Abe, Y., Marean, C. W., Nilssen, P. J., Assefa, Z., and Stone, E. C.. 2002. The Analysis of Cutmarks on Archaeofauna: A Review and Critique of Quantification Procedures, and a New Image-Analysis GIS Approach. American Antiquity 67:643–663.CrossRefGoogle Scholar

Adams, B. J., and Konigsberg, L. W.. 2004. Estimation of the Most Likely Number of Individuals from Commingled Human Skeletal Remains. American Journal of Physical Anthropology 125:138–151.CrossRefGoogle ScholarPubMed

Adams, W. R. 1949. Faunal Remains from the Angel Site. Unpublished Master's thesis, Department of Anthropology, Indiana University, Bloomington.

Allen, J., and Guy, J. B. M.. 1984. Optimal Estimations of Individuals in Archaeological Faunal Assemblages: How Minimal is the MNI?Archaeology in Oceania 19:41–47.CrossRefGoogle Scholar

Alroy, J. 2000. New Methods for Quantifying Macroevolutionary Patterns and Processes. Paleobiology 26:707–733.2.0.CO;2>CrossRefGoogle Scholar

Ames, K. M. 1996. Life in the Big House: Household Labor and Dwelling Size on the Northwest Coast. In People Who Lived in Big Houses: Archaeological Perspectives on Large Domestic Structures, edited by Coupland, G. and Banning, E. B., pp. 131–150. Monographs in World Archaeology No. 27. Prehistory Press, Madison, Wisconsin.Google Scholar

Ames, K. M., and Maschner, H. D. G.. 1999. Peoples of the Northwest Coast: Their Archaeology and Prehistory. Thames and Hudson, London.Google Scholar

Ames, K. M., Raetz, D. F., Hamilton, S., and McAfee, C.. 1992. Household Archaeology of a Southern Northwest Coast Plank House. Journal of Field Archaeology 19:275–290.Google Scholar

Ames, K. M., Smith, C. M., Cornett, W. L., Sobel, E. A., Hamilton, S. C., Wolf, J., and Raetz, D.. 1999. Archaeological Investigations at 45CL1 Cathlapotle (1991–1996), Ridgefield National Wildlife Refuge, Clark County, Washington: A Preliminary Report. U.S.D.I. Fish and Wildlife Service, Region 1, Cultural Resource Series No. 13. Portland, Oregon.Google Scholar

Amstrup, S. C., McDonald, T. L., and Manly, B. F. J. (editors). 2006. Handbook of Capture–Recapture Analysis. Princeton University Press, Princeton, New Jersey.Google Scholar

Andrews, P. 1990. Owls, Caves and Fossils. University of Chicago Press, Chicago.Google Scholar

Andrews, P. 1996. Palaeoecology and Hominoid Palaeoenvironments. Biological Reviews 71:257–300.CrossRefGoogle Scholar

Anyonge, W. 1993. Body Mass in Large Extant and Extinct Carnivores. Journal of Zoology 231:339–350.CrossRefGoogle Scholar

Anyonge, W., and Roman, C.. 2006. New Body Mass Estimates for Canis dirus, the Extinct Pleistocene Dire Wolf. Journal of Vertebrate Paleontology 26:209–212.CrossRefGoogle Scholar

Atmar, W., and Patterson, B. D.. 1993. The Measure of Order and Disorder in the Distribution of Species in Fragmented Habitat. Oecologia 96:373–382.CrossRefGoogle ScholarPubMed

Avery, D. M. 1991. Micromammals, Owls and Vegetation Change in the Eastern Cape Midlands, South Africa, During the Last Millennium. Journal of Arid Environments 20:357–369.Google Scholar

Avery, D. M. 1992. Micromammals and the Environment of Early Pastoralists at Spoeg River, Western Cape Province, South Africa. South African Archaeological Bulletin 47:116–121.CrossRefGoogle Scholar

Avery, D. M. 2002. Taphonomy of Micromammals from Cave Deposits at Kabwe (Broken Hill) and Twin Rivers in Central Zambia. Journal of Archaeological Science 29:537–544.CrossRefGoogle Scholar

Badgley, C. 1986. Counting Individuals in Mammalian Fossil Assemblages from Fluvial Environments. Palaios 1:328–338.CrossRefGoogle Scholar

Bambach, R. K. 1993. Seafood Through Time: Changes in Biomass, Energetics, and Productivity in the Marine Ecosystem. Paleobiology 19:372–397.CrossRefGoogle Scholar

Barnosky, A. D., Carrasco, M. A., and Davis, E. B.. 2005. The Impact of the Species–Area Relationship on Estimates of Paleodiversity. PLoS Biology 3:1356–1361.CrossRefGoogle ScholarPubMed

