T he h ighly p orous s herds, o nce d eposited, a re s ubject t o t he s ame f orces t hat f orm t he s urrounding s ubstances m ay b e a dded t o o r l eached f rom t hem.
s oil,
a nd
v arious
T he P omona v ariant i s l imited i n i ts d istribution t o t he O sage C uestas p hysiographic p rovince. T his r egion c onsists o f r olling h ills a nd e ast-facing e scarpments ( Fenneman, 1 931). T he v egetation c onsists o f t allgrass p rairie c ommunities. T he d istribution o f t rees i s l imited t o g allery f orests a long s treams, a nd t o g roves o n e scarpments a nd o n t he f ew h illtops w here t he b edrock i s s andstone. A ll s treams e xcept t he l argest r ivers a re e ntrenched, a nd t he r egion i s s outh o f t he a rea t hat w as g laciated d uring t he P leistocene. T he l and s urface i s t hus r elatively o ld, w ith h ighly d eveloped s oil h orizons. T he c limate i s c ontinental, w ith a w ell-marked w et s eason i n t he s pring a nd d ry s ummers. T he s oils a re g enerally a cidic, a nd b one i s s eldom p reserved i n t he a rchaeological s ites. T he r egion i s d ominated b y m ollisols t hat h ave a n a rgillic ( clay r ich) h orizon. T he W oodson s oil t hat i s w idespread i n t he u plands i s h eavy, a nd t he z one f rom 1 0 t o 3 0 c m b elow t he s urface i s f requently r ecorded a s h aving a c lay t exture ( Soil C onservation S ervice, 1 979: 8 7). T his i s t he f inest o f a s eries o f e leven t exture c lasses f or s oil a nd i s i ndicative o f a n e xtremely c layr ich z one ( Soil C onservation S ervice, 1 979: 4 6). T his i lluvial h orizon ( zone o f c lay d eposition b y s oil f ormation p rocesses) i s p lastic e nough t o f orm p ottery w ithout e xtensive a ging o r p rocessing o f t he c lay. W oodson a nd o ther c lay-rich s oils i n t he r egion c ontain n umerous f errous-manganese o xide c oncretions a nd b locky t o p rismatic p eds.
T he P roblem T he l iterature r egarding P omona c onsistent. T he o riginal d escription
8 1
p ottery i s f ar f rom c lear a nd a nd d efinition o f P omona w are i s
b y W ilmeth ( 1970: 2 6-28). H e d escribes t he p aste a s " a f airly f ine b ut i mpure c lay, [ that] w as p robably u sed w ithout m uch w orking, o ften r esulting i n a r ather l umpy a ppearance." H e a lso s uggests, h owever, t hat t he t empering m aterial w as g rog ( crushed s herds), w hich h e d escribed a s s mall i nclusions o f t he s ame t exture a nd h ardness a s t he p aste. L ater d escriptions o f t empering m aterials d o n ot c orrespond c losely t o W ilmeth's. W itty ( 1981: 8 0) s tates t hat P omona w are c ontains " sparse i nclusions o f i ndurated c lay, w eathered s hale a nd o ccasional c rushed b urned b one f ragments." f requent m ention o f i ndurated c lay o r s hale,
O ther d escriptions m ake a nd many c ombinations o f
d ifferent t emper t ypes h ave b een r ecorded. R ohn a nd D aniel ( 1984: 1 4, 6 7), o n t he o ther h and, a gree w ith o ne o f W ilmeth's a ssertions, t hat P omona p ottery i s e ssentially u ntempered b ut w ith i nclusions o f i ron o xide, q uartz s and, i ndurated s hale p latelets, a nd o ccasional p ieces o f o rganic m atter. I n a r ecent s urvey o f P omona a rchaeology, B rown ( 1984) r ecorded 2 5 d ifferent t emper c ombinations. P rimary i ngredients l isted b y h im i nclude s and, s herd ( grog), l imestone, b one, s hell, g ranite, c alcite a nd n o t emper. H is s hell t emper c ategory i ncludes b oth t hose s herds w hich r etain s hell p articles a nd t hose w hich e xhibit f lat p arallels ided v oids, p resumably l eft b y s hell p articles l eached f rom t he s herd b y a cidic g roundwater. S ome a uthors p refer t o u se t he t erm " cell t emper" i n t he a bsence o f p roof o f t he o rigin o f t hese f eatures ( Bell a nd G ilmore, 1 936: 3 18). S ince s ome P omona s herds c ontain s hell t emper a nd b ecause t he s oil e nvironment i s f requently a cidic, i t i s l ikely t hat a t l east s ome o f t he f lat c ells s een i n P omona s herds w ere p roduced b y l eaching o f s hell. O ther s ources a re p ossible, h owever. W itty s uggests t hat m ost d erive f rom f laky, i ndurated c lay u sed a s t emper. " Many s herds w eather t o h ave t he a ppearance o f t he ' cell t emper'. T his i s f ormed b y t he f laky c lay i nclusions d issolving o ut o f t he p aste" ( Witty, 1 967: 2 ). W hy c lay f lakes w hich d id n ot d issolve w hen a dded t o a m oist p aste s hould l each o ut a fter f iring i s n ot e xplained . S till o ther f rom t he b inocular
s ources
f or
t he
c ells
a re p ossible.
W hen
t he s herds
H illsdale L ake ( Fig. 1 ) w ere e xamined w ith a l ow p ower o ptical m icroscope, s everal l ines o f e vidence s uggested
m ultiple o rigins. S ome s herds c ontained b oth e mpty c ells a nd a f ew c ells t hat r etained r emnants o f s hell t emper. O n o ther s herds t he v oids w ere e ntirely e mpty, w ith n one o f t he s herds f rom a w hole s ite e xhibiting a ny s hell p articles. I n s ome r are c ases, a f ew o f t hese e mpty
c ells
w ere
s urrounded
b y
a reas
o f
r educed
( blackened)
p aste.
T his i mplies t hat a t l east s ome c ontained c ombustible o rganic m aterial t hat t ook u p t he a vailable o xygen a t t he t ime t he p ot w as f ired. S till o ther s herds h ad f lat c ells l ined o r c ompletely f illed w ith l ighter c olored m aterial. A s t his m aterial d id n ot r eact w ith h ydrochloric a cid, i t c annot b e s hell t emper. S ometimes, t his l ighter m aterial r esembles c lay, a nd i t i s p robably w hat W itty i dentified v ariously a s i ndurated c lay a nd w eathered s hale. L eaching, h owever, w ould p roceed f rom t he e xterior o f a s oluble p article t oward t he c enter, n ot t he r everse. H ence t he c ells
8 2
t hat a re l ined w ith t his m aterial c annot r esult f rom t he d issolution o f i t, a nd W itty 's e xplanation o f t he o rigin o f t he e mpty c ells b y t his p rocess a ppears w eak.
R ohn
P rior t o t he H illsdale L ake p roject ( Blakeslee a nd R ohn, 1 986; a nd D aniel, 1 984: 6 7), n one o f t he d escriptions o f P omona p ottery
c orrectly i dentified t he f errous-manganese o xide c oncretions w hich t his s tudy s hows a re c ommon i nclusions i n t he p aste. T hese d erive f rom l ocal s ubsoils. T hose o bserved v aried i n s ize f rom 0 .1 mm t o 1 .9 m m i n d iameter a nd r ange i n c olor f rom b lack t o r ed. P resumably, t he c oncretions, w hich o ccur d ensely i n s ome s herds, w ere o ften i ncorrectly i dentified i n e arlier r eports a s s ome k ind o f t emper. O n h eavily e roded s herds, t hey a re d ifficult t o d istinguish f rom g rog u nless a f reshly b roken e dge i s e xamined. T he v ariety o f s ubstances f ound i n P omona c eramics a nd t he v arying i nterpretations o f t hem c ombine t o m ake u niform r eporting d ifficult. T here i s a g reat p otential f or b oth i nter- a nd i ntra-observer e rror, e ven i n t he f ace o f t he m ost c areful a nalysis. I n t he r eport o f t he H illsdale L ake p roject i nter-observer e rror w as e liminated b y a ssigning a s ingle t echnician t o i dentify a ll o f t he p ottery f rom t he v arious s ites, w hile i ntra-observer e rror w as m inimized b y u sing t emplates f or a ll d iscrete t raits ( Blakeslee a nd R ohn, 1 986: 1 43-144). A ll o f t he s herds l arger t han 7 m m i n d iameter f rom e ach s ite w ere e xamined w ith a b inocular m icroscope. S imilarly, B rown ( 1984) a nalyzed s amples f rom v arious l ocalities s olely b y h imself i n o rder t o e liminate i ntero bserver e rror f rom h is s urvey. W here c omparisons o f t he a nalyses o f t he p ossible, t he r esults a re s hockingly d ifferent. ( 1986: 7 34-735) r eport 3 5% u ntempered, 4 2% s and t emper,
a nd 4 % g rog
t emper
t wo o bservers a re B lakeslee a nd R ohn t empered, 9 % s hell
i n t he 3 86 s herds f rom s ite 1 4MM213.
B rown
( 1984: 1 56) e xamined a s ample o f 1 13 o f t hese s herds a nd f ound 7 .1% u ntempered, 0 % s and t empered, 0 .9% g rog t empered, a nd 9 1.2% s hell t empered. S imilarly, R ohn a nd D aniel ( 1984: 1 3-16) f ound a ll b ut f our o f t he 3 2 s herds f rom s ite 1 4M 1 421 t o b e u ntempered, w ith t hree e xamples o f b one a nd o ne o f s hell t emper. B rown ( 1984: 1 56), o n t he o ther h and, f ound 7 7.8% o f a s ample o f n ine s herds t o b e s hell t empered, e ach w ith n o t emper a nd a c ombination o f b one a nd g rog t emper.
a nd o ne
O bviously, t here i s a s erious p roblem h ere, o nly a s mall p art o f w hich c an b e a ttributed t o s ample s ize. O ne p roblem h as t o d o w ith w hether a ll e mpty c ells, r egardless o f n umber a nd s ize, a re i dentified a s t he r emains o f s hell t emper. A nother i s t he q uestion o f w hether v arious p articles a re p urposefully a dded o r a re p art o f t he p aste o f a n o therwise u ntempered w hether a s herd w ith
v essel. S till a nother i s t he d etermination o f a n a ngular, l umpy a ppearance o n a f reshly b roken
e dge h as g rog t emper o r m erely a p oorly m ixed p aste. T he
s tudy
p resented
h ere
a llows
r esolution
o f
m ost
o f
t hese
p roblems a nd a dditionally p rovides a n e xplanation o f t he n ature o f P omona c eramics. F irst, h owever, i t i s n ecessary t o r eview t he n ature o f
c eramics
a nd
t he
m aterials
a vailable
m anufacture t hem.
8 3
t o
t he
P omona
p eople
t o
C lays, Nonplastics, a nd S ubsoils C eramics
a re
c omplex
s ubstances
t hat u sually i nclude b oth p lastic
a nd n onplastic m aterials. T he p lasticity o f t he w et c lay a llows v essels a nd o ther o bjects t o b e s haped. N onplastics m ust f requently b e a dded, h owever, t o r educe p lasticity. T he m ore p lastic a c lay i s, t he g reater t he s hrinkage d uring d rying a nd f iring a nd h ence t he g reater t he r esulting p otential f or c racking d uring t hese p rocesses. T he p resence o f n onplastics " counteracts s hrinkage a nd f acilitates u niform d rying, t hus r educing s train a nd l essening t he r isk o f c racking" ( Shepard 1 954:
2 5).
N onplastics c an b e a dded p urposefully o r m ay a lready b e p resent i n t he c lay. I n t he f ormer i nstance, t hey a re c alled t emper; i n t he l atter, i nclusions. S ome c lays w ill d ry a nd f ire s atisfactorily w ithout t he a ddition o f t emper. F requently t hese a re r esidual c lays t hat c ontain a s ubstantial n umber o f i nclusions ( Shepard, 1 954: 5 3). G enerally, c eramics a re f ormed f rom e ither o f t wo b asic c ategories o f c lay. R esidual c lays a re t hose t hat r emain i n c ontact w ith t heir p arent m aterial o f i gneous r ock. S uch c lays o ften r etain o ther m inerals f rom t he p arent r ock, i .e., i nclusions ( Shepard, 1 954: 1 1). S econdary o r s edimentary c lays h ave b een t ransported f rom t heir p oint o f o rigin b y w ater. F requently, t he i nclusions a re r emoved d uring t his p rocess, l eaving a p ure c lay ( Shepard, 1 954: 1 1). H ence, b ecause o f i nclusions a lready p resent, r esidual c lays a re m ore l ikely t o b e u sed w ithout t emper t han a re s edimentary c lays. T here i s a t hird p otential s ource o f c lays t hat w as o nly r arely u sed f or c eramics. I t i s s o r are a s a s ource t hat i t i s n ot d iscussed b y S hepard ( 1954) i n h er c omprehensive v olume, C eramics f or t he A rchaeologist. T his i s s ubsoil c lay f ormed d uring t he p rocess o f s oil d evelopment. W hile m any s oils h ave a n a lluvial o rigin, c lay d eposits w ithin t hem m ay n ot b e p roduced b y t he s ame f orces t hat s hape t he a lluvial c lays d iscussed b y S hepard. C hemical a nd m echanical p rocesses s lowly r emove c lay p articles f rom t he A h orizon, o r e luvial z one o f a s oil, a nd d eposit t hem f arther d own i n t he s oil, i n t he i lluvial z one. I n s ome s oils, e nough c lay a ccumulates t hat t he i lluvial z one i s t ermed a n a rgillic h orizon ( Soil C onservation S ervice, 1 975: 1 9). N ot a ll s oils e nd u p w ith c lay-enriched a rgillic z ones, b ut i n s ome, t he c oncentrations a re r emarkable. A s oil t hat h as o nly e leven p ercent c lay i n i ts c omposition n ear t he s urface m ay b e 5 0 p ercent c lay o nly 1 8 t o 3 6 c m b elow t he s urface ( Soil C onservation S ervice, 1 975: 2 2). F actors i nvolved i nclude t ime, c limate, s oil a cidity a nd t ype o f c lay. O ld s oils ( i.e., o n o ld, s table l and s urfaces) h ave h ad m ore t ime f or t he c lay t o b e l eached f rom t he e luvial h orizon a nd t o b e r edeposited i n t he i lluvial h orizon. A c limate w ith a w ell-defined d ry s eason s eems t o e nhance t he p rocess ( Soil C onservation S ervice, 1 975: 1 9-21), w hile c arbonates i n t he s oil t end t o i nhibit t he p rocess. M ontmorillonite c lays a re t ransported m ore r apidly t han o ther c lay m inerals ( Soil C onservation S ervice, 1 975: 1 9-21).
s oils
O ther p rocesses t hat a lso o ccur i n s oils a re p ertinent h ere. A ll -e volve a " structure" o ver t ime, p roducing a p atterned s et o f
s olid p articles a nd v oids
( Brewer,
1 964:
8 4
1 3).
I ncluded a mong t he s olid
p articles a re p eds, n aturally o ccurring a ggregates o f s oil p articles ( Soil C onservation S ervice, 1 975: 4 74). T hese c an b e p laty, c olumnar, g ranular, b locklike o r p olyhedral i n s hape. S ometimes t hey a re d elimited b y t hin c lay f ilms o n t heir s urfaces ( Soil C onservation S ervice,
1 979:
4 6).
P eds d iffer f rom c lods, l umps f ormed b y d isturbance, a nd f rom c oncretions, w hich a re c emented t ogether c hemically. C oncretions d o o ccur i n s ome s ubsoils. T hose f ormed i n a lkaline s oils a re c alcareous, w hile t hose t hat f orm i n a cidic s oils a re c emented w ith i ron a nd/or m anganese o xides. T he l atter t ype s pherical p ellets o f v arying s ize.
c onsists
o f
b lack
t o
r eddish
A lso t o b e f ound i n s ubsoils a re o rganic m aterials a nd s everal k inds o f v oids. S ome o f t he l atter a re f ormed b y p lant r oots, o thers b y b urrowing i nsects, a nd s till o thers, s uch a s d rying c racks a nd s paces b etween p eds, a re t he r esult o f m echanical a nd c hemical processes i n t he s oil ( Brewer, 1 964: 1 79-196). I n c ertain e nvironments, s ubsoil v oids b ecome l ined w ith f ine c lay o r o ther m aterials. 2 06-231).
T he
r esultant
c oatings
a re
c alled
c utans
( Brewer,
1 964:
T he e xtent t o w hich p ottery m ade f orm s ubsoil c lays w ill r etain t hese f eatures d epends p rimarily o n h ow m uch t he c lay i s p rocessed p rior t o t he m anufacture o f c eramic o bjects. G rinding t he c lay w ill d estroy p eds a nd c oncretions a nd w ill r emove t he v oids. T horough k neading o f t he c lay i n t he a bsence o f g rinding w ill d estroy p eds a nd u nlined v oids b ut n ot c oncretions o r s ome c utans. I lluviation c utans, formed f rom c lay p articles i n s uspension, c onsist o f p arallel a lignments o f t ightly p acked c lay p articles. A s a r esult o f t heir s tructure, t hey a re f ar l ess s oluble i n w ater t han t he r andomlyo riented c lay particles i n t he g eneral s oil m atrix. T hey a re, t herefore, r esistant t o d estruction w hen t he s ubsoil c lay i s m ixed w ith w ater t o c reate a c eramic p aste. E xperimental m ixing o f u nground s ubsoil c lays s hows t hat s ome d issolve r eadily i n w ater, w hile o thers m ust b e s oaked f or l ong p eriods b efore a ll t he p eds d issolve.
d ays
A ging ( adding w ater t o c lay a nd l etting i t s tand f or a p eriod o f t o w eeks) w ill r emove l arge o rganic m atter t hrough d ecomposition.
M ost o f t he o rganic m aterial a nd m ethane) w hich e scape p erformed s o t hat t he g asses w ill n ot b loat t he c lay w hen
i s t hus c onverted t o g ases ( carbon d ioxide i nto t he a ir. T his p rocess i s u sually c reated b y c ombustion o f o rganic m aterials t he v essel i s f ired. W hen i t b loats, c lay
a ctually f oams u p, l eaving a s coria-like a ppearance. A ging s hould a lso w eaken o r d estroy t he p ed s tructure a s t he c lay c utans s lowly d issolve.
H ypothesis A p ossible e xplanation f or t he u nusual n ature o f P omona c eramics i s t hat
t he
P omona
p eople
u sed
t he
l ocal
s ubsoil
c lays
t o
m anufacture
t heir v essels. T he e nvironment i n w hich t hey l ived c ontained u nusually r ich s ubsoil c lays b ecause o f a c ombination o f f actors, i ncluding a s table o ld l and s urface, a d ry s eason, a nd a cidic s oil c onditions. T he c lay-rich c lay
s ubsoils
o ther
t han
w ere
t he
a pparently u sed w ithout a ny p reparation o f t he
a ddition
o f
w ater
8 5
a nd
s ome
m inimal
p reliminary
k neading. I n t his w ay, t he f errous-manganese o xide c oncretions w ere a lmost a lways i ntact, a nd p eds a nd c utans h ave o ccasionally b een p reserved i n t he p ottery. T he p resence o f n umerous i nclusions m eant t hat n o a ddition o f t emper w as n ecessary. L ack o f a ging r equired t hat t he p ottery b e f ired a t r elatively l ow t emperatures. I t i s h ypothesized h ere t hat P omona p ottery w as n ormally f ormed f rom u ntempered s ubsoil c lays a nd f ired a t l ow t emperatures. W hile i t i s d efinitely t he c ase w ith s hell, g rog, b one,
t hat s ome P omona s ites y ield s herds t empered o r g ranite, t hese c an b e a ttributed t o c ontact
w ith n eighboring c ontemporary s ocieties. T his h ypothesis i mplies t hat m any o f t he i dentifications o f n onplastic m aterials i n P omona c eramics a s v arious s orts o f t emper a re i ncorrect a nd t hat t hese a re, i n f act, i nclusions d erived f rom t he s ubsoil s ources o f t he p aste. S herds i n w hich t he p aste r etains b locky o r p rismatic p eds w ill b e s imilar i n a ppearance t o t hose w ith g rog t emper. C oncretions a lso c an b e m istaken f or g rog. T his i s s o b ecause s ome c oncretions h ave n early t he s ame t exture a s t he s oil f rom w hich t hey w ere f ormed, a nd s herd t emper i s a lso u sually s imilar i n t exture t o t he s urrounding p aste. B ecause g rog i s a ngular i n o utline, h owever, i t c an b e d istinguished f rom c oncretions, w hich t end t o b e r ounded. S ome p ieces o f g rog a re d erived f rom t he o uter o r i nner s urfaces o f v essels w hich m ay r etain d iagnostic f eatures t hat a llow t hem t o b e d istinguished f rom a ngular p eds. V oids p resent i n t he s ubsoil m ay b e p reserved i n t he s herds, b ut u sually i n d istorted f orm . T he p addle a nd a nvil t echnique o f m anufacture w ill f latten m ost p reviously e xisting v oids t o a l enticular s hape. E xceptions m ay b e v oids l ined w ith r elatively i nsoluble m aterials, t hose c ontaining r igid o bjects, a nd v oids i n p eds t hat d o n ot d issolve c ompletely. F lattened s ubsoil v oids a nd v oids l eft b y t he c ombustion o f l eaf f ragments m ay b e m istaken f or s paces l eft b y l eached s hell t emper. O ther c ombustible o r l eachable m aterials m ay l eave v oids o f v aried s hapes.
o f
A rgillic c utans l ining v arious v oids c an b e m istaken f or p articles s hale. I f t he v oid i s n ot c ompletely f illed w ith t he c lay l ining,
t he r esultant h ollow p article w ill g ive t he i mpression o f a n o bject t hat i s d issolving f rom t he c enter t o t he o utside. C utans c an b e distinguished i n t hin s ection w ith a p etrographic m icroscope ( Fitzpatrick,
1 984:
2 07-222).
S amples a nd Methods A
s et
o f
P omona
s herds
w ere
e xamined
w ith
t he
S EM
i n
o rder
t o
c larify t he n ature o f t he a plastic m atter a nd v oids i n t hem a nd t o c ompare t hem t o a n u ndisturbed s ubsoil. A ll b ut o ne o f t he s herds a re f rom t he P omona c omponent a t s ite 1 4MM213, a t H illsdale L ake, i n e astern e rror
i s
K ansas. k nown
T his
i s
o ne
o f
t he
s ites
f or
w hich
i nter-observer
t o h ave b een a s evere p roblem w hen o ptical a nalysis w as
p erformed. T he s ingle e xception i s p eriod a ffiliation f rom s ite
a g ranite-tempered s herd 1 4M 1 1551, w hich i s a lso
8 6
o f W oodland l ocated a t
H illsdale
L ake.
I t
w as
i ncluded t o p rovide
a c omparison b etween t he
P omona s herds a nd a s herd k nown t o h ave b een p urposefully t empered. S ince g ranite i s n ot l ocally a vailable i n t he v icinity o f H illsdale L ake, i t w as a lso l ikely t hat t he v essel w as m ade e lsewhere a nd t hat t he p aste o f t he s herd w ould d iffer s omewhat f rom t he P omona p astes. T he s oil s ample c hosen f or e xamination i s a c lear e xample o f t he u ndisturbed f ormation o f p eds i n a s ubsoil c ontext. I t c onsists o f a p lug o f s oil t aken f rom t he m arrow c avity o f t he t ibia o f a w hite-tail d eer ( Odocoileus v irginianus). c omponent o f L ate A rchaic a ge
a t
T he b one i s f rom a N ebo H ill p hase s ite 1 4MM1C d ated t o 3 885 + /- 1 35
y ears B .P. ( UGa-4084) a nd 4 020 + /- 9 0 y ears B .P. ( UGa-4085). T he a nimal b one f rom t his c omponent h ad b een b roken, p ossibly f or m arrow e xtraction, a llowing i nfiltration o f s oil i nto t he m arrow c avity. I nside t he b one, t he s oil w as e xposed t o a pproximately t he s ame p rocesses t hat p roduce p eds i n n atural c onditions ( with t he e xception, of c ourse, o f t he p artial c hemical b uffering p rovided b y t he s urrounding b one). B locky p eds, v isible t o t he n aked e ye, w ere p resent b oth i n t he s oil f rom s urrounded t he b one. T wo
P omona
s herds
t he
w ere
m arrow
c avity
s elected
f or
a nd
i n
t he
c omparison
m atrix
w ith
t he
t hat
s oil
s ample. O ne w as i dentified a s h aving g rog t emper b y e xamination o f a f reshly b roken e dge w ith a 1 0X h and l ens. T he o ther w as t entatively i dentified b y s imilar e xamination a s h aving a b locky paste t hat r esulted f rom i nadequate m ixing. A lso
c hosen
f or
c omparison w ith
d aub f rom s ite 1 4MM213.
t he s ubsoil s ample w as a p iece o f
T he d aub o riginated f rom a h ouse i n t he P omona
c omponent. T he c lay f or t he d aub i s t hought t o b e d erived f rom a s hallow b asin-shaped p it i n w hich w ater w as a dded a nd t he r esultant m ud m ixed b y t rampling. S uch p its a re f requently a ssociated w ith P omona h ouses. I t w as e xpected t hat t he d aub w ould l ack a ny p ed s tructure, b oth b ecause o f i ts n ear-surface o rigin a nd b ecause o f t he m ixing i n t he p it. T wo P omona s herds w ere s elected f or e xamination o f t he f lat c ells. O ne, 1 4MM213-146, c ontains c ells t hat a re l ined w ith a l ighter-colored s ubstance t han t he s urrounding p aste. T he s econd s herd l acked a ny v isible l ining o f t he f lat c ells, b ut e xhibited s everal f errousm anganese o xide c oncretions a nd o ne r eadily v isible a ngular v oid. A ll o f t he s pecimens w ere b roken t o e xpose c ross-sections t hat h ad n ot b een s ubjected t o s oil a brasion o r p ost-excavation m odification. T hese w ere m ounted o n a luminum s tubs a nd c oated w ith a pproximately 2 00 A ngstroms
o f
g old
a n E TEC O mniscan e lectron m ode.
i n a s putter c oater. s canning
e lectron
T hey w ere
m icroscope
t hen e xamined u sing
( SEM)
i n
t he
s econdary
A nother 1 2 P omona s herds, a ll f rom s ite 1 4MM213, w ere p repared a s t hin s ections t o d etermine t he n ature o f t he l inings s een o n t he w alls o f s ome v oids. T hese t hin-sections w ere c ompared t o t hin s ections o f soil f eatures i llustrated i n s tandard m anuals ( Brewer, 1 964; F itzpatrick, 1 984). T he p reparation o f t hin s ections o f p otsherds w ithout t he l oss o f o riginal f abric, e specially v oid s paces, i s d ifficult a nd i s u nfamiliar t o m ost a rchaeologists. F or t his r eason,
8 7
t he p rocess u sed i s d escribed h ere i n d etail. B ecause
l ow-fired
s herds
a re q uite
s oft,
t hey m ust b e i mpregnated
w ith e poxy p rior t o g rinding. P etropoxy 1 54 r esin a nd c uring a gent w ere u sed. T he f ollowing r ecipe a llows f or t he p reparation o f a bout s ix s herds t hat a re 2 5 m m i n d iameter a nd r oughly 7 m m t hick. Amounts c an b e i ncreased p roportionately f or l arger n umbers o f s pecimens. P rocessing l arge b atches o f s pecimens r educes t he p reparation t ime p er s pecimen. T en m l o f P etropoxy 1 54 i s f irst h eated t o 1 00"C . T hen 1 00 m g o f P etropoxy 1 54 b lue d ye i s a dded. T he p urpose o f t he d ye i s t o a llow t he i nvestigator t o d istinguish b etween t he o riginal v oids i n t he s pecimen a nd a ny t hat m ight b e c reated d uring c utting a nd g rinding. T he r esin-dye m ixture i s t hen h eated i n a n o ven a t 1 30 C f or t wo h ours, w ith f requent s tirring. T he h eating a nd s tirring s hould c ontinue u ntil t he p owdered d ye i s c ompletely d issolved i n t he r esin. O nce t he m ixing i s c omplete, o ne m l o f P etropoxy 1 54 c uring a gent i s a dded, u sing a s yringe, a nd t he r esin i s s tirred f or 3 0 s econds. A s mall a mount ( 2-3 m l) o f i sopropyl a lcohol c an b e a dded t o t he m ixture t o d ecrease i ts v iscosity. T his w ill r educe p roblems w ith a ir b ubbles a nd w ill i ncrease t he d egree o f p enetration o f t he s pecimens. T o s aturate t he s pecimens w ith t he e poxy, a v acuum i mpregnator c apable o f d rawing 5 00 m m o f m ercury i s u sed. E ach s herd i s i mmersed i n t he r esin ( 20 m l p lastic c ups a re h andy f or t his) a nd p laced i n t he v acuum c hamber. O nce t he v acuum r eaches t he maximum l imit ( 550 mm o f m ercury i n t his c ase), t he p ump i s t urned o ff a nd t he s pecimens a re l eft i n t he s ealed c hamber f or f ive m inutes. A ir b ubbles w ill f orm a t t he s urface o f t he r esin. A fter t he f ive m inutes h ave p assed, t he c hamber i s o pened a nd t he l iquid s tirred g ently t o r emove t he b ubbles. T his p rocedure i s r epeated u ntil a ir b ubbles n o l onger f orm . T he s herds a re t hen p laced i n a n o ven f or o ne h our a t 1 30"C.
T his
h eat t reatment h ardens t he e poxy. L arger s herds, e specially t hick o nes, m ay r equire l onger h eating t imes. D epending o n t he p orosity o f t he s herds, s ome e xperimentation m ay b e n ecessary t o a chieve c omplete i mpregnation o f t he s herds. I ncomplete d osing m ay l ead t o t he f ormation o f a ir b ubbles w hen t he s herds a re a ttached t o t he m icroscope s lides, l eading t o p roblems d uring t he g rinding o f t he t hin s ections. U pon c ooling,
t he s herds a re g round f lat a long o ne e dge w ith a 6 00
g rit g rinding w heel. A t t his p oint i t w ill b e o bvious w hether t he s herd i nterior h as b een c ompletely i mpregnated. I f n ot, e poxy c an b e a pplied t o t he g round s urface a nd c hamber t o c omplete t he p rocess.
t he
s herd
r eturned
t o
t he
v acuum
I t i s u seful t o e xamine t he e dge o f t he g round s herd u nder a b inocular m icroscope e ven b efore m ore e poxy i s a dded. C areful s canning o f t he g round s urfaces d uring t his s tudy r evealed d etails o f t he f abric t hat m ight h ave b een m issed h ad m ore e poxy b een a dded a nd t he e dge r eg round. O nce a ny n eeded e poxy h as b een a dded a nd t he e dge r efinished, m icroscopic e xamination a lternating w ith g rinding w ill a llow t he i nvestigator t o c hoose f eatures o f i nterest.
a
c ross-section
8 8
t hat
c learly
r eveals
t he
s herd
O nce a s urface w ith f eatures o f i nterest h as b een e xposed, t he i s m ounted o n a p etrographic g lass s lide u sing t he s ame t en-to-
o ne m ixture o f r esin t o c uring a gent, b ut w ithout t he d ye. J ust e nough e poxy t o c over t he g round s urface s hould b e a pplied t o t he s herd p rior t o
p lacing
i ts
g round
e dge
d own
o n
t he
s lide.
( Too
m uch
e poxy c an
c rack t he s lide.) N ext, t he s lide a nd s pecimen a re h eated t o 1 00 - C o n a h otplate, a nd t he j unction b etween t hem i nspected f or a ir b ubbles. I t i s c ritical t hat s uch b ubbles b e r emoved b ecause t hey p revent g rinding o f t he s pecimen t o t he a ppropriate t hickness. R emoval i s a ccomplished b y a pplying p ressure o n t he s herd a nd b y s liding i t s lightly a cross t he s lide. W hen t he a ir b ubbles h ave b een r emoved, t he s eal b etween s pecimen a nd s lide i s h ardened b y p lacing t hem i n t he o ven a t 1 30 - C f or t hree h ours. A b utterfly s tyle p aper c lip c an b e u sed a s a v ise t o h elp e nsure a g ood b onding. T he s lides a re t hen r emoved a nd a llowed t o c ool. F ollowing t his, t he s herd i s c ut w ith a s aw o r g round o n a w heel t o a t hickness o f a pproximately 1 00 m icrons. T he s pecimen i s t hen g round t o t he s tandard 3 0 m icron t hickness f or t hin s ection a nalysis w ith 6 00 f aceting g rit o n a g lass p late. T he t hickness o f t he s ection i s c hecked u sing a p etrographic m icroscope w ith a s tandard c olor c hart.
R esults E xamination 2 a) s howed t he s eparated f rom
o f t he u ndisturbed p resence o f o ne a nother
s ubsoil
s ample w ith
t he
w ell-defined b locky p eds. b y c revice-like v oids, a nd
S EM
( Fig.
