Landscape-scale variation in hominin tool use: Evidence from the Developed Oldowan.

The relationship between artifact manufacture, use, and discard in the Developed Oldowan is complex. Here we use digital-image-analysis techniques to investigate the intensity of reduction in single-platform cores of the Developed Oldowan of the Okote Member, Koobi Fora Formation. Data suggest that this method provides a more accurate measure of reduction intensity than previous applications of a unifacial-scraper model. Assemblages of single-platform cores excavated from extensive lateral exposures of the Okote Member provide insights into the relationship between raw-material availability and discard patterns. Variation in reduction intensity suggests that tools are not always discarded in patterns that would be predicted by the availability of raw material. Further, it appears that hominin transport decisions involved an assessment of the potential use-life of certain forms. Many aspects of Developed Oldowan technology conform to previously developed models of curated technologies.

[1]  P. Jeffrey Brantingham,et al.  A Neutral Model of Stone Raw Material Procurement , 2003, American Antiquity.

[2]  Harold L. Dibble,et al.  Stone Tool Analysis Using Digitized Images: Examples from the Lower and Middle Paleolithic , 1999 .

[3]  Peter Hiscock,et al.  Transformations of Upper Palaeolithic implements in the Dabba industry from Haua Fteah (Libya) , 1996, Antiquity.

[4]  Richard Potts,et al.  Why the Oldowan? Plio-Pleistocene Toolmaking and the Transport of Resources , 1991, Journal of Anthropological Research.

[5]  L. Binford Organization and Formation Processes: Looking at Curated Technologies , 1979, Journal of Anthropological Research.

[6]  H. Dibble Platform Variability and Flake Morphology: A Comparison of Experimental and Archaeological Data and Implications for Interpreting Prehistoric Lithic Technological Strategies , 1997 .

[7]  G. L. Isaac Archaeological Tests of Alternative Models of Early Hominid Behaviour: Excavation and Experiments , 1981 .

[8]  Andrew W. Pelcin The Threshold Effect of Platform Width: A Reply to Davis and Shea , 1998 .

[9]  Michael J. Shott,et al.  Use life and curation in New Guinea experimental used flakes , 2005 .

[10]  Michael J. Shott,et al.  An Exegesis of the Curation Concept , 1996, Journal of Anthropological Research.

[11]  F. Brown,et al.  Precise 40Ar/39Ar geochronology for the upper Koobi Fora Formation, Turkana Basin, northern Kenya , 2006, Journal of the Geological Society.

[12]  R. Klein,et al.  The Middle Paleolithic: Adaptation, Behavior, and Variability , 1993 .

[13]  Brian Hayden,et al.  From Chopper to Celt: The Evolution of Resharpening Techniques , 1987 .

[14]  Harold L. Dibble,et al.  Production and Transport of Blanks and Tools at the French Middle Paleolithic Site of Combe-Capelle Bas , 1998, American Antiquity.

[15]  E. Anati,et al.  Prehistory and Paleoenvironments in the Central Negev, Israel. , 1977 .

[16]  David M. Maina,et al.  Oldowan behavior and raw material transport: perspectives from the Kanjera Formation , 2008 .

[17]  P. Brantingham Hominid–Carnivore Coevolution and Invasion of the Predatory Guild , 1998 .

[18]  Stratigraphy of a Famous Site. (Book Reviews: Geology of the Olduvai Gorge. A Study of Sedimentation in a Semiarid Basin) , 1976 .

[19]  Douglas B. Bamforth,et al.  Technology, Flaked Stone Technology, and Risk , 2008 .

[20]  G. Isaac,et al.  The Karari Industry: Early Pleistocene archaeological evidence from the terrain east of Lake Turkana, Kenya , 1976, Nature.

[21]  C. M. Barton,et al.  A new approach to interpreting late Pleistocene microlith industries in southwest Asia , 1994, Antiquity.

[22]  Harold L. Dibble,et al.  The Middle Paleolithic Site of Combe-Capelle Bas (France) , 1995 .

[23]  C. Stringer L'homme de Neandertal , 1991 .

[24]  George C. Frison,et al.  A Functional Analysis of Certain Chipped Stone Tools , 1968, American Antiquity.

[25]  Manuel Domínguez-Rodrigo,et al.  The Oldowan industry of Peninj and its bearing on the reconstruction of the technological skills of Lower Pleistocene hominids. , 2003, Journal of human evolution.

[26]  Kathy D. Shick Modeling the formation of Early Stone Age artifact concentrations , 1987 .