Barrett, J. H. 1993. Bone Weight, Meat Yield Estimates and Cod (Gadus morhua): A Preliminary Study of the Weight Method. International Journal of Osteoarchaeology 3:1–18.CrossRefGoogle Scholar

Bartram, L. E., Jr., E. M. Kroll, and H. T. Bunn. 1991. Variability in Camp Structure and Bone Food Refuse Patterning at Kua San Hunter–Gatherer Camps. In The Interpretation of Archaeological Spatial Patterning, edited by Kroll, E. M. and Price, T. D., pp. 77–148. Plenum Press, New York.CrossRefGoogle Scholar

Bartram, L. E. Jr., and Marean, C. W.. 1999. Explaining the “Klasies Pattern”: Kua Ethnoarchaeology, the Die Kelders Middle Stone Age Archaeofauna, Long Bone Fragmentation and Carnivore Ravaging. Journal of Archaeological Science 26:9–29.CrossRefGoogle Scholar

Baxter, M. 2003. Statistics in Archaeology. Arnold, London.Google Scholar

Bayham, F. E. 1979. Factors Influencing the Archaic Pattern of Animal Exploitation. Kiva 44:219–235.CrossRefGoogle Scholar

Behrensmeyer, A. K. 1975. The Taphonomy and Paleoecology of Plio-Pleistocene Vertebrate Assemblages East of Lake Rudolf, Kenya. Bulletin of the Museum of Comparative Zoology 146:473–578. Harvard University, Cambridge, Massachusetts.Google Scholar

Behrensmeyer, A. K. 1978. Taphonomic and Ecologic Information from Bone Weathering. Paleobiology 4:150–162.CrossRefGoogle Scholar

Behrensmeyer, A. K., S. M. Kidwell, and R. A. Gastaldo. 2000. Taphonomy and Paleobiology. In Deep Time: Paleobiology's Perspective, edited by Erwin, D. H. and Wing, S. W., pp. 103–147. Paleobiology (Supplement) 26. Paleontological Society, Lawrence, Kansas.Google Scholar

Bennington, J. B., and Bambach, R. K.. 1996. Statistical Testing for Paleocommunity Recurrence: Are Similar Fossil Assemblages Ever the Same?Palaeogeography, Palaeoclimatology, Palaeoecology 127:107–133.CrossRefGoogle Scholar

Betts, M. W. 2000. Augmenting Faunal Quantification Procedures Through the Incorporation of Historical Documentary Evidence: An Investigation of Faunal Remains from Fort George. Ontario Archaeology 69:19–38,Google Scholar

Binford, L. R. 1978. Nunamiut Ethnoarchaeology. Academic Press, New York.Google Scholar

Binford, L. R. 1981. Bones: Ancient Men and Modern Myths. Academic Press, New York.Google Scholar

Binford, L. R. 1984. Faunal Remains from Klasies River Mouth. Academic Press, New York.Google Scholar

Binford, L. R. 1986. Comment. Current Anthropology 27:444–446.Google Scholar

Binford, L. R. 1988. Fact and Fiction About the Zinjanthropus Floor: Data, Arguments, and Interpretations. Current Anthropology 29:123–135.CrossRefGoogle Scholar

Binford, L. R., and J. B. Bertram. 1977. Bone Frequencies – and Attritional Processes. In For Theory Building in Archaeology, edited by Binford, L. R., pp. 77–153. Academic Press, New York.Google Scholar

Blackburn, T. M., Gaston, K. J., and Loder, N.. 1999. Geographic Gradients in Body Size: A Clarification of Bergmann's Rule. Diversity and Distributions 5:165–174.CrossRefGoogle Scholar

Blalock, H. M. 1960. Social Statistics. McGraw Hill, New York.Google Scholar

Blumenschine, R. J. 1986. Early Hominid Scavenging Opportunities: Implications of Carcass Availability in the Serengeti and Ngorongoro Ecosystems. British Archaeological Reports International Series 283. Oxford.Google Scholar

Blumenschine, R. J. 1995. Percussion Marks, Tooth Marks, and Experimental Determinations of the Timing of Hominid and Carnivore Access to Long Bones at FLK Zinjanthropus, Olduvai Gorge, Tanzania. Journal of Human Evolution 29:21–51.CrossRefGoogle Scholar

Blumenschine, R. J., Marean, C. W., and Capaldo, S. D.. 1996. Blind Tests of Inter-Analyst Correspondence and Accuracy in the Identification of Cut Marks, Percussion Marks, and Carnivore Tooth Marks on Bone Surfaces. Journal of Archaeological Science 23:493–507.CrossRefGoogle Scholar