S ome m ost
w ere w ere
p enetrated b y s mall c ircular t o o val v oids 2 2 t o 1 34 m icrons i n maximum d imension.
t he
B oth t he s herd i dentified o ptically a s o ne i dentified a s h aving g rog t emper
h aving a b locky p aste a nd ( Fig. 2 b) w ere b asically
i dentical t o t he s ubsoil. I ndeed, c lose e xamination o f t he l atter l ed t o r eclassifying i t a s u ntempered, w ith a p oorly m ixed s ubsoil p aste. T he c revice-like b reaks b etween p eds w ere v isible i n b oth s herd s pecimens. S maller v oids i n a v ariety o f s hapes a nd s izes w ere a lso r ecorded. S ome w ere r ound t o o val, w hile o thers w ere i rregular i n o utline. T hese s pecimens w ere a lso c ompared t o t he d aub s amples a nd t he i ntentionally t empered s herd. T he d aub ( Fig. 3 a) i s d istinct i n a ppearance f rom a ll o f t he p ottery, e ven a t l ow p ower. I t l acks a ny s uggestion o f t he p resence o f p eds o r c oncretions. O nly a f ew s mall v oids a re p resent. I t i s g ranular i n a ppearance, a pparently a s a r esult o f t he p resence o f n umerous l oess g rains t ypically f ound i n n ear-surface z ones o f t he u pland s oils o f t he r egion. T he g ranite-tempered s herd ( Fig. 3 b) h as a p aste t hat i s s imilar i n g eneral t exture t o t he r est o f t he p ottery. I t l acks, h owever, a ny s ign o f p ed s tructure, c oncretions, o r f lat v oids.
T he t emper t ends t o
b e l arge i n c omparison t o t he i nclusions s een i n t he P omona s herds, t he p aste i s f ree o f a ll b ut l oess-sized i nclusions.
4 a).
a nd
M ost o f t he P omona s herds e xhibited a v ariety o f f eatures ( Fig. A s ingle b roken e dge m ight h ave c oncretions, p eds, f lat s mooth
a
Fig. 2 . a . U ndisturbed s ubsoil p eds, voids. S cale b ar = 1 000 m icrons. b . S cale bar = 5 00 microns.
9 0
s howing i nter- a nd i ntra-ped P eds preserved i n a P omona s herd .
a
F ig.
3 .
s ubsoil
a .
D aub
s ample,
f eatures.
s howing
S cale bar
a l ack o f
= 5 00
A q uartz c rystal i s a t b ottom S cale b ar = 2 00 m icrons.
m icrons.
c enter
9 1
i n
l arge b .
f ront
v oids a nd o ther l arge
G ranite-tempered o f
a f eldspar
s herd.
c rystal.
v oids, f lat i rregular v oids, s mooth r ounded v oids, a nd s mooth a ngular v oids. S ome v oids w ere l ined, w hile o thers w ere u nlined. C lose e xamination o f t hese u nder a v ariety o f m agnifications c larified t he o rigins o f s ome o f t he f eatures. A t c reated
l east o ne a ngular b y a s olid o bject
v oid w ith s mooth e dges ( Fig. 4 a:1) i n t he p aste a t t he t ime t he v essel
f ormed. T he o bject w as l ater r emoved, f iring o r b y l eaching a fter d eposition.
w as w as
e ither b y c ombustion d uring T hat t he v oid w as f illed a t
t he t ime t he v essel w as s haped i s e vident f rom t he d istortion o f a n a djacent f lat, i rregular v oid a round t he a ngular v oid ( Fig. 4 a:2). T he w alls o f t he v oid a re f lat a nd f eatureless, e ven u nder h igh m agnification, r endering i dentification o f t he p article i t c ontained a n i mpossible t ask. F lat, i rregular v oids ( Fig. 4 a:2, F ig. 4 b) m ay h ave b een f ormed b y t wo p rocesses. S ome a re s paces i n t he o riginal s ubsoil t hat w ere f lattened d uring t he s haping o f t he v essel w ith a p addle a nd a nvil. O thers m ay h ave b een c reated b y t he s trains r esulting f rom t he s haping p rocess. T hese v oids t end t o l ie p arallel t o t he s urfaces o f t he s herds, e xcept w here t hey a re a djacent t o s olid o bjects i n t he p aste. A t l ow m agnifications, t hey ( Fig. 4 a:4) a re r eadily m istaken f or t he f lat,
s mooth-walled c ells a pparently l eft b y l eached s hell t emper
( Fig.
4 a:3). A t h igher m agnifications w ith t he S EM, h owever, i t i s p ossible t o l ook d own i nto t he v oids a nd d istinguish t hese t ypes b y t he s moothness o f t heir w alls. T he v oids p resumably l eft b y l eached s hell t emper ( Fig. 5 a:2) h ave s mooth, f eatureless s ides, e ven a t v ery h igh m agnifications. T he f lat i rregular v oids, i n c ontrast, h ave s ides w hich r etain t he i rregularities o f t he o riginal s ubsoil v oids ( Fig. 4 b). S ome o ther f airly s mooth-walled v oids a ppear t o h ave b een c reated b y o rganic o bjects ( Fig. 4 a:5). T hey t end t o h ave r ounded e dges a nd a re c ircular t o e lliptical i n o utline. S ome a re l ikely t o b e m olds o f f ine r ootlets. A f ew ( Fig. 5 b) r etain w hat a ppear t o b e o pal p hytolith s tructures. A c opy o f F igure 5 w as e xamined b y P . T wiss ( pers. c omm .), w ho w as a ble t o i dentify t he s tructure i n t he v oid a s ap robable o pal p hytolith, b ut, b ecause o f t he d istortion p resumably c aused b y f iring o f t he v essel, c ould n ot d etermine m onocotyledon o r a d icotyledon. S till o ther v oids s ubstance t hat t ends t o p etrographic m icroscope l inings, w hich h ave l ow
w hether
i t
w as
d erived
f rom
a
( Fig. 4 a:6, F ig. 5 a:1) a re l ined w ith a d ense c harge u nder t he S EM b eam . E xamination u nder a i n t hin s ection i ndicates t hat t hese a re c lay c onductivity a nd h ence c harge r eadily. G iven
t hat t he s herds a re l ow-fired, i t i s c onceivable t hat s ome l inings w ere c reated a fter d eposition b y s oil f ormation p rocesses. O ther v oids.
T he
s herds l ining
( Figs. i n
4 a
a nd
5 a)
c ontain
b oth
l ined
a nd
u nlined
t hese c ases a ppears t o d iffer i n n ature f rom t he
a bove e xamples. T his m akes a p ost-depositional o rigin f or t hese l inings u nlikely. I t i s d ifficult t o c onceive o f s oil c onditions s uch t hat o ne v oid w ould b ecome l ined w hile a nother o f s imilar s hape a nd s ize o nly a m illimeter a way w ould n ot. I t i s m ore l ikely t hat t he v oids
h ave
b ecome
l ined p rior t o c ollecting
9 2
o f
t he
c lay
f rom t he
a
F ig.
4 .
a ngular v oids ( 7).
a .
( 5), S cale
( 1600X).
T ypical P omona s herd e xhibiting s ubsoil f eatures:
v oid
( 1),
i rregular
c utan-lined v oid bar
- 1 000
v oids ( 6),
m icrons.
( 2,
4 ),
s mooth
f lat
v oid
l arge ( 3),
o val
a nd f errous-manganese oxide c oncretion b .
I rregular v oid a t h igh magnification
S mall v esicles i n c lay matrix a re v isible a bove t he v oid.
S cale bar - 1 0 m icrons.
9 3
a
b
F ig.
5 .
a .
C utan-lined v oids
c utan h as b roken o rganic material.
( 1)
a nd s mooth v oid
( 2)
f rom w hich t he
a way. S cale b ar = 5 00 m icrons. b . V oid p roduced b y R emnants o f t he o rganic s tructure a re v isible i n t he
r ight-hand s ide o f t he v oid.
S cale b ar = 5 0 m icrons.
9 4
s ubsoil b y t he p otter. T he r eason f or t his b ecame s herds w ere e xamined i n t hin s ection ( see b elow).
c lear
w hen
t he
C oncretions, w hen v iewed i n c ross-section ( Fig. 4 a:7) a re s hown t o h ave a t exture v ery s imilar t o t hat o f t he s urrounding p aste. T his i s n ot s urprising, s ince t hey a re c omposed o f s ubsoil c lay p articles t hat h ave b ecome c emented w ith i ron a nd m anganese o xides. A ll b ut t he s mallest c oncretions a re r eadily s een w ith t he n aked e ye o r a l ow-power h and
l ens.
R eddish
t o b lack
i n
a re s hiny w hen f reshly e xposed.
c olor,
t heir o uter
s urfaces s ometimes
O n e roded s herd s urfaces,
h owever,
t he
c oncretions m imic g rog t emper, a nd e ven t heir r ounded s hape c annot d istinguish t hem f rom p ieces o f c rushed p ottery, t he o utlines o f w hich a re r ounded b y e rosion. I n t hin s ection, t he c oncretions t end t o b e m arked w ith c oncentric r eddish-brown i ron o xide s tains. A f ortuitous
d iscovery m ade w hile
m agnification ( 1600X) w as e vidence t hat t he p oint t hat t hey h ad b egun t o b loat w ere v isible o n b roken p aste s urfaces.
e xamining
t he v oids
u nder h igh
s ome s herds h ad b een h eated t o ( Fig. 4 b). S mall g as b ubbles T hese m ay b e d erived f rom t he
c ombustion o f m inute o rganic p articles w hich w ould h ave b een r emoved i f t he c lay h ad b een a ged p roperly. I f t he v essels h ad b een f ired a t h igher t emperatures, t he b loating w ould h ave w eakened t he v essel w alls t o t he p oint t hat t hey w ould h ave b egun t o f low, d istorting t he v essel s hape. T he s pecimens t hat w ere t hin-sectioned w ere e xamined w ith a b inocular m icroscope a fter o ne f ace h ad b een g round f lat. S ome s howed a v ariety o f t ypes o f c oncretions a nd v oids. A f ew o f t he v oids w ere s urrounded w ith d ark g ray paste t hat w as f ired i n a r educed s tate b ecause c ombustion o f o rganic m aterial i n t he v oid u sed u p t he a vailable oxygen. R educed c lay a round s ome v oids w as v isible o n o ne s pecimen p rior t o c oating w ith g old f or S EM e xamination. f eatures, h owever, w ere i nvisible i n t he S EM, s ince t hey i nvolve a ny a lteration o f t he t opography o f t he b roken e dge. O ne m istaken
s pecimen f or g rog
T hese d id n ot
( Fig. 6 a) c ontained f eatures t hat m ight r eadily b e t emper. T he p aste o f t he s herd i s n early f ree o f
s and, b ut a s tructure w ithin t he s herd c ontains a bundant f ine s and a nd a c oncretion ( that a lso c ontains s and). T he s tructure i s p robably a v ermiform, i .e. a f illed w orm c hannel, c ontaining m aterial t ranslocated f rom a nother s oil h orizon ( cf. F itzpatrick, 1 984: F ig. 7 .22). I n a nother s pecimen ( Fig. 6 b), s everal r egular v oids c ontained a w hite m ineral. D ilute h ydrochloric a cid w as a pplied t o d etermine w hether t he m aterial w as e ffervescent. S ince i t w as n ot, i t c annot b e m ussel s hell t emper. A dditional w ork w ill b e n eeded t o d etermine i ts c omposition. i n t he c enter w ith a c utan. t he p hotograph
T he s ame s pecimen c ontained v oids, s uch a s t he l arge o ne o f t he p hotograph ( Fig. 6 b), w hich w ere c learly l ined T he s maller, f lat v oids h ave s imilar l inings, v isible i n a s d ark g ray r ims.
E xamination o f t he s herds i n t hin s ection w ith a p etrographic m icroscope h elped t o c larify s ome o f t he f eatures i n t he p aste. I dentification o f t emper a nd i nclusion m inerals i s s traightforward w ith t he p etrographic m icroscope. F igure 7 s hows a s herd t hat i s t empered w ith f ine q uartz s and a nd t hat h as s mooth, f lat v oids a s i nclusions.
9 5
F ig. 6 . a . O ptical m icroscopic v iew o f t he c ross-section o f a s herd t hat c ontains a v ermiform, t he c ontents o f w hich c ontain f ine s and. T he r ounded e dge o f t he v ermiform d istinguishes i t f rom Z g rog. S cale b ar = 3 mm . b . O ptical m icroscopic v iew o f t he c ross-section o f a s herd w ith a v ariety o f v oids l ined w ith c utans. T he l ining o f t he l arge v oid i n t he c enter i s r eadily v isible b y c olor d ifferences b etween i t a nd t he s urrounding p aste. S cale b ar = 3 mm .
9 6
F ig.
7 .
T hin-section
v iew
o f
a s and-tempered
s herd
t hat
c ontains
s mooth f lat v oids a s i nclusions. A t hin, d ark l ining o f o rganic m aterial c oats t hese v oids. T he l ining i s m ost a pparent a long t he t op o f t he l owest v oid i n t he p hotograph. S cale b ar = 2 m m.
9 7
T he s mooth f lat v oids i n t his s herd h ave a t hin, d ark l ining, a pparently m ade u p o f a n o rganic m aterial. I rregular v oids i n t he s ame s herd d o n ot e xhibit t his l ining. S ince t he i rregular v oids a re e ither i nter-ped v oids o r p roducts o f t he p rocess o f m anufacture, t his i s a c lue a s t o t he s ource o f t he l ining m aterial. W hen b oth u nlined a nd l ined v oids a re i nterspersed i n a s ingle s herd, t hey h ave b oth b een e xposed t o t he s ame e nvironment o f d eposition. I n t his c ase, i t i s s afe t o c onclude t hat t he m aterial f orming t he l ining o f s ome o f t he v oids m ust b e d erived f rom t he p articles t hat f ormed t he v oids. T hus, t he o rganic l ining s een i n t he r egular v oids i n F igure f rom a n o rganic m aterial t hat o nce f illed t hem .
7 m ust
d erive
T he p rocess o f f orming t he v essels w as a lso c lear i n t hin s ection. T he c lay particles i n t he P omona s herds w ere m oderately t o h ighly a ligned w ith t he s urfaces o f t he s herds. T he o rientation o f c lay p articles c an b e o bserved w hen t he t hin s ections a re o bserved u sing c rossed p olarizers. I f a q uartz p late i s a dded, t he o rientation i s a pparent i n c olor c hanges t hat o ccur w hen t he m icroscope s tage i s r otated. T he m oderate t o h igh o rientation o f t he c lay a pparently i s t he r esult o f u se o f t he paddle a nd a nvil m ethod o f s haping t he p ots ( J. G undersen, p ers. c omm). S uch s trong a lignment i s n ot a pparent i n a s eries o f M iddle W oodland p eriod v essels a vailable.
f or w hich
t hin
s ections w ere
O ne s herd t hat c ontained h ighly a ligned c lay p articles a lso c ontained a p ed. S ince t he p ed d id n ot d issolve d uring t he m ixing o f t he p aste, t he c lay p articles i n i t d id n ot h ave a c hance t o b ecome a ligned d uring m anufacture o f t he v essel. W hen t he m icroscope s tage w as r otated, t he p ed r emained t he s ame c olor, w hile t he s urrounding paste c hanged c olors. T his p rovides a n a dditional m eans o f d istinguishing p eds ( which w ill n ot h ave a ligned c lay p latelets) f rom g rog t emper ( which w ill r etain i ts o riginal o rientation, e ven t hough t his s hould b e d ifferent f rom t hat o f t he s urrounding p aste).
C onclusions E xamination o f
P omona s herds w ith t he S EM p rovides s trong s upport
f or t he h ypothesis t hat t hey w ere m ade f rom s ubsoil c lays. T he b ulk o f P omona c eramics a ppear t o b e u ntempered. T he n umerous i nclusions i n t hem a re a lso p resent i n t he c lay-rich s ubsoils o f t he O sage C uestas p hysiographic p rovince. B ecause t he c lays w ere n ot g round o r w ere o nly p oorly g round p rior t o u se, s ubsoil p eds, c oncretions a nd v oids w ere f requently p reserved i n t he p ottery. V essels m ade f rom c lay t hat w as m ixed o nly m inimally a re o ften i dentified a s h aving g rog t emper. S herds t hat c ontain a l arge n umber o f f errous-manganese c oncretions a re l ikewise o ften m isidentified. S ome v oids c ompressed d uring m anufacture a re s imilar i n a ppearance t o v oids l eft b y l eached s hell t emper. S ome v oids a ppear t o h ave b een p resent i n t he s ubsoil; o thers may b e p roduced d uring t he m anufacturing p rocess. A rgillic c utans i n s ome v oids mimic s hale p articles. A nalysis o f P omona c eramics h as b een c omplicated b y t he c onfusion o f t hese i nclusions w ith t he g rog, s hell a nd o ther t rue t empers t hat a re o ccasionally f ound i n s herds f rom s ome P omona s ites.
9 8
B ecause
t he
s ubsoil
c lays
w ere
t he paste i s r ich i n o rganics. a reas
o f
v oids. t he
c lay
s urrounding
v oids
l eaving r educed
o r o rganic l inings o n t he w alls o f t he
M ore g enerally d istributed m inute o rganic particles i mbedded i n
c lay
c aused
t emperatures. t han
n ot a ged prior t o u se i n c eramics,
L arge particles b urned,
b oth
t he
c lays
t o
P omona pottery,
e arlier
a nd
l ater
b loat
i f
t hey
w ere
f ired
a t
h igh
t hus f ired a t l ow t emperatures i s s ofter
c eramics f rom t he s ame r egion t hat c ontain
t rue t empers. P omona
c eramics
may
b e
s een
a s
a n
a daptation
t o
a particular
e nvironment. T he c lay r ich s ubsoils o f t he O sage C uestas province c ontain n umerous i nsoluble t o partly s oluble particles t hat precluded t he
n ecessity
o f
t empering
t he
c lay.
I ndeed,
i n o rder
t o
r etain
t he
particles, processing t he c lay p rior t o u se w as n ot o nly u nnecessary, b ut h ad t o be a bandoned. T his, i n t urn, mandated a l ow f iring t emperature. t ypes,
T he
n umerous,
e specially
r esult,
o n
t he
a rchaeologists
v aried
e roded
i nclusions
s urfaces
a ccustomed
t o
o f
m imic
various
l ow-fired
l ooking
f or
t emper
s herds.
A s
a
t emper h ave b een
l ed
c an b e m istaken
f or
a stray.
Future Work While t hose w ith
t his
l eft by s hell
s tudy
h as
l eached
t emper
s hown
s hell
must
b e
t hat
t emper, d one
s o
o ther voids
more
work
i s
n eeded.
t hat
t he v oids
E xperiments
c reated w hen
s hell
t emper i s l eached f rom pottery c an b e c haracterized p recisely e nough t o d etermine t his t he
which
way. O sage
t he
C uestas
e xamination
o f
c omposition mapping
o f
S tudies
o f
t he a n
voids
s amples
a re
t hese
w ould b e
f lat
o f
a lso
s ubsoils f eatures
i n
P omona pottery w ere produced
f rom t he
a rgillic
n ecessary. a re
n eeded
s een
a ppropriate
i n
B oth t o
h orizons
s oils
t hin-section
d ocument
P omona
o f
i n o f
a nd
S EM
t he p resence
a nd
p ottery.
S EM
a nd
X -ray
s trategy f or i dentifying i nclusions
i n
b oth t he s ubsoils a nd t he pottery.
Acknowledgements D r.
P age
i dentified James w ith
T wiss
t he
G undersen t he
. (Kansas
s tructure ( Wichita
t hin-section
i n
S tate t he
S tate
a nalysis
U niversity) void
a s
U niversity) a nd
e xamined F igure
a possible
5 b a nd
phytolith.
D r.
k indly provided a ssistance
i dentification
o f
various
f eatures
s een i n t he t hin s ections.
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3 01-356.
B lakeslee,
U niversity o f N ebraska, D .J.
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R ohn,
A .H.
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U npublished
F enneman, N .M. 1 931. M cGraw-Hill, N ew York.
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S tate
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C arnegie I nstitution o f Washington. S oil
C onservation
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C lassification
S ervice. f or
1 975.
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C onservation
S ervice.
S oil
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Taxonomy:
I nterpreting N o.
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S urvey
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D epartment o f Agriculture, Washington,
W ilmeth,
R .
1 970.
T .
1 967.
N ewsletter 1 2 Witty,
T .
( 9):
1 981.
Archaeologist 4 2:
T he P omona f ocus.
U .S.
J ohnson
No.
5 ,
C ounty,
D .C.
Excavations i n t he P omona R eservoir.
H istorical S ociety, Anthropological S eries,
S ystem o f
S urveys.
Washington, D .C .
K ansas.
Witty,
a B asic
S oil
T opeka,
Kansas S tate Kansas.
K ansas Anthropological A ssociation
1 -5. T he
P omona
f ocus,
7 7-84.
1 00
k nown
a nd u nknown.
The M issouri
P ART I V :
STONE ART IFACTS AND M INERALOGY
1 01
Q UARTZ G RAINS S TUDIES: E NVIRONMENTAL R ECONSTRUCTION F OR ARCHAEOLOGISTS B Y S CANNING E LECTRON M ICROSCOPY P .A . B ull a nd A .M . M agee
S ummary S canning e lectron m icroscope f rom
a rchaeological
s ites
c an
( SEM)
t hrow
a nalysis o f q uartz g rains t aken
m uch
l ight
u pon
t he
p roblematic
g eologic l ayers b arren o f a rtefacts a nd o ther k inds o f s edimentary e vidence. S EM a nalysis c an i dentify p alaeoenvironmental h istories o f t he m aterial a nd i ndicate t heir p rovenance a nd p alaeoenergy c onditions o f e mplacement. A c ase s tudy o f T abun C ave, M ount C armel, I srael i s p rovided a s a n e xample o f S EM r econstruction t echniques.
I ntroduction I n
r ecent
y ears
a rchaeologists
h ave b egun
t o
t ake v ery t entative
s teps t owards q uartz g rains s tudies b y S EM i n o rder t o r econstruct p ast e nvironments S weitzer, c ave
i n
1 975;
s equences
e ssentially
a rchaeological
s ites
a nd M eie e t a l., s uch
a s
g eologic
t hose o f s ites
( e.g.
1 981). t he
w hich
T ankard,
1 974;
T ankard a nd
T hese s ites r ange f rom c lassic
P eking M an c ontain
s ite
( Zhoukoudian)
m inimal
t o
a rchaeological
m aterial. T he p roblems w hich e xists f or t hese a rchaeologically-trained S EM " beginners" i s, o n t he f ace o f i t, q uite d aunting. T here a re o ver s even h undred published p apers o n t he u se o f t he S EM a s a t ool i n e nvironmental d iscrimination ( see B ull, 1 981; K rinsley a nd T rusty, 1 986; B ull e t a l., 1 987). W ith s ome o f t he papers, a t l east, t here i s t estimony t o i nadequate t raining a nd g rasp o f S EM r ationale. T hese p ublished " red h errings" s erve t o c onfuse r ather t han h elp r eaders. A s a r esult o f t his l iterary m ine-field, t his paper i ntends t o s et o ut a s s imply a s p ossible s ome d o's a nd d on'ts o f s ample c ollection, p reparation a nalysis a nd i nterpretation p rocedures w ith p articular r eference t o a rchaeological p roblems. I t
i s
p erhaps
t o t he
a dvantage o f a rchaeologists t hat m any o f t he
p roblems i n S EM i nterpretation o f q uartz g rains h ave a lready b een s orted o ut. F rom t he e arly d ays i n t he 1 960's w hen i t w as p ossible t o e xamine b ut a f ew g rains, p hotograph t hem i n t he S EM a nd t hen p ublish t he r esults, w e h ave n ow m oved i nto a m ore s cientific m ethod o f e nquiry. S o l ong a s t he r ecord i s p reserved o n t he s urface o f t he g rains t o b e e xamined, i t i s n ow p ossible t o r econstruct i n g reat d etail t he p alaeoenvironmental h istory o f a s ample. T his i s o f p articular i nterest t o a rchaeologists w ho, w hen e xamining s edimentary l ayers, o ften d esignate t hem " barren" o f a rchaeological a rtefacts. I f t hese l ayers c ontain q uartz s and g rains, i t i s p robable t hat t hey a re o f m ore v alue i n e nvironmental r econstruction t han t he a rtefacts t hemselves. I t i s i mportant t o r emember t hat w e c an o ften t ell m ore f rom t he b its o f s ediment w hich a rchaeologists t hrow a way t han t hey c an f rom a rtefacts w hich t hey k eep a nd s tudy i ntently. I t i s n ot j ust a c ase o f t hrowing t he b aby o ut w ith t he b ath w ater; i t i s r ather t hat t he
b ath
w ater
c onjunction
w ith
w as
n ever
o ther
c ollected
m ore
i n
s tandard
1 03
t he
f irst
p lace.
a rchaeological
U sed
i n
i nvestigation
t echniques, t he S EM c an p rovide r econstruction o f p rehistory.
a m ost
p owerful
a djunct
t o
t he
T he b asic r ationale o f t he t echnique i s q uite s traight f orward. Q uartz g rains, w hich h ave b een w eathered a nd e roded f rom t heir p arent r ock, a re o ften t ransported o n t heir j ourney u ltimately t o t he s ea b y a n umber o f d ifferent m odes o f t ransportation. S uch m odes i nclude t ransportation b y g laciers, r ivers, a nd w ind. E ach o f t hese d ifferent m odes o f t ransportation m ove g rains i n a d ifferent m anner. G laciers, f or e xample, m ove m aterial b y g rinding a nd c rushing; h ence t he g rains t end t o e xhibit v ery s harp e dges a nd h igh r elief ( Fig. 1 ). A ssociated w ith t his g rinding a ction, g rains o ften e xhibit s urfaces w hich a ppear t o h ave b een s cratched a nd c rushed, a nd g enerally s how m uch d isruption. Q uartz g rains w hich h ave b een t ransported b y f luvial a ction, o r i ndeed b y s ub-aqueous a ction s uch a s m ovement i n t he s ea, s how s urfaces w hich h ave b een g enerally r ounded; e dges a re v ery o ften a braded a nd t he g rain s urface o ften e xhibits u biquitous d isoriented V -pit s tructures ( Fig. 2 ). T hose g rains m oved b y a eolian t ransportation s how b roadly s imilar f eatures o f r educed r elief a nd d ulled e dges. T his i s, o f c ourse, b ecause t he m echanism o f t ransportation b y r olling a nd b ouncing t he g rains i s r oughly t he s ame a s t hat o f s ub-aqueous t ransportation, a lthough t he m edium o f t ransport i s d ifferent. T he m ost c haracteristic f eatures f ound o n t he s urfaces o f q uartz g rains w hich h ave b een m odified b y a eolian a ction a re: d ish-shaped c oncavities ( Fig. 3 ) a nd c rescentic i mpact p its. I t i s p erhaps i mportant t o n ote h ere t hat w hilst p articular t ypes o f s ediment t ransport c an i mpart f eatures o n t he s urface o f q uartz g rains t hat a ppear u nique t o t hat e nvironment, w e a re i n f act d ealing w ith " sets" o f e nergy c onditions w hich t hemselves m ay
b e
c haracteristic
o f
t hat
e nvironment.
T his
i s
n ot
a p edantic
point s ince e nergy c onditions n eed n ot a lways b e u nique t o o ne p articular t ype o f t ransportation. I t i s c rucial t herefore t o s eek o ther l ines o f c orroborative e vidence s uch a s s edimentary s tructures a nd g rain-size d istributions a nd n ot i ndicator o f a ny particular e nvironment. O ne
o f
t he
g reat
a dvantages
o f
u se
t he
S EM
a s
i nvestigating
a
q uartz
o ne
s tep
s urface
t extures i s t hat q uartz i s a v ery r esistant m ineral. I t c an o ften p ass t hrough a l arge n umber o f d ifferent e nvironments, e ven d uring o ne s edimentary c ycle. I t i s p ossible t herefore, t o e nvisage a s ituation w here i t m ay b e possible f rom t he c ombination o f t he t extures o n t he s urface o f
g rains,
t o
i dentify a c omplex p alaeo-history f or t he g rain.
A g rain m ay s tart i ts l ife i n a M illstone G rit o utcrop, b e w eathered a nd e roded b y a g lacier d ownstream a nd w hen t he g lacier m elts, b e d eposited i n a s oil s equence, w here i t i s l ater e roded b y a r iver, t ransported t o t he s ea, a nd u ltimately t hrown u p o nto a d une r idge o r s torm b each. T his r idge m ay t hen b e s ubmerged a nd l ater i nvestigated v ia a b orehole s unk o n t he s hore. S EM t echniques c an b e u sed t o r econstruct t his h istory ( Bull l nd C ulver, 1 980). I t
i s
a lso
e qually
p ossible
t o
r econstruct
t he
e nvironmental
h istory o f a s and g rain t hrough a n umber o f d ifferent s edimentary c ycles. Q uartz g rains l aid d own i n a d eposit t hat i s u ltimately l ithified t o a s andstone, w ill c ontain s urface f eatures w hich a re r epresentative o f t he t ransportation m echanisms p rior t o l ithification o f t hat r ock. W hilst, o f c ourse, t his c an c onfuse p resent d ay a nalysts w ho
i nvestigate
t he q uartz
g rains
t hat h ave n ow b een r emoved f rom t hat
1 04
F ig. i n
1 .
S EM photomicrograph o f q uartz g rain t aken f rom a g lacial s nout
Kashmir,
f ractures,
F ig.
2 .
S wansea,
I ndia.
N ote
t he
s harp
s mall a dhering particles,
S EM photomicrograph Wales.
N ote
g enerally w ell-rounded,
t he
e dges,
h igh
r elief,
c onchoidal
a rc-shaped s teps a nd s cratches.
o f a q uartz g rain t aken f rom C aswell B ay, ubiquitous
l ow r elief g rain.
1 05
n on-oriented
V -pits
C ompare w ith F igure
upon 1 .
a
F ig.
3 .
S EM p hotomicrograph o f
d esert. T he g rain i s d ish-shaped c oncavities.
a q uartz g rain
w ell-rounded,
1 06
e xhibits
f rom t he S audi A rabian l ow
r elief
a nd
g entle
r ock b y w eathering p rocesses, g eologists c an u se t he p alimpsest o f s urface t extures t o i ndicate f rom w hich r ock b ody t his p articular m aterial h as b een d erived ( Scholle a nd H oyt, 1 973; C och, 1 975). N ot o nly, t herefore, c an p alaeoenvironmental h istories b e r econstructed f rom t he s and g rain s urfaces, b ut i n c ertain i nstances w e c an a lso i dentify provenance. Examples of b oth p alaeoenvironmental r econstruction a nd p rovenance s tudies a re d etailed l ater i n t his p aper.
S ample C ollection a nd P reparation T he m ost p owerful u sage o f t he S EM t echnique i n e nvironmental d iscrimination f or a rchaeologists, i s t hat o f s ection a nalysis. T his i s w here s amples a re t aken s equentially t hrough a v ertical s ection, o r t hrough c hronostratigraphically d istinct l ayers. T he a dvantage o f s ampling i n t his m anner i s t hat a ny g ross d ifferences i n t he l ayers c an b e a ttributed t o c limatic o r e nvironmental c hange. I f t his S EM a nalysis i s a llied t o s ome g eochronometric d ating t echnique s uch a s U ranium/Thorium d ating, d etailed i nterpretations o f t he e nvironment ( involving b oth c limate a nd m odes o f s ediment t ransport) c an b e a scribed a n a ctual d ate. I t
i s m ost
i mportant
t o
f ollow t he c orrect l aboratory p reparation
t echniques f or t he s ediment, s ince i t i s p ossible t o i ntroduce i nadvertent o perative b ias i n b oth t he c leaning a nd s election o f q uartz g rains f or S EM a nalysis t hat w ill p rejudice t he f inal r esults. T o i nsure m eaningful i nterpretation o f t he q uartz s ediment, a t l east 3 0 t o 5 0 g rains m ust b e a nalysed ( Tovey a nd W ong, 1 978). T hese g rains m ust b e p icked f rom t he r esidue o f t he t reated s ediment. F irstly, f ive g rams o f t he r aw s ample s hould b e b oiled i n 1 0% h ydrochloric a cid f or 2 0 m inutes a nd t hen t horoughly w ashed i n d istilled w ater. T o t he s ediment i s t hen a dded d ilute s odium h exametaphosphate ( Calgon s olution). T he m ixture i s t hen s haken a nd w ashed i n m ore d istilled w ater. I f t he g rains a ppear p articularly r ed i n c olour, i t i s l ikely t hey a re c oated w ith i ron o xide. T his c an b e r emoved b y b oiling t he m aterial i n a s tannous c hloride s olution f or 2 0 m inutes. F ollowing f urther w ashing i n d istilled w ater, t he s amples a re t hen a ir-dried o r g ently o ven-dried a t l ess t han 4 0"C. F rom t he r esidue, b etween 3 0 t o 5 0 q uartz g rains s hould b e s elected ( see B ull, 1 978) a nd m ounted o n s pecimen s tubs s uitable . for t he p articular S EM b eing u sed f or t he a nalysis. B efore m achine a nalysis, t he s tubs s hould b e c oded, p referably b y s ome p erson o ther t han t he S EM r esearcher. T his d ouble b lind t est e nables a ccurate a nd c onfident p redictions t o b e m ade a t t he i nterpretive s tage w hen a ll t he s amples h ave b een a nalysed. T he g rains m ounted o n t he s tub a re t hen s putter-coated w ith a t hin l ayer o f g oldp alladium o r c arbon. D uring S EM v iewing i t i s m ost i mportant t o u tilize t he t ime o n t he m achine t o t he f ullest. T his n ormally i nvolves s ome f orm o f c heck l ist o f f eatures. T here a re p erhaps s ome 5 0 o r m ore t extures t hat h ave b een r ecognized, a lthough f or a ny p articular s ample i t i s u sual t hat o nly t he p rimary 3 0 o r s o b e i nvestigated. T able 1 p resents s ome s urface f eature c ategories t hat a re c ommonly f ound o n s and g rains. T hey a re d ivided i nto t he m echanical f eatures, m orphological f eatures, a nd c hemical f eatures. T he m echanical f eatures i nclude m odifications s uch a s g rain b reakage, e dge a brasion, c onchoidal f ractures, s tepping,
1 07
s triations a nd g rinding f eatures. T hese a lterations m ay h ave b een f ormed b y t he l ast t ransport m echanism ( e.g. w ater, w ind o r g lacier), o r m ay i ndeed b y i nherited f rom a p revious c ycle o f s edimentary e rosion. I t i s a lways i mportant, h owever, t o a scertain w hether t he t extures d erive f rom t he f irst c ycle q uartz, t hat i s q uartz t hat h as c ome f rom a n earby g ranitic s ource. T here h as b een m uch c onfusion i n t he p ublished l iterature c oncerning t he d ifferentiation b etween f irst c ycle q uartz t extures a nd t hose d erived f rom g lacial g rinding. T he r eader i s u rged t o c onsult t he f ollowing r eferences f or c larification ( Krinsley a nd T akahashi, 1 962; K rinsley a nd D onahue, 1 968; M argolis a nd K ennet, 1 971; K rinsley a nd D oornkamp, 1 973; W halley a nd K rinsley, 1 974; E yles, 1 978). T he m orphological s urface f eature c ategories l isted i n T able 1 g ive s ome i ndication o f t he r oundness, a ngularity, a nd g eneral r elief o f t he s urface o f t he g rain. T hese c ategories c an b e a ltered a s r equired. T he c hemical f eatures a re m ore v aried a nd i nclude b oth p recipitation a nd s olutional f eatures. M any o f t hese c hemical f eatures h ave r ather e xotic n ames, i ncluding s caling, c arapace, e uhedral c rystals, c hattermarks, d ulled s urface, a nd a nastomosis. T he r eader i s u rged t o c onsult K rinsley a nd D oornkamp's
( 1973) e xcellent a tlas.