[27]  C. Clarkson An Index of Invasiveness for the Measurement of Unifacial and Bifacial Retouch: A Theoretical, Experimental and Archaeological Verification , 2002 .

[28]  Lewis R. Binford,et al.  Where Do Research Problems Come From? , 2001, American Antiquity.

[29]  George H. Odell,et al.  Economizing Behavior and the Concept of “Curation” , 1996 .

[30]  Shannon J. P. McPherron A reduction model for variability in Acheulian biface morphology , 1994 .

[31]  Michael J. Shott,et al.  Weibull Estimation on Use Life Distribution in Experimental Spear-Point Data , 2002 .

[32]  Rafael Mora Torcal,et al.  Oldowan, rather more than smashing stones , 2003 .

[33]  J. Shea,et al.  Quantifying Lithic Curation: An Experimental Test of Dibble and Pelcin's Original Flake-Tool Mass Predictor , 1998 .

[34]  R. Blumenschine,et al.  Effects of distance from stone source on landscape-scale variation in Oldowan artifact assemblages in the Paleo-Olduvai Basin, Tanzania , 2008 .

[35]  Michael J. Rogers,et al.  Changing patterns of land use by Plio-Pleistocene hominids in the Lake Turkana Basin , 1994 .

[36]  H. Dibble,et al.  The Effect of Hammer Mass and Velocity on Flake Mass , 1995 .

[37]  Michael Walker,et al.  The Explanation of Culture Change: Models in Prehistory ed. by Colin Renfrew (review) , 2023 .

[38]  Simon Holdaway,et al.  Were There Hafted Projectile Points in the Mousterian , 1989 .

[39]  Nicholas J. Mulcahy,et al.  Apes Save Tools for Future Use , 2006, Science.

[40]  G. Odell Research Problems R Us , 2001, American Antiquity.

[41]  Andrew W. Pelcin The Effect of Indentor Type on Flake Attributes: Evidence from a Controlled Experiment , 1997 .

[42]  David R. Braun,et al.  Technological developments in the Oldowan of Koobi Fora , 2003 .

[43]  Payson Sheets,et al.  Time, Energy, and Stone Tools , 1990 .

[44]  Anne Delagnes,et al.  Late Pliocene hominid knapping skills: the case of Lokalalei 2C, West Turkana, Kenya. , 2005, Journal of human evolution.

[45]  Yuki Kimura,et al.  Examining time trends in the Oldowan technology at Beds I and II, Olduvai Gorge. , 2002, Journal of human evolution.

[46]  Jéhanne Féblot-Augustins Middle and Upper Palaeolithic raw material transfers in western and central Europe: assessing the pace of change , 1997 .

[47]  Andrew W. Pelcin The Formation of Flakes: The Role of Platform Thickness and Exterior Platform Angle in the Production of Flake Initiations and Terminations , 1997 .

[48]  M. Domínguez‐Rodrigo,et al.  The ST Site Complex at Peninj, West Lake Natron, Tanzania: Implications for Early Hominid Behavioural Models , 2002 .

[49]  Michael J. Shott,et al.  On Tool-Class Use Lives and the Formation of Archaeological Assemblages , 1989, American Antiquity.

[50]  D. Olszewski,et al.  Beyond the Graver: Reconsidering Burin Function , 1996 .

[51]  George H. Odell,et al.  Stone tools : theoretical insights into human prehistory , 1996 .

[52]  Douglas B. Bamforth,et al.  Technological Efficiency and Tool Curation , 1986, American Antiquity.

[53]  Richard Potts,et al.  Variables versus models of early Pleistocene hominid land use , 1994 .

[54]  Michael J. Rogers,et al.  Paleoenvironments of the earliest stone toolmakers, Gona, Ethiopia , 2004 .

[55]  G. Clark,et al.  Rediscovering Darwin : evolutionary theory and archeological explanation , 1997 .

[56]  C. Clarkson,et al.  Experimental evaluation of Kuhn's geometric index of reduction and the flat-flake problem , 2005 .

[57]  Michael J. Shott,et al.  Modeling Use-Life Distributions in Archaeology Using New Guinea Wola Ethnographic Data , 2004, American Antiquity.

[58]  Marina Mosquera Martinez,et al.  Differential Raw Material Use in the Middle Pleistocene of Spain: Evidence from Sierra de Atapuerca, Torralba, Ambrona and Aridos , 1998, Cambridge Archaeological Journal.