Blumenschine, R. J., and Selvaggio, M. M.. 1988. Percussion Marks on Bone Surfaces as a New Diagnostic of Hominid Behavior. Nature 333:763–765.CrossRefGoogle Scholar

Blumenschine, R. J., and M. M. Selvaggio. 1991. On the Marks of Marrow Bone Processing by Hammerstones and Hyaenas: Their Anatomical Patterning and Archaeological Implications. In Cultural Beginnings: Approaches to Understanding Early Hominid Life-ways in the African Savana, edited by Clark, J. D., pp. 17–32. Union Internationale des Sciences Préhistoriques et Protohistoriques Monographien Band 19. Bonn.Google Scholar

Bobrowsky, P. T. 1982. An Examination of Casteel's MNI Behavior Analysis: A Reductionist Approach. Midcontinental Journal of Archaeology 7:173–184.Google Scholar

Bökönyi, S. 1970. A New Method for the Determination of the Number of Individuals in Animal Bone Material. American Journal of Archaeology 74:291–292.CrossRefGoogle Scholar

Brain, C. K. 1967. Hottentot Food Remains and Their Bearing on the Interpretation of Fossil Bone Assemblages. Scientific Papers of the Namib Desert Research Station 32:1–11.Google Scholar

Brain, C. K. 1969. The Contribution of Namib Desert Hottentots to an Understanding of Australopithecine Bone Accumulations. Scientific Papers of the Namib Desert Research Station 39:13–22.Google Scholar

Brain, C. K. 1974. Some Suggested Procedures in the Analysis of Bone Accumulations from Southern African Quaternary Sites. Annals of the Transvaal Museum 29:1–8.Google Scholar

Brain, C. K. 1976. Some Principles in the Interpretation of Bone Accumulations Associated with Man. In Human Origins: Louis Leakey and the East African Evidence, edited by Isaac, G. L. and McCown, E. R., pp. 97–116. W. B. Benjamin, Menlo Park, California.Google Scholar

Brain, C. K. 1981. The Hunters or the Hunted? An Introduction to African Cave Taphonomy. University of Chicago Press, Chicago.Google Scholar

Breitburg, E. 1991. Verification and Reliability of NISP and MNI Methods of Quantifying Taxonomic Abundance: A View from Historic Site Zooarchaeology. In Beamers, Bobwhites, and Blue-Points: Tributes to the Career of Paul W. Parmalee, edited by Purdue, J. R., Klippel, W. E., and Styles, B. W., pp. 153–162. Illinois State Museum Scientific Papers Vol. 23. Springfield.Google Scholar

Broughton, J. M. 1994a. Declines in Mammalian Foraging Efficiency During the Late Holocene, San Francisco Bay, California. Journal of Anthropological Archaeology 13:371–401.CrossRefGoogle Scholar

Broughton, J. M. 1994b. Late Holocene Resource Intensification in the Sacramento Valley, California: The Vertebrate Evidence. Journal of Archaeological Science 21:501–514.CrossRefGoogle Scholar

Broughton, J. M. 1999. Resource Depression and Intensification During the Late Holocene, San Francisco Bay: Evidence from the Emeryville Shellmound Vertebrate Fauna. Anthropological Records Vol. 32. University of California, Berkeley.Google Scholar

Broughton, J. M. 2004. Prehistoric Human Impacts on California Birds: Evidence from the Emeryville Shellmound Avifauna. Ornithological Monographs No. 56.

Broughton, J. M., and Grayson, D. K.. 1993. Diet Breadth, Adaptive Change, and the White Mountains Fauna. Journal of Archaeological Science 20:331–336.CrossRefGoogle Scholar

Broughton, J. M., Cannon, V. I., Arnold, S., Bogiatto, R. J., and Dalton, K.. 2006. The Taphonomy of Owl-Deposited Fish Remains and the Origin of the Homestead Cave Ichthyofauna. Journal of Taphonomy 4:69–95.Google Scholar

Brown, E. R. 1961. The Black-Tailed Deer of Western Washington. Washington State Game Department, Biological Bulletin No. 13. Olympia, Washington.Google Scholar

Brown, J. H., and Gibson, A. C.. 1983. Biogeography. C. V. Mosby, St. Louis.Google Scholar

Brown, J. H., and Lomolino, M. V.. 1998. Biogeography, 2nd ed. Sinauer Associates, Sunderland, Massachusetts.Google Scholar

Bunn, H. T. 1982. Meat-Eating and Human Evolution: Studies on the Diet and Subsistence Patterns of Plio-Pleistocene Hominids in East Africa. Ph.D. dissertation, University of California, Berkeley.Google Scholar

Bunn, H. T. 1986. Patterns of Skeletal Element Representation and Hominid Subsistence Activities at Olduvai Gorge, Tanzania, and Koobi Fora, Kenya. Journal of Human Evolution 15:673–690.CrossRefGoogle Scholar