F or l aboratory a nalysis, T able 1 w ould i nclude t he t extures a s s et o ut i n t he h orizontal r ows. H owever, t he v ertical c olumns c omprise 3 0 t o 5 0 b oxes, e ach o f w hich r epresents o ne g rain t o b e a nalysed. T able 2 , however, c ontains a gglomerated s urface f eature p ercentages, p ortrayed i n a v isual m anner. U sing s uch a d ata p resentation f ormat, m any t housands o f o bservations c an b e p rovided i n o ne d iagram . I ndeed t he s urface f eature d iagram p resented i n G oudie a nd B ull ( 1984) c overs one page, y et s uccinctly s ummarizes s ome s eventy-six t housand o bservations. N ot o nly i s t he e ditor k ept h appy b y s uch b rief p resentation b ut t he p ublication o f s uch d ata p rovides f or l ater r ee valuation b y o ther r esearchers. T ogether w ith t he S EM m icrographs a nd l aboratory n otes, e ven t he m ost d etailed a nd s eemingly u nimportant m aterial c an b e p rovided f or l ater a nalyses. T his e nsures, w hen a v aluable a rchaeological s ite i s s ampled, t hat t he d ata c ollected c an b e r ecorded f ully a nd p ublished.
I nterpretive P rocedures O nce t he l aboratory a nalysis h as b een c ompleted a nd t he c heck-list ( Table 2 ) h as b een c ompiled, i nterpretation o f t he r esults c an b e u ndertaken. T able 2 p rovides d etail o f a nalyses c arried o ut o n a s et o f s amples t aken i n s ection t hrough T abun C ave, M ount C armel, I srael a nd w ill b e u sed t o i llustrate t he i nterpretive t echnique. T he t able p rovides f ine d etail o f s ome 4 2,500 o bservations a nd m easurements, y et a llows u p-section v ariation i n e nvironmental h istory t o b e p lotted. T abun C ave w as i nitially e xcavated b y G arrod a nd B ates ( 1937) t o a d epth o f 1 6 m etres. T hey i dentified s even c ulturostratigraphic l ayers b ased p rimarily o n a rchaeological e vidence. T he s ampling u sed f or t his a nalysis w as u ndertaken b y G oldberg f rom J elinek's ( 1981) e xcavations a nd i s b riefly d escribed i n B ull a nd G oldberg ( 1985). T able 2 p rovides 2 5 s ample l ayers w hich c orrespond t o G arrod a nd B ates' ( 1937) s tratigraphy
i n
t he
f ollowing
m anner
1 08
( Bull
a nd
G oldberg
f irst):
Table t he
1 .
T ypically u sed
c ategories
a re
t o
S EM t he
" score
c hart".
r ight,
w hilst
r epresents e ach g rain i n t he s ample.
3 4 . C ha t te rma rks 3 .E uhed r a ls i l ca 3 2 .A mo r phous p t . ( s i l i c a ) 3 1 .C a rapac e 3 0 .S ca l ing 2 9 .S o lu t ion c r evas se s 2 8 .S o l u t i on p i t s 2 7 .D u l l ed s u r fa ce 2 6 .A na s t omos i s 2 5 .O r i en ted e t ch p i t s 2 4 . H i gh r e l ie f 2 3 .M ed ium r e l i e f 2 2 . L ow r e l i e f 2 1 .A ngu l a r 2 0 .S ubangu l a r 1 9 .S ub rounded 1 8 .R ounded 1 7 .D i sh shaped c o ncav i t i es 1 6 .M echan i ca lV p i t s 1 5 .C u r ved s c r a t che s 1 4 . S t r a igh t s c r a t ches 1 3 .M eande r ing r i dges 1 2 . F r a c tu r e p l a t es 1 .A dhe r ing p a r t i c l es 1 0 .I mb r i ca t e g r ind ing 9 .P a ra l le l s t r ia t ions 8 .A r cua t e s t eps 7 .S t ra igh ts t ep s 6 .C oncho ida l s (> 10 p ) 5 .C on cho i da l s ( 10 p ) 3 .B r eakage b l ock s( < 10 p )
S u r f a c e f e a t u r e c a t e g o r i e s
2 .E d ge a b r a s i on 1 .C omp l e t e g r a in b r eakage
J a qwnu a l dw es
1 09
T he t he
s urface f eatures a nd t op
r ow
o f
n umbers
Table i n
2 .
S urface
T abun
C ave,
percentage presence
f eature
Mount
s ummary c hart f or a s ection t hrough d eposits
C armel,
I srael.
E ach
box
c ontains
a c onverted
( summarized i nto c lasses b y g raphical r epresentation)
or
a bsence
o f
s urface
f eature
c ategories
i dentified
o f t he f rom
5 0
grains p er s ample.
1 3
3 3 .E u hed r a ls i l i ca
3 1 .C a rapac e
l if 0
0
3
•
M I
0
N I
D D
3 0 .S ca l ing 2 9 .S o lu t ion c r evas se s
1 3
2 8 .S o l u t i on p i t s
O
2 7 .D u l l ed s u r f ace
0
I
o p• . D 1 3
2 6 .A na s t omos i s 2 5 .O r i en ted e t ch p i t s
E l
2 4 .H i gh r e l ie f
•
2 3 .M ed ium r e l i e f
B
2 2 . L ow r e l i e f
D
2 1 3
-
3
•
. 1P t irow e
4
•
.
2
5
1 93
. ,••• ••
•••e s ., • •• ••• ‘ . . . . . . -,0 4 2 .7 . z ie s, _ •,'4 t r . eej . . 1 l e *" 4 8 7 .5 rti t* 4
: f te . " = P i..
t :
S i
P late 2 . Fig.
7 .
S tratum
T ransverse 3 a t
phloem i sland Fig.
f racture
S iphiso, ( top,
s howing
l eft);
o f
C ombretum
t hick-walled,
a piculatum o val,
c harcoal
f rom
s olitary v essels a nd
x68.
8 .
T ransverse
f racture
o f modern,
9 .
Tangential
l ongitudinal
c harred
C ombretum a piculatum;
x68. F ig.
h eterophylla, Fig.
1 0.
T ransverse
s howing
g elatinous
between
t he
o uter; Fig.
f racture
o f modern,
c harred M aytenus
s howing c rystals i n r ay parenchyma c ells; f racture f ibres.
t hick,
i nner
o f
modern,
I n
t hese
wall
l ayers
x 268.
c harred D ichrostachys c inerea,
f ibres, w hich
t here h ave
i s
a l arge
s eparated
s pace
f rom
t he
x 535.
1 1 I nter-vessel p its
s howing
r emains
o f
i n l egume c harcoal f rom S tratum 3 a t S iphiso,
l ignin-rich
v esturing
a round
f racture
Androstachys
t he
p it
a perture;
x 2135. Fig.
1 2.
T ransverse
S tratum 5 a t S iphiso,
o f
j ohnsonii
c harcoal
f rom
s howing h omogenisation o f i nter-cellular material
w ith r esultant l oss o f s tructural d etail; x 268.
1 94
1 95
TABLE 1 .
C harcoals f rom S iphiso.
STRATA
APPROXIMATE DATE
TOTAL NO.
% LEGUMES
FRAGMENTS
( MIMOSOIDEAE)
% C OMBRETUM APICULATUM
1 +2
l ast
1 00 yrs.
2 61
4 2.9
2 7.6
3
Late Holocene
1 34
4 7.8
2 6.9
4
Mid Holocene
9 1
5 0.5
2 2.0
5
Early Holocene
1 19
6 3.0
1 0.1
TABLE 2 .
Fuelwoods Represented a t S iphiso.
S PECIES RANKED I N ORDER
DENSITY
OF DECREASING DENSITY
VALUES G .CM.
% F IBRE WALL *
CALORIFIC VALUES KG.G.
3
D ICHROSTACHYS C INEREA
0 .88
5 2.9
ACACIA CAFFRA ( D)
0 .70
6 0.2
ACACIA CAFFRA ( M)
0 .68
4 9.4
COMBRETUM API C ULATUM
0 .68
4 0.5
ACACIA KARROO
( D)
0 .66
5 8.3
ACACIA KARROO
( M)
0 .66
5 0.6
1
2 0.7
1 8.6
ACACIA N IGRESCENS
( D)
0 .64
5 5.8
ACACIA N IGRESCENS
( M)
0 .62
4 2.7
2 0.3
0 .52
3 4.0
1 9.3
ACACIA TORTILIS D =Drier Provenance M=Moister P rovenance
* =Average a rea of f ibre wall x % total f ibres microscope f ields.
1 96
i n a t l east 5 0 high power
s imilar Many
s ituation
c harcoal
c ellular
s eems
t o
f ragments
s tructure
a nd
h ave
o btained
s howed s ince
c harred
c harred
f ungi must b e i n primary d eposition. o ften
f orm
s tructure
part may
o f
t he
n ot
c harcoal
b e
f ully
a t
S iphiso
f ungal
w ood
i s
i n
hyphae
t otally
p ast
t imes.
w ithin
t heir
i norganic,
t he
S mall t wigs, presumably k indling,
s pectra
a nd
d eveloped
t hough
( Jane,
t heir
1 970),
a natomical
t his
d oes
n ot
g enerally preclude s ecure i dentification. M uch
i nformation
c oncerning
t he
c harring
r egime
u sed
o n
a ncient
s ites c an b e g ained f rom a c omparative s tudy o f e lectron m icrographs o f a ncient
material
a nd
k nown c onditions. wood w as s tate
t hose
f rom
p ublished b y B eall
t hat
polymers,
o n
c harring,
w hich
s imilar
modern
w oods
c harred
u nder
A c omprehensive r eview o f t he t hermal d egradation o f
d egrade
a nd E ickner
w ood
a t
( 1970).
b ehaves
d ifferent
a s
S locum e t a l.
a
mixture
o f
( 1978),
i ts
t hree
t emperatures a nd r ecombine i nto a
c arbonaceous s tructure. Many w orkers u sing S EM t echniques h ave d emonstrated c ellular d eformations w hich a re d istinct f rom t hose c aused by s imple s hrinkage,
a nd a re t he r esult o f s ome d egree o f p lastic f low.
A s Z icherman a nd Williamson ( 1981:247) s tate, " Such f low w ould b e a r esponse t o t he t hermal s tresses w hich a re a pplied t o t he s oftened l ignin
i n
t he
c ellulose
d egrading
r einforcing
c ell
walls
n etworks.
w hich
T hus,
n o
l onger
o ne
c an
c ontain
e nvision
f unctional
t he
o bserved
d eformations a s a c ombined r esult o f p lastic f low d uring t he c ombustion process
a nd
o f
volatilization s uch
s hrinkage
o f
c ell
d eformations
c aused
wall
a re
b y
particularly
v estured pits o f l egumes
volumetric
c onstituents".
I n
e vident
( Ohtani e t a l.,
l oss t he
b oth
1 984),
o f
w ater
a nd
S iphiso material,
i n
t he
l ignin-rich
a nd i n t he t hick walled
A ndrostachys f ibres s hown i n P late 2 .
Application of Results to t he Present Fuelwood Crisis T he u sing
t ype
S EM
S iphiso,
t he
( Mimosoideae) C learly a s
o f
d etailed
t echniques b ulk o r
o f
a f uel
t he
t o
t herefore, s ource
i nformation o btained
h as
f ar
w ider
f ragments
C ombretum
i t by
w as
b elong
a piculatum
t hese
f rom a ncient
potential
( Prior,
e ither
( see
t o
t he
T able
a reas wood
o f
a natomy
w here h ad
a nd
A frica,
s uccessive
l arge
e cologically a re
i nhabitants.
f ragments
b een
particularly
possible.
F rom t hese,
present A cacia
d uring
t he
n igrescens
e t
w ere
a l.,
t o
1 a nd
P late
T he Mimosoideae
g roup
i n
d istinguish
1 980).
e xamined
w ell
I n
o r
2 ).
a rid
a nd
s emi-arid
t he
i nstances,
c haracteristic
s pecific
i nclude
T he a cacias,
s olely o n
s ome
w here
preserved,
basis
o f
h owever, f eatures
i dentifications
w ere
i t was e vident t hat t he r ange o f A cacia s pecies
H olocene
a nd
i mportant
d ifficult
( Robbertse
A t
L eguminosae
g roups t hat w ere c onsistently s elected
D ichrostachys c inerea a nd a w ide r ange o f A cacia s pecies. a w idespread
c harcoals
1 985).
A cacia
i ncluded
A cacia
t ortilis,
a ll
c affra,
s pecies
A cacia
karroo,
o ccurring
i n
t he
v icinity o f t he s helter t oday. W hat i n
t heir
c hange?
t hen w ere c onsistent A ll
w ere
t he
c haracteristics
s election
a nd
o f
h ow
which
r esulted
w ithstand
c limatic
a s s hown i n t he p reliminary r esults r ecorded
i n T able 2 . T hey w ould, t herefore, c onsiderable h eat e mission. O ne a ssumes t heir
t hey
d ense w oods w ith a h igh proportion o f f ibres a nd a ll
h ad h igh c alorific v alues,
d uring
t hese woods
d id
c ombustion
was
n on-toxic
1 97
h ave burnt s lowly w ith a t oo, t hat t he s moke produced
a nd
t hat
t hey
d id
n ot
s park
t o
e xcess. c rystals
I t i s probable t hat t he l arge n umber present i n a xial a nd r ay parenchyma
i dentified
u sing
c ombustion
o f
X -ray
t he
d iffraction
w oods.
A s
t echniques,
S hafizadeh
o f c alcium o xalate c ells, w hich w ere
a ffected
( 1984)
t he
a nd o thers
s peed o f
h ave f ound,
c ations s uch a s c alcium r educe t he r atio o f c arbon monoxide t o c arbon d ioxide production, t hereby a ltering t he r ate o f h eat r elease. A n
u nexpected
m ajority o f
t he
a nd
persistent
a natomical
f ragments
f rom t hese
c harcoal
o f l arge a mounts o f g elatinous f ibres S EM
( see
P late
proportion w alls,
o f
a re
( Hughes, present
2 ).
T hese
hydrophilic
k nown
1 965). s uggested
t o
( G-fibres),
d ense,
modified
c elluloses
o ccur
i n
a nd
t ension
I n
t he
a n
a dditional
present
A cacia
f rom w et t hat
c affra, a nd
t he
n umber
material, t he
was
n umber
f ragments
A cacia
k arroo
d ry provenances. o f
G -fibres
e nhanced by
o f
G
a nd
f rom e ach
a nd
o f
t he
d rought
t he
a ridity i n
t he
t o
t heir s tress
q uantity T wo
branchwood s amples
T able o f
a nalysed
e nhanced
l arge
w ere
p ercentage
s amples
5 was
a n
w ithin
p reliminary ( see
i n
p resence
t olerance.
A cacia n igrescens
h ence
1 t o
w ith
a r esponse
F irstly,
c ase,
f ibres
S trata
a s
h owever,
t hat
e ach
i ncreased
n on-G
o f
a nd
I n
t he
c learly v isible u nder
f ibres
wood
i nstance
r ole,
present
was
h emicelluloses
l ines o f e vidence s upport t his h ypothesis. o f
f eature g roups
3 0
c ollected
s tudies s how
o f
f ibre
2 ).
w all
S econdly,
a ncient
( see F ig.
l egume
1 3).
T he
c onsiderable i ncrease i n t he r atio o f t he G t o n on-G v ariant i n S tratum 4 s uggests
t he possibility o f
d rier
c onditions
b etween
a bout
4 000
a nd
s tressed
t he
6 000 b p. R ecent s everity
FAO
o f
marginal, B otswana,
a nd
t he
World
present
B ank
r eports
f uelwood
h ave
c risis,
f requently w hich
i s
most
a cute
i n
s emi-arid l ands w here population p ressures a re g reatest. eastern S waziland, Z ambia a nd Z imbabwe a re a mong t hose a reas
c urrently a t r isk. A ll t he t rees m entioned a s f uelwoods a t S iphiso a re i ndigenous t o t hese r egions. A s s uch, • they a re f amiliar t o t he A fricans
w ho,
b eing
g reatly
d ependent
t hese s ame woods f or f ires t oday. f odder,
s hade,
s oil
f orestry projects o f
f ast
g rowing,
r ainfall. N ew f old
T he
n on-indigenous
i n
magic
s outhern A frica
N airobi
a nd R enewable i ncrease
e nrichment,
i n
a nnual
t raditions,
a nd m edicine.
s pecies
s elect
O f
r ecent
y ears,
i n a reas o f c omparatively h igh a dopted a t t he U N C onference o f
i n A ugust
r ate
o ral
t hey a lso u se t he t rees f or
h ave c oncentrated u pon t he growth
P lan o f A ction,
E nergy R esources t he
u pon
F urther,
o f
t ree
1 981,
r ecommends
p lanting
i n
a f ive-
d eveloping
c ountries by t he y ear 2 000. D uring t he n ext d ecade t herefore, i t w ould perhaps b e a ppropriate i f t hose i ndigenous s pecies a lready s hown by t he a rchaeological
r ecord
t olerance,
u sed
w ere
t o
b e
d esirable
f uels
f or w ide-scale p lanting
a s a n i ndividual basis.
1 98
o n
a nd
t o
h ave
a c ollective,
d rought a s
w ell
Fig.
1 3.
T o ta ls o f Ge la t inous ( Wh ite ) a nd Non -ge la t inous ( Shaded ) F ibres I n S amp les o f 3 0 Anc ient F rag men ts
2 3 2 1
1 7
9
7
4
1 /2
1 4
3 S TRATA
1 99
5
Acknowledgements F unding S waziland
f or
t hese
N ational
C hairman 's F und L ondon. D r. D .
s tudies
T rust
i s
g ratefully
C ommission,
t he
a cknowledged
Anglo
f rom
American
d e
t he
B eers
a nd t he C entral R esearch F und o f t he U niversity o f P rice W illiams w as r esponsible f or e xcavation o f t he
S iphiso s ite a nd D r. K . A lvin c ollaborated i n t he w ork l eading t o t he p reliminary r esults r ecorded i n T able 2 . M any m embers o f t he D epartment o f P ure a nd A pplied B iology, I mperial C ollege, p articularly P rofessor J .
L evy,
M r.
N .
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M .
D ocherty,
provided h elp a nd
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J .P.H.
1 975.
V eld
t ypes
o f
B otanical S urvey o f S outh A frica 4 0: B eall,
F .C.
a nd
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a
E ickner,
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R esearch P aper F PL: B eall,
F .C.,
p hysical
H .W .
o f
t he
S outh
A frica.
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o f
t he
1 -128.
1 970.
T hermal
l iterature.
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U .S.D.A .
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w ood
S ervice
1 30.
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properties
a nd
P .R. u se
a nd M oore, a s
a n
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G .R.
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preparation.
Wood
S cience
6 :
2 12-219. D eacon,
H .J.
t he
U pper
1 0:
2 41-257.
1 979.
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H .J.,
s ource
o f
D eacon,
Excavations
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S choltz,
A .
H endy,
P alaeoecology:
a
B oomplaas
L .D.
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T .
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i ron
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P .
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G oudie,
A .S.
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F .W .
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i ts
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a r eview
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l iterature.
4 . F orestry
2 -9. 1 970.
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o f Wood,
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e dition.
L ondon:
A .
n eck:
t he
B lack.
J elenic,
N .E.
f irewood
s ituation
N ote 5 :
F ossil c harcoals a s a
t he
3 69-436.
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F .E.
t hrough
7 5.
T he S waziland N ational T rust C ommission.
A bstracts 2 6:
p p.
s equence
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A n a nalysis o f t he f lora o f s outhern A frica:
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i n
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1 983.
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Q .B.
C ave-a
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a nd
G aborone,
v an i n
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J .A.
s outh-western
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i n
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L eney,
L .
a nd
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R .W.
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M urdoch,
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G .
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J ournal
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Archaeological
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S waziland M inistry o f A griculture. O htani,
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I nternational B alkema . P rior,
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t echniques. t he
i n
C .S.I.R.,
P rior,
K .L.
a nd A lvin,
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202
S EM AND T HE I DENTIFICATION D OMESTICATION I N S EED P LANTS B ruce D .
O F
M ICRO-MORPHOLOGICAL
I NDICATORS
OF
S mith
I ntroduction I dentifying
P rehistoric
C ultigens.
T he
i nitial
e mergence
a nd
s ubsequent e laboration o f p rehistoric f ood p roduction s ystems c entering o n c rop p lants w ere d evelopments o f p rofound i mportance i n t he c ultural e volution o f h uman p opulations i n m ost a reas o f t he w orld. G aining a n u nderstanding o f t he i ncipient s tages o f p rehistoric c ultivation o f c rop p lants b y h uman p opulations h as b een h ampered, h owever, b y d ifficulties i nherent i n a ttempting t o i dentify i n t he a rchaeological r ecord t he c hanging T his d ifficulty i n
n ature o f p rehistoric i dentifying i ncipient
h uman-plant r elationships. c ultivation o f p lants i s
e vident i n t he r elative w eakness o f t he i ndirect a rguments o ffered i n s upport o f a ssigning " cultivated" s tatus t o p lant s pecies r ecovered i n a rchaeobotanical a ssemblages. P lant s pecies a re u sually d esignated p rehistoric c ultigens o r " quasi-cultigens" o n t he b asis o f o ne o r m ore o f t he f ollowing a rguments ( see S mith 1 985a f or r eferences r egarding t he a pplication o f t hese c riteria): 1 . T he e xistence o f m odern w eed a nalogs f or a p lant s pecies; 2 . A p rehistoric r ange e xtension f or t he p lant s pecies; 3 . T he a rchaeological a bundance o f a p lant s pecies r elative t o i ts m odern o ccurrence; 4 . T he p erceived e conomic i mportance o f a p lant s pecies; 5 . T he c ultivation o f a s imilar s pecies e lsewhere; 6 . A p rehistoric a ssociation o f t he p lant s pecies w ith k nown c ultigens; 7 .
E arly h istorical d escriptions o f c ultivation o f a p lant s pecies; 8 . A d ocumented p rehistoric i ncrease i n a bundance o f a p lant s pecies t hrough t ime; 9 . A n i ncrease i n h uman p opulation l evels a nd s ociopolitical c omplexity, i mplying a n a gricultural e conomy; a nd
1 0.
A d ocumented m orphological c hange i n r eproductive p ropagules ( e.g. s eeds) a ssociated w ith d omestication.
O nly t he l ast o f t hese a rguments, h owever, a llows t he u nequivocal i dentification o f a p lant s pecies a s a c ultigen, a s o pposed t o a n i ntensively h arvested w ild p lant o r w eedy c amp f ollower. W hile t hese o ther a rguments c ertainly s erve t o s trengthen t he c ase f or c ultivated s tatus, t he s ingle u nquestionable i ndicator o f c ultivation t hat c an b e o bserved d irectly i n t he a rchaeobotanical r ecord r emains m orphological c hange i n p lant p ropagules ( e.g. s eeds) a ssociated w ith d omestication. S EM a nd t he I dentification o f M orphological C hange A ssociated w ith t he A daptive S yndrome o f D omestication. R esulting f rom s trong a nd a utomatic s elective p ressures w ithin a n a nthropogenic h abitat, i .e. d isturbed s oil, s uch g enetic-morphological c hanges r eflect a n a daptation t o t he h arvesting a nd s owing o f s eeds b y h uman c ultivators.
2 03
T he n ature o f t hese s elective p ressures a nd t he m orphological c hanges w hich t hey p roduce h ave b een c learly e stablished b y H arlan a nd o thers ( Harlan e t a l., 1 973; d eWet a nd H arlan, 1 975). S eed b ed c ompetition, o n t he o ne h and, a utomatically s elects b oth f or i ncreased s eedling v igor ( frequently r esulting i n i ncreased s eed s ize) a nd r educed g ermination d ormancy ( frequently r esulting i n a l oss o r r eduction o f s eed d ormancy m echanisms, s uch a s t he s eed c oat). I n a ddition, h arvesting, i n a ssociation w ith s uccessive d eliberate s owing, s elects f or u niform r ipening o f t he s eeds, i ncreased s eed p roduction, b etter " packaging" o f s eeds f or t he h arvester ( more t erminalized a nd c ompact i nfructescences), a nd a l oss o f n atural d ispersal m echanisms. Recognizing and documenting these domestication-related m orphological c hanges i n a rchaeobotanical a ssemblages, h owever, i s o ften d ifficult. T he p lant p arts t hat a re n ecessary t o s tudy u niform m aturation, a n i ncreased p roduction o f s eeds, a nd i ncreased c ompaction a nd t erminalization o f s eedheads a re r arely p reserved. A t t he s ame t ime, e ven t hough s eeds a re f requently p resent i n a bundance i n a rchaeobotanical a ssemblages, t he c hanges i n s eed m orphology a ssociated w ith d omestication, r esulting f rom s elective p ressures f or r educed s eed d ormancy a nd s eed d ispersal, a nd i ncreased s eedling v igor o ften i nvolve s uch s mall s cale m odifications i n s eed s tructure t hat a ccurate d escription o r q uantifiable d ocumentation u sing o nly a s tandard l ight m icroscope i s e xtremely d ifficult. I t i s o nly i n t he p ast d ecade, t hrough t he a pplication o f s canning e lectron m icroscopy, t hat t he f ull r esearch p otential o f m icrom orphological a nalysis o f a rchaeobotanical s eed a ssemblages h as b een r ecognized. I n E urope a nd G reat B ritain t he a pplication o f S EM t echnology t o t he s tudy o f s eed m orphology b egan i n t he m id t o l ate 1 970's, a s r epresented b y t he l andmark w ork o f K orber-Grohne ( KorberG rohne a nd P iening, 1 980; K orber-Grohne, 1 981) i n d istinguishing O ld W orld c ereal g rains o n t he b asis o f s urface m icrostructure. A s imilar i nterest i n a pplying S EM t echnology t o t he s tudy o f t he m icrostructure o f a rchaeologically r ecovered s eeds o f N ew W orld d omesticates d eveloped i n t he U nited S tates i n t he l ate 1 970's ( Wilson, 1 981). T o i llustrate t he v alue o f s canning e lectron m icroscopy i n t he r ecognition a nd q uantification o f m icro-morphological i ndicators o f d omestication, c ultivation o f n ote 1 ).
a N orth American e xample i nvolving t he p rehistoric C henopodium b erlandieri w ill b e b riefly s ummarized ( end
A n E xample f rom t he E astern Woodlands E arly C laims
f or D omesticated C henopodium i n
d ebate r egarding w hether o r p resent i n t he p rehistoric e xtended o ver s ix d ecades. A s
e arly
a s
1 926
t he P rehistoric E ast
n ot a d omesticated f orm o f c henopod e astern w oodlands o f N orth A merica
( Asch
a nd
A sch,
1 977:12),
O liver
A w as h as
F reeman
i dentified c henopod s eeds r ecovered f rom B luff S helters i n t he O zarks o f A rkansas a s a p robable c ultivated f orm, d ue t o t heir m orphological s imilarities t o C . b erlandieri s sp. n uttalliae, a m odern M exican c ultivated c henopod. T en y ears l ater, V olney J ones s uggested t hat
2 04
c henopod s eeds r ecovered f rom poorly d ated p rehistoric d eposits a t N ewt K ash S helter, M enifee C o., K entucky, r epresented a c ultivated c rop p lant. H is i dentification o f t hese s eeds a s b eing f rom a d omesticated c rop w as s pecies T he
based on ( Jones,
R ejection
1 970's, t he
e astern
w oodlands
s eeds
C laims
i n t wo r espects
c laims
N orth
America
s eeds
a pparently
" cross-sectional
s hape
S tatus.
t he
O zark
I n
a nd
t he
N ewt
m id Kash
a nd J ones a nd r ejected both o f
f or prehistoric ( Asch
C henopodium
a nd A sch,
f ound
o f
t he s eeds o f w ild
t he
t o
1 977).
a ctually
O zark B luff
i n
T he
b e
t he
l arge
pokeweed
S helter
c henopod
d iffering morphologically f rom w ild s eeds
- a
s pecimens
t o
1 977:14).
Domesticated
w ere
R estudy
( Asch a nd A sch,
a rchaeological
c omparison
r eanalyzed
s tatus
o f
t hem
f or
A sch
a mericana).
s howed
i n
s tudied b y F reeman
" chenopod"
( Phytolacca
s ize
A sch a nd A sch,
N ancy
c ultigen
K ash
l arge
E arly
a nd
a ssemblages
e arlier
N ewt
o f
David
c henopod
t heir
1 936:149;
1 977:19):
t endency
a s
t oward
o pposed
t o
t runcate
published
margins
i n
d escriptions
o f
t he C .
b ushianum a s b iconvex i n c ross s ection. p rominence o f markings o n t he s eed c oat - l ess p rominent o n most a rchaeological s pecimens t han i ndicated by published d escriptions." T he A sches, h owever, a lso o bserved t hese morphological t raits ( truncate margins a nd v ariable s eed c oat markings) i n a s ignificant p ercentage o f t he f ruits produced by a modern, l ate s eason s tand o f w ild C .
b ushianum w hich t hey s tudied i n t he m id-1970's.
r elative
a bundance
studied,
A sch
o f
a nd
s uch
" red morph"
A sch
c oncluded
B ecause o f t he
f ruits i n t he modern w ild s tand t hat
r ather
t han
i ndicating
d omestication, t hese morphological c haracteristics o f t he prehistoric Ozark specimens could b e e xplained a s r eflecting p henotypic polymorphism s pecific
t hickness,
i n
w ild
a nd
i ndicator ..
i n
mention o f
f ound
made
t his
o f
s tatus.
c onvincing
N orth
American
F irst
h owever,
Application
H ugh Wilson
c onvincingly form
of
Employing
c ross-sectioned
s eeds
Mexican
' huauzontle',
t o
a gain
c )
f or
t he a t
s eed
c hanges
O zark
C .
O zark
t hey
h ad
[ domestication]
I n
t he
l ate
1 970's,
c henopod materials
p resence
B luff
o f
S helter
C henopodium b erlandieri
a rchaeological
a possible
t hat
T his position was
Wilson
c ompared
b erlandieri; s sp.
s pecimens
a nd
a d omesticated a rchaeobotanical
e lectron m icroscopy,
w ild
N o
( testa)
1 980:158).
P roblem .
t he
c oat
a s
c oncluded
( 1977:24).
in a )
( 1977:20-22).
i n
d iscussed
g enetic
p rehistoric
cultivar
a nd
n ot
t he
s canning
o f:
was
( Asch a nd A sch,
S EM
Chenopodium
bushianum
C henopodium"
l ooked
d emonstrated
a ssemblages. modern
o f
C .
T he A sches
e vidence
r eiterated i n a 1 980 a rticle T he
o f
o bserved variation
c haracteristic
d omesticated
n o
Eastern
p opulations
was
b )
n uttalliae
f rom
H olman
t he c v.