[59]  Tetsuro Matsuzawa,et al.  Chaînes opératoires and resource-exploitation strategies in chimpanzee (Pan troglodytes) nut cracking. , 2008, Journal of human evolution.

[60]  Nicola Stern,et al.  The implications of time-averaging for reconstructing the land-use patterns of early tool-using hominids , 1994 .

[61]  Iain Davidson,et al.  STONE TOOLS AND THE UNIQUENESS OF HUMAN CULTURE , 2005 .

[62]  E. Vrba,et al.  Environment and behavior of 2.5-million-year-old Bouri hominids. , 1999, Science.

[63]  C. Beck,et al.  Rocks are heavy: transport costs and Paleoarchaic quarry behavior in the Great Basin , 2002 .

[64]  R. Blumenschine,et al.  Living sites at Olduvai Gorge, Tanzania? Preliminary landscape archaeology results in the basal Bed II lake margin zone , 1991 .

[65]  Julie C. Stout,et al.  Stone Tool-Making and Brain Activation: Position Emission Tomography (PET) Studies , 2000 .

[66]  Michael J. Shott Mortal Pots: On Use Life and Vessel Size in the Formation of Ceramic Assemblages , 1996, American Antiquity.

[67]  Y. Kimura Tool-using strategies by early hominids at bed II, Olduvai Gorge, Tanzania. , 1999, Journal of human evolution.

[68]  H. Dibble Comment on : Quantifying lithic curation : An experimental test of Dibble and Pelcin's original flake-tool mass predictor by Zachary J. Davis and John J. Shea , 1998 .

[69]  Mark D. Varien,et al.  Unpacking the Discard Equation: Simulating the Accumulation of Artifacts in the Archaeological Record , 1997, American Antiquity.

[70]  H. Dibble,et al.  A New Synthesis of Middle Paleolithic Variability , 1990, American Antiquity.

[71]  C. R. Peters,et al.  Late Pliocene Homo and Hominid Land Use from Western Olduvai Gorge, Tanzania , 2003, Science.

[72]  C. R. Peters,et al.  Archaeological predictions for hominid land use in the paleo-Olduvai Basin, Tanzania, during lowermost Bed II times. , 1998, Journal of human evolution.

[73]  G. Isaac,et al.  Plio-pleistocene archaeology , 1997 .

[74]  Nicholas Toth,et al.  Behavioral inferences from Early Stone artifact assemblages: an experimental model☆ , 1987 .

[75]  H. Dibble Middle paleolithic scraper reduction: Background, clarification, and review of the evidence to date , 1995 .

[76]  I. Torre,et al.  Unmodified lithic material at Olduvai Bed I: manuports or ecofacts? , 2005 .

[77]  D. Gordon Mousterian Tool Selection, Reduction, and Discard at Ghar, Israel , 1993 .

[78]  R. Layton,et al.  Hunter-gatherers : an interdisciplinary perspective , 2001 .

[79]  N. Toth The oldowan reassessed: a close look at early stone artifacts , 1985 .

[80]  Michael J. Shott,et al.  How much is a scraper? Curation, use rates, and the formation of scraper assemblages , 1995 .

[81]  I. de la Torre,et al.  Omo Revisited: Evaluating the Technological Skills of Pliocene Hominids , 2004 .

[82]  Jessica C. Thompson,et al.  An experimental investigation of cut mark production and stone tool attrition , 2008 .

[83]  D. Stout Skill and Cognition in Stone Tool Production , 2002, Current Anthropology.

[84]  Steven L. Kuhn,et al.  Blank Form and Reduction as Determinants of Mousterian Scraper Morphology , 1992, American Antiquity.

[85]  Steven L. Kuhn,et al.  Defining and measuring reduction in unifacial stone tools , 2005 .

[86]  Andrew W. Pelcin The Effect of Core Surface Morphology on Flake Attributes: Evidence from a Controlled Experiment , 1997 .

[87]  O. Soffer The Pleistocene Old World. Regional Perspectives , 1989 .

[88]  J. Wright,et al.  Paleogeographic variations of pedogenic carbonate delta13C values from Koobi Fora, Kenya: implications for floral compositions of Plio-Pleistocene hominin environments. , 2007, Journal of human evolution.

[89]  Dietrich Stout,et al.  Raw material selectivity of the earliest stone toolmakers at Gona, Afar, Ethiopia. , 2005, Journal of human evolution.

[90]  Andrew P. Bradbury,et al.  Flake Size from Platform Attributes: Predictive and Empirical Approaches , 2000 .