Bunn, H. T. 1991. A Taphonomic Perspective on the Archaeology of Human Origins. Annual Review of Anthropology 20:433–467.CrossRefGoogle Scholar

Bunn, H. T. 2001. Hunting, Power Scavenging, and Butchering by Hadza Foragers and by Plio-Pleistocene Homo. In Meat-Eating and Human Evolution, edited by Stanford, C. B. and Bunn, H. T., pp. 199–218. Oxford University Press, Oxford.Google Scholar

Bunn, H. T., and Kroll, E. M.. 1986. Systematic Butchery by Plio/Pleistocene Hominids at Olduvai Gorge, Tanzania. Current Anthropology 27:431–452.CrossRefGoogle Scholar

Bunn, H. T., and Kroll, E. M.. 1988. Reply (to Binford). Current Anthropology 29:135–149.Google Scholar

Bush, A. M., Markey, M. J., and Marshall, C. R.. 2004. Removing Bias from Diversity Curves: The Effects of Spatially Organized Biodiversity on Sampling-Standardization. Paleobiology 30:666–686.2.0.CO;2>CrossRefGoogle Scholar

Butler, V. L. 2000. Resource Depression on the Northwest Coast of North America. Antiquity 74:649–661.CrossRefGoogle Scholar

Butler, V. L. 2001. Changing Fish Use on Mangaia, Southern Cook Islands: Resource Depression and the Prey Choice Model. International Journal of Osteoarchaeology 11:88–100.CrossRefGoogle Scholar

Butler, V. L., and Campbell, S. K.. 2004. Resource Intensification and Resource Depression in the Pacific Northwest of North America: A Zooarchaeological Review. Journal of World Prehistory 18:327–405.CrossRefGoogle Scholar

Butler, V. L., and M. G. Delacorte. 2004. Doing Zooarchaeology as if It Mattered: Use of Faunal Data to Address Current Issues in Fish Conservation Biology in Owens Valley, California. In Zooarchaeology and Conservation Biology, edited by Lyman, R. L. and Cannon, K. P., pp. 25–44. University of Utah Press, Salt Lake City.Google Scholar

Buzas, M. A., and Hayek, L.-A.. 2005. On Richness and Evenness Within and Between Communities. Paleobiology 31:199–220.CrossRefGoogle Scholar

Byrd, J. E. 1997. The Analysis of Diversity in Archaeological Faunal Assemblages: Complexity and Subsistence Strategies in the Southeast During the Middle Woodland Period. Journal of Anthropological Archaeology 16:49–72.CrossRefGoogle Scholar

Cain, C. R. 2005. Using Burned Animal Bone to Look at Middle Stone Age Occupation and Behavior. Journal of Archaeological Science 32:873–884.CrossRefGoogle Scholar

Cain, S. A. 1938. The Species Area Curve. American Midland Naturalist 19:573–581.CrossRefGoogle Scholar

Cannon, M. D. 1999. A Mathematical Model of the Effects of Screen Size on Zooarchaeological Relative Abundance Measures. Journal of Archaeological Science 26:205–214.CrossRefGoogle Scholar

Cannon, M. D. 2000. Large Mammal Relative Abundance in Pithouse and Pueblo Period Archaeofaunas from Southwestern New Mexico: Resource Depression Among the Mimbres–Mogollon?Journal of Anthropological Archaeology 19:317–347.CrossRefGoogle Scholar

Cannon, M. D. 2001. Archaeofaunal Relative Abundance, Sample Size, and Statistical Methods. Journal of Archaeological Science 28:185–195.CrossRefGoogle Scholar

Cannon, M. D. 2003. A Model of Central Place Forager Prey Choice and an Application to Faunal Remains from the Mimbres Valley, New Mexico. Journal of Anthropological Archaeology 22:1–25.CrossRefGoogle Scholar

Capaldo, S. D. 1997. Experimental Determinations of Carcass Processing by Plio-Pleistocene Hominids and Carnivores at FLK 22 (Zinjanthropus), Olduvai Gorge, Tanzania. Journal of Human Evolution 33:555–597.CrossRefGoogle ScholarPubMed

Capaldo, S. D., and Blumenschine, R. J.. 1994. A Quantitative Diagnosis of Notches Made by Hammerstone Percussion and Carnivore Gnawing in Bovid Long Bones. American Antiquity 59:724–748.CrossRefGoogle Scholar

Carder, N., Reitz, E. J., and Compton, J. M.. 2004. Animal Use in the Georgia Pine Barrens: An Example from the Hartford Site (9PU1). Southeastern Archaeology 24:25–40.Google Scholar