B luff
S helter, Madison C ounty, A rkansas. Wilson's c omparative S EM a nalysis s howed t hat w hile t he w ild f ruit h ad a t hick, b lack o uter e piderm s eed c oat
l ayer
( testa),
t his
d ormancy i n t he w ild, M exican
c ultivar
s elective
e limination e vidence modern
a nd t he
pressure o f
f or
t he
t ough
f or o uter
H olman r educed
e ssential f or s eed
" naked"
B luff S helter s pecimens, g ermination
e piderm,
d omesticated
M exican
l ignified s tructure,
a ppeared t o b e e ntirely a bsent i n both t he modern
s tatus
s eeds
a
d ormancy.
d ue t o s trong T his
a pparent
i n a ddition t o p roviding u nequivocal a nd l ight
2 05
g iving
t he
c oloration
a rchaeological
a nd
a s
t he
o pposed
t o
characteristic black coloration of wild fruits, also appeared to result in the truncate marg.in morphology previously recognized by the Asches (Wilson, 1981:237). In comparing the micromorphological structure of prehistoric and modern seeds with the aid of scanning electron microscopy, Wilson demonstrated, for the first time, the critical role that SEM could play in elucidating long standing questions regarding prehistoric plant husbandry in the Eastern Woodlands. A l t h o ugh it was generally thought at the time that the domesticated pale-colored chenopod_ recognized by Wilson was a late p r e h i s t o ric (post A.D. 1200) introduction from Mexico, direct accelerator dating of Ozark specimens has recently shown that the pale seeded variety of domesticated Chenopodium was present in Eastern North America by ea. A.D. 300 {Fritz, 1986a, 1986b; Fritz and Smith, 1988). Initial Recognition of a "Thin-Testa" Chenopod. In his 1981 article Wilson also provided a brief, but important, reference to another Mexican cultivar variety of chenopod (Chenopodium berlandieri ssp. nuttalliae cv. 'chia') which retained an outer epiderm (testa) structure that was substantially reduced in thickness in comparison to that of wild species. Within a few years, several researchers would suggest the prehistoric presence of a second domesticated form of chenopod in the Eastern Woodlands of North America, a thin-testa, 'chia'-like taxon. The supporting arguments that would eventually be developed in support of the presence of a prehistoric thin-testa chenopod in the East would, once again, rest on comparative SEM micromorphological analysis of archaeological and modern seeds. In a paper presented in 1982 at the annual meeting of the Society for American Archaeology, Asch and Asch briefly reported on chenopod seeds from the Newbridge and John Roy sites in west-central Illinois. The seeds were described as being: "... morphologically dissimilar to Specifically, they have a truncate seed margin, wild C. bushianum. they have almost entirely smooth seed coats, and they appear to have a thinner seed coat than modern C. bushianum or the other prehistoric chenopods." The Asches here identify additional morphological characteristics that appear to distinguish the prehistoric specimens from modern wild seeds of Chenopodium berlandieri, namely an apparently thinner and smoother seed coat. In addition, the Asches drop their earlier position that the "red morph" characteristic observed in prehistoric specimens of chenopod reflect variation within wild populations and agree with Wilson that: " ...change of morphology through domestication is the most probable explanation for prehistoric samples diverging from typical C. bushianum seed characteristics (Asch and Asch, 1982:11)."
206
T his
c hange
d omesticated b ased
o n
o f
o pinion,
a nd
f orms
f rom
Woodland
f act
t hat
production
t he
m orph" f ruits i n w ild s tands o f C . a p revious
paper,
v ariability
i n
C .
v ariation
i n
f ound
n atural
n o
w e
c ave
s uggested b ushianum
a nd
r ecognition
o f
( Asch
t hin-testa
" apparently 1 982:11)
c ould
possible
1 977) S ince
w ith
f or
T he
f ollowing
S ociety
y ear,
i n
" ...in s imilar
t hen,
more
w e
t han
p ercentage o f s eeds a pproximating t he p rehistoric material." A sch, 1 982:11).
t he
" red
t hat phenotypic
a ccount
c ollections.
populations
w as
t runcate margin
b ushianum w as e xtremely r are: a nd A sch,
b ushianum
o f
a nd A sch,
( Asch
r ockshelter
C .
t he
s ites"
a
h ave s mall
( Asch a nd
a paper presented a t t he a nnual m eeting o f
f or American Archaeology,
R ichard Yarnell
( 1983)
n oted t he
p resence o f c henopod s eeds i n human f ecal s amples f rom S alts C ave, K entucky, w hich were: " lacking t he h ard, b lack o uter c overing." Yarnell w ent
o n
t o
s ay:
" These
f inds
a nd o thers provide
C henopodium b ushianum was i n s ome s tage b eginning d uring t he t erminal A rchaic
u s
w ith e vidence t hat
o f t he d omestication process i n I llinois, K entucky, a nd
T ennessee..." L ater p resence, a t
t he
t he
M iddle
I llinois.
I n
p roduced t runcate
y ear,
Woodland
a ddition
by
w ild
a
s econd
r ecognize T he
s ame
t he
A sches
i n r oughly e qual f requency,
o f
c henopod a s
1 00-250)
c onsider
t he
t hin-testa
C henopodium
t ype
w ell
a gain
r epresented
A .D.
S miling
t he d eeply a lveolate,
s tands
c ross-section,
A sches
( ca.
t o
( 1983:692-695)
having:
a s
r ecount
t he
o f t wo t ypes o f C henopodium s eeds Dan
b erlandieri, " a
s ite,
i n
t hick s eed c oat f ruits t hin
t he
s eed
c oat
A sches with
a
a much s moother s eed c oat s urface."
t he possibility " red morph"
t hat
t hese
t ype produced
t hin-testa i n
l ow
s eeds
f requency
b y w ild p lants,
but r eject t his e xplanation b ecause o f t he a bundance o f
t he
f orm
t hin-testa
u nder
w hich
t he
u nusual o nes. p lants,
o ne
i n
t hin
t he
S miling
s eed-coat
D an
morph
a ssemblage:
predominated
c onditions
t he
I f a rchaeological s pecimens w ere collected
w ould
n ot
e xpect
i n
t heir
1 982
w ild
a re
f rom
w ild
t he predominance o f t hin s eed c oats w hich
c haracterize Woodland p eriod C henopodium ..." W hile
" The i n
paper
t he
( Asch a nd A sch,
A sches
r efer
t o
1 983:694). " apparently
d omesticated" Woodland p eriod C henopodium,
b y 1 983 t hey t ake a s tronger
position
S miling
- t hat
t he
t hin-coated
t ype
a t
Dan
was
" either
t he
p roduct o f i ndigenous d omestication o f C . bushianum o r a n i ntroduction f rom M exico o f a c losely r elated d omesticate." ( Asch a nd A sch, 1 983:695). B uilding
a C ase
f or
D omestication.
B y
1 983
c henopod
f ruits
a ppearing
t o h ave a t hin t esta h ad been r ecognized i n prehistoric c ontexts a t f our e astern s ites ( Salt's C ave, c a. 5 00 B .C .; S miling Dan, c a. A .D. 1 00-250;
N ewbridge,
h ad b een proposed o f a d omesticated E arly,
M iddle,
h owever,
c a .
A .D.
4 80-660;
a nd J ohn R oy,
a nd
Late
Woodland
periods.
I t
t o c ontrol f or p otential s ources o f b ias,
e xplanations, d omesticated
a nd
c a.
A .D.
5 50).
I t
t hat t hese f ruits r eflected t he prehistoric presence f orm o f c henopod i n t he E astern Woodlands d uring t he
e stablish
t hin-testa
a c onvincing
f orm o f
c henopod
c ase
was
s till
n ecessary,
r ule o ut a lternative
f or
t he
presence
o f
a
i n p rehistoric garden s ystems
o f t he E astern Woodlands. A d etailed c omparative micro-morphological a nalysis o f m odern w ild, modern d omesticated, a nd prehistoric c henopod
2 07
f ruits
f ollowing
W ilson 's
g eneral
r esearch
d esign
( 1981)
w as
c learly
r equired. S uch a p rogram o f a nalysis w as c arried o ut o ver a f our y ear period ( 1982-1985).
C ritically
i t
d escribing
f ocused o n
modern
t hick
d ependent a nd
upon
s canning
e lectron m icroscopy,
c omparing c henopod f ruits o f f our g eneral
k inds:
1 )
s tands f ruits
o f C henopodium b erlandieri; 2 ) m odern t hin-testa " red-morph" f rom w ild s tands o f C henopodium b erlandieri; 3 ) modern t hin-
t esta
f ruits
f rom e astern N orth American w ild
t esta f ruits o f t he M exican c ultivar C .
b erlandieri s sp.
n uttalliae c v.
' chia'; a nd 4 ) a rchaeobotanical a ssemblages o f t he t hin-testa c henopod t ype ( Smith, 1 984, 1 985a, 1 985b; S mith a nd F unk, 1 985; S mith a nd C owan, 1 987;
F ritz a nd S mith,
1 988).
Methods T his
c omparative
M icroscope
a nalysis
L aboratory
o f
w as
t he
c onducted
National
a t
t he
Museum
o f
S canning E lectron Natural
H istory,
S mithsonian I nstitution, on C ambridge S tereoscan 1 00 i nstruments. modern s tub t o
a nd prehistoric
s lides
w ith
provide
d ouble
D uPont's
a b etter
s ided
t ape,
s pecimen l oss.
s eed
s pecimens
E lvace
a nd
1 874.
l onger
r esulting
O nce m ounted,
T his l iquid a dhesive w as f ound
l asting
i n
l ess
a ttachment
c harging
t o
o f
S EM
s tubs
s pecimens
t he
o f
b est
g reater
g old-palladium . r esults
t han
C ambridge
w ithin
A n
t he
2 000-2500X).
S tereoscan
1 00
t han
a nd
l ess
s pecimens w ere f irst g iven a b ase c oat o f
c arbon, which i nsured a more u niform a pplication o f a s econd, c oating
Both
w ere f irst a ttached t o g lass S EM
a ccelerator v oltage
r ange
o f
B uilt-in a llowed
o f
magnification m easurement
r apid
a nd
1 0
o verlying
K v produced
employed
( rarely
c apabilities
a ccurate
o f
t he
d etermination
o f
t esta t hickness values f or c henopod s pecimens. O ne
o bvious
c henopod
f ruits,
t hickness
varied
a lternative s uggested i n
e xplanation i n
t he
f or
e arly o f
prehistoric
1 980's,
w ild
populations
C .
w ith
s outhern populations
was
berlandieri,
t hin-testa t hat
t esta
e ither
a long
g eographical
c lines,
t hinner
s eed
c oats,
g rowing c oats.
i n s hady o r w et s ettings producing f ruits h aving t hinner s eed I n o rder t o e valuate t his possibility, C henopodium b erlandieri
s tands
w ere
o r
h arvested
i n
f rom a w ide
a cross t he e astern U nited S tates T esta
t hickness
f ruits,
d etermined
( Smith,
1 985a,
v aluds
t hrough
1 985b).
producing f ruits h aving
r esponse t o h abitat variability,
o f
r ange o f
d ifferent
( Smith,
1 987).
s amples
o f
S EM
a nalysis,
T hickness
values
t he o f
habitat
c ollected
r anged t he
w ith s tands
f rom
s ettings
m odern
4 0-80
measured
w ild
m icrons
w ild
s tand
f ruits w ere d etermined t o b e u ninfluenced by e ither l atitude o r h abitat s etting. I n c oats
o f
d ramatic f ruits
c ontrast, o f
t he
w hen
M exican
c ross-sectioned c ultivar
a nd
m easured,
C henopodium b erlandieri
n uttalliae c v. ' chia ' ( provided b y H ugh t hickness v alues i n t he 1 0-20 m icron r ange.
W ilson),
y ielded
s eed s sp. t esta
S imilar S EM a nalysis o f s amples o f " red morph" f ruits f rom I llinois, M ichigan, a nd S outh C arolina s tands o f C . b erlandieri s howed testa
thickness
values
r anging
2 08
f rom
7 -30
m icrons,
o verlapping
c onsiderably w ith t he 1 0-20 c henopod c ultivar " chia".
m icron
r ange
d ocumented
f or
t he
M exican
S EM a nalysis a lso s uggested t hat " red morph" f ruits c ould b e d istinguished f rom t he t hin-testa d omesticate f ruits o n t he basis o f g reater p itting o f t he t esta s urface o f t he f ormer. I n a ddition, " red morph"
f ruits
w ere
s hown
t o b e produced o nly
i n v ery
l ow f requencies,
c omprising 1 -3% o f t he t otal f ruit p roduction o f w ild C . berlandieri s tands ( Smith, 1 985b:122). N evertheless, t he o verlap i n t he r anges o f " chia" a nd " red morph" t esta t hickness values underscored t he n ecessity o f l ocating a nd a nalyzing l arge, unmixed, t hin-testa a rchaeobotanical c henopod a ssemblages i n o rder t o e stablish a c onvincing c ase f or t he p rehistoric
presence
o f
a
" chia"-like
d omesticated
c henopod
i n
t he
E astern Woodlands. T wo p reviously u nanalyzed museum c ollections o f C henopodium f ruits p rovided t he
a n
e xcellent
o pportunity
m icro-morphology
o f
t he
t o
d ocument,
prehistoric
t hrough
t hin-testa
S EM a nalysis,
c henopod
o f
t he
E astern Woodlands. T he
R ussell
e xcavated o f
C ave
i n
a nd A sh
R ussell
c arbonized
C ave A ssemblages.
C ave,
i n
1 956,
s eeds.
A
s ample
C henopodium
u ncatalogued a nd u nanalyzed R ussell N MNH
c ollections
R ussell t hree
C ave
i n
i mportant
t hick-testa
1 982.
c henopod
C ave
S ubsequent
a ssemblage
f acts.
c henopod
A g rass-lined
Alabama,
F irst,
s eeds.
t here
o f
s torage p it
a l arge
volume
a pproximately
5 0,000
c henopod s eeds was l ocated i n d etailed
( Smith,
S econd,
c ontained
was
S EM
1 984,
a nalysis
1 985a)
a c omplete
t esta
a bsence
t hickness
o f
t he
d emonstrated
values
o f
a ny
o f
7 -16
m icrons w ere c omparable t o " chia" a nd c onsiderably l ower t han t he 4 0-80 m icron
r ange
T hird,
t here w as a c onsistent o ccurrence o f a d istinctive s et o f micro-
o f
morphological
t he
f eatures,
t runcate margin, t esta
o f
modern
n otably
t hese
c ultigen
t o
f eatures
s trong
w ild
s tands
a r ectanguloid
a nd a s mooth t esta.
t hickness,
c henopod
f ruits
f ruit
C .
b erlandieri.
c ross-section,
a
When c ombined w ith a r eduction i n
r epresent
s eed
o f
b ed
a n
a daptive
s elective
r esponse
pressure
f or
by
a
r educed
g ermination d ormancy ( Figures 1 , 2 ). A s ample o f t he R ussell C ave s eeds provided a particle a ccelerator ANS) d irect d ate o f 2 ,340 + /- 1 20 B .P. Excavated Museum, y ielded
i n
1 876
a nd
c urated
H arvard U niversity, t he a n ANS d ate o f 1 ,720 + /-
analysis of approximately morphological s election a ssemblage.
a c entury by
t he
P eabody
the well-preserved, uncarbonized a ssemblage o f 2 5,000 s eeds d ocumented t he s ame s et o f m icrof eatures
f or
f or o ver
A sh C ave, O hio, c henopod a ssemblage 1 00 B .P ( Smith, 1 985b). D etailed S EM
r educed
T esta
a ssociated
g ermination
t hickness
w ith d ormancy
values
a n
a daptive
s een
i n
t he
r esponse R ussell
t o C ave
f or A sh C ave t runcate-margin s eeds
r anged f rom 1 1-21 m icrons.
Conclusions I n
a ddition
c ollections,
S EM
C ave c henopod d escription o f
t o
underscoring
a nalysis
o f
t he
t he
r esearch
l arge
u nmixed
potential R ussell
c ollections a llowed, f or t he f irst t he m icro-morphological s tructure o f
2 09
o f
C ave
museum a nd
A sh
t ime, a d etailed t he f ruits o f t he
Scanning electron micrograph of Russell Cave Chenopodium Fig. 1. seeds, showing the distinctive reticulative-alveolate dorsal pericarp pattern and the truncate margin seed configuration. From Smith, 1985a.
210
Fig. 2. Scanning electron micrographs showing outer seed coats in cross section: (top) Russell Cave seed (14 microns thick); (middle)� berlandieri ssp. nuttalliae cv 'chia' seed (20 microns thick); (bottom) �- berlandieri seed (41 microns thick). From Smith, 1985a.
211
t hin-testa c henopod c ultivar o f p rehistoric g arden s ystems o f t he E astern W oodlands. T his a ccurate d escription a nd m easurement o f e xtremely s mall f ruit s tructures ( e.g. p ericarp a nd e piderm p atterning a nd t hickness) a llowed r ather v ague d escriptive l abels s uch a s " thint esta" a nd " thick-testa" t o b e r eplaced b y s pecific n umerical v alues. I n a ddition, t he d etailed c omparison b etween t he R ussell C ave a nd A sh C ave s eed a ssemblages a nd m odern w ild a nd d omesticated f orms, p rovided, f or t he f irst t ime, a b asis f or t he c onfident a ssignment o f d omesticated s tatus a nd a f ormal t axonomic s ubspecies d esignation ( C. b erlandieri s sp. i onesianum ( Smith a nd F unk, 1 985) t hin-testa c henopod o f t he e astern U nited S tates. T his p otential
s pecific e xample t hat e xists f or
t o t he p rehistoric
s erves t o d emonstrate e xpanding a nd e nriching
t he s ignificant a rchaeobotanical
r esearch t hrough t he a pplication o f S EM t echnology. S EM m icrom orphological d escription a nd c omparative a nalysis o f a rchaeobotanical s eed a ssemblages s hould b ecome a r outine p rocedure, a nd b e a cknowledged a s a n ecessary p rerequisite t o a ny p roposed a ssignment o f d omesticated s tatus t o a rchaeobotanical p lant m aterials. S canning e lectron m icroscopy c learly h olds a n umber o f d istinctive a dvantages f or t he s tudy o f t he m icromorphology o f p rehistoric s eeds. O ften q uite d elicate, p articularly i f c arbonized, a rchaeobotanical s eed s pecimens s elected f or s tudy c an e asily b e m ounted t o S EM c over s lides u sing " Eimers" g lue. O nce m ounted a nd c oated, s uch d elicate s eed s pecimens c an b e r epeatedly s tudied i ntact t hrough a w ide r ange o f m agnification l evels a nd v iewing a ngles, a nd w ith g ood d epth o f f ield. P hotographic c apabilities a re p otentially e xcellent, w ith o n-line Polaroid a nd 4 x5 n egative f ormats a llowing e xtensive a nd e asy d ocumentation o f p reviously u nrecognized a nd p otentially i mportant m icromorphological c haracters. I ronically, h owever, i t i s o ften s till d ifficult, even i n l arge research u niversity s ettings, archaeologists a nd a rchaeobotanists t o t ake a dvantage o f
f or S EM
t echnology. M any t imes, s canning e lectron m icroscopes h ave e ither r estricted u se w ithin a p articular a cademic u nit, o r a re o perated o n a p aying c ustomer b asis, w hich m ay s eriously l imit t he a pplication o f t his v aluable u ser-friendly t echnology.
E nd N otes 1 .
A
s econd
c henopod
t axon
( Chenopodium
b ushianum)
i s
f requently
m entioned i n q uoted p assages. A lthough s till t echnically r ecognized a s d istinct s pecies, C . b erlandieri a nd C . b ushianum a re v ery c losely r elated. O nce d etailed g enetic r esearch o n p resent d ay s tands o f t hese t wo e astern N orth A merican t axons a re c arried o ut, C henopodium b ushianum i s b erlandieri.
l ikely
t o
b e
r elegated
2 12
t o
s ubspecific
s tatus
w ithin
C .
R eferences A sch,
D .
some
a nd A sch.
N .
prehistoric
1 977.
C henopod a s c ultigen:
collections
from
M idcontinental J ournal o f Archaeology 2 : A sch,
D .
a nd
p rehistoric
A sch,
N .
1 982.
h orticulture
Eastern
North
America .
3 -45.
A c hronology
i n W est-Central
t he 4 7th A nnual Meeting,
a r e-evaluation o f
f or
t he
I llinois.
d evelopment
o f
P aper presented a t
S ociety f or American Archaeology,
M inneapolis,
M innesota. A sch, M .B.
D .
a nd A sch,
( eds.),
A rchaeology, 1 37.
N .
1 983.
E xcavations
Archaeobotany.
a t
t he
S miling
I n S tafford,
Dan
C ontract A rchaeology P rogram,
S ite,
B .
C enter
a nd S ant,
f or American
R eport o f I nvestigations N o.
S ubmitted t o t he I llinois D epartment o f T ransportation.
A sch, D . T he H ill
a nd A sch, N . 1 985. A rchaeobotany. I n C onner, M .D. ( ed.), C reek H omestead, Kampsville Archaeological C enter R esearch
S eries
1 15-170.
A sch,
1 : N .
a nd A sch,
Woodland
D .
1 980.
A rchaeobotany
a nd P ond,
i n
T he
D ickson
I llinois.
I llinois S tate M useum,
G .
1 986a.
A rkansas
P rehistoric
R ockshelter
Camp a nd P ond S ites:
C antwell,
A .M.,
M iddle
D ickson
R eports o f I nvestigations 3 6:
d eWet, J .M.J. a nd H arlan, J .R. e volution i n t he man-made habitat. F ritz,
I n
C amp
1 52-160.
1 975. Weeds a nd d omesticates: E conomic Botany 2 9: 9 9-107.
O zark
C ollections.
Agriculture, U npublished
t he
P h.D.
U niversity
o f
d issertation,
U niversity o f N orth C arolina a t C hapel H ill. F ritz,
G .
1 986b.
S tarchy g rain
c rops
i n
t he
E astern
U nited
S tates:
E vidence f rom t he d esiccated O zark p lant r emains. P aper p resented a t t he 5 1st Annual M eeting o f t he S ociety f or American Archaeology, N ew O rleans, F ritz,
L ouisiana.
G .
a nd
d ocumenting
Smith,
t he
B .
1 988.
d omestication
O ld c ollections
o f
C henopodium
a nd
n ew
t echnology:
i n Eastern N orth America.
M idcontinental J ournal o f A rchaeology 1 3(1). H arlan,
J .R.,
d eWet,
e volution o f c ereals. J ones, W ebb,
V .
1 936.
W .S.
C ounty,
a nd
J .M.J.
a nd
P rice,
E volution 2 7:
E .G.
1 973.
C omparative
3 11-325.
T he v egetal r emains o f N ewt K ash H ollow S helter. F unkhouser,
K entucky.
U niversity
W .D. o f
( eds.), K entucky,
Rock
S helters
R eports
i n
I n
M enifee
i n Archaeology
a nd
A nthropology 3 (4) : 1 47-167. K orber-Grohne,
U .
T riticum
a nd
s canning
e lectron
1 981.
S ecale
o n
D istinguishing prehistoric t he basis
m icroscope.
o f
t heir
J ournal
1 97-204.
2 13
o f
c ereal
g rains
o f
s urface patterns
u sing
t he
Archaeological
S cience
8 :
Korber-Grohne, U. and Piening, U. 1980. Microstructure of the surfaces of carbonized and non-carbonized grains of cereals as observed in scanning electron and light microscopes as an additional aid in determining prehistoric findings. Flora 170: 189-228. Smith, B.D. 1984. Chenopodium as a prehistoric domesticate in Eastern North America: evidence from Russell Cave, Alabama. Science 226: 165167. Smith, B.D. 1985a. The role of Chenopodium as a domesticate in preSoutheastern maize garden systems of the Eastern United States. Archaeology 4: 51-72. Smith, B.D. 1985b. Chenopodium berlandieri ssp. jonesianum: evidence for a Hopewellian domesticate from Ash Cave, Ohio. Southeastern Archaeology 4: 107-133. Smith, B.D. and Funk, V.A. 1985. A newly described subfossil cultivar of Chenopodium (Chenopodiaceae). Phytologia 57: 445-448. 1981. Domesticated Chenopodiurn of the Ozark Bluff Wilson, H.D. dwellers. Economic Botany 35: 233-239. Yarnell, R.A. 1983. Prehistoric plant foods and husbandry in Eastern North America. Paper presented at the 48th Annual Meeting of the Society for American Archaeology, Pittsburgh, Pennsylvania.
214
THE SEM AND VICIEAE
SEED IDENTIFICATION, WITH PARTICULAR REFERENCE TO THE
E. Ann Butler Introduction to the Vicieae Legumes have been important economic resources since earliest times and are thought to have played a role similar to that of the cereals in the beginnings of agriculture (Renfrew, 1973). However, differential preservation acts against the seeds of legumes and charred material from these plants in early archaeological contexts is usually sparse in relation to the remains of cereals. Amongst the Leguminosae the Vicieae, a tribe represented by some 300 species, has contributed from its four main genera a number of well-known cultivars common throughout the Old World, including the pea, chickling pea, lentil and broad bean amongst many lesser known species. Identification by Optical Microscopy The identification of the remains of charred pulses has always been difficult. Commonly the material consists of fragments of the cotyledons which yield only estimations of the dimensions of the original seed as criteria by which to make the identification. Seed shape and size are known to be highly variable within species in the Vicieae, and such characters may even be unreliable indicators by which to separate genera (Gunn, 1970a). However, frequently some of the seedcoat remains, and even the hilum may be retained on the seed. The degree of rough- or smoothness of the testa, and the dimensions and shape of the hilum recorded under low magnifications have added to the criteria that have been employed for identification. The very limited depth of focus and poor resolution obtained by optical microscopy, even using epi-illumination, have severely restricted the observation of morphological detail, thereby making identifications tenuous. SEK Analysis The application of SEM to the study of seed surfaces has already shown rewarding results in archaeobotany, charred remains often showing very good preservation of morphology (Conolly, 1976). The recent work by Kislev and Hopf (1985) on the identification of Lathyrus sativus and L. cicera from the llth century BC site of Tell Qasile in Israel illustrates particularly the observations achievable by SEM on seeds of the Vicieae from antiquity.
• •
It is now ten years since Brisson and Peterson (1976) published a critical review of the use of SEM in the study of the seedcoat, and some of the points raised in that work are of particular relevance to archaeobotany. Of the several problems highlighted, a major cause for concern was the lack of consideration of the variation within species of the morphology and anatomy of the seedcoat; most frequently single 215
s pecimens o f a s pecies h ad b een e xamined a nd t he r ecords t hus d isplayed l ittle e vidence f or t he s tability o f t he c haracters d escribing t he d ifferent s pecies. T he n eed w as e xpressed f or m ore i llustrations o f s eeds u nder S EM t hat m ight b e u sed a s c omparatives a nd p rovide a k nowledge o f t he b readth o f t he r ange o f v ariation. A d ecade l ater, t he s ituation r emains l argely u nresolved . M any p ublications s till c ontain d ata r ecorded b y S EM f rom v ery f ew s pecimens p er s pecies a nd f ew s tudies h ave e xamined t he p otential r ange o f v ariation i n f eatures u nder i nvestigation. P art o f t he p roblem l ies i n t he d ifferent o bjectives f or t he u se o f S EM. W here t he p urpose i s t axonomic, b road t rends i n m orphology m ay b e s ought r ather t han t he r ange o f m orphological e xpression i n i ndividual c haracters. Y et f or t hose e ngaged i n t he i dentification a nd i nterpretation o f w hat m ay b e v ery s mall a mounts o f a ncient p lant m aterial, s ome a ppreciation o f t he p otential r ange o f v ariation i n i ndividual c haracters i s i mportant. T his v ariation i n s eed a natomy a nd n umber o f f actors, i ncluding d ifferences
m orphology m ay b e d ue t o a i n t he g enotype, p henotypic
p lasticity, t he s tate o f m aturity, p athologies a nd o ther c auses. T hat t he r esults o f t hese f actors h ave n ot b een a m ajor f ocus o f s tudy b y S EM m ay b e e xplained b y t he f act t hat t his t echnique d oes n ot r eadily l end i tself t o l arge s cale s urveys o f r eplicated m aterial. T he o peration o f t he i nstrument a nd n ecessarily a ssociated p hotography m ay b e t ime-consuming a nd l abour i ntensive; t he e quipment i s e xpensive t o b uy, m aintain a nd r un; a nd a ccess f or t he b orrowing o r h iring o f S EM f acilities i s t hus o ften v ery r estricted. F urthermore, r eference m aterial m ay b e i n s hort s upply s o t hat t he p reparation o f a l arge n umber o f S EM s amples m ay i nvolve t he p ermanent r emoval o f t oo m uch o f the reserve o f a s eed c ollection. I n t he c ase o f c harred a rchaeological m aterial, t he i rreversible r emoval o f p art o f a s ample h as t o b e v ery c arefully j ustified. G iven t he c onstraints d escribed a bove, a p artial s olution t o t he p roblem m ay l ie i n t he maximisation o f i nformation t hat m ay b e o btained f rom p ublications o f o ther a uthors i n o rder t o e xtend t he d atabase. T his r equires t he i nclusion o f f ull d etails o f m ethod, a ccurate r ecords o f t he n umbers o f o bservations, a nd d escriptions o f t he p opulations f rom w hich s pecimens h ave b een d rawn. S EM i s a t echnique t hat h as s ome g reat a dvantages i n t he e xamination o f s eeds. I n g eneral, r elatively l ittle p reparation o f t he s pecimen i s n ecessary p rior t o s canning. W here t he s eeds a re d ry, a s i s t he c ase i n m ature s eeds o f t he V icieae, f ixing a nd c ritical p oint d rying a re n ot r equired. C harred s eed m aterial i s p articularly s uitable f or s canning a nd m ay e ven b e s canned w ithout c oating ( Feindt a nd M esterharm, 1 980). T he d epth o f f ocus a llows f or g ood p hotographic r ecords o f s uch s ubjects a s s pherical s eeds a t m agnifications a s l ow a s x 12
o n
c ertain
i nstruments,
a nd
t he
h igh
r esolution
p rovides
d etailed o bservation o f a natomy a t m agnifications u p t o x 10,000 o paque c harred s eeds t hat c ould n ot b e s tudied b y o ther m eans.
2 16
f or o f
T he P resent S tudies I n
o rder
t o
e valuate
c haracters
t hat
may
b e
a pplied
t o
t he
i dentification a nd i nterpretation o f c harred material o f a rchaeological d erivation, o f
t he
a s tudy h as
s eedcoat
i n
b een u ndertaken
m embers
o f
t he
o f
t he morphology
V icieae.
F resh
a nd
s eeds
a natomy
h ave
b een
e xamined f rom 9 4 t axa, i ncluding 1 5 s pecies o f L athyrus, 5 s pecies o f L ens, a s c lassified b y L adizinsky ( 1986), 2 s ubspecies o f P isum a nd 1 4 s pecies o f V icia, b eing
s tudied
a n umber o f d ifferent p opulations o f t he s ame s pecies
w here
p ossible
( Table
1 ).
C harred material
f rom t hree
a rchaeological s ites h as a lso b een e xamined. T able 1 .
S pecies o f t he t ribe V icieae e xamined i n t he s tudy o f s eedcoat a natomy.
L athyrus a phaca
P isum s ativum e latius
nnuus L athyrus a
P isum s ativum s ativum a rvense
L athyrus c icera L athyrus c lymenum eterophyllus L athyrus h L athyrus h irsutus
V icia b ithynica
L athyrus i nconspicuus
V icia e rvilia
L athyrus
V icia f aba v ar m inor
V icia c racca
l axiflorus
L athyrus n iger
V icia f aba v ar paucijuga
L athyrus n issolia
V icia l utea
L athyrus o chrus
V icia m elanops
L athyrus pratensis
V icia n arbonensis
L athyrus s ativus
V icia n oeana
Lathyrus s ylvestris
V icia o robus
L athyrus t uberosus
V icia p eregrina V icia s ativa
ulinaris L ens c
V icia s ativa n igra
L ens o rientalis
V icia s epium
demensis L ens o
V icia s ylvatica
L ens n igricans
V icia t etrasperma
L ens e rvoides
Methods T he p rimary t echnique e mployed h as b een S EM, a t 1 2 a nd 2 5 k v, a nd a J EOL J SM 3 5 a t 1 5 k v,
5 00 o f
b etween x 12
a nd x 10,000.
u sing a P hilips P SEM u nder magnifications
S pecimens h ave b een c oated w ith g old by a
P olaron E 5000 s putter c oater t o a d epth o f 4 00-500A . S tubs h ilum S eeds
a nd a nd
t esta
i n
manner
prepared
s urface
o f
t he
mounted
t o
l ongitudinal
u nfixed,
S tirton t hey
c an
s tub.
A raldite, b een
b een
w ith
b oth
w hole
a djacent
s eeds
t o
t he
mounted
h ilum
t o
a nd
s how
a t
t he
m idseed.
h ave b een h alved by pressure f racture a t r ight a ngles a cross t he
h ilum
t o
h ave t esta
s how
t he
s ection
( pers.
h ilum
a round
c omm .).
t ake u p
i n
S ince
a tmospheric
C onsequently,
t he
t ransverse
s ection,
a nd
t he s eed c ircumference,
u se
t he
w ater o f
s eeds o r
a re
d ry o ut
h ard-setting
h ygroscopic a nd while a ttached g lues
s uch
o r c onducting paints s uch a s s ilver d ay f or t he a dhesive,
a voided,
d ifferential
d ue
t o
s tresses
t he
r isk
i mposed
b y
o f
l osing
t he
vacuum o f
2 17
t he
s pecimen
t he
t he
a fter t he
s putter
u nder
a s h as t he
c oater o r
t he S EM i tself. G enerally g lues d ry, s uch a s D urafix o r U HU, s atisfactory, s mall,
t hough
t hat r etain h ave b een
d ouble-sided
s ticky
a s light p lasticity w hen f ound t o b e t he most
t ape
h as
b een
e ffective
f or
l ight s eed f ragments o r c harred material.