Carmines, E. G., and Zeller, R. Z.. 1979. Reliability and Validity Assessment. Sage University Paper 17. Beverly Hills, California.CrossRefGoogle Scholar

Casteel, R. W. 1972. Some Biases in the Recovery of Archaeological Faunal Remains. Proceedings of the Prehistoric Society 38:382–388.CrossRefGoogle Scholar

Casteel, R. W. 1974. A Method for Estimation of Live Weight of Fish from the Size of Skeletal Remains. American Antiquity 39:94–97.CrossRefGoogle Scholar

Casteel, R. W. 1977. A Consideration of the Behavior of the Minimum Number of Individuals Index: A Problem in Faunal Characterization. Ossa 3/4:141–151.Google Scholar

Casteel, R. W. 1978. Faunal Assemblages and the “Wiegemethode” or Weight Method. Journal of Field Archaeology 5:71–77.Google Scholar

Casteel, R. W. n.d. A Treatise on the Minimum Number of Individuals Index: An Analysis of its Behaviour and a Method for Its Prediction. Unpublished manuscript.

Casteel, R. W., and Grayson, D. K.. 1977. Terminological Problems in Quantitative Faunal Analysis. World Archaeology 9:235–242.CrossRefGoogle ScholarPubMed

Chao, A., Chazdon, R. L., Colwell, R. K., and Shen, T.. 2005. A New Statistical Approach for Assessing Similarity of Species Composition with Incidence and Abundance Data. Ecology Letters 8:148–159.CrossRefGoogle Scholar

Chaplin, R. E. 1971. The Study of Animal Bones from Archaeological Sites. Seminar Press, London.Google Scholar

Cheetham, A. H., and Hazel, J. E.. 1969. Binary (Presence–Absence) Similarity Coefficients. Journal of Paleontology 43:1130–1136.Google Scholar

Claassen, C. 1998. Shells. Cambridge University Press, Cambridge, UK.Google Scholar

Clark, J., and Guensburg, T. E.. 1970. Population Dynamics of Leptomeryz. Fieldiana: Geology 16:411–451.Google Scholar

Clason, A. T. 1972. Some Remarks on the Use and Presentation of Archaeozoological Data. Helinium 12:139–153.Google Scholar

Clason, A. T., and Prummel, W.. 1977. Collecting, Sieving and Archaeozoological Research. Journal of Archaeological Science 4:171–175.CrossRefGoogle Scholar

Cleghorn, N., and Marean, C. W.. 2004. Distinguishing Selective Transport and In Situ Attrition: A Critical Review of Analytical Approaches. Journal of Taphonomy 2:43–67.Google Scholar

Cleland, C. E. 1966. The Prehistoric Animal Ecology and Ethnozoology of the Upper Great Lakes Region. Anthropological Papers No. 29. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar

Cleland, C. E. 1976. The Focal–Diffuse Model: An Evolutionary Perspective on the Prehistoric Cultural Adaptations of the Eastern United States. Mid-Continental Journal of Archaeology 1:59–76.Google Scholar

Colwell, R. K., and Coddington, J. A.. 1994. Estimating Terrestrial Biodiversity Through Extrapolation. Philosophical Transactions of the Royal Society of London B 345:101–118.CrossRefGoogle ScholarPubMed

Colwell, R. K., Mao, C. X., and Chang, J.. 2004. Interpolating, Extrapolating, and Comparing Incidence-Based Species Accumulation Curves. Ecology 85:2717–2727.CrossRefGoogle Scholar

Cook, S. F., and Treganza, A. E.. 1950. The Quantitative Investigation of Indian Mounds with Special Reference to the Relation of the Physical Components to the Probable Material Culture. University of California Publications in American Archaeology and Ethnology 40:223–262.Google Scholar

Cooper, R. A., Maxwell, P. A., Crampton, J. S., Beau, A. G., Jones, C. M., and Marshall, B. A.. 2006. Completeness of the Fossil Record: Estimating Losses Due to Small Body Size. Geology 34:241–244.CrossRefGoogle Scholar

Crader, D. C. 1983. Recent Single-Carcass Bone Scatters and the Problem of “Butchery” Sites in the Archaeological Record. In Animals and Archaeology: I. Hunters and Their Prey, edited by Clutton-Brock, J. and Grigson, C., pp. 107–141. British Archaeological Reports, International Series 163. Oxford.Google Scholar

Crampton, J. S., Geu, A. G., Cooper, R. A., Jones, C. M., Marshall, B., and Maxwell, P. A.. 2003. Estimating the Rock Volume Bias in Paleobiodiversity Studies. Science 301:358–360.CrossRefGoogle ScholarPubMed