T owards a g reater u nderstanding o f t he a natomy o f c ertain f eatures r evealed a cross
u nder
t he
s taining,
S EM,
h ilum
s ections
b een
o f
t he
o bserved
s eedcoat
u nder
c ut
l ight
t ransversely
m icroscopy
a fter
a s w ell a s b y S EM i n t hree s pecies o f L athyrus.
C haracters u nder
t hin
h ave
t raditionally
l ow magnifications
u sed
h ave b een
t o
i dentify
s eeds
r ecorded u nder
o f
l ight
t he
V icieae
m icroscopy
a t
m agnifications o f l ess t han x 50. O bservations t hose
o f
h ave
b een
o ther
a uthors.
a nd
a nalysed
e xpressed
q ualitatively
a ssessed
W here a ppropriate, b y
c luster
a nd
c ompared
w ith
d ata h ave b een n umerically
a nalyses
a nd
principal
c oordinate
a nalysis.
Results E xternal T esta S urface. s urface
i n
t he
P revious publications h ave d escribed t he t esta
V icieae
a s
c onsistently
papillose
( Lersten,
While u sually t his was f ound t o b e t he c ase i n t his s tudy, V icia
a nd
6
o f
L athyrus
e xemplified by L athyrus c onsistent o bserved
w ithin
w ithin
w ere
a phaca
e ach
s een
s pecies
d ifferent
w ith
( Plate b ut
1 ).
o ther
pattern
t ypes,
a s
T he g eneral pattern t ype i s
v ariations
populations
1 979).
2 s pecies o f
o f
t he
i n
d etail
s ame
h ave
s pecies
b een
t hat
a re
s ometimes g reater t han t hose o f d ifferent s pecies. S imilarly, s eeds f rom d ifferent g enera may e xhibit s trikingly s imilar t esta morphology, e xemplified b y V icia e rvilia a nd L athyrus s ativus I t
has
b een
c oncluded
t hat
( Figs.
t esta morphology
a lone
t o i dentify s pecies i n t he V icieae i n most c ases T esta p its t he
d escribed b y
L eguminosae
G unn,
1 982)
h ave
1 986)
a nd o ne
o f
a nd
a n umber o f
r eported
b een
i n
r ecorded h ere
V icia .
i n
o f
i n
s everal
o f
b e
u sed
i n press).
L athyrus
4 s pecies
3 ).
c annot
( Butler,
a uthors
3 s pecies
2 ,
g enera o f
( Lersten
L athyrus
a nd
( Butler,
T he pits a re o f o ccasional o ccurrence a nd a re
n ot a c onstant f eature w ithin s pecies o r e ven w ithin populations; t heir presence o r a bsence i s t herefore c onsidered t o b e u nstable a nd u nsuitable f or u se i n t he s eparation o f s pecies. T he o f
H ilum.
T he
c haracters
i dentify
s pecies
s eparation
e xternal
t hat
o f
m orphology
o f
t he
h ilum h as
y ielded a n umber
h ave b een u sed t raditionally a s a b asis b y w hich t o o f
w eedy
t he
V icieae,
s pecies
f rom
particularly c ultivars
w hen
( Gunn,
a pplied 1 970b).
t o
t he
I t
was
a nticipated t hat a s tudy o f t he i nternal a natomy o f t he h ilar r egion i n t ransverse t axonomists
s ection t hat
m ight
w hile
b e
focus
of
v alue.
I t
i s
c onsidered
by
s ome
s eed morphology may b e s ubject t o t he i nfluence
of environmental f actors, c onservative c haracteristics. useful
o f
p lant c ells a nd t issues h ave more V ascular t issue h as b een a particularly
i nterest
C onsequently, t he t racheid v ascular b undle ( Lersten,
bar, 1 982)
i n
t his
r espect
( Bell,
n o
d ate).
a s tructure d erived f rom t he ovule l ying b eneath t he h ilum, h as b een
2 18
F ig.
1 .
L athyrus a phaca.
F ig.
2 .
V icia e rvilia.
F ig.
3 .
L athyrus
T esta s urface,
T esta s urface,
s ativus.
n on-papillose t ype.
papillose t ype.
T esta s urface,
2 19
p apillose t ype.
c arefully e xamined i n t his s tudy. t ransverse p lane i n L athyrus c icera.
F igure
4
s hows
t he
h ilum
i n
T he t racheid b ar i s c omposed o f t racheoids, i ntercommunicating b y m eans o f p erforations s imilar t o t he p its f ound i n w ood e lements. T he s ize a nd s hape i n s ection o f t his t racheid b ar a ppear t o r emain r elatively c onstant w ithin s pecies, a nd t o b e c riteria t hat m ight p rove t o b e u seful f or i dentification. H owever, t he t racheoid p its h ave n ot c onformed t o t hose d escribed b y L ersten a nd G unn ( 1982) a s t ypical i n t he V icieae, a nd h ave n ot b een u niformly r egular, a nd n on-vestured. O nly o ne s pecies o f L athyrus, n o V icia a nd n ot a ll s pecies o f L ens h ad s mooth, p lain-bordered p its. A ll o ther t axa s howed a t l east s ome t racheoids w ith w arty o r e ven e laborately v estured p its ( Fig. 5 ). M ost c ommonly w ithin a s pecies a w ide r ange o f p it o rnamentation h as b een s een, a nd v ariations i n p it d istribution a nd s hape a nd a perture s hape h ave b een t he r ule. C learly a g reater u nderstanding o f t he i mplications b ehind t hese v ariable f eatures i s n ecessary b efore t hey c an b e i ncorporated i n d ata u sed f or t he s eparation o f s pecies. S erial s ections a long t he h ilum i n 3 s pecies o f L athyrus h ave b een s tudied, a nd n o c orrelation h as b een f ound b etween t ypes o f p itting a nd t he p osition o f p its r elative t o t he s ituation o f t he t racheoid e lements i n t he t racheid b ar. O bservations
i n
t he
s eedcoat o f m embers o f t he V icieae h ave s hown
e ven a t v ery h igh m agnifications t he b readth o f v ariation e ncountered during s tudies b y l ight m icroscopy u nder l ow m agnifications. I ndividual
c haracters
o f
m orphology
a nd
a natomy
u sually
c annot
b e
r eliably e mployed f or t he i dentification o f l egume s eeds. T hus c luster a nalysis a nd p rincipal c oordinates a nalysis h ave b een a pplied t o a n a rray o f c riteria t o s eek s eparation o f s pecies. M ultivariate A nalysis. T he r esults o f a p ilot s tudy o f 1 3 s pecies o f L athyrus u sing 1 1 c haracters o f t he e xternal t esta m orphology a nd h ilum i n t ransverse s ection, h ave s hown t hat s ome t axonomically s ignificant s eparations c an b e a chieved, a nd t hat u seful c haracters c an b e f ound i n t he w idth a nd d epth o f t he h ilum a nd a ssociated t racheid b ar ( Butler, 1 986). C urrently, a nalyses a re i n p rogress o f 6 0 p opulations o f L athyrus a nd V icia u sing 4 7 c haracters. P reliminary r esults i ndicate t hat, w hile i ntrageneric s eparations c an b e a chieved, t hose b etween g enera a re m ore d ifficult. T his i s i n a greement w ith t he w ork o f L ersten a nd G unn ( 1982), u sing t raditional c riteria v isible u nder l ow p ower m icroscopy. S cattergrams o f t he e igen v alues o f a xes I a nd I I s how o verlap o f g roupings o f s pecies f rom b oth g enera. A gain, h owever, t he p arameters r elating t o t he d epth a nd w idth o f t he h ilum a nd t racheid b ar a re r esponsible f or m ost o f t he s eparations ( Butler, i n p ress). F urther a nalyses w ill b e n ecessary b efore d efinite c onclusions c an b e d rawn, a nd t hese r esults t ogether w ith f ull d ata w ill b e t he s ubject o f a f uture p ublication.
A pplications t o Archaeobotany M aterial f rom t hree a rchaeological s ites h as b een e xamined b y S EM, i n o rder t o e stablish t he r elevance o f t he s tudy o f f resh m aterial t o
2 20
Fig.
4 ,
L athyrus c icera.
Fig.
5 .
V icia f aba.
T S h ilum .
T racheoid pits o f mixed t ype.
2 21
a rchaeobotany.
C harred
Manerba,
f rom t he
f rom
I taly,
G ordion,
T urkey,
l egume
s eeds
f rom s ites a t T ell B rak,
B ronze A ge
o f
7 th
a nd
c entury
C halcolithic
B C
d ate
h ave
I raq a nd
r espectively
r etained
a nd
l ittle
o f
t he t esta. I n a ddition, v ery f ew h ave h ad t he h ila preserved i n s itu. H owever, c areful s orting o f f ractions r etained i n s mall mesh s ieves h as s hown
t hat
d etached
s eparated.
T hese
f ragments
v ery
s mall
o f
t esta
r emains
b earing
o ften
t he
s how
h ilum
u nder
c an
S EM
b e
c lear
patterning o f t he t opography o f t he e xterior s urface o f t he t esta, a nd when pressure-fractured a cross t he h ilum r eveal w ell-preserved a natomical c haracters t hat w ould permit r ecords o f t he s ame c riteria t hat
h ave
t hese
b een
c ollected
d etached h ila
f or
i n
S EM
f resh material s tudy,
allow for the conservation a rchaeobotanical s ample, a nd t hus
r ather
( Figs. t han
6 ,
t he
7 ).
w hole
T he
u se
s eeds,
o f
w ould
o f t he major s pecimens i n r emove a n i mportant obstacle t o
t he t he
a pplication o f t he S EM i n a rchaeobotany.
Conclusions T he
n eed
f or
a g reater
u nderstanding
o f
t he
a natomical
f eatures
r evealed b y S EM o f p lant s urfaces h as b een e xpressed by H eywood ( 1985). D uring t his project i t h as b een f ound t hat while S EM t ogether w ith l ight m icroscopy
c an
c ontribute
t owards
c haracters o f a natomy a nd m orphology, o f
a n umber
o f
f eatures
t hat
have
c ollection o f
a n
a rray o f
been
i nclusion
r emain
t hat
may
V icieae.
E stablishment o f t he s tability o f c haracters employed i n s eed
t he
t heir
r ecorded
d atabase
f or
f or
a nd
understood
u sed
a llow
o bserved
i nsufficiently
b e
t o
t he
t he v ariation i n a nd s ignificance
i dentification
o f
w ithin
s eeds
t he
o f
t he
i dentification i s i mportant. T he
a pplication
c riteria basis
o f
f rom f eatures
f or
more
t he
o f
c ertain
t he
S EM
t o
t he
c ollection
o f
a n
a rray
s eedcoat
o f
f resh material may
i nterpretations
o f
a rchaeobotanical
o f
f orm t he
s amples
o f
s eeds o f t he V icieae.
Acknowledgements S eed
s amples
h ave
b een
k indly
s upplied
by
M r.
G .C.
H illman,
I nstitute o f Archaeology, L ondon; by D r. F .A . B isby, Taxonomic U nit, B iology D epartment, U niversity o f S outhampton; P rofessor G . L adizinsky, t he
H ebrew
I nstitute
U niversity
o f
available
P lant
a t
t he
Crystallography u npublished
o f
J erusalem;
I ndustry, B iology
D epartment,
program
f or
a nd
L eningrad.
t he
D epartment, B irkbeck
c luster
N .I.
Vavilov
A ll-Union
S EM f acilities have b een made I mperial C ollege
a nalysis
C ollege
L ondon.
w ritten
by
a nd
t he
U sing
P rofessor
a n R .G.
D avis a nd h is own p rogram f or principal c oordinate a nalysis, t he m ultivariate a nalyses w ere c arried o ut by D r. D .H. D alby o f I mperial C ollege
L ondon,
c harred
s eed material w as
M .
C harles
o f
Archaeology
whose
( Tell
B rak)
L ondon.
h elp
i s
g ratefully a cknowledged.
s upplied by Mr.
a nd M iss S . T he
G .C .
C olledge
a dvice
o f
D r.
( Manerba) C .
Archaeological
H illman
( Gordion),
S tirton,
G ardens, K ew, h as b een m uch a ppreciated. T he work was g rant f rom t he S cience a nd E ngineering R esearch C ouncil.
2 22
Mr.
o f t he I nstitute Royal
B otanic
f unded
by
a
F ig.
6 .
P isum
c f.
M anerba,
I taly.
Fig.
P isum s p.
7 .
s ativum
a rvense.
C harred
t esta
s urface,
f rom
C halcolithic s ite.
C harred T S h ilum,
s ite.
2 23
f rom T ell B rak,
I raq.
B ronze a ge
R eferences B risson, o f
t he
J .D.
a nd
P eterson,
s canning
e lectron
R .L.
1 976.
m icroscope
A c ritical
r eview o f t he u se
t he
o f
i n
s tudy
t he
s eedcoat.
S canning E lectron M icroscopy P art V II/1976. B utler,
E .A .
1 986.
A .K . a nd C ombes, 1 985, pp. 2 5-38. B utler, E .A . P roceedings o f
C .R.
i n
t he
s eedcoat
I n press. T he V icieae: t he 7 th S ymposium o f t he
P alaeoethnobotany. B ell,
S tudies
N o
o f
L athyrus.
I n
K aul,
D . ( eds.) P roceedings o f t he C olloque L athyrus, P au N ew Y ork : T hird W orld M edical R esearch F oundation. problems i n i dentification. I nternational W ork G roup f or
C ambridge 1 986.
d ate.
P lant
v ariation
a nd
c lassification.
L ondon:
M acmillan a nd C o. C onolly,
A .
1 976.
i dentification P apaver. F eindt,
T he u se o f t he s canning e lectron m icroscope f or t he
o f
s eeds,
F .
a nd M esterharm ,
P alaoethnobotanik. H amburg, G unn,
1 7:
1 970a.
A k ey
C .R.
A nalysts 6 0:
S eeds
I nstitut
a nd
d iagram f or o f
o f
1 985.
t he
t ribe o f
S canning
r ecognition
M .E.
a nd
a nd
G .
H opf,
1 986.
N .R.
1 979.
( Papilionoidae:
L ersten,
A llgemeine
B otanik,
S eed
T esting
V icieae
( Leguminosae)
i n N orth
t he A ssociation o f O fficial S eed
e lectron
microscopy:
P roceedings
p erception,
o f
t he
R oyal
2 2-23.
M .
1 985.
F ood
r emains
f rom T ell
Q edem 2 0:
A n ew L ens f rom t he M iddle E ast.
N otes f rom t he
4 89-492.
A d istinctive
L eguminosae).
Q asile w ith
1 40-147.
s eed
c oat pattern
P roceedings
o f
t he
i n
t he V icieae
I owa
A cademy
o f
1 02-104.
N .R.
( Leguminosae:
1 982.
T racheid bar
P apilionoidae).
L ersten,
N .R .
V icieae,
w ith
( Fabaceae).
f ür
I nternational
s ystematics.
R oyal B otanic Garden Edinburgh 4 3:
S cience 8 6:
a nd
t he s eeds o f 1 00 s pecies o f
t he
s pecial r eference t o L athyrus s ativus/cicera.
L ersten,
S axifraga
4 8-70.
V .H.
L adizinsky,
t o
R asterelekronenmikroskopie i n d er
d er
P roceedings
M icroscopical S ociety 2 0: K islev,
r eference
7 73-790.
1 970b.
c haracter
1 980.
P roceedings
American A griculture.
H eywood,
G .
M itteilung
( Leguminosae).
A ssociation 3 5: G unn,
s pecial 2 9-32.
1 35-143.
C .R .
V icia
w ith
F olia Q uaternaria 4 7:
a nd
G unn,
n otes
C .R.
a bout
a nd
1 982. t ribes
T esta Abreae,
U SDA T echnical B ulletin N o.
R enfrew, J .M. P ress, p . 1 04.
1 973.
v estured p its
i n
l egume
American J ournal o f B otany 6 9:
P alaeoethnobotany.
2 24
c haracters C icereae
i n
a nd
s eeds
9 8-107. t he
t ribe
T rifolieae
1 667. N ew York:
C olumbia U niversity
S CANNING E LECTRON S TUDIES O F T HE C ELL P ATTERNS O F T HE P ERICARP LAYERS OF S OME W ILD W HEATS AND R YES. M ETHODS AND P ROBLEMS S usan C olledge I ntroduction
o f
T he w ork o utlined i n t his p aper w as c arried o ut d uring t he p eriod f unding o f t he S cience a nd E ngineering R esearch C ouncil s ponsored
p roject n umber G R/B/80796, " Early M anipulations o f P lant R esources i n N ear E astern S teppe a nd R iverine F orest" ( hereafter r eferred t o a s " The A bu H ureyra P roject"). T he p roject w as i nitiated a nd d irected b y M r. G ordon H illman a nd P rofessor D avid H arris a t t he I nstitute o f A rchaeology, L ondon. T he h igh p owered m agnification w hich c an b e a chieved w ith s canning e lectron m icroscopy w as r equired f or t his s tudy t o f acilitate t he i nvestigation o f t he m icrostructure o f t he o uter c ell l ayers o f c ereal a nd g rass s eeds. F igure 1 s hows t he c omposition o f t hese l ayers. I n t he f amily G ramineae ( which i ncludes g rasses a nd c ereals) t he p ericarp ( fruit w all) a nd t esta ( seed c oat) a re f used t ogether t o f orm t he c overing l ayers o f t he s eeds. O f p articular i nterest i n t his i nvestigation a re t he l ongitudinal, t ransverse a nd t ube c ell l ayers. F igure 2 g ives t he c onfiguration o f t hese l ayers o n a g rain o f w heat. I mportant p ioneer w ork c arried o ut b y P rofessor K orber-Grohne ( Korber-Grohne a nd P iening 1 980; K orber-Grohne 1 981) p rovided t he b asis f or t his s tudy. S he r ealised t he p otential o f u sing m orphological details o f t he m icrostructure o f t he s eed p ericarp l ayers i n i dentification o f c ereal s pecies. H er w ork w as a d irect r esponse t o o ne o f t he g reatest p roblems i n a rchaeobotany: t he i dentification o f a ncient c ereal g rains w here t he g ross m orphological c haracteristics o f t he s eeds a re n ot n ecessarily d iagnostic. T he v erification o f s pecies o f w ild a nd d omestic c ereals f ound w ithin a rchaeological d eposits, f rom a ll p eriods, i s v ital i n o rder t o u nderstand t he d evelopment, a nd s pread o f t he v arious r aces o f c rop p lants. A s p art o f i dentified g rains
e mergence
h er i nvestigation K orber-Grohne p repared m odern, o f w heat, b arley a nd r ye s pecies a nd u sed a s canning
e lectron m icroscope, a t magnifications o f b etween 2 00 a nd 2 ,000 t imes, t o s urvey t he l ayers o f t he p ericarp. M uch o f h er w ork w as c oncentrated o n i nvestigation o f t he t ransverse c ell l ayers. I t w as n ecessary t o q uantify c ertain m orphological f eatures t o a llow f or a n o bjective a ssessment o f t he c ell p atterns. K orber-Grohne i ncluded t he l ength a nd b readth m easurements o f t he c ells ( both a bsolute a nd r elative), t he t hickness o f t he c ell w alls, t he a mount o f p itting i n t he c ell w alls a nd t he o verall s hape a nd a rrangement o f t he c ells i n t he t ransverse l ayer. T o c omplete t he c haracterisation o f t he p atterns s he a lso n oted t he n umber o f c ell l ayers w ithin t he l ongitudinal l ayer a nd t he p resence o f t he t ube c ells. K orber-Grohne f ound a c onstancy o f t hese f eatures w ithin s pecies, s uch t hat, o n t he b asis o f c omparison o f t hese q uantitative p arameters f or m odern s pecimens, s he w as a ble t o s uggest t he p ossibility o f d ifferentiation b etween w ild a ncestral f orms a nd t heir e quivalent d omesticated s pecies. S he w as, h owever, c areful t o s tress t he i nadequacy o f s cientific t esting i n h er w ork. T he d iagnosis o f m orphological f eatures i n t he p ericarp l ayers w as a pplied
2 25
o u te r e p ide rm is h ypode rm is
O
0 =3
• = G
= ..
=
0
;
0 (---
C =2 0 p == = >C== 4 =
p ar en chyma i n ner e p ide rm is
0
p e r ica rp
L o ng i tud ina l c e l l s t ransverse c e l ls \ t ub e c e l ls \s e ed c oa t/tes ta n u c e l la r l a ye r a l eu rone
C
s ta r ch
C )
S ec t ion t h rough t h e o u te r l a ye rs o f a w hea t g ra in .
F ig.
1 .
D iagrammatic
r epresentation
w heat g rain.
2 26
o f
t he
o uter
c ell
l ayers
o f
a
A pex
L o ng i tud ina l c e l ls t r ans ve rs e c e l ls t ube c e l ls V en t ra l s u r fa ce
D orsa l s ur fa ce E mbryo
F ig. 2 . D iagrammatic r epresentation o f t he l ateral s urface o f a w heat g rain s howing t he c onfiguration o f l ongitudinal, t ransverse a nd t ube c ell l ayers.
2 27
t o
S EM p hotomicrographs
o f
a ncient
c harred g rains
a nd,
b y c omparison,
i dentifications w ere m ade. T his w as t he s tate o f k nowledge a t t he t ime o f t he A bu H ureyra P roject. A rchaeobotanists w ere b eginning t o u se t he d iagnostic c riteria i n t he i dentification o f a ncient c ereal g rains f rom a rchaeological s ites o f v aried d istribution, b oth g eographically a nd c hronologically, a nd t heir i nterpretations w ere m ade a ccordingly.
T he Abu H ureyra P roject T ell A bu H ureyra i s a s ite i n n orthern S yria o n t he s outhern b ank o f t he R iver E uphrates. O ccupation a t t he s ite e xtended f rom E pipalaeolithic t hrough t o A ceramic a nd C eramic N eolithic p eriods ( c. 9 000 b c t o 6 000 b c). T he s ite w as e xcavated d uring t wo s easons i n 1 972 a nd 1 973 ( Moore, e t a l. 1 975). T he i nitial r ecovery o f t he a ncient, c harred p lant r emains f rom w ithin t he o ccupation d eposits a nd t he s ubsequent a rchaeobotanical r esearch, c arried o ut d uring t he t hree y ear f unding o f t he p roject, w ere u ndertaken w ith t he a im o f a nswering v ery s pecific q uestions r elating t o t he b eginnings o f c ultivation a nd e mergence o f f ully d omestic c rops i n t hat a rea o f t he N ear E ast. p reservation o f t he c harred p lant m aterial f rom E pipalaeolithic N eolithic l evels w ithin t he t ell w as e xcellent. H illman r ecognised
t he T he a nd t he
p otential f or i nvestigation o f t he t ransition f rom g athering w ild p lant f oods t o t he f irst s tages o f a griculture w ith m anaged c rops. H e w anted, i n p articular, t o t race a ny s igns o f e arly m anipulation o f w ild p lant f oods i n t he E pipalaeolithic p eriod a nd, t hus, t o a ttempt t o d efine t he c ircumstances a nd p rocesses w hich g ave r ise t o f ully d omesticated c ereal s pecies i n t he N eolithic. H illman ( pers. c omm .) c onsidered t here w as a p ossibility t hat h istological c hanges i n t he s eed ( i.e. c hanges i n t he m icrostructure o f t he c ells o f t he p ericarp l ayers) m ight h ave o ccurred p rior t o a ny g ross m orphological c hanges i n r achis s tructure a nd g rain s hape o nce t he w ild p lants w ere u nder m an's i nfluence. D omestic c ereals h ave a t ough r achis w hich d oes n ot s hatter w hen s eed
t he e ar i s m ature, i n w ild s pecies t he r achis i s ' brittle' a nd d ispersal o ccurs a utomatically a t m aturity . A lteration o f g rain
s hape a nd s ize a ccompanies d omestication o f t he s pecies. T he r esearch w as d esigned t o l ook f or t hese h istological c hanges u sing t he s canning e lectron m icroscope o n g rains o f w ild e inkorn, T riticum b oeoticum, a nd w ild r yes, S ecale s pp., f rom E pipalaeolithic o ccupation d eposits a t A bu H ureyra ( Figs. 3 c, d ). I f t hese c hanges c ould
b e
i solated
i t
w as
o bvious
t hat
t he
i mplications
w ould b e f ar
r eaching.
S EM S tudies o f Modern G rains P rior t o t he e xamination o f t he a ncient g rains i t w as n ecessary t o u ndertake a t horough s urvey o f m odern s pecimens o f t he e quivalent s pecies. T able 1 l ists t he s pecies w hich w ere u sed a nd t he h abitats w here t hey w ere c ollected. F or t he w ild c ereal s pecies t he p rimary h abitats r efer t o t he n atural w ild s tands a nd t he s egetal h abitats r efer t o w hen t he p lants w ere f ound g rowing i n a f ield o f c rops. T he l atter f orms m ight w ell m imic t he s ituation o f t he E pipalaeolithic
2 28
T ABLE
1 :
M odern
P opulations
o f
Wheats
a nd
R yes
u sed
i n
t he
S EM
R eference S tudy* 1 .
T riticum b oeoticum : A .
1 . 2 .
C .
- 1 _ tl
a nd 2 ' s pikelets I
I
I
T urkey, T urkey,
G CH 1 8176 D HF 4 20
- l ' a nd 2 ' s pikelets _ I t I t
6 . 7 . 8 .
T urkey, T urkey, T urkey,
G CH 3 070 G CH 2 264 G CH 3 705
_ e t _ t e _It
e t t
T urkey, T urkey,
GCH 3 341 P BI
T riticum boeoticum var.
I t
I t
I
D erived f rom i ntermediate habitats
A .
I t
( disturbed,
but u ncultivated)
- l ' a nd 2 ' s pikelets / I
u rartu:
I t
I t
t I
s ingle-toothed w ild e inkorn
D erived f rom p rimary habitats 1 1. T urkey, I CARDA 5 5130 - l ' a nd 2 ' s pikelets 1 2. S yria, I CARDA 2 0049 _ t e I I 1 3. 1 4.
B .
S yria, S yria,
I CARDA 2 0033 I CARDA 2 0125
I t I t
V t
f t
I t
I t
I t
D erived f rom s egetal habitats 1 5. S yria, I CARDA 2 0186 - 2 ' s pikelets o nly
T riticum monococcum : A .
4 .
G CH 3 091 G CH 3 771
habitats
4 . 5 .
9 . 1 0.
3 .
T urkey, T urkey,
( wild)
3 . T urkey, G CH 3 219 - 1 ' s pikelets o nly D erived f rom s egetal habitats ( i.e. g rowing a s w eeds o f c rops)
B .
2 .
w ild-type e inkorn
D erived f rom p rimary
f ully d omesticated e inkorn
G rown a s c rops 1 6.
T urkey,
P BI
1 7.
T urkey,
Z ohary
1 8.
T urkey,
J BB
S ecale
-
s pikelets o nly
-
montanum :
w ild
V I
mountain
r ye
( all
r ye
s pikelets
a re
2
g rained) A . D erived f rom p rimary habitats
5 .
1 9. 2 0.
T urkey, T urkey,
G CH 3 094 G CH 3 215
2 1.
T urkey,
G CH 2 618
S ecale s ylvestre: A .
v ia URBG
U SSR,
C rete,
van Z eist
S ecale c ereale:
c ultivated r ye
D erived f rom s egetal habitats 2 5.
B .
- 2 ' s pikelets
h airy w ild r ye
D erived f rom p rimary habitats 2 4.
A .
- 2 ' s pikelets
v ia UMBG
H aynaldia v illosa : A .
7 .
U SSR,
D erived f rom s egetal habitats 2 3.
6 .
w ild s and r ye
D erived f rom primary habitats 2 2.
B .
- 2 ' s pikelets _ I I t
T urkey,
G CH 1 8186
( subsp. - 2 '
A c ultivated c rop i n i ts o wn r ight 2 6. 2 7.
T urkey, T urkey,
G CH 2 921a G CH 3 544a
2 8.
U nited K ingdom,
2 9.
T urkey,
s egetale)
s pikelets ( subsp.
c ereale)
- 2 ' s pikelets _ e t
P BI
_ i t
G CH 2 872b
* 1 ' r efers t o t he g rain f rom a o ne-grained s pikelet, 2 'S r efers t o t he s maller o f t he t wo g rains f rom a t wo-grained s pikelet, a nd 2 'L r efers t o t he l arger o f t he t wo g rains f rom a t wo-grained s pikelet.
2 29
Fig.
3 .
a .
T riticum
u rartu
2 'L
o verlying t ransverse c ell l ayer, t ube
c ells
s pecimens
r unning f rom
u nder
t he
Epipalaeolithic
L evel n umber E 2 81,
d .
( SY b .
2 0125):
l ongitudinal
T riticum monococcum 1
t ransverse l evels
a t
L evel n umber E 3 26.
2 30
c ell T ell
l ayer.
c ell ( D.
c .,
Abu H ureyra,
l ayer
Z ohary):
d .
Ancient
S yria:
c .
m anipulation o f w ild g rasses a nd c ereals. T he f irst s tage o f t he r esearch w as, t herefore, t o d etermine w hether t here w ere d ifferences i n t he t ransverse c ell p atterns b etween g rains o f t he s ame s pecies f rom p rimary a nd s egetal p opulations ( Fig. 4 ). T able 2 l ists t he f eatures a nd m easurements c omparison.
o f
t he
c ell
p atterns
w hich
w ere
c onsidered
f or
M ethods T he m odern g rains w ere s oaked i n w ater f or 1 -2 h ours t o f acilitate t he r emoval o f c ell l ayers a bove t he t ransverse c ells. A p robe w as u sed t o s ecure t he g rain o n i ts s ide a nd w ith f ine f orceps i t w as p ossible t o p eel o ff t he l ayers b y g ently p ulling a t t he h airs a t t he a pical e nd. U sually t he l ayers o n t he t wo l ateral s urfaces c ame a way w ithout t earing. T he g rains w ere t hen p ut i n a n o ven f or a bout 1 6 h ours a t a t emperature o f 2 30 ' "C t o r eplicate t he c harring o f t he a ncient r emains. A ll s pecimens w ere d rawn b efore a nd a fter c harring, t o t ake a ccount o f a ny s ize c hanges w hich m ight a ffect t he c ell p atterns. N o o ther p reparation w as r equired a nd t he g rains w ere m ounted o n t he S EM s tubs w ith d ouble s ided s ticky t ape o n t heir l ateral s urfaces a nd w ere s putter c oated w ith g old t o a t hickness o f c . 4 0 n m . I n h er i nvestigations K orber-Grohne d escribed a n a rea o n t he c ereal g rains w hich s howed l east d istortion o f t ransverse c ells, a nd s he b ased a ll h er q uantitative a nalysis o n t he p atterns i n t his a rea. F or t his s tudy t he a rea o f t he g rain w as d ivided i nto t hree s ections ( Figure 5 )
a nd e ach p art w as s canned s eparately .
R esults I t m ust b e
s tressed
t hat
t he
i nvestigation
i s
f ar
f rom c omplete.
A s y et, n o d etailed q uantitative a nalyses h ave b een a pplied t o t he S EM p hotomicrographs. T he r esults g iven h ere a re, t herefore, p reliminary. T he e xpected.
s tudy
h ighlighted
m any
m ore
p roblems
t han
w ere
i nitially
T he r esearch i ndicated t hat:
i )
t here w as n o c onstancy o f c ell p atterns o f t he t ransverse l ayer o n o ne g rain ( Figs. 6 a-c);
i i)
t here w as n o c onstancy o f c ell p atterns o f t he t ransverse l ayer o n g rains f rom a o ne-grained s pikelet a nd a t wo-grained s pikelet o f t he s ame e ar ( Figs. 6 d-f);
i ii)
t here w as n o c onstancy o f c ell p atterns o f t he t ransverse l ayer o n g rains o f t he s ame s pecies f rom d ifferent p opulations ( Figs. 7 a, b ); t here w ere, h owever, s triking s imilarities o f c ell p atterns o f t he t ransverse l ayer o n g rains o f w ild a ncestral f orms o f w heat a nd r ye a nd o n t heir e quivalent d omesticated s pecies ( Figs. 7 c, d ); a nd t here w ere s imilarities o f c ell p atterns o f t he t ransverse l ayer o n g rains o f d ifferent g enera ( Figs 7 e, f ).
i v)
v )
F rom t his s tudy i t i s o bvious t hat t he u se o f m icromorphological f eatures o f t he p ericarp l ayers o f c ereals c annot b e a pplied i n s uch
2 31
T ABLE 2 : C riteria E xamined P ericarp o n M odern C ereals
i n
t he
C ell
P atterns
o f
L ayers
o f
L ongitudinal C ells * :
n umber o f l ayers c ell s hape c ell s ize w all t hickness v isibility o f p itting
T ransverse C ells:
n umber o f l ayers c ell l ength c ell w idth l ength/width r atio p resence o f i ntercalated c ells s hape o f i ntercalated c ells e nd w all c urvature e nd w all t hickening e nd w all o verlap w ith a djacent r ows o f c ells s ide w all t hickening s ide w all p itting: p rominence :d istribution, r egularity o ccurrence o f a ngular l acunae a t c ell e nds
T ube C ells:
p resence d istribution o ver t he w hole g rain r egularity, d ensity w idth o f t ubes t hickness o f t ube w alls
e xamined u nder o ptical l ight m icroscope o nly
2 32
t he
c e l l t e nth e nd w a l l o ver lap
c e l l b r ead th i n t er ca la t ed 4 - c e l ls e nd w a l l t h icken ing p i t t ing a ngu lar l a cunae
T r ansverse c e l ls
F ig. 5 . D iagrammatic r epresentation o f t he l ateral g rain s howing t he d ivision i nto a reas f or s canning.
F ig.
4 .
D iagrammatic
r epresentation
o f
t he
v iew
t ransverse
o f
a w heat
c ell
l ayer,
s howing t he f eatures u sed f or t he c omparison o f t he c ell p atterns.
2 33
a
F ig.
6 .
a -c.
T riticum m onococcum
( PBI,
c ):
d ifferent c ell
p atterns i n d ifferent a reas o f t he s ame g rain, a . a pex, b . m iddle, b ottom . d -f. T riticum m onococcum ( D. Z ohary): d ifferences i n c ell p atterns o n g rains f rom o ne-grained s ame e ar: d . 2 'S, e . 2 'L, f . 1.
2 34
a nd
t wo-grained
s pikelets
o f
c . t he
F ig. 7 . a , b . g rains o f t he b .
( PBI).
S ecale c ereale: d ifferences i n t he c ell patterns o n t he s ame s pecies f rom d ifferent populations: a . ( GCH 2 921a), c ,
d .
d ifferent s pecies: 2 'L
( D.
Z ohary).
S imilarities c . e ,
d ifferent g enera: e . c ereale, ( GCH 3 094).
o f
t he
T riticum b oeoticum, f .
c ell 2 'L
patterns ( PBI),
d .
o n T .
g rains
o f
monococcum,
S imilarities o f t he c ell patterns o n g rains o f
T riticum
monococcum'
2 35
2 'S
( D.
Z ohary),
f .
S ecale
K orber-Grohne
h erself
b een
c ritical
a m uch more
a nalyses
t horough
i nvestigation o f
a r ange
T he
t emptation,
i n
past,
t o
m icroscopy s pecies
i n
t he
u ntil, t he
f inal
r epresented
h ighlighted
t he
a rchaeological
a s
h as
c onfirmation
i n
t he
a ncient
l imitations s pecimens
u se
both
a lso
t here
h as
modern s pecies.
s canning
e lectron
o f t he i dentification o f t he c rop r emains.
i mposed
a nd
b een
a dmits, o f
b y
T his
by
t he
t he
i nvestigation
preservation
l ack
o f
o f
h as t he
c haracterisation
a mongst t he m odern s pecies.
R eferences K orber-Grohne, U . a nd P iening, U . 1 980. M icrostructure o f t he s urfaces o f c arbonised a nd n on-carbonised g rains o f c ereals a s o bserved l ight
m icroscopes
d etermining p rehistoric f indings.
i n
s canning
e lectron
F lora 1 70:
K orber-Grohne,
U .
T riticum
a nd
s canning
e lectron
a nd
1 981.
S ecale
o n
a s
a n
a dditional
D istinguishing prehistoric t he
basis
m icroscope.
o f
t heir
J ournal
o f
a id
i n
1 89-228. c ereal
g rains
o f
s urface patterns
u sing
t he
Archaeological
S cience
8 :
H ureyra
i n
1 97-204. M oore,
A .M.T.
a l.
1 975.
S yria:
a p reliminary
r eport.
4 1:
e t
T he
e xcavation
P roceedings
5 0-77.
2 36
o f
o f t he
T ell
Abu
P rehistoric
S ociety
P ART V I :
AN IMAL MATER IALS
2 37
T HE D ETECTION OF D IAGENETIC C HANGES I N N ON-MARINE S HELLS P RIOR T O T HEIR S UBMISSION F OR 1 4 1 C D ATING T im Yates
Abstract T he u se o f s hells f rom t errestrial a nd f reshwater m olluscs f or '4 C d ating h as i n t he p ast b een v iewed w ith s kepticism b ecause t he r esults a re p rone t o d istortion f rom p ost-depositional d iagenesis, o r t he i ncorporation o f m aterial w ith a l ow 1 4 C /1 2 C r atio w hilst t he m ollusc w as a live, o r b oth. T his paper d eals w ith t hree a spects o f a l arger p roject: d iagenetic c hanges, t heir d etection a nd t heir e ffect o n d ating. D iagenesis w as s tudied b y c omparing t he s tructure a nd c hemical c omposition o f m odern s pecimens w ith t hose o f f ossil s amples. S canning e lectron m icroscopy s howed t hat f ive s tructures w ere p resent i n f reshwater s hells a nd o ne i n t errestrial s hells; t hree f orms o f p ostd epositional s tructural c hange w ere o bserved. T he e ffect o f d iagenetic a lteration o n ' 'C d ates i s c onsidered u sing d ates o btained o n f ossil s amples u sing A ccelerator M ass S pectrometry ( ANS) t echniques.
I ntroduction The chronology o f d evelopmental p rocesses i n e nvironment, l andscape o r s ociety o ften c alls f or '4 C d ating o f s ome f orm o f c alcium c arbonate, s uch a s s hells, c arbonate n odules, c alcite o r t ufa. W here p reservation c onditions a re s uitable t hese m aterials m ay b e a vailable i n q uantities t hat a llow c onventional 1 4 C d ating ( Evin e t a l., 1 980; T horpe, O tlet a nd S weeting, 1 980; C allen, W asson a nd G illespie, 1 983), a nd w ill c ertainly b e a vailable i n t he q uantities r equired f or A NS t echniques; t hey a re, h owever, o ften u sed o nly a s a l ast r esort b ecause t he a ges t hey y ield a re c onsidered u nreliable f or a ccurate d ating. E arlier s tudies o n marine m olluscs ( Gillespie a nd P olach, 1 979; M angerud, 1 972) h ave s uggested t hat t he a ssociated e rrors m ay b e q uantifiable w ithin s tatistical l imits, a nd t he w ork o f V ita-Finzi ( 1980; V ita-Finzi a nd R oberts, 1 984) h as e mphasized t he i mportance o f s ample p reparation i n o btaining r eliable r esults. O lsson, G öksu a nd S tenberg ( 1968) h ave a lso e mphasized t he r isk f or c ontamination b y a dsorption o f C O, b y s toring i n t he a tmosphere. L and a nd f reshwater m olluscan s hells a re e ven m ore s uspect t han m arine s hells s ince t hey c ontain m aterial w hich m ay h ave b een s everely d epleted i n '4 C w hen t aken f rom t he e nvironment, b esides b eing s ubject t o r ecrystallisation a nd c ontamination s ince d eath. T his p aper b uilds o n t he o riginal w ork o f C happell a nd P olach ( 1972) a nd s hows t hat, o nce t he o riginal s hell s tructure h as b een r ecognised, d iagenetic c hanges c an r eadily b e i dentified u sing t he S EM a nd o ften t he l ight m icroscope. I t g oes o n t o s how t he e ffect t hat u ndetected d iagenetic m aterial c an h ave o n 1 4 C d ates m easured b y A NS.
2 39
M ethods a nd T echniques P rocedures b ased o n s table i sotope a nalysis ("C/ 1 2 C , 1 01' 0) a nd c hemistry o f s hells a nd t heir e nvironment o f d eposition a llowed s election o f s amples i n w hich a pparent a ge e ffects w ere a t a m inimum ( Yates 1 986). T hese s amples w ere t hen e xamined f or d iagenetic m aterial a nd c ontamination. I n o rder t o m ake a r eliable a ssessment o f t he e xtent a nd p osition o f d iagenetic c hanges a nd a reas o f c ontamination i t w as n ecessary t o e stablish t he f orm o f u naltered s tructures, t he l evels a t w hich d iagenetic m aterial t heir p otential f or r emoval. a ims w ere i ntegrated t o g ive s hown i n F igure 1 .
a nd c ontamination c ould b e d etected, a nd T he t echniques n ecessary t o a chieve t hese a c onsistent a nd r eliable m ethod a nd a re
After c leaning, t he m ineralogy o f i ndividual s hells w as e stablished . A nalysis o f m odern s amples c onfirmed t hat a ll t he s pecies s tudied w ere p ure a ragonite u nless t hey c ontained r egenerated s hell m aterial ( Saleuddin, 1 971). E ach s hell w as s ampled a t f ive t o t en p oints t o p rovide a m inimum s ample o f 5 0 m g f or x -ray d iffraction ( XRD) a nalysis. T he a nalyses w ere u ndertaken o n a P hilips P W 1 010 d iffractometer w ith a C uK a s ource f itted w ith a N i f ilter a nd c alibration s howed t he m inimum d etectable l imit t o b e 0 .6% c alcite. A ll s amples c ontaining c alcite a nd a n umber o f t hose t hat w ere p ure a ragonite w ere e xamined u nder a s canning e lectron m icroscope. S amples w ere c oated w ith g old/palladium i n a n a rgon a tmosphere a nd e xamined u sing a J eol 3 5CF a nd a n H itachi S -530, b oth o perating a t 1 52 5KV; u ncoated s amples w ere s tudied a t 2 -4KV. T he w orking r ange w as 3 0-80,000 t imes, s o t hat s ingle a ragonite c rystal u nits c ould b e r esolved. I f o bservation s howed t he c ontamination o r r ecrystallisation t o b e a s urface d eposit, f urther c leaning w as u ndertaken f ollowed b y f urther X RD a nalysis. W hen t he s hell w as j udged t o b e c lear o f c alcite t he w hole s hell w as e tched i n 5 % H Cl, r insed i n d istilled w ater, d ried a nd g round. T he s ample w as t hen s ubsampled a nd a gain a nalysed f or c alcite. S amples i n w hich n one w as d etected w ere c onsidered s uitable f or 1 4 C a nalysis.
S tructures P resent i n F reshwater a nd T errestrial S hells D etails o f t he s tructures o f 1 8 f reshwater b ivalves w ere a lready a vailable ( Taylor, K ennedy a nd H all, 1 969; M ackie, 1 978), a nd t he o bservations o n U nio s pecies w ere c onfirmed b y f urther s tudy. E ight s pecies o f f reshwater a nd 1 5 s pecies o f t errestrial g astropods w ere e xamined, t he s tructure o f o nly o ne s pecies b eing k nown f rom e arlier r esearch. T he n omenclature u sed i s b ased o n t hat o f T aylor, K ennedy a nd H all F ive
( 1969). s tructures
w ere
f ound
t o
b e
p resent:
c rossed-lamellar,
c omplex c rossed-lamellar, s heet n acreous, l enticular n acreous a nd p rismatic, t he l ast f our b eing p resent o nly i n t he f reshwater b ivalves.
2 40
COLLECT SA MPLE
CLEAN OUTS IDE ( 1 ) GASTROPODS RECORD ENV IRON MENTAL DATA
( 2 ) ' 4C MODERN SA MPLES ( 3 ) CHE M ICAL AND S TABLE I SOTYPE ANALYS IS ,
S ECT ION ( 1 )
MODERN SA MPLES
CLEAN I NS IDE ( 1 ) (
ETCH I N 5% HCL
GR IND SHELL c0 . 5mm
(3 )
TAKE 5 x 10mg
ETCH I N 5% HCL
SA MPLES
ARAGON ITE
CALC ITE PRESENT
HECK US ING S EM /PEEL
S EM /PEEL
ETCH I N 5% HCL
MECHAN ICA CLEAN ING
SA MPLE AND CHECK XRD
S TORE SA MPLE . FOR ' 4C
F ig.
1 .
P retreatment p rocedure f or m ollusc s hells.
2 41
(3R IND SHELL c5 m ic rons
S heet N acreous a rrangement o f
S tructure. T his l ayers p arallel t o
i s d istinguished b y t he s hell i nterior.
t he T he
r egular overall
e ffect i s o f a b rick w all, w ith t he i nterlamellar a nd i ntercrystalline o rganic matrices r epresenting t he m ortar ( Fig. 2 ). L enticular t ablets, I n
N acreous
S tructure.
f ormed o f
g eneral,
t he
p iles
o f
s urfaces
I n
t his
f orm t he
t hin l ayers,
a re
e uhedral
o r
r ounded
a re s tacked i n u neven groups.
d istorted,
l eading
t o
a more
i rregular
f orm t han t hat o f s heet n acre. P rismatic a re
S tructure.
g enerally
c onchiolin
T he
prisms
pentagonal
w alls.
T he
t hat
c ells
c ells
f orm t he basic
d ivided
a re
n arrow
n ear
r ise t o a l arge n umber o f s mall prisms. many
o f
t hese
i n
g rowth
a nd
f rom
t he
o ne
s tructural
a nother
by
u nit t hick
t he p eriostracum,
g iving
G eometric s election e liminates
c haracteristic
p rismatic
f orm
i s
p roduced. C rossed-Lamellar marine
S tructure.
g astropods,
s tructure s econd-,
i s
i ts
a nd
i s
t he
e xact
o nly
f orm
s tructure
s hows
w ide
f rom a t hree-fold h ierarchy
t hird-order
( 1974)
c oncentric margin. C omplex
f ormed
a nd
P hilippon
T his
t hough
l amellae
d escribe
r adial,
t wo
t hat
( Fig.
t ypes
d iffer
3 ).
o f
i n
f ound
i n
n on-
variation.
c onsisting
o f
MacClintock
( 1967)
c rossed-lamellar
t heir o rientation
T he
f irst-, a nd
s tructure,
t o
t he
s hell
Both t ypes o ccur i n most g astropod s hells. C rossed-Lamellar
s tructural
u nits
a s
S tructure.
t he
T his
f orm
c rossed-lamellar
i s
b uilt
s tructure
o f
but
t he w ith
s ame f our
o rientations o f c rystallites i nstead o f t wo.
Diagenetic S tructures T he
present
B ritish s urface
I sles
s tudy
o f
r evealed
e tching,
f ossil
t hree
f ormation
s hells
f orms
o f
( 3000
o f
s urface
B P
- 9 000
B P)
post-depositional
c rusts,
a nd
f rom t he c hanges:
r ecrystallization.
A ssociated w ith t hese i s t he e xfoliation o f s hell l ayers w hich a ccounts f or
t he
" flaky"
s hells.
T he
t exture
g aps
.f requently
c aused
b y
f ound
e xfoliation
o n
n on-marine
a re
g astropod
s usceptible
t o
both
c ontamination a nd t he g rowth o f s econdary c alcite. E tching. i n
T his a ppears t o r epresent t he e arliest s tages o f d issolution;
t he
t errestrial
g astropods
e xamined
t he
a ttack
was
g enerally
c onfined t o t he s urface a nd h ad p enetrated o nly a f ew m icrons. cases,
h owever,
o ccurring b elow.
i n T he
e xfoliation
e tching
o f
a ssociation w ith
i ndividual s econdary
s urfaces
a vailable
p rocesses
b ecause
f or i t
t hird-order
d eposition;
d issolution g ives
t his
a re
a ccess
I n s ome
l amellae i s
i ncreased
t o
t he
w as
d iscussed by
t he
f irst-order
l amellae i nterfaces w hich a re n ot protected b y o rganic matrices. S urface
C rusts.
s hells.
A
T his
s imilar
f orm o f s tructure
d iagenetic w as
c hange
r ecorded
w as
b y
o bserved on
E vans
s uggested i t was a s econdary d eposit o n t he o riginal The present study s uggests t hat i t c an a lso r ecrystallisation o f o riginal s hell material o n
b oth
i nner
i n t hickness.
a nd
o uter
s urfaces,
b ut
( Fig.
4 ).
( 1972),
many w ho
s hell s urface. b e f ormed by I t was observed
o nly o ccasionally
e xceeded
1 0u
T he t hickness i s l imited by t he c rust b reaking a way f rom
2 42
F ig.
2 .
D etail
o f
a s heet n acreous s tructure i n a f reshwater b ivalve
( Unio s p.).
F ig.
3 .
C rossed-lamellar s tructure i n H elix a spersa.
2 43
2 5KU Fig.
4 .
X 2600
W eathered C aerwys,
s urface
C lwyd
3 4 o f
1 0.0U
a f ossil
( 7880+150BP).
s hell
o f
C RYST C epaea h ortensis f rom
N ote t he s urface c rust
( top
r ight).
F ig.
5 .
B oundary b etween c rossed-lamellar s tructure a nd r ecrystallised c alcite ( top). F ossil s hell o f C epaea n emoralis f rom C aerwys, C lwyd
( 7880+150BPO.
2 44
t he s hell s urface, a s w as c learly s een i n a n umber o f s pecimens. T his i s a lso s een a s e xfoliation a nd i s c omparable w ith t he l oss o f t he h ydration l ayers o bserved o n o bsidian. T he e xfoliation o f c rusts m ay o we s omething t o d ifferential e xpansion o f t he s hell a ragonite r elative t o t he c alcite c rust. S uch c rusts a re b elieved t o f orm f rom t he d eposition o f s econdary c alcite f rom g roundwaters a nd, t herefore, t o c ontain c arbonate t hat i s o lder t han t he c ontext. R eplacement p eeled
o ff,
o f A ragonite b y C alcite. o r
w here
t he
W here t he s urface c rusts h ad n ot
r ecrystallisation
h ad
t aken
p lace
f rom
a n
i nner l ayer s urface, l arger a reas o f r eplacement c alcite w ere f ound ( Fig. 5 ). I n t he s hells s tudied t he a reas a ffected d id n ot e xceed 5 % o f t he s hell's v olume. T his s till r epresents, h owever, a n u nacceptably h igh l evel i n o lder s amples, a s i t u sually i ncorporates p ostd epositional C O2 . T he r ecrystallization p rocess a ppears t o c onform t o t he m odel p roposed b y P ingitore ( 1976; 1 982), w ith a n arrow d iagenetic f ront s eparating t he c alcite f rom t he u naltered a ragonite. A lthough t he f ront i s n arrow ( 1-2 m icrons), n o a pparent r etention o f t he o riginal s tructure w as o bserved .
T he E ffect o f D iagenetic C hanges o n 'm C D ates V alidation o f t he p retreatment a nd s election p rocedures r equired t he d ating o f s amples f rom a c ontext f or w hich o ther d ating w as a vailable. S amples w ere c ollected a t a n e xtensive t ufa d eposit a t C aerwys i n C lwyd, W ales f or w hich ' 'C d ates w ere a lready a vailable. T he s hells w ere s ubjected t o t he s election m ethods o utlined a bove a nd f ive s amples s ubmitted f or '4 C d ating b y t he A NS t echnique. A ccess t o t his t echnique a llowed s mall s ample s izes t o b e p repared a nd t herefore b e s ubjected t o a t horough s election p rocedure. S amples w ere g enerally 1 00 m g i n w eight b ut t wo w ere o nly 1 0 m g. D etails o f t he s amples a re g iven i n T able 1 . S amples 0 X4-6 w ere u naltered a ragonite s hell. T he d ates f or 0 X4 a nd 0 X6 w ere n ot s ignificantly d ifferent f rom t he d ate o btained o n c harcoal. S ample 0 X5 w as y ounger t han t he a ccepted d ate b y 3 50 y ears, b ut f urther S EM a nalysis s howed t hat i t c ontained s mall a reas o f r ecrystallised m aterial, p articularly b etween i ndividual l amellae. p resence o f s econdary c arbonate c ould e xplain t he a ge e rror a nd d irection. S amples 0 X13 a nd 0 X14 w ere d iagenetic d eposits; 0 X13 r ecrystallised m aterial ( calcite) a nd 0 X14 a s urface c rust. p redicted t hey w ere i n e rror a nd i n t he e xpected d irection.
T he i ts w as A s
C onclusion T he w ork d ealt w ith i n t his p art o f t he p roject h as s hown t hat o ne o f t he t wo m ajor p roblems a ssociated w ith t he u se o f n on-marine s hells f or ' 'C d ating c an b e r educed t o l ow l evels a nd i n t he c ase o f s elected s amples c onfined t o w ithin t he s tatistical e rrors a ssociated w ith c ounting. T o a chieve t his r equires a r igorous a pproach t o t he c leaning a nd p reparation o f m aterial f or d ating a nd i n t his t he S EM p lays a n i mportant r ole.
2 45
r n
0 C
c o
e
I f )
I f )
N
C N I I
, 1 I
0 I
C f ) C f )
r -
N , 1 P O
0 N
0
0
0
0
8 9 0 + / 6 5 0
N
c p N
h o r t e n s i
. . . L c )
6 3 0 + / 6 0
. . . e
. . . .
n e m o r a l i s
. . , m
. . .
7 8 6 0 + / 1 0
c o
7 5 3 0 + / 1 0
c o
h o r t e n s i
g I
7 9 5 0 + / 9 5
c 0
a e n e m o r a l i s
C O
S p e c i e s o f S h e l
0
C . ;
C . ;
o C r )
E l
r n ‘ i X 0
c . )
2 46
e , i X 0
Acknowledgements I s hould C rystallography
l ike t o t hank C . i n B irkbeck C ollege,
i n U niversity C ollege L ondon, a nd a dvice.
V ita-Finzi, t he D epartment o f L ondon, t he D epartment o f G eology
a nd t he A ccelerator U nit,
O xford f or h elp
T he work w as f unded b y t he N ERC.
References C allen, R .A ., Wasson, R .J. a nd G illespie, R . 1 983. R eliability o f r adiocarbon d ating o f p edogenic c arbonate i n t he A ustralian a rid z one. S edimentary G eology 3 5: C happell, J . a nd r ecrystallisation m olluscs. E vans,
1 -14.
P olach, o n '4 C
H .A . d ating
Quaternary R esearch 2 :
J .G.
1 972.
L and S nails
1 972. S ome e ffects o f l ate P leistocene
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2 44-252.
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K ra, R .S. ( eds.), I nternational R adiocarbon 2 2: 2 : 5 45-555.
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C
G illespie, R . a nd P olach, H .A . 1 979. f or r adiocarbon dating o f Australian S uess, N inth
H .E.
( eds.),
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R adiocarbon pp.
a nd
t errestrial
I n
C onference
J .J.
1 980.
S tuiver,
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M .
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P roceedings:
T he s uitability o f marine s hells prehistory. I n B erger, R . a nd
D ating
4 04-421.
P uissegue,
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I nternational
B erkeley:
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University
C C onference, o f
C alifornia
P ress. MacClintock, b ellerophontoid
C . 1 967. S hell s tructures gastropods ( Mollusca). P eabody
H istory B ulletin 2 2: Mackie,
G .L.
1 -140.
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E lectron
J ournal o f Z oology 5 6: M angerud,
J .
d iscussion
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o f patelloid a nd Museum o f Natural
1 :
m icroscopy
R adiocarbon
a pparent
o f
P isidiiae.
Canadian
1 -6.
a ge
o f
d ating
o f
marine
s hells,
r ecent s hells f rom N orway.
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1 :
2 :
1 43-172. O lsson, o f
I .U.,
s toring
G öksu, Y .
a nd
a nd S tenberg,
t reatment
o f
A .
F oraminifera
1 968.
F urther i nvestigations
a nd molluscs
G eologiska F oreningens i S tockholm F orhandlinger 9 0: P hilippon, c oquille C entre
J .
1 974.
S tructure
d e G astropodes
pour
E tudies
e t
a ctuels
e t
e t
R echerche
c omposition
f ossiles.
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'4 C d ating.
m ineralogique
N otes e t
f or
4 17-426.
e t
d e
l a
C ontributions,
B iostratigraphie
7 :
1 -84. P ingitore, products
N .E. a nd
P etrology 4 6:
1 976.
t heir
V adose
r ecognition
a nd i n
9 85-1006.
2 47
P hreatic c orals.
d iagenesis: J ournal
o f
processes, S edimentary
P ingitore,
N .E.
d iagenesis.
1 982.
T he
r ole
o f
d iffusion
J ournal o f S edimentary P etrology 5 2:
d uring
S aleuddin, A .S.M. 1 971. F ine s tructures o f n ormal a nd s hell o f H elix. C anadian J ournal o f Z oology 4 9: 3 7-41. T aylor, a nd
J .D.,
K ennedy,
m ineralogy
T rigonacea.
R . S.
O tlet, f rom
( eds.),
R adiocarbon 2 2: V ita-Finzi, P ersian
I nternational
t he
H all,
A .
1 969.
I .
B ritish
1 4
3 :
T he
s hell
I ntroduction.
M useum
( Natural
s tructure N uculacea-
H istory)
Z oology
a nd
S weeting, 1 4
UK C
M .M.
t ufa.
1 980. I n
C onference,
S tuiver, T enth
H ydrological M .
a nd K ra,
P roceedings,
8 97-908.
1 980.
a nd 1 4
R .L.
C profiling o f
International
C .
G ulf
o f
a nd
B ivalvia.
r egenerated
1 -125.
P .M.,
i mplications
W .J.
t he
B ulletin
S upplement 3 : T horpe,
o f
c arbonate
2 7-39.
l' C
d ating
I ranian M akran. C
C onference,
o f
r ecent
I n S tuiver,
T enth
c rustal movements M .
P roceedings,
a nd K ra,
R .S.
R adiocarbon
i n
t he
( eds.), 2 2:
3 :
7 63-773. V ita-Finzi, 1 4 C d ating.
C . a nd R oberts, N . R adiocarbon 2 6: 1 :
1 984. 5 4-58.
S elective l eaching o f s hells f or
Y ates, T .J.S. 1 986. T he s election o f n on-marine M olluscan s hells f or r adiocarbon d ating. U npublished P h.D. t hesis, U niversity o f L ondon.
2 48
T HE S CANNING E LECTRON M ICROSCOPE A ND THE S TUDY O F ANCIENT T EETH S imon H illson
A ncient
t eeth
a rchaeological
f orm
s ites
a p rominent
a nd d ental
p art
t issues
o f
t he
mammal
r emains
f rom
a re o ften p reserved r elatively
i ntact. U sually, t he e namel, w hich c oats t he c rown o f t he t ooth i s t he b est-preserved. D entine, w hich f orms t he m ain i nternal s tructure o f t he t ooth a nd c ement, w hich c oats t he r oot s urfaces ( and c rown i n s ome m ammals), m ay b e l ess w ell-preserved, b ut i t i s o ften p ossible e xamine t he d etailed m icroscopic s tructure o f a ll t hree t issues.
t o
T he p olarising m icroscope h as b een t he s tandard p iece o f e quipment f or s tudying t he h istology o f d ental t issues. A s ection o f t he t ooth, p olished t o a t hickness o f l ess t han 1 00 m icrons, i s e xamined i n t ransmitted l ight. P olarising f ilters a re a rranged a bove a nd b elow t he m icroscope s tage, s o t hat t he b rightness a nd c olour o f t he i mage r eflects t he m ineralogy a nd o rientation o f c rystals, c ollagen f ibres a nd p ore s paces i n t he t issue. A s d ental t issues a re l argely c omposites o f m ineral c rystals ( the a patite f amily o f c alcium p hosphate m inerals) a nd c ollagen f ibres, t his m akes i t p ossible t o s ee m any d etails o f s tructure w hich c annot b e d iscerned b y o ther m eans. F or t his r eason, m uch w ork i n d ental h istology a nd i ts a rchaeological a pplications h as b een c arried o ut u sing t he p olarising m icroscope ( Schmidt a nd K eil, 1 971; R ose e t a l., 1 981; R udney, 1 983; H illson, 1 986). T ransmitted l ight m icroscopy o f t his k ind d oes, h owever, h ave a n umber o f d isadvantages. F irst o f a ll, i t c annot r esolve d etails l ess t han 1 m icron o r s o a cross. I n a ddition, i t i s n ecessary t o p repare p olished v aluable
t hin s ections s pecimens a nd
o f t eeth, w hich i s t ime c onsuming, d estroys c an b e d ifficult w ith f ragile a rchaeological
m aterial. F inally, t he m aterial b eing e xamined m ust b e t ranslucent a nd, w hilst t his i s n o p roblem w ith m ost f resh d ental m aterial, a rchaeological s pecimens a re f requently r endered o paque b y t he p rocesses o f p reservation. S uch d ifficulties v ary f rom s ite t o s ite a nd, a lthough i t i s o ften p ossible t o p roduce u sable s ections o f d ental e namel, d entine a nd c ement a re o ften t oo f ragile, t oo a ltered, o r t oo o paque. U se o f t he s canning e lectron m icroscope c an a void m any o f t hese p roblems. I t h as a h igh r esolution a nd l arge d epth o f f ocus, a nd s tructures m uch l ess t han 1 m icron a cross c an b e e xamined r outinely. I t l ooks a t s urfaces, n ot s ections s o t hat t he s pecimen d oes n ot n eed t o b e t ranslucent. P reparation t echniques c an b e v ery s imple. S mall f ragments o f t issue, a lready b roken a nd l ying i n t he b ottom o f a b ox, c an b e u tilised. R eplicas c an b e m ade u sing s ilicone r ubber o r o ther m ethods ( see C laugher, t his v olume) w ithout d amaging t he s pecimen a t a ll, w hilst s till s howing s ufficient s tructural d etail. S canning e lectron m icroscopy d oes n ot d emonstrate w ell a ll t he f eatures t hat c an b e s een i n p olarising m icroscopy, b ut i t i s a ble t o s how s ome f eatures t hat p olarising m icroscopy c annot; e ither b y v irtue o f i ts g reater m agnification, o r b ecause i t i s p ossible t o l ook a t s urfaces w hich h ave b een f ractured a long t he T his p aper p resents t hree e xamples o f w ays
2 49
" grain" o f t he t issue. i n w hich t he s canning
e lectron m icroscope c an y ield u seful o ne f rom e ach o f t he d ental t issues.
i nformation
f or
a rchaeologists;
E namel a nd I dentification T he t iny a patite c rystals o f d ental e namel a re a rranged i nto s mall b undles, a bout 5 m icrons a cross, c alled p risms ( Fig. 1 ). T hree m ain p atterns o f e namel s tructure c an b e d istinguished f rom t he w ay i n w hich t he p risms a re a rranged ( Boyde, P attern
3 ;
w hich
i s
t he
1 965): m ost
c ommon
f orm
i n
m an
a nd
t he
carnivores and elephants, p roduces a c haracteristic t essellation w hen t he p risms a re s een e nd-on ( Fig. 2 ).
a pes,
" keyhole"
P attern 2 ; t he m ain p attern o f h oofed mammals, m onkeys a nd m arsupials, a nd w hich i s t he b asis o f e namel s tructure i n r odents ( below), h as " inter-row s heets" o f e namel a rranged b etween r ows o f p risms ( Fig. 3 ). P attern 1 ; f ound i n t he t oothed w hales, b ats, i nsectivores a nd s ome o f t he l emurs, i s t he most s imple f orm, w ith c ylindrical p risms r unning t hrough t unnels i n t he " interprismatic" e namel. T hese p atterns v ary g reatly a nd m ost t eeth h ave a t l east s ome o f a ll t hree d istributed t hrough t heir e namel, b ut t here a re s ome g eneral d ifferences b etween g roups o f m ammals. B oyde a nd M artin ( 1982) w ere a ble t o d istinguish b etween m an a nd g roups o f g reat a pes i n t he r elative p roportions o f P atterns 3 t o P atterns 1 a nd i mportant i mplications f or t he s tudy o f h ominid f ossils.
2 .
T his
h as
T here a re, h owever, f urther p ossibilities f or d istinguishing b etween d ifferent g roups o f mammals o n t he s tructure o f t heir e namel. T he p risms o nly r arely p ass s traight t hrough t he e namel. I n m ost mammals, t hey b end f rom s ide t o s ide a nd a re w oven i nto o ne a nother ( Fig. 5 ). T his i s c alled p rism d ecussation. T he w eave i s c omplex a nd v ariable, b ut i t s eems p ossible t o m ake s ome g eneral d istinctions b etween t he f ollowing mammal g roups ( Kawai, 1 955):
1 . 2 .
T oothed w hales, C arnivores.
i nsectivores a nd b ats. P innipeds
c arnivore p attern,
( seals
a nd
s ea
l ions)
f it
i nto
t he
b ut d iverge t oward t he p rimate f orm.
3 .
P rimates.
4 .
U ngulates ( hoofed mammals). T here s eem t o b e s ome g rounds f or d istinguishing b etween e ven-toed ( cattle, d eer, e tc.) a nd o dd t oed ( horses a nd r hinoceros) u ngulates o n t he b asis o f t heir d ecussation p attern.
5 .
R odents
a nd
l agomorphs
c omplex p atterns d istinguish
o f
b etween
a ll,
( rabbits s o
a nd
h ares)
h ave
t he
m ost
c omplex t hat i t m ay b e p ossible t o
r odent f amilies a nd e ven
2 50
g enera
o n
t he
F ig.
1 .
e lectron
P risms
i n m edieval human e namel f rom Y ork,
m icrograph
o f
f ractured
s urface.
S cale
E ngland. bar
S canning
r epresents
1 0
m icrons.
F ig.
2 .
a re
s een
e lectron m icrons.
P attern 3 e namel i n t he s ame s pecimen a s F igure e nd
o n,
m icrograph
a nd o f
s how
a
r oughly
f ractured
" keyhole"
s urface.
2 51
S cale
1 .
o utline. bar
T he prisms S canning
r epresents
1 0
b asis o f t heir e namel B oyde, 1 978).