Cruz-Uribe, K., and Klein, R. G.. 1994. Chew Marks and Cut Marks on Animal Bones from the Kasteelberg B and Dune Field Midden Later Stone Age Sties, Western Cape Province, South Africa. Journal of Archaeological Science 21:35–49.CrossRefGoogle Scholar

Cutler, A. 1991. Nested Faunas and Extinction in Fragmented Habitats. Conservation Biology 5:496–505.CrossRefGoogle Scholar

Cutler, A. 1994. Nested Biotas and Biological Conservation: Metrics, Mechanisms, and Meaning of Nestedness. Landscape and Urban Planning 28:73–82.CrossRefGoogle Scholar

Damuth, J. 1982. Analysis of the Preservation of Community Structure in Assemblages of Fossil Mammals. Paleobiology 8:434–446.CrossRefGoogle Scholar

Damuth, J., and MacFadden, B. J. (editors). 1990. Body Size in Mammalian Paleobiology: Estimation and Biological Implications. Cambridge University Press, Cambridge, UK.Google Scholar

Darwent, C., and R. L. Lyman. 2002. Detecting the Postburial Fragmentation of Carpals, Tarsals, and Phalanges. In Advances in Forensic Taphonomy, edited by Haglund, W. D. and Sorg, M. H., pp. 355–377. CRC Press, Boca Raton, Florida.Google Scholar

Dean, R. M. 2001. Social Change and Hunting During the Pueblo III to Pueblo IV Transition, East-Central Arizona. Journal of Field Archaeology 28:271–285.CrossRefGoogle Scholar

Dean, R. M. 2005a. Site-Use Intensity, Cultural Modification of the Environment, and the Development of Agricultural Communities in Southern Arizona. American Antiquity 70:403–431.CrossRefGoogle Scholar

Dean, R. M. 2005b. Old Bones: The Effects of Curation and Exchange on the Interpretation of Artiodactyl Remains in Hohokam Sites. Kiva 70:255–272.CrossRefGoogle Scholar

Dechert, B. 1995. The Bone Remains from Hirbet-Ez Zeraqon. In Archaeozoology of the Near East II, edited by Buitenhuis, H. and Uerpmann, H.-P., pp. 79–87. Backhuys, Leiden, The Netherlands.Google Scholar

Dodson, P. 1973. The Significance of Small Bones in Paleoecological Interpretation. University of Wyoming Contributions in Geology 12:15–19.Google Scholar

Dodson, P., and Wexlar, D.. 1979. Taphonomic Investigations of Owl Pellets. Paleobiology 5:275–284.CrossRefGoogle Scholar

Domínguez-Rodrigo, M. 1997. Meat-Eating by Early Hominids at the FLK 22 Zinjanthropus Site, Olduvai Gorge (Tanzania): An Experimental Approach Using Cut-Mark Data. Journal of Human Evolution 33:669–690.CrossRefGoogle ScholarPubMed

Domínguez-Rodrigo, M. 1999a. Flesh Availability and Bone Modifications in Carcasses Consumed by Lions: Palaeoecological Relevance in Hominid Foraging Patterns. Palaeogeography, Palaeoclimatology, Palaeoecology 149:373–388.CrossRefGoogle Scholar

Domínguez-Rodrigo, M. 1999b. Distinguishing Between Apples and Oranges: The Application of Modern Cut-Mark Studies to the Plio-Pleistocene (A Reply to Monahan). Journal of Human Evolution 37:793–800.CrossRefGoogle Scholar

Domínguez-Rodrigo, M. 2002. Hunting and Scavenging by Early Humans: The State of the Debate. Journal of World Prehistory 16:1–54.CrossRefGoogle Scholar

Domínguez-Rodrigo, M. 2003a. Bone Surface Modifications, Power Scavenging and the “Display” Model at Early Archaeological Sites: A Critical Review. Journal of Human Evolution 45:411–416.CrossRefGoogle Scholar

Domínguez-Rodrigo, M. 2003b. On Cut Marks and Statistical Inferences: Methodological Comments on Lupo & O'Connell (2002). Journal of Archaeological Science 30:381–386.CrossRefGoogle Scholar

Domínguez-Rodrigo, M., and Barba, R.. 2006. New Estimates of Tooth Mark and Percussion Mark Frequencies at the FLK Zinj Site: The Carnivore–Hominid–Carnivore Hypothesis Falsified. Journal of Human Evolution 50:170–194.CrossRefGoogle ScholarPubMed

Domínguez-Rodrigo, M., and Pickering, T. R.. 2003. Early Hominid Hunting and Scavenging: A Zooarchaeological Review. Evolutionary Anthropology 12:275–282.CrossRefGoogle Scholar

Driver, J. C. 1992. Identification, Classification and Zooarchaeology. Circaea 9(1):35–47.Google Scholar

Ducos, P. 1968. L'Origine des Animaux Domestiques en Palestine. Publications de l'Institut de Préhistoire de l'Université de Bordeaux Mémoire 6.