( Korvenkontio,
1 934; Y amakawa,
1 959;
T he l arge r odent i ncisor s hown i n F igure 4 i s a n e xample o f t he u se o f e namel s tructure a s a n a id t o i dentification. F rom i ts m orphology, i t i s a n u pper l eft i ncisor, b ut b ecause m ost r odent i ncisors a re b uilt a long s imilar l ines t here a re f ew d efinite c lues a s t o i ts s pecies. I t i s v ery l arge - t he w orn s urface i s a bout 5 m m a cross - a nd t his n arrows d own t he c hoice. I t c omes f rom a N eolithic s ite i n T unisia a nd t he o nly O ld W orld H olocene r odents w hich w ould b e l arge e nough a re b eaver C astor o r p orcupine H ystrix ( Hillson, 1 986). B ecause i t c omes f rom t he N orth A frican c oast, i t i s a lmost c ertain t o b e p orcupine, b ut i t i s s till d esirable t o c onfirm t he i dentification. F ortunately, t he w eave o f p risms i n b eaver e namel i s v ery d ifferent f rom t hat o f t he p orcupine. I t c onforms t o a p attern k nown a s s ciuromorph, w hereas t he p orcupine f its i nto a n h ystricomorph p attern. S canning e lectron m icroscope e xamination o f a s mall f ragment o f t he N eolithic s pecimen ( Fig. 5 ) c onfirms q uickly t hat i t i s h ystricomorph i n f orm, a rranged i nto a lternate b ands o f d ifferent p rism o rientation, e ach 3 t o 5p risms a cross. S imilar s tudies m ay b e c arried o ut i n o ther r odent t eeth. F or e xample, t he s canning e lectron m icroscope h as b een u sed i n t he s tudy o f e volution i n f ossil v ole c heek t eeth ( von K oenigswald, 1 980). I n g eneral,
h owever,
t he t echnique h as b een l ittle a pplied i n a rchaeology.
A ge D etermination a nd R oot D entine T ranslucency T here a re s everal f orensic m ethods f or d etermining a ge a t d eath f rom h uman t eeth. S ome o f t hem c ould p otentially b e a pplied t o archaeological m aterial, b ut c are i s n eeded. C onditions o f p reservation m ay c ause c hanges i n t he d ental t issues w hich m ask t he e ffects u sed i n a ge d etermination, o r c onfuse t he i ssue. T his i s w here t he s canning e lectron m icroscope m ay h elp. O ne p otentially u seful m ethod i nvolves e xamining a s ection o f t he t ooth r oot a nd l ooking f or a n a rea o f t ranslucency i n t he d entine. N o m agnification i s r equired - t he e ffect c an b e c learly s een w ith t he n aked e ye o n a l ightly p olished s lice t hrough t he t ooth ( Fig. 6 ). I n m ost i ndividuals t he s ize o f t he t ranslucent z one i s c orrelated w ith i ncreasing a ge a nd, i f i t i s m easured, t hen s tandard f ormulae c an b e u sed t o c alculate a n e stimate o f t he a ge a t d eath ( Bang a nd R amm, 1 970). T he m ethod i s p articularly u seful i n d etermining t he a ge o f o lder a dult p eople a nd t his i s i ts m ain a ttraction i n a rchaeology, w here i ndividuals o ver 2 5 o r s o y ears a re d ifficult t o a ge r eliably b y o ther m eans. U nder t he s canning e lectron m icroscope, d entine ( Fig. 7 ) i s c haracterised b y c losely s paced t ubules w hich r un t hrough t he t issue. T hese a re 4 m icrons o r l ess i n d iameter a nd t heir s tructure i s d ifficult t o s ee u nder t he p olarising m icroscope. T he d entine b ecomes t ranslucent a s t he t ubules a re p rogressively i nfilled o ver t ime. I n a rchaeological s pecimens, p oor p reservation m ay m ake s ee t he l imits o f t he a rea o f t ranslucency w ith t he d entine m ay b e o paque b ecause
i t d ifficult t o n aked e ye. T he
t he c ollagen f ibres a nd a patite c rystals
2 52
F ig. T he
3 . P attern p risms a re
i nterprismatic f ractured,
F ig.
4 .
T unisia.
2 e namel i n m edieval p ig s een e nd o n, a rranged
e namel
b etween
e tched s urface.
L arge
r odent
t hem .
e namel f rom Y ork, E ngland. i n r ows w ith s heets o f
S canning
e lectron
S cale b ar r epresents
i ncisor
S cale b ar r epresents
( upper 0 .5 c m.
2 53
r ight)
m icrograph
o f
1 0 m icrons.
f rom a N eolithic
s ite
i n
e ir
F ig.
5 .
E namel
f rom t he
s pecimen
i n F igure
4 ,
s howing
h ystricomorph
s tructure. I n t he l ower h alf o f t he p hotograph, t he p risms a re a rranged I nto b and, 5 o r s o p risms w ide, w hich p resent t hemselves t o t he p lane o f s ection a t d ifferent a ngles. S canning e lectron m icrograph o f p olished,
e tched s urface.
S cale b ar r epresents 2 5 m icrons.
2 54
F ig.
6 .
c entral)
P olished f rom
s ection
T unisia .
T he
t he t ooth e xtends d ownwards, s een
a s
a d arker
a rea
t hrough
N eolithic
s pecimen
i s
human
a rranged
s o
i ncisor
t hat
t he
( upper r oot
o f
a nd t he z one o f t ranslucent d entine c an b e
e xtending
b ack
r epresents 0 .5 c m .
2 55
f rom
t he
r oot
t ip.
S cale b ar
h ave b een r eplaced b y o ther m inerals w hich c rystallise o ut f rom t he g round w ater, o r t he t ooth r oots m ay h ave b een i nvaded b y m yceliump roducing m icroorganisms. T hese i nvasions c arve o ut i rregular c anals ( Fig. 8 ), u p t o 2 0 m icrons o r s o i n d iameter, w hich g reatly d isrupt t he d entine s tructure a nd c an o bscure t he e dge o f t he t ranslucent z one. T he s canning e lectron m icroscope c an b e u sed t o e xamine t he d entine w hich r emains i n b etween t he c anals o f t he i nvading m ycelium , a nd c heck t he i nfilling o f t ubules. F or e xample, p arts o f t he t ranslucent z one s hown i n t he t ooth s ectioned i n F igure 6 s how c learly, b ut t owards t he e dge o f t he z one, t here i s a l arge p ale p atch o f d entine w hich h as b een i nvaded a nd w here t he d etail i s o bscured. U nder t he s canning e lectron m icroscope ( Fig. 8 ) i t w as p ossible t o e xamine t he t ubules i n b etween t he d amaged a reas a nd t o d elimit t he a rea w ith i nfilled t ubules. S pecimen p reparation w as s imple; t he h alf o f t he t ooth w hich r emained a fter t he s lice h ad b een c ut w as p olished, e tched a nd t hen c oated w ith g old. A nother m ethod w ould b e t o p roduce a r eplica a fter e tching. T he a verage l ength o f t he t ranslucent z one i n t his s pecimen y ields a n a ge a t d eath e stimate o f 6 8 + /- 1 1 y ears i f t he s tandard f ormulae f or m odern m an a re a pplied ( Bang a nd R amm,
1 970).
C ement Layers a nd Age T he
c ement
c oating
o f
t he
r oots
i s
f requently
l ayered.
I n m any
m ammals, t hese l ayers a ppear t o b e l aid d own s easonally o r a nnually. T his i s p articularly s o i n t he m arine mammals s uch a s t oothed w hales o r s eals a nd s ea l ions ( Perrin a nd M yrick, 1 980), b ut a lso s eems t o b e t he c ase i n t errestrial h oofed mammals, h ibernating m ammals ( Klevezal a nd K leinenberg, 1 967; M orris, 1 972; C asteel, 1 976) a nd e ven m an h imself ( Stott
e t
t o
s een
b e
m odest
a l., i n
1 982). s imple
I n m any m ammals, s lices
m agnification.
t hrough
A nother
t hese
t he
m ethod
l ayers
t ooth i s
t o
a re b road e nough
r oot,
e xamined
d ecalcify
t he
u nder t ooth
( usually w ith a cids), l eaving t he o rganic c omponent ( mostly c ollagen f ibres) w hich c an t hen b e s ectioned w ith a m icrotome a nd s tained b efore b eing e xamined i n a c onventional o ptical m icroscope. C ounts o f t he p atterns o f l ayers a re t hought t o y ield e stimates o f t he a ge a t d eath, a lthough t here a re d ifficulties w ith t he p rocedure ( Hillson, 1 986). T he l ayers a re n ot a lways c learly d efined a nd d ifferent o bservers o ften p roduce d ifferent c ounts. I n a ddition, t he s easonal b asis o f t he l ayering i s n ot c learly u nderstood, a nd t he r elationship b etween l ayer p attern c ounts a nd a ge i s n ot p roven i n a ll mammals. C autiously a pplied, h owever, t he m ethod d oes s eem t o h ave p romise a nd i t w ould b e v ery u seful t o a pply i t i n a rchaeology. A s
i n
t he
c ase
o f
r oot
d entine
t ransparency
( above)
a s imple
p olished s lice t hrough t he t ooth w ill o ften s uffice t o s ee t he c oarser l ayering s uch a s i s f ound i n t he h oofed mammals. I t i s m ore d ifficult t o s ee t he f iner l ayering s hown i n o ther mammals, a nd t he d etails may o ften b e o bscured b y p oor p reservation. T he s canning e lectron m icroscope c an b e u sed t o e xamine c ement l ayers i n r oot f ragments w hich h ave b een e tched t o b ring o ut t heir s tructure i n r elief. F igure 9 , f or e xample, i s a s pecimen o f c ement f rom a c ave b ear ( Ursus a rctos s pelaeus) c anine, f ound a t a M ousterian c ave s ite i n Y ugoslavia. T he l ayers a re n ot s harply d efined, b ut i t i s p ossible t o c ount s ome 2 0 m ajor
l ayer g roups t hrough t he t hickness o f t he
2 56
c ement.
E xperimental
F ig. a s
7 .
D entinal
F igure
1 ).
t ubules S canning
S cale b ar r epresents
i n m edieval h uman d entine e lectron
m icrograph
o f
( the s ame s pecimen f ractured
s urface.
1 0 m icrons.
F ig. 8 . " Canals", p robably d ue t o i nvasion b y a m ycelium-producing m icroorganism, i n t he s ame s pecimen a s F igure 6 . T he c anals ( on t he l eft o f t he p hotograph) a re f illed w ith a r oughly t extured d eposit o f s econdary m inerals, d eposited f rom g round w aters p ercolating t hrough t he t ooth d uring b urial. T he d entine i s f rom t he t ransparent z one a nd t he t ubules, w hich c an b e s een i n b etween t he c anals, a re f illed w ith l ater d entine d eposits w hich h ave e tched o ut t o s how a s c ores. S canning e lectron m icrograph o f p olished, e tched s urface. S cale b ar r epresents 1 0 m icrons.
2 57
w ork
n eeds
k nown a ge, I t
may
r emains. l ayer
t o
c ount
s ections.
d one
a lso
Human
b e
a ll
t he
a re
b e
a rctos
s pecimens
h as
t eeth
o f
f or
s imilar
f inely
t o
f rom
i ndividuals
o f
t echniques
s paced
a ge.
S tott
m icroscopy
t o
l ayers, e t
o f
human
a nd
a l.
t he
( 1982)
polished
t hin
y ields much d etail o f c ement l ayering
human
t eeth,
e lectron m icroscope
s uitable;
o f
a pply
p olarising r arely
e xample,
b ut e tched c ement s urfaces
f requently d o s how l ayers.
t he
s pecimen
i n
F igure
N ot
6 d id n ot
s o t hat c ounts c ould n ot b e c ompared w ith t he r oot
t ransparency m ethod
s econd molar
t o
r elated
u sing
h ave c lear l ayering, d entine
U .
f requently
t echnique
s canning
t eeth
m odern
possible t o
t his
T his
a rchaeological
u nder
o n
c ement
s eems
demonstrated i n
b e
but t here d oes s eem t o b e s ome p otential f or t he method.
a bove.
I n
a nother
a y oung man f rom N ubia
make a c ount ( Fig. 1 0). places o n t he r oot a nd,
( c.
s pecimen,
1 700 B C),
T hirteen t o 1 5 l ayers s ince t he s econd m olar
h owever,
t he
i t i s possible t o
a re v isible i n many r oots a re c ompleted
a round 1 4 y ears o f a ge, t his w ould s eem t o s uggest a n a ge e stimate o f 2 7 t o 2 9 y ears. T his c ompares f avourably w ith i ndependent e vidence f rom t he s keleton o f t his i ndividual. M uch more s eem
t o
b e
w ork
n eeds
r eal
t o b e d one o n t hese t echniques,
possibilities
m icroscope t o e xpand t he r ange f rom a ncient d ental r emains.
f or
o f
u sing
t he
i nformation
b ut t here d o
s canning
w hich
c an b e
e lectron e xtracted
References B ang,
G .
a nd Ramm,
E .
1 970.
d entine t ransparency. B oyde, I n
A .
1 965.
S tack,
M .V.
S ymposium
F earnhead,
t he
C omposition,
T ooth E namel,
pp.
1 63-167.
A .
3 -35.
T he s tructure o f d eveloping mammalian d ental e namel.
a nd
o n
B oyde,
D etermination o f a ge i n humans f rom r oot
A cta O dontologica S candinavica 2 8:
1 978.
R .W .
( eds.),
P roperties
B ristol:
D evelopment
o f
T ooth E namel,
a nd F undamental
I nternational S tructure
o f
Wright. t he
s tructure
o f
t he
e namel o f
t he
i ncisor t eeth i n t he t hree c lassical s ubordinal g roups o f t he R odentia. I n
B utler,
P .M.
a nd
E volution o f T eeth, B oyde,
A .
J oysey,
pp.
a nd M artin,
L .
K .A .
4 3-58. 1 982.
( eds.),
L ondon:
D evelopment,
F unction
a nd
A cademic P ress.
E namel m icrostructure d etermination i n
h ominoid a nd c ercopithecoid primates.
Anatomy a nd E mbryology 1 65:
1 93-
2 12. C asteel,
R .W.
1 976.
a rchaeological
value.
( Berkeley)
1 -27.
H illson,
4 7: S .W.
1 986.
I ncremental P apers
T eeth.
o f
g rowth t he
z ones
K roeber
C ambridge
i n
mammals
a nd
A nthropological
M anuals
i n
t heir
S ociety
A rchaeology.
C ambridge U niversity P ress. K awai, N . 1 955. C omparative a natomy o f O kajimas F olia Anatomica J aponica 2 7: 1 15-131.
2 58
t he
bands
o f
S chreger.
K levezal, mammals U SSR,
G .A .
f rom
a nd
t ranslated
F oundation,
K leinenberg,
a nnual U S
l ayers
1 969
i n
S .E.
t eeth
D epartment
D epartment
o f
o f
t he
n agerincisiven A nnal.
Z ool.
M orris,
V . A . u nter
S oc.
P .
P errin,
Z ool.
1 972.
Mammal R eview 2 :
1 934.
h inweis
A r eview
a nd N ational
C learinghouse
o f
F ederal
u ntersuchungen
s chmelzstruktur
Van.
2 :
a n
d er b ackenzahne.
1 -274.
mammalian
a ge
d etermination methods.
a nd
Myrick
i n
a ge
d etermination.
A .C .
G rowth
o f
odontocetes
P roceedings
o f
C alifornia,
S eptember
5 -19,
1 978.
a nd
t he
C onference o n D etermining A ge o f Odontocete C eteans J olla,
S cience
f or
6 9-104.
W .F.
p roblems
I nterior
o f
S ciences
S pringfield.
d ie
F enn.
d etermination
A cademy o f
Mikroskopische
a uf
Bot.
A ge
bones.
C ommerce,
S cientific a nd T echnical I nformation, Korvenkontio,
1 967. a nd
s irenians:
I nternational
( and S irenians),
C ambridge:
L a
I nternational
W haling C ommission. R ose,
J .C.,
indicator
B oyd, o f
L .F.
a nd
c hildhood
C ondon,
s tress
K .W .
i n
1 981.
American J ournal o f P hysical Anthropology 4 9: R udney, o f
J .D.
g rowth
1 983.
S chmidt,
S tott, a ge
W .J.
a nd
Oxford:
G .G.,
S is,
c riterion
i n
s keletal
e namel
s amples.
5 11-516.
T he a ge-related d istribution o f d ental i ndicators
d isturbance
i n
a ncient
h ypotheses o f X -group o rigins.
T issues.
H istological
prehistoric
K eil,
A .
Lower
N ubia:
i mplications
J ournal o f Human E volution 1 2: 1 971.
f or
5 35-543.
P olarization M icroscopy o f
D ental
P ergamon P ress. R .F.
a nd L evy,
f orensic
B .M.
1 982.
d entistry.
C emental a nnulation a s a n
J ournal
o f
D ental
R esearch
6 1:
8 14-817. v on K oenigswald, W . 1 980. S chmeltzstruktur u nd m orphologie i n d en molaren d er Arvicolidae ( Rodentia). Abhandlungen d er S enckenbergische N aturforschende G esellschaft 2 39: Yamakawa,
K .
s tructure
o f
1 959. t he
1 -29.
C omparative
r odents
( in
a natomical
J apanese).
8 52-866.
2 59
s tudies
A cta A natomic
o n
t he
e namel
N ipponica
3 4:
F ig. 9 . M ousterian f ractured, m icrons.
L ayers i n c ement f rom a c ave b ear c anine, f ound a t a c ave s ite i n Y ugoslavia. S canning e lectron m icrograph o f e tched s urface. S cale b ar r epresents a pproximately 5 00
F ig. 1 0. L ayers i n h uman c ement f rom K erma, N ubia ( c. S canning e lectron m icrograph o f p olished, e tched s urface. r epresents 5 0 m icrons.
2 60
1 700 B C). S cale b ar
A CTUALISTIC S TUDIES O F A NIMAL R ESOURCES A ND H OMINID ACTIVITIES P at S hipman
T heoretical F ramework
m y
A lthough t he o stensible p urpose o f t his p aper i s t o r eview s ome o f w ork i n u sing t he S EM t o r esolve a rchaeological p roblems I s hall
b egin b y a ddressing a m ore c rucial i ssue: w hat i s t he m eaning o f t he a nswers? U ntil t his i ssue i s c learly u nderstood, a nd e xplicitly s tated, t here i s l ittle p oint i n d iscussing t he t ypes o f q uestions t hat c an b e a nswered. I t i s a ll t oo c ommon f or r esearchers t o l ose s ight o f t he s ignificance a nd l imits o f r esolution o f t he a nswers i n t he s truggle t o o btain a ny a nswers a t a ll. I n 1 978, I f irst b egan e xploring t he u sefulness o f t he S EM a s a t ool t hat w ould p rovide n ew t ypes o f d ata a bout f ossil b ones. M y i nterests w ere p rimarily i n f inding n ew a nd m ore p owerful m eans o f d educing t he t aphonomic h istory o f s pecific s ites a nd t o t his e nd I b egan c ollecting b ones o f k nown t aphonomic h istory, e ither n aturally o r e xperimentally p roduced. S tructurally, t he p roblems I f aced a t t he t ime w ere o nes t hat a re u ndoubtedly f amiliar t o m ost o r a ll o f t he p articipants i n t he c onference o n t he S EM i n A rchaeology t hat p roduced t his b ook. T hat i s, I w as f aced w ith a v ast v irgin t erritory. T o m y k nowledge, n o o ne p rior t o t hat t ime h ad c onsidered t hat b ones m ight e ncode i n t he m icroscopic m orphology o f t heir s urfaces t he s et o f t aphonomic e vents w hich t hey h ad u ndergone. T here w as n o d ata b ase f rom w hich t o o perate, n o c omparative s ample t o w hich u nknowns ( fossils) c ould b e c ompared a nd t hen d iagnosed ( their h istory d educed). I
d rew
u p
e xperiments e xposed
a l ist
u nder
d ocumenting
o f
m ajor
a nd c ollecting n atural
t he
t aphonomic
" wild b ones",
c onditions
s urface
t o
c hanges
e vents t hat
d ifferent
t hat
h ad
a nd
i s,
b egan
t hose
t aphonomic
o ccurred.
c onducting
t hat
h ad b een
e vents,
A s
t his
a nd w ork
p roceeded, t he l ist o f e vents t hat I f elt w ere i mportant g rew g eometrically, a s d id t he c ollection o f r eplicas o f c ontrols. T he f irst s ynthesis o f t his e xploratory w ork c an b e f ound i n S hipman ( 1981a); a dditional s tudies r elevant t o a rchaeological p roblems a re a lso i n p rint a nd s ome a re s ummarized b elow ( Shipman, 1 981b, 1 986a, b , a nd i n p ress; S hipman a nd R ose, 1 983, a nd C hapter 2 1, t his v olume; S hipman e t a l., 1 984a, b ). T he t heoretical u nderpinnings o f t his w ork, a s i n a ll a ctualistic s tudies, i s f airly s traightforward. A lthough I h ave d iscussed i t i n d etail e lsewhere ( e.g., S hipman, 1 981a: 3 59-360; S hipman, 1 981b: 1 01 2), i t i s w orth r epeating h ere b ecause i t i s o f s uch f undamental i mportance. A rchaeology, t aphonomy, a nd p alaeontology a re a mong t he h istorical s ciences i n w hich t he t ask i s n ot t o p redict t he f uture o utcome o r e ffects o f a g iven s et o f e vents b ut r ather t o r etrodict t he s et o f e vents t hat g ave r ise t o a p articular e ffect. H istorical s cientists a re f orever " discovering" t he r esults o f e xperiments a nd t hen t rying t o d educe w hat t he e xperiment i tself w as. T he c onsequence o f
t his
i s
t hat,
s tructurally,
h istorical
2 61
s ciences
m ust
o perate
b y
a
u nique s et o f r ules. q uestions F irst, a n
S impson
( 1970) p roposed t hat t he i nvestigation o f
i n t he h istorical s ciences u nderstanding o f t he c ausal
m ust r ely u pon t hree s tages. l inks b etween m odern p rocesses
a nd t heir e ffects m ust b e a chieved; t hen o f a ncient p rocesses) m ust b e g athered;
t he h istorical d ata ( effects f inally, t he h istorical d ata
c an b e c onfronted a nd i nterpreted u sing t he u nderstanding o f t he p rocess-effect l inkage g ained f rom t he s tudy o f m odern d ata. T his a pproach i s f undamental t o a ll a ctualistic s tudies, i ncluding t hose i n w hich t he S EM i s u sed t o r esolve a rchaeological p roblems. T heoretically s ound t hough t his a pproach m ay b e, i n p ractice i t i s d ifficult. O ne c annot, r easonably, s tudy a nd c omprehend a ll m odern p rocesses t hat m ight b y a ny s tretch o f t he i magination h ave a ffected a f ossil o r a rchaeological a ssemblage. E ven w orse, i f o ne c ould, t he s tudy w ould s till b e l imited b y w hat o ne i magined w as r elevant o r l ikely t o h ave h appened, a nd o ne w ould s till f ace t remendous d ifficulties i n d ealing w ith t hose a spects o f t he p ast t hat a re n ot r eplicable t oday. A s imple e xample w ill d emonstrate w hat I m ean. S uppose t he q uestion c oncerned t he e ffects t hat a nimals' t eeth h ave o n b ones. T he e xperiments w ould s eem t o b e s imple: g o t o a z oo, f eed a nimals b ones, c ollect a nd s tudy t he b ones. T hen, f or g ood m easure, t ry t o f ind " wild b ones" o f a nimals k illed o r p rocessed b y c arnivores, j ust i n c ase t he z oo a nimals w ere b ehaving a typically. B ut w hat a bout e xtinct c arnivores? W hat m arks d id a s aber-toothed c at l eave o n b ones, i f a ny? A nd w hat a bout u ngulates, w hich h ave b een p ersistently r eported t o c hew o n b ones t o o btain c alcium, p hosphates, o r t race e lements? W ould o ne i magine t hat g iraffes' t ooth m arks o ught t o b e s tudied? I n s hort, t he r esults o f a ctualistic s tudies a re o f l imited, b ut n ot t rivial, v alue. A s I h ave o bserved e lsewhere ( Shipman, 1 981a:360): ..care m ust b e t aken i n i nterpreting t he f ossil r ecord s o t hat t he a ppropriate l evel o f r esolution o f t he r esults i s n ot e xceeded. C onclusions m ust t ake t he f orm, f or e xample, t hat ' this f ossil s hows m arks t hat b est m atch t hose p roduced b y t he g astric j uices o f o wls' r ather t han ' this f ossil w as s wallowed b y a n o wl.' G iven t he c onstraints o f r etrodiction i nherent i n w orking i n a n h istorical s cience, t his i s a n a cceptable a nd, i n f act,
o ptimal l evel o f r esolution.
T his p oint h as b een r eiterated b y m yself a nd o thers w ho h ave b een c areful t o d efine w hat t hey m ean w hen t hey c onclude t hat t heir a ctualistic s tudies r eplicate w hat t hey o bserve i n t he a rchaeological m aterials. W hy, t hen, a re t he r esults o f t hese s tudies r eceived e ither w ith c omplete a cceptance o r w ith d eep s kepticism? A t t he r isk o f o versimplification, I w ill a ttempt t o c haracterize t he a cceptors s keptics i n t erms o f t he i ssues t hat u nderlie t heir p ositions.
a nd
T he a cceptors, I b elieve, f all i nto t wo g roups. T here a re t hose f amiliar w ith t he S EM a nd w ith t he m icrostructure o f t he t ype o f o bject b eing s tudied w ho c an i nspect a nd t houghtfully e valuate t he i mages p ublished o r s hown. I f t heir j udgment a bout t he r esemblances a nd d ifferences b etween t he c ontrols a nd t he u nknowns a grees w ith t hat o f
2 62
t he e xperimenter, t hen s trong a cceptance r esults. T he o ther g roup o f a cceptors a re t hose u nfamiliar w ith t he S EM w ho a re s o i mpressed b y t he e xtraordinary d etail i t c an r eveal t hat t hey u ncritically r egard t he S EM a s a d irect r oute t o t he t ruth. T his g roup u nderestimates t he v ariability w ithin a nd a mong s amples a nd t he s ubjectivity o f t he j udgment t hat t wo i mages a re, o r a re n ot, f undamentally t he s ame. T heir a cceptance r elies o n a c ombination o f f aith a nd t heir f eeling o f b eing u nable t o j udge t he s tudy c ritically. T he s keptics f all i nto t hree g roups.
T he f irst o f t hese a re t hose
w ho a re f amiliar w ith t he S EM a nd t he m icrostructure o f t he o bject s tudied a nd w hose e valuation o f t he r esemblances b etween t he c ontrols a nd t he u nknowns d iffers f rom t hat o f t he e xperimenter. I s uspect t his g roup i s r elatively s mall i n n umbers. T he s econd g roup i s u nfamiliar w ith t he S EM a nd, a t a n i ntuitive l evel, d islikes a nd m istrusts e vidence a rising f rom a t echnology t hat t hey d o n ot u nderstand o r p ossess. T his g roup, i n s um, i s m aking j udgments o n a n e motional, n onrational b asis t hat i s h ighly s imilar t o t he s econd g roup o f a cceptors d escribed a bove. T he t hird g roup i s s keptical b ecause o f t he m ajor, i nherent p roblem w ith a ctualistic s tudies: t he u niverse o f p ossible c auses c an n ever b e f ully k nown. T hey a re u nquestionably c orrect i n t his a ssertion. A ll a ctualistic s tudies c an b e s een a s a rguments b y e limination ( e.g., B inford, 1 981:40, 8 3), w hich a re s tructurally w eak f or t his r eason. A s a r esult, s ome s keptics w ould d iscount a ll a ctualistic s tudies a s i nadequate o r i nsufficient. W hat I t hink h as b een m issed b y t his g roup i s t hat a ctualistic s tudies m ust b e u nderstood i n t he b roader c ontext o f P opperian s cience. I d o n ot b elieve t hat a ctualistic s tudies a re o nly a rguments b y e limination. O ne c ommon s ource o f s kepticism i s a m isunderstanding o f t he i ntent o f t he r esearchers ( or w hat I h ope i s t heir i ntent) i n c oncluding t hat a ncient s pecimen X s hows f eatures t hat m atch t hose o f e xperimental s pecimen Y , w hich w as m odified, p roduced, o r a ffected b y e vent Z . S uch c onclusions a re n ot m eant t o b e d efinitive, u nalterable t ruths t o b e w ritten i n s tone a nd n ever r e-examined t hereafter. S uch c onclusions a re, a t b est, w orking h ypotheses, c arefully f ormulated s tatements o f " greatest s imilarity" f ramed w ithin t he c ontext o f t he e xperimental s ample a vailable t o t hat r esearcher. A nother p oint i s r elevant t o t he i ssue o f a rgument b y e limination; i t i s a m ore c ommon a nd w idely a ccepted p rocedure i n s cience t han i s s ometimes r ealized. B ecause m y t raining i s i n p hysical a nthropology, n ot a rchaeology, t he e xample t hat I t hink b est d emonstrates m y p oint h as t o d o w ith t he i dentification o f s keletal r emains. T axonomy i s c lassically n o m ore a nd n o l ess t han a rgument b y e limination. A n u nknown
i s
s ystematically
c ompared
w ith
t he
a vailable
a nd
r elevant
k nowns i n s earch o f a p oint b y p oint m atching o f f eatures; w hen t his i s f ound, g iven t he l imitations o f t he m aterial a nd i ts p reservation, t he f ossil i s i dentified a s b elonging t o s pecies X . I n r eality, s uch i dentifications d irectly p arallel t hose i n a ctualistic s tudies. T he r esearcher i s, i n f act, s tating t hat h e o r s he f inds t he f eatures o f t he u nknown f ossil m ore s imilar t o t hose o f s pecies X t han t o t hose o f a ny o ther s pecies c onsidered a nd s ufficiently s imilar t o b e a ccepted a s a " match". I f t he u nknown f ossil i s n ot j udged s ufficiently s imilar t o
2 63
a ny o ther k nown s pecies, t hen t he r esearcher c reates a n ew t axon a nd m ust s tate w hat t he d iagnostic a nd d istinctive f eatures o f t hat t axon a re ( i.e., h ow i t c an b e r ecognized f rom o ther s imilar t axa). F requently, a s a g roup o f s pecies b ecomes b etter k nown, t he i nitial d iagnosis m ust b e r evised; s pecies h ave b een k nown t o e merge, s ubmerge, s ink, r ise a gain, s plit a nd j oin a s t he i nitial u nderstanding i s r efined. W hy s hould w e e xpect a d ifferent p attern o f p rogress w ith a ctualistic s tudies? F urther, s ince t axonomy a nd a ctualistic s tudies s hare t he s ame b asic m ethodology o f d efining a nd c omparing r elevant f eatures b etween k nowns a nd u nknowns, a nd s ince i n t axonomy t his a pproach i s s o u niversally a ccepted, c an a ctualistic s tudies b e c riticized o r d iscounted f or u sing a rgument b y e limination? I t s eems t o m e t hat t here i s a g ood r eason f or h ealthy s kepticism a nd c ontroversy a bout t he c onclusions o f a ctualistic s tudies. H ave t he c riteria o r d iagnostic f eatures b een c learly a nd c arefully d efined? A re t hey t he c orrect f eatures? H ave s ome b een i gnored? T here i s l ittle r eason, h owever, f or c ondemning s uch s tudies a p riori, s imply b ecause o f t heir m ethodology . A s econd common m isunderstanding c oncerns w hat h as b een a ccomplished b y r eaching s uch a n o utcome o r c onclusion. I f a s imilarity h as b een e stablished b etween t he e ffects o f a g iven e vent a nd t hose o bserved o n a n u nknown, t he r esearcher h as f ailed t o r efute t he n ull h ypothesis, w hich c an b e g enerally s tated a s: " The e ffects o n t his u nknown s pecimen a re d issimilar i n n ature a nd c ause f rom t hose p roduced o n t his e xperimental s pecimen." T hus, t he k nown e vent m ust s till b e i ncluded i n t he l ist o f p otential e xplanations f or t he o bserved e ffects o n t he u nknown. I f, i n a ddition, a d issimilarity h as b een e stablished b etween t he e ffects o f a k nown e vent a nd t hose o bserved o n a n u nknown, t hen a t l east o ne k nown e vent c an b e e liminated f rom f urther c onsideration. T his i s t he f undamental g eometry o f P opperian s cience: t wo o r m ore a lternative e xplanations ( hypotheses) a re p osed, i mplications o r p redictions a re d erived f rom t hose, a nd t hen n ew d ata a re g athered t o t est t hose p redictions. A s P opper p oints o ut, u sing t his l ogic i t i s i mpossible e ver t o p rove t hat a n h ypothesis i s t rue; i t c an o nly b e p roved t hat a n h ypothesis i s e ither f alse o r n oty et-falsified. N onetheless, o ver t he c ourse o f t ime a nd t hrough c lever a nd r igorous t esting a nd r e-testing o f h ypotheses, i t b egins t o b e c onvincing t hat a n h ypothesis r epeatedly u nable t o b e f alsified i s l ikely t o b e t rue. I n i ts e ssence, o f c ourse, t he P opperian m ethod i s a n a rgument b y e limination. I t i s a lso a pparent t hat a n h ypothesis c an b e u nfalsifiable b ecause i t i s e ither s o v ague o r s o t rivial t hat n o s erious t esting c an b e c onducted, b ut I t rust t hat m ost s cientific r esearchers a re c apable o f r ecognizing a nd d iscounting i nappropriate o r i nsignificant h ypotheses. A s b oth a rgument b y e limination a nd P opperian h ypothesis-testing, a ctualistic s tudies h ave a g reat p otential t o r esolve o r a t l east w hittle
d own a rchaeological p roblems
t o m anageable
s ize.