Dunnell, R. C. 1967. Prehistory of Fishtrap Kentucky: Archaeological Interpretation in Marginal Areas. Doctoral dissertation, Department of Anthropology, Yale University, New Haven, Connecticut.Google Scholar

Dunnell, R. C. 1972. Prehistory of Fishtrap Kentucky. Yale University Publications in Anthropology No. 75. New Haven, Connecticut.Google Scholar

During, E. 1986. The Fauna of Alvastra: An Osteological Analysis of Animal Bones from a Neolithic Pile Dwelling. Ossa 12(Supplement 1):1–210.Google Scholar

Dyck, I., and Morlan, R. E.. 1995. The Sjovold Site: A River Crossing Campsite in the Northern Plains. Mercury Series, Archaeological Survey of Canada, Paper 151. Canadian Museum of Civilization, Hull, Quebec.CrossRefGoogle Scholar

Edgar, H. J. H., and Sciulli, P. W.. 2006. Comparative Human and Deer (Odocoileus virginianus) Taphonomy at the Richards Site, Ohio. International Journal of Osteoarchaeology 16:124–137.CrossRefGoogle Scholar

Efremov, I. A. 1940. Taphonomy: New Branch of Paleontology. Pan-American Geologist 74:81–93.Google Scholar

Egeland, C. P. 2003. Carcass Processing Intensity and Cutmark Creation: An Experimental Approach. Plains Anthropologist 48:39–51.CrossRefGoogle Scholar

Egi, N. 2001. Body Mass Estimates in Extinct Mammals from Limb Bone Dimensions: The Case of North American Hyaenodontids. Paleontology 44:497–528.CrossRefGoogle Scholar

Ellis, D. V. n.d. Untitled manuscript report on the 1984 Willamette Associates' investigations in the Meier site locality. Unpublished report on file, Department of Anthropology, Portland State University, Portland.

Emerson, T. E. 1978. A New Method for Calculating the Live Weight of the Northern White-tailed Deer from Osteoarchaeological Material. Midcontinental Journal of Archaeology 3:35–44.Google Scholar

Emerson, T. E. 1983. From Bones to Venison: Calculating the Edible Meat of a White-Tailed Deer. In Prairie Archaeology, edited by Gibbon, G. E., pp. 63–73. University of Minnesota Publications in Anthropology No. 3. Minneapolis.Google Scholar

Enloe, J. G. 2003a. Acquisition and Processing of Reindeer in the Paris Basin. In Zooarchaeological Insights into Magdalenian Lifeways, edited by Costamagno, S. and Laroulandie, V., pp. 23–31. British Archaeological Reports International Series 1144. Oxford.Google Scholar

Enloe, J. G. 2003b. Food Sharing Past and Present: Archaeological Evidence for Economic and Social Interactions. Before Farming: The Archaeology and Anthropology of Hunter-Gatherers 1:1–23.CrossRefGoogle Scholar

Enloe, J. G., and F. David. 1992. Food Sharing in the Paleolithic: Carcass Refitting at Pincevent. In Piecing Together the Past: Applications of Refitting Studies in Archaeology, edited by Hoffman, J. L. and Enloe, J. G., pp. 296–315. British Archaeological Reports International Series 578. Oxford.Google Scholar

Enloe, J. G., David, F., and Baryshnikov, G.. 2000. Hyenas and Hunters: Zooarchaeological Investigations at Prolom II Cave, Crimea. International Journal of Osteoarchaeology 10:310–324.3.0.CO;2-B>CrossRefGoogle Scholar

Errington, P. L. 1930. The Pellet Analysis Method of Raptor Food Habits Study. Condor 32:292–296.CrossRefGoogle Scholar

Everitt, B. S. 1977. The Analysis of Contingency Tables. Chapman and Hall, London.CrossRefGoogle Scholar

Ewen, C. R. 1986. Fur Trade Archaeology: A Study of Frontier Hierarchies. Historical Archaeology 20:15–28.CrossRefGoogle Scholar

Fagerstrom, J. A. 1964. Fossil Communities in Paleoecology: Their Recognition and Significance. Geological Society of America Bulletin 75:1197–1216.CrossRefGoogle Scholar

Faith, J. T., and Gordon, A. D.. 2007. Skeletal Element Abundances in Archaeofaunal Assemblages: Economic Utility, Sample Size, and Assessment of Carcass Transport Strategies. Journal of Archaeological Science 34:872–882.CrossRefGoogle Scholar

Fernandez-Jalvo, Y, and Andrews, P.. 1992. Small Mammal Taphonomy of Gran Dolina, Atapuerca (Burgos), Spain. Journal of Archaeological Science 19:407–428.CrossRefGoogle Scholar

Fieller, N. R. J., and Turner, A.. 1982. Number Estimation in Vertebrate Samples. Journal of Archaeological Science 9:49–62.CrossRefGoogle Scholar

Fisher, A. K. 1896. Food of the Barn Owl (Strix pratincola). Science 3:624–625.CrossRefGoogle Scholar

Fisher, J. W. Jr. 1995. Bone Surface Modifications in Zooarchaeology. Journal of Archaeological Method and Theory 2:7–68.CrossRefGoogle Scholar

Fisher, R. A., Corbet, A. S., and Williams, C. B.. 1943. The Relation Between the Number of Species and the Number of Individuals in a Random Sample of an Animal Population. Journal of Animal Ecology 12:42–58.CrossRefGoogle Scholar

Flannery, K. V. 1965. The Ecology of Early Food Production in Mesopotamia. Science 147:1247–1256.CrossRefGoogle ScholarPubMed

Flannery, K. V. 1969. Origins and Ecological Effects of Early Domestication in Iran and the Near East. In The Domestication and Exploitation of Plants and Animals, edited by Ucko, P. J. and Dimbleby, G. W., pp. 73–100. Aldine, Chicago.Google Scholar

Ford, J. A. 1962. A Quantitative Method for Deriving Cultural Chronology. Pan American Union, Technical Bulletin No. 1.

Francillon-Vieillot, H., V. de Buffrénil, J. Castanet, J. Géraudi, F. J. Meunier, J. Y. Sire, L. Zylberberg, and A. de Ricqlès. 1990. Microstructure and Mineralization of Vertebrate Skeletal Tissues. In Skeletal Biomineralization: Patterns, Processes, and Evolutionary Trends, edited by Carter, J. G., pp. 471–530. Van Nostrand Reinhold, New York.Google Scholar

Gamble, C. 1978. Optimising Information from Studies of Faunal Remains. In Sampling in Contemporary British Archaeology, edited by Cherry, J. F., Gamble, C., and Shennan, S., pp. 321–353. British Archaeological Reports British Series 50. Oxford.Google Scholar

Gangestad, S. W., and Thornhill, R.. 1998. The Analysis of Fluctuating Asymmetry Redux: The Robustness of Parametric Statistics. Animal Behavior 55:497–501.CrossRefGoogle ScholarPubMed

Gargett, R. H., and Vale, D.. 2005. There's Something Fishy Going on Around Here. Journal of Archaeological Science 32:647–652.CrossRefGoogle Scholar

Gaston, K. J. 1996. Species Richness: Measure and Measurement. In Biodiversity: A Biology of Numbers and Difference, edited by Gaston, K. J., pp. 77–113. Blackwell Scientific, Oxford.Google Scholar

Gautier, A. 1984. How Do I Count You, Let Me Count the Ways? Problems of Archaeozoological Quantification. In Animals and Archaeology 4: Husbandry in Europe, edited by Grigson, C. and Clutton-Brock, J., pp. 237–251. British Archaeological Reports, International Series 227. Oxford.Google Scholar

Gautier, A. 1993. Trace Fossils in Archaeozoology. Journal of Archaeological Science 20:511–523.CrossRefGoogle Scholar

Gifford-Gonzalez, D. P. 1989. Ethnographic Analogs for Interpreting Modified Bones: Some Cases from East Africa. In Bone Modification, edited by Bonnichsen, R. and Sorg, M. H., pp. 179–246. Center for the Study of the First Americans, Orono, Maine.Google Scholar

Gifford-Gonzalez, D. P. 1991. Bones Are Not Enough: Analogues, Knowledge, and Interpretive Strategies in Zooarchaeology. Journal of Anthropological Archaeology 10:215–254.CrossRefGoogle Scholar

Gilbert, A. S. 1979. Urban Taphonomy and Mammalian Remains from the Bronze Age of Godin Tepe, Western Iran. Doctoral dissertation, Columbia University, New York. University Microfilms, Ann Arbor.Google Scholar

Gilbert, A. S., and Singer, B. H.. 1982. Reassessing Zooarchaeological Quantification. World Archaeology 14:21–40.CrossRefGoogle Scholar

Gilbert, A. S., Singer, B. H., and Perkins, D. Jr. 1981. Quantification Experiments on Computer-Simulated Faunal Collections. Ossa 8:79–94.Google Scholar

Gilbert, B. M. 1969. Some Aspects of Diet and Butchering Techniques Among Prehistoric Indians in South Dakota. Plains Anthropologist 14:277–294.CrossRefGoogle Scholar

Gilinsky, N. L., and Bennington, J. B.. 1994. Estimating Numbers of Whole Individuals