I f
t he m ost
t hat c an b e s aid o f a s et o f s tudies i s t hat s ome o f t he b lind a lleys a nd f alse h ypotheses h ave b een i dentified a nd t he u niverse o f p otential e xplanations d iminished, c ontribution.
t hen
t hose
2 64
s tudies
h ave
m ade
a s ignificant
F inally,
a s m y w ork c learly s hows,
I b elieve i t i s b oth l egitimate
a nd i mportant t o e xplore t he i mplications o f a n hypothesis t hat h as n ot y et
b een
f alsified.
h ypotheses. n ot
b e
O f
s topped
I n
c ourse, o r
o ther
t he
s talled
w ords,
t esting
o nce
a n
o f
w e
m ust
w ork
a lternative
i nitial
r ound
o n
working
hypotheses
o f
t esting
s hould
h as
b een
c arried o ut. O ne o f t he b est w ays t o g enerate f urther hypotheses t o b e t ested i s t o t ake a n e xplanation t hat r emains potentially t rue a nd t hink,
t alk
a nd
u nderstanding
w rite
o f
s eriously
t he
past
a bout w hat i t w ill m ean t o o ur b roader
i f
t hat
hypothesis
i s
t rue
( remains
u nfalsified). A ctualistic s tudies w ill b e d oomed t o a s terile r ole a s either " spoilers" ( Yellen, 1 977) o r " stamp c ollecting" - t he u nproductive g athering o f e ver-growing p iles o f d ata t hat n ever f lower i nto a pplications o r c onclusions - u nless w e s trive t o s ee t he b roader s ignificance o f o ur t estable hypotheses. Actualistic S tudies I h ave u sing
t he
i nvestigated
S EM.
c utmarks,
T hese
c arnivore
v ascular
g rooves,
i n
d epth
a re:
1 )
f our main a reas o f a ctualistic s tudy
i dentifying
t oothmarks,
w hich
c an b e
r odent
u sed
t o
f or a ltering a particular b one;
2 )
d elayed
w hich
p rocessing
o bjective
o f
t hat
o f
bones,
p rocessing;
3 )
l inear
g rooves,
g nawing,
i dentify
r oot
t he
i ncluding
e tching,
a gent
d istinguishing b etween i mmediate a nd may
b e
r ecognizing
u seful b urnt
i n
bones
d educing
t he
o r
a nd
t eeth
d etermining t he t emperature r ange t o w hich t hey h ave b een h eated, m ay 4 )
h elp
s how w hether
t he
bones
w ere
l ittle
g eneral t erms, C utmarks.
i n
c utmarks d iagnostic t ooth
i dentification
t he
a s
l iterature,
e vidence
c riteria
s cratches
1 981;
S hipman,
e liminate
w ear
o n
b one
t ools,
w hich
c an
b e u seful i f
modified p rior t o u se a nd w hich may i ndicate,
f or
was
l inear g rooves o n bones h as b een m uch
h ominid
b ),
t hat
by
i n
t he
c ontext
a ctivities.
d istinguishing
o ffered
1 981a,
f eatures
o f
o f
p rimarily
P otts
b etween a nd
An
o f
c utmarks
myself
i dentifying
i nitial
( Potts
a nd
a nd
t o
1 984),
i nclude
a nd R ose,
s et
o f
c arnivore
a nd
S hipman,
w ith s ubsequent r efining o f t hose c riteria t o w ere
n ot
t ruly
d iagnostic
( Shipman,
1 983),
d istinguish more c learly b etween c utmarks a nd v ascular g rooves a nd R ose,
i n
t he u se t o which t hose b ones w ere p ut.
T he
d iscussed
w hich
h eating o ccurred i n n atural o r manmade f ire;
r ecognizing u tilization
t he
a nd
r esponsible
t o
( Shipman
a nd t o d ocument m ore f ully t he variability i n c utmarks a b etter
d escription o f
r odent
g nawing marks
( Shipman
1 983).
W ork b y o thers h as s hown t hat t he i ssue o f r ecognizing c utmarks i s m ore
c omplex
t han
B ehrensmeyer e t a l.
I
i nitially
( 1986),
O liver
t hought. ( 1984),
s hown t hat t rampling o f b ones o n s andy o r, m ay
p roduce
marks
t horough
t reatment
( 1985).
S everal
s tudies ( Olsen
a nd a nd
c utmarks
i n
t hat o f
a n
s ome
t rampling
a spects
S hipman,
t o o f
p ress)
( trampling m arks)
marks
i s
a nd
e specially, mimic f ound
C ook
( 1984)
r ocky s ubstrates
c utmarks. i n
( 1985), h ave a ll
Andrews
T he
m ost
a nd
C ook
t he t rampled a ssemblages r eported i n t hese
e xtensive i n
e xtent
A ndrews
a nd F iorillo
s et
o f
e xperiments
c arried
o ut
r ecently
a re i mportant f or d istinguishing p seudo-
f rom g enuine o nes.
2 65
F irst,
t he
r eported
i ncidence
o f
marked
b ones
i n
t rampled
a ssemblages i s v ery h igh. F or e xample, A ndrews a nd C ook ( 1985:682) f ound 7 0% o f t he b one b ore marks a nd O liver ( 1984:27) o bserved t hat t rampling marks " ...are s o q uantify t heir o ccurrence."
n umerous t hat n o a ttempt w as made t o O lsen a nd I h ave m ade s imilar f indings i n
a n i ndependent s tudy o f various b one a ssemblages t rampled u nder a w ide r ange o f c ircumstances ( Olsen a nd S hipman, i n p ress). S ince n o a ssemblage o f b ones o f c utmarked b ones a ttempting T rampled
I n
( see
i s F ig.
r eport
5 10
c ontrast,
r arely
i dentify
bone
g rooves C ook
t o
s how
k nown t o h ave ( Bunn, 1 982), c utmarks
o n
a
h eavily
c ommonly
h eavily
marked,
3 a,
A ndrews
a nd
marks
bones
s uch
b een b utchered h as m ore n o a nalyst s hould f eel
b i n o n
1 1 b ones,
t hat
h ave
a reas
s een
b een
e xtensive marking;
o f
o ccurs
e xtensive
a ctivities
t hat a
i ndividual
bones
f orms
h ominids,
g enuinely
i s
more
h as
a ttachment,
a bundant
o r
a nd
t o
t o
e specially b een
t han
h ominids
s trip m eat
t endon
b earing
h ave
a brasion
b y
I would e stimate
T he o nly e xception w hich
r emove
c utmarks,
l ikely
l inear
A ndrews
p rocessed
b een made
a ssemblage
s edimentary
1 985:681);
i n my e xperience,
a ttempt
h eavily-marked o f
s craping
many
marks.
h eavily-marked
t rampled
b utchered
f rom
o r p eriosteum,
o r
o r
e xposed
t o
processed
by
a ll o ther t hings b eing e qual.
S econd, mark
a n
m uscle
l eave
C ertainly o ther
w hen
a ssemblage.
multiple
o r a n a verage o f 4 6 marks p er b one.
t hat most bones s how 1 -6 i ndividual c utmarks. I have
marked
b earing
C ook,
t han 2 0-25% c omfortable
t he
most
c ommonly m imicked
( Potts a nd S hipman,
t ype
o f
c utmark
i s
a s craping
1 981:577),
..formed b y d rawing a n e dge a cross a bone s urface i n a d irection r oughly p erpendicular r esults a rea o f
t o
t he
l ong
a xis o f t he e dge.
i n multiple, f ine, parallel s triations bone r ather t han c onfined t o a s ingle,
T his a ction
a cross a b road e longated m ain
g roove.... I w ould n ew a dd t o t his d escription t hat t he b road a rea b earing s triations i s d epressed b elow t he u naltered s urface o f t he b one. I n a ddition,
s ome s craping marks s how perpendicular c hattermarks t hat h ave
n ot
o bserved
b een
i n
t rampled
b ones
( Olsen
a nd
S hipman,
i n
p ress).
T his n ew c riterion s hould h elp d istinguish s craping marks f rom t hose p roduced b y many s mall, i ndividual particles o f s and o r r ock w hich may l eave parallel s triations b ut w hich g enerally w ill n ot r emove s urface b one o ver a b road a rea. C aution must b e o bserved, h owever, a nd a ssemblages d etermine
w ith
whether
many t hose
s craping marks
marks
a re
m ust
c utmarks
b e
c losely
( produced
i nspected by
t ools)
t o o r
e ffects o f various t ypes o f s edimentary a brasion. T hird, m ust b e
s edimentary c ontext i s a n i mportant f actor a nd more c aution
e xercised
s ubstrates
t han
d ata s uggest t hat c utmark m imics. e rectus K enya.
i n
i nterpreting
t hose
f ound
i n
a ssemblages
f ine
f ound
s ediments.
M y
i n
r ocky o r
own
f ine, s ilty s ubstrates t hemselves d o T his c onclusion i s s upported by t he
b oy's
s keleton
f rom
T hat
s keleton
w as
N ariokotome, r ecovered
s ediments a nd was a lmost c ertainly t rampled:
2 66
w est
f rom
o f
f ine,
L ake s ilty,
s andy
e xperimental n ot p roduce f amous H omo T urkana,
i n
l acustrine
T he
t op
o f
t he
b ioturbation
f ossiliferous
[ including
h orizon
h ippo
s hows
f ootprints]
m any
a nd
s igns
s everal
o f
o f
t he
b ones w ere f ound b roken o r l ying i n positions s uggesting t hey h ad b een t rampled b y l arge mammals. N onetheless, f rom
n one
t rampling
o f
t he bones
( Walker,
( Brown e t a l.,
s how
p ers.
a ny
s igns
c omm .),
1 985:788).
o f
s edimentary
s uggesting
t hat
a brasion t he
f ine
o f bones
f ound
s ediments p erhaps c ould n ot p roduce obvious l inear g rooves. I t i n
i s
f ine
d ifficult
s ubstrates
t o k now
t he
a ccompanied
a ppropriate
by
s tone
t reatment
t ools.
T he
t ools
t hemselves
m ay o r may n ot h ave b een a part o f t he s ubstrate a t t he t ime o f a ny h ypothesized t rampling. P erhaps t he best a pproach i s t o c onsider a s much e vidence a s i s a vailable, i ncluding i nformation a bout t he w eathering m ight
s tage
i ndicate
a nd p resence h ow
r apidly
o r
a bsence
t he
bones
o f
r odent
b ecame
g nawing marks
b uried
a nd
t hat
w ere
t hus
r emoved f rom t he d angers o f t rampling.
t hey
F ourth,
t he
a re
t o
d ue
orientation
a nd
l ocation
o f
marks
t rampling o r hominid a ctivities.
by s everal r esearchers t hat s hafts t han n ear j oints.
may
i ndicates P rolonged
h ominid b utchery was D rift, w ith a h ighly
b iased r epresentation o f s keletal e lements. M ost o f t he P rolonged D rift a ssemblage a re n ear-joint, b ut s o p reserved
e lements s hort
f rom
s haft
s trong
S hipman,
s ite
f ragments
a ssemblage, a
( Gifford
t his
N gamuriak,
1 986b).
e t
a l.,
a re
1 981).
r emarkable
a ttached
t o
t he
I n i n
a rticular
o f
T hus
n ear-joint
i t
s eems
l ikely
s till b e s tatistically d ifferent. ( 1985:682-684)
t ransverse margins. o riented
marks,
t hat more t o
t he
t hat
t o
c utmarks
a t
o f
( Shipman,
7 0%
h ave
o f
o n
i n
t he
a xis,
been
1 986a,
c arnivores,
b ; a nd
a lthough t he f requencies m ay t rampling
Andrews a nd
m arks
a re
o ften
I ,
c utmarks
i ntent
O lduvai, o n
l ong
a nd
s kill.
w here
bones
B ut,
I have
i n
d ocumented
a re o riented oblique
i t c an b e c oncluded t hat t hese a re r elatively
c aused by
B ed
I
f lakes,
t he
t ool
1 986b).
t heir
B ed
t hese
marks a s c utmarks,
t hat
v ery
b iased
d oes n ot s how
( Marshall,
h ominids,
a nd
A l ess
a xis o f l ong bones a nd o blique t o t he s capular h ominids might produce s imilarly p laced a nd
t hose
l ong
i dentifiable f ew
I n t erms o f o rientation,
s hown
d epending
l ike
t han
bone's
u nlikely n umber
h ave
t o t he l ong O f c ourse,
c ircumstances
t he
v ery
e nds.
c utmarks
t rampling a ll p roduce m any m idshaft marks, Cook
f act,
h aving
t he c utmarks o n a re most o f t he
t hat was a lso c ertainly butchered,
predominance
whether
t rampling marks o ccur more f requently o n U nfortunately, my s uggestion t hat a
predominance o f n ear-joint c utmarks based o n a nalysis o f a n a ssemblage,
bones
r eveal
I t h as b een observed
s ites
t rampling. i s
t ype
F urther,
s ignificantly most
l ikely
t o
t he
f requency o f
c orrelated h ave
l eft
w ith
t he
c utmarks
T his f inding s trengthens t he i nterpretation o f t hese s ince t here i s n o r eadily d iscernable r eason w hy t he
f requency o f t rampling m arks s hould be c orrelated w ith t he f requency o f a ny p articular t ool t ype. Another p ossible s ource o f c utmark m imics was p resented a t t he S EM C onference b y F riederman S chrenk,
w ho s howed h yena t ooth s cratches t hat
i ncluded f ine l inear s triations w ithin t he main g roove. h ave
e ach
l ooked
a t
b ones
c hewed
by
2 67
s potted
a nd
S ince h e a nd I
s triped
h yenas,
a nd
s ince h e h as s een s triations f requently a nd I h ave n ever o bserved t hem, t his
p roblem
d iscover
o bviously
d istinctive
c alls
f or
f eatures
u sed t o i dentify t hem r eliably. s een
o nly
m imics.
a f ew I c an
t oothmarks r epeated
marks),
i n
I f
t he
s triated
e ffort.
W e
t oothmarks
h ope
t hat
t hat
t hey a re
n ot
c lose
s ame
marks
t his
p erhaps
s pot,
t hat
t hese
s imilar
s how
f ine
o ught
t o
b e
m arks
t o t hen
r aised,
w ere
r odent
s triations
h ypothesis i s c orrect,
s triations
s ee
e dge
h ow
e ffect
t he
t hat
w ould produce
n ormal
w ithout
h aving c utmark
c aused
g nawing
( see
t ooth
s uch
n ot
s triations.
morphology
r epeated g nawing.
o f
h yenas
by
w hich
S hipman
a nd
( like r odent g nawing i ncised.
S econd,
p erhaps t he h yena producing t hese marks h ad broken o ff a t ooth, a r ough
t o
c an b e
I t i s m y s ubjective i mpression,
briefly,
F irst,
t he
p roduces
1 983).
h is
a t present t wo h ypotheses a bout h ow s uch s triated
produced.
g nawing
f requently R ose,
m icrographs
o ffer
a re
a c ollaborative
o f
O therwise, c ould
l eaving I c annot
produce
T ooth b reakage must
b e
s uch
a n
a r elatively
i nfrequent o ccurrence, c onsidering t he n umber o f t imes a w ild c arnivore c hews a nd d oes n ot b reak i ts t eeth. A lthough
t he
c omplexities u sefulness
f oregoing
a nd o f
paragraphs
c autions
d ata
o f
a bout
h ave
i dentifying
which
bones
f ocused
o n
c utmarks,
w ere
t he
t he
a ctually
g rowing
potential
p rocessed
by
h ominids i s s o g reat t hat I b elieve i t i s w orth p ersisting i n t rying t o r efine
t he
m ethodology
s ignificant
t ypes
o f
t o
e nhance
a nalyses
t hat
i ts
c ertainty .
c an
b e p erformed,
T here
a re
o nce
s everal
a s ample o f
c utmarked bones h as b een i solated. F irst, provides
a nd
most
a c ausal
h ominids.
M any
n ecessary
t o
a ssociated
obviously,
a nd
t emporal
s ites
f ind
b ones
h ave
s olid a nd
p resence
b etween
c omplex
e vidence
s tone
t he
l ink
o f
b ones,
t aphonomic
c utmarked s tone
b ones
t ools,
h istories,
s o
i t
a nd i s
f or t he i nterpretation t hat s patially
t ools
w ere
d eposited
a t
t he
s ame
t ime by
h ominids. S econd, c utmarked?)
t he a nd
patterns s pecies
may r eveal a g reat d eal. c utmarks t he
o n
b ones
s ome
i n
N onetheless,
bones
t he
o f
r epresentation ( which
( which bones
s pecies
a re
a re
c utmarked?)
I w ould h esitate t o j ump f rom t he p resence o f i n
a n
a ssemblage
a nalyzing
s keletal
r epresentation
o nly
a ssemblage w ere
t he
t o
t he
c onclusion
t hat a ll o f
c ollected o r p rocessed by h ominids.
c utmarked
s ubset o f a n a ssemblage w ill
e nable t he a nalyst t o a nswer q uestions l ike: d id s ystematic b utchery, i .e., a h ighly patterned, r epetitive p rocessing o f c arcasses, o ccur? a re
c utmarks
c oncentrated
s uggesting m eat i n
l ocations
was
s pecies
d oes
mortality
o n
f ocus
s uggestive
b utchered t he
t he
o f
r estricted p rofile
b ones
t hat
b ear
l arge
o f t he p rocessing? s kin, t o
s ome
o f
t he
t endon
o r
f at
s ize
r ange
o r
b utchered
m uscle
masses,
o r d o c utmarks o ccur h arvesting? s ome
s pecies
a re
habitat l ook
t ype?
l ike
a
c atastrophic o r a ttritional a ssemblage? Third,
a dditional
i nformation
m ay
b e
d erived
f rom
c areful
i nspection o f t he c utmarks t hemselves. B romage a nd B oyde ( 1984) h ave s hown t hat d irectionality c an s ometimes b e i nferred f rom c utmark morphology. T his i nformation c ould p otentially b e u sed t o d etermine w hen
h andedness
o ccurred
a nd
t he
( Shipman a nd R ose,
a ccompanying 1 983).
2 68
l ateralization
o f
t he
b rain
T ime o f p rocessing.
A nother a spect o f s tudying c utmarks t hemselves m ay
p rove h ighly u seful; c utmark m orphology c an r eveal t he t iming o f t he p rocessing o f a c arcass r elative t o t he d eath o f t he a nimal i nvolved. I n a c ollaborative e ffort ( Russell e t a l., 1 985), R ussell, V illa a nd I h ave s hown t hat w e c an m orphology o f t he m arks,
d istinguish, o n t he b asis o f m icroscopic b etween i mmediate a nd d elayed p rocessing o f
c arcasses.
p rocessing
B y
i mmediate
w e
m ean
p rocessing
o f
a c arcass
w hich o ccurs a t o r s hortly a fter d eath, w hen t he f lesh i s s till a v iable s ource o f f ood. I n c ontrast, d elayed p rocessing o ccurs l ater i n t ime, a fter t he f lesh i s d ried o r d ecayed. I t s eems l ikely t hat t he t ime p eriod i ntervening b etween i mmediate a nd d elayed p rocessing w ill b e m ore d ifficult t o r ecognize. T able 1 s hows t he t ypes o f a ctivities t hat m ight b e e xpected t o o ccur i n e ach t ype o f p rocessing; i t i s i mportant t hat t he o bjectives a re d ifferent i n i mmediate a nd d elayed p rocessing b ecause d ifferent r esources h ave d ifferent t emporal l ives. I t i s a lso s ignificant w hether t he s ubject o f t he p rocessing i s h uman o r n onhuman, s ince t he f ormer r aises t he p rospect o f e ither c annibalism ( immediate p rocessing) o r s econdary b urial ( delayed p rocessing), b oth o f w hich h ave i nteresting i mplications f or u nderstanding t he s ystem o f b eliefs o f a g roup. T his a pproach h as b een a pplied t o t he N eolithic a ssemblage f rom F ontbregoua, F rance, i n w hich b oth h uman a nd n onhuman r emains s how c utmarks i n s imilar p laces ( see V illa e t a l., 1 986, f or a m ore e xtensive d iscussion). T his w ork c onstituted a t est o f t he h ypothesis t hat d ietary c annibalism ( i.e., e ating h uman r emains) w as i nvolved; b y e stablishing t hat b oth t he h uman a nd f aunal m aterials w ere s ubjected t o i mmediate p rocessing, t he h ypothesis w as s upported. M ethodologically,
t he p roblem o f
d istinguishing b etween i mmediate
a nd d elayed p rocessing d epends u pon t wo f actors: t he a ge ( state o f w eathering) o f t he b one s urface a nd t he a ge o f t he c utmark. F igure I s hows f our t heoretical c ombinations o f b one a ge a nd m ark a ge, a lthough o ne c ombination ( fresh b one, o ld m ark) c annot a ctually e xist. I n o ur e xperiments, R ussell i ndependently p repared a s eries o f r eplicas o f s licing m arks o n b ones ( N=8 s pecimens) t hat r epresented t hree s tates: f resh m arks o n f resh b one; o ld m arks o n o ld b one; a nd f resh m arks o n o ld b one. O ne s pecimen w as a n a ged b one b earing o ld m arks o ver w hich R ussell c reated a n ew g eneration o f m arks. T hese r eplicas w ere a ssigned l etter c odes a nd s ent t o m e w ithout f urther d ata. M y d iagnoses o f t hese s pecimens w as 1 00% a ccurate. A lthough t his i s a s mall s ample s ize, t he r esults a re m odestly i mpressive. S ince e ach r eplica c ould h ave b orne a ny o f t hree s tates, t he p robability o f i dentifying a ll o f t he s pecimens a ccurately b y c hance w ere 6 561:1. S ome a dditional s tudies h ave b een c arried o ut s ince t hen, b ut m ore a re s till n eeded t o e xplore t he r ange o f v ariability i n m ark m orphology a nd t o c onfirm t hese i nitial r esults.
2 69
O ld cut
O ld cut
F resh bone
O ld bone
A
A
F resh cut
F resh cut
F resh bone
O ld bone
BO N E
SU R F A C E
AG E
F ig. 1 . T heoretical m odel o f t he d ifferent c ombinations o f c utmark a nd b one a ge r esulting f rom c arcass-processing. N ote t hat t he a lternative i n t he u pper l eft ( old c ut, f resh b one) c annot a ctually o ccur.
2 70
TABLE 1 .
S ome o f t he b ehaviors a nd o bjectives a ssociated w ith
i mmediate a nd d elayed c arcass-processing. S ubject
T iming
B ehavior
Objective
A nimal
I mmediate
H unting
Obtain m eat,
marrow,
f at
E arly s cavenging
O btain m eat,
marrow,
f at
M anufacture
Obtain s kin,
t endon,
b one
C onsumption
Obtain m eat,
marrow,
f at
L ate s cavenging
O btain marrow
M arrowing
Obtain marrow
? Manufacture
Obtain s kin,
t endon,
b one
R itual c annibalism
Appease gods
D ietary c annibalism
Obtain meat,
marrow,
f at
S calping
O btain t rophy
M utilation
Obtain t rophy,
S acrifice
Appease gods
S econdary b urial
F inish burial r itual
C emetery r elocation
Facilitate t ransport
D elayed
H uman
I mmediate
D elayed
t wo
A t p resent, t he f ollowing d escriptions s erve t o c haracterize t he s tates. I mmediate p rocessing i s c haracterized by f resh, i ntact
b one
s urfaces
m arks
a re
w ith
s triations
c ut
o blique
F resh
n ormal
e longate,
d istinguishable a nd
v engeance
i nto i n
When a nd a ged, l ines
o f
a b one
( Bromage
( Fig.
f ine 2 a,
s ubjected
s tructural
n ormal
f or
c rack
d evelopment.
f loor.
a nd
t o
B oyde,
i mmediate
a s ingle
s mears, 1 984)
a re
T hese
parallel n adir
i s
oblique
f aulting
o ften
v isible.
i s
p rocessing
b ecomes
w eathered
T he b one s urface d evelops c racks a long S ince
o rganization I t
O ften,
B one
f ine,
b ).
w eakness.
s tructural
multiple
d etail t hat i s d istinctly d ifferent f rom
t hese f eatures a lter.
t he
a nd
b earing s licing marks.
w ith
s licing marks.
s how m uch
n ormal bone t exture
g rooves
t heir w alls s uch
c hipping
c utmarks
u ltrastructure
l inear
t he
o f
p ossible
2 71
c utmark
t he
bone,
t hat
t he
i tself i t
h as
s erves
i mmediate
d isrupted
a s
a f ocus
a rea o f t he
-a
F ig. 2 . E xperimental s tudies o f d elayed a nd i mmediate p rocessing. a ) F resh c utmarks o n a f resh b one w ith a n i ntact s urface. b ) A c lose-up o f t he s ame s licing m arks, s howing t he f ine s triations, b one s mears a nd o blique c hipping c haracteristic o f f resh s licing m arks. c ) A s eries o f i ntersecting, o ld s licing m arks, o riginally m ade o n f resh b one t hat i s n ow w eathered a nd o ld. N ote t he n etwork o f w eathering c racks b oth w ithin a nd w ithout t he c utmarks. d ) A c lose-up o f t he s ame s et o f m arks. N ote t he l oss o f d etail w ithin t he c utmarks a nd t he d evelopment o f f ine l ongitudinal a nd p erpendicular c racks w ithin e ach m ark.
2 72
c utmarks n ot y et
d evelops c ertain.
c racks e arlier t han a djacent a reas, t hough t his i s C racks f requently d evelop a long t he n adir o f t he
s licing m ark; i n a ddition, a s eries o f s hort c racks m ay d evelop a long t he w alls o f t he m ark. T hese c racks o ften h ave t wo i ntersecting a rms, o ne p arallel t o a nd o ne p erpendicular t o t he m ark 's l ong a xis. I n o ur s ample, s uch c racks d o n ot e xtend o utside t he m ark i tself, a lthough l arger s cale c racks p arallel t o t he p redominant f iber o rientation o f t he b one s urface m ay i ntersect a nd c ross t he s licing m ark. A lthough t he f ine s triations r emain v isible i nside t he m ain g roove, t hey b ecome m uch m ore d ifficult t o i dentify a s t hey h ave l ost b oth d etail a nd d epth. A s a r esult, t hey a re o ften v isible o nly w hen t he s pecimen i s h ighly t ilted ( angles o f c lose t o 4 5 ''t o t he s urface) a nd w ith a h igh c ontrast i mage ( Fig. 2 c, d ). Delayed T ypically, i n
processing p resents a d ifferent s et d elayed p rocessing t he b one s urface i s
o f f eatures. w eathered a nd
c racked. W ork b y B ehrensmeyer ( 1978) a nd G ifford ( 1977) h as s hown t hat w eathering b egins a t a bout 6 m onths t o o ne y ear a fter d eath, d epending u pon m icroenvironment a nd c limate. H owever, b ecause t he s licing m ark i tself i s m ade a ppears f resh.
a fter w eathering a nd c racking h as o ccurred, t he m ark I t p ossesses a ll t he d etail, d epth, a nd h ighly v isible
s triations f ound i n f resh m arks o n f resh b one. T hus, i t i s t he d ifference i n w eathering s tate b etween t he o utermost b one s urface a nd t he c utmark t hat i dentifies d elayed p rocessing. C utmarks r esulting from
d elayed
p rocessing
h ave
n o
r egular
r elationship
t o
c rack
o rientation; a pparently c racks h ave n ot y et h ad t ime t o d evelop w ithin f resh m arks. T he d istinction b etween a n o ld m ark a nd a n ew m ark o n t he s ame w eathered b one ( Fig. 3 a, b ) i s s triking. B urnt b ones a nd t eeth. T he s ummary o f t his w ork p resented h ere i s d rawn f rom S hipman e t a l. ( 1984b), w hich s hould b e c onsulted f or m ore e xtensive i nformation a bout m ethodology a nd r esults. B ased o n c ontrolled h eating i n a m uffle f urnace, m anually c leaned s heep a nd g oat m andibles ( bearing t eeth) a nd a stragali s how a s eries o f c hanges i n c olor, m icroscopic m orphology, a nd c rystal s tructure. D ocumenting c hanges p ermits t he a nalyst t o d educe t he r ange o f t emperatures t o w hich t he s keletal e lement i tself h as b een h eated. I t i s i mportant t o r ealize t hat t he maximum t emperature r eached b y t he b one o r t ooth r epresents t he m inimum t emperature o f t he h eating d evice ( fire, p yre, h eating o ven, e tc.). I n o ther w ords, t he h eating d evice w as a t l east a s h ot a s t he b ones o r t ooth h eated i n t hat d evice. H owever, v arious c ircumstances, s uch a s t he e xtent o f f leshy c overing o f t he b ones, m ay p rotect t hem f rom r eaching a s h igh a t emperature a s t he h eating d evice i tself r eaches. T he
c hanges
i n
m icroscopic
m orphology
t hat
a ccompany
h eating t o
d ifferent t emperatures c an b e d ivided i nto f ive s tages, w hether t he t issue m onitored i s b one, d entin o r e namel. A ll t hree t issues s how a nalogous c hanges i n m orphology t hat w e h ave a ttributed t o, f irst, t he b reakdown o f t he n onmineral c omponent o f b one o r t ooth a nd, s econd, t o c hanges i n t he h ydroxyapatite c omponent o f t hose t issues. F igures 4 -6 ( reproduced f rom S hipman e t a l., 1 984b:315-318) s how t hese s tages, w hich c an b e d escribed i n g eneral t erms a s f ollows:
2 73
. 4 4 4 .
r o ) W —I a g 4 : — ,2 1
4 )i P W , Z
a ) 4 ) 0 4 4 0 0
4 )
U
r 0 $ i ( 1 ) P
> 4 •
r ö
o l d b o n e . c a n l o w e r
c l ) t n 01 0 •
C l
r n 4 1
U
F = C
I -)
n z ,
t o v a s c u l a r
c u t m a r k s o n
1 3 1
H c a
c r a
V)L P 0
r t j 0
1 4 - e
4
0
0 ' 1 C J c u
t l
2 74
0
r t l
U
4 -) C / ]
0
a )
0
I
— 4 /
, 3 4
P U ( 1 ) 4 1
O
i
P u N . 4 U 0 1 -w0 0 0 u ] • g ) . 4 r ' t J g l
•— 4 a ) C T 3 1 ) r o
• r i
z n
t 4 ( 1 )
Ero c 0
> 4
0
A .• H
I 0 t n r C 3
I
r i
Q )
, -
( 1 ) 4 . J c d
• 0 a r i W
, z
c u s t i ]
0 °
U
j 2i0 b C 1
Q . 1
c i 2
" 1 0 › . 4
4 1 0 1-Q U 0 0 0 4 1 4 1 4 4
C 1
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( 1) )
4 -) $ 4 C , 4 1
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0
4
0 r e
E 0 1 ) C d
A
Fig.
4 .
M icroscopic
m orphological
s tages
n atural d entin s urface o f t he pulp c avity. b ) V ,
S tage
I I.
c )
S tage
I II.
d )
s hown a t h igher magnification.
S hipman e t a l.,
1 984b,
J . Arch.
p roduced a )
S tage I V.
by
S tage I , e )
h eating
o n
a
n ormal d entin.
S tage V .
f )
S tage
( Plate r eproduced by p ermission f rom
S ci.,
2 75
A cademic P ress.)
F ig. 5 . M icroscopic m orphological s tages p roduced b y h eating o n n atural, n onocclusal, e namel s urfaces. a ) S tage I , n ormal e namel. b ) S tage I I. c ) S tage I II. d ) S tage I V. e ) S tage V . ( Plate r eproduced b y p ermission f rom S hipman e t a l., 1 984b, J . A rch. S ci., A cademic P ress.)
2 76
n i ntact F ig. 6 . M icroscopic m orphological s tages p roduced b y h eating o S tage I I, b one s urfaces. a ) S tage I , n ormal s ubchondral b one. b ) s ubchondral b one. c ) S tage I II, s ubchondral b one. d ) S tage I V, S t a g e V , s ubchondral b one. e ) S tage V , s ubchondral b one. f ) ortical s ubchondral b one s hown a t h igher magnification. g ) S tage V, c 984b, J . b one. ( Plate r eproduced b y p ermission f rom S hipman e t a l., 1 A rch.
S ci., A cademic P ress.)
2 77
..in S tage I ( 20-
-I — I
04 r - i r I ZI 0
( / )
•, - I
0
` 1 4 51 z l i i
r
0 10
• i 4 3
0 r d 1 . , w g • , i 0 W a i c n c i _ 4 4 0 U C < 4 • , -1 U t 3' t : 3 1 4 a i ' . . . 4 , . ) U ( 1 : • -- g 04 w 4 -) U co g c n . > I g i 0 U ) U ) 4 J t i j 0 , • W gl ( 1 3 , .O 0 .2 .( , 1 _ ) 1 2
g ,
U ). 4 Ja„4 _ ,0 W
n j W r j ) c o
R I
g
e l ö g i U
0
4 1 , 4
54 . ,,, › ,
0
0
r d e n — I r d -P C i t 4 . J W t n , Z
. 1 : 1 U ) • g • , I re c f )
2
n i . a .
E
W r n w 0 . 4 —1 • , I -. 4) ( " r i, t : P E l ( I S . . . . 2 ( 0 w 0 0 r t l 3 L i i 1 r n
g i
• . IL : j W E
3 11
W , 4 4 J
e n 1 : 1 0 4 ( 1 ) M g i 3 4 -) ra 0 0 0 0 4) . 1. Z >I t n r I ( 1 . ) U l " L I C d
' — I • , 1 r C I . i • , 1 g 0 U G g >
4 1
w
0
0 , 9 ( 1)
r 1 4 ( U D 2
al
' ( 1 T ' 3 :1
>
U )
. 1
0
° t n n i
• t : 31 C • , 4 W 1 1
2
. . r n 1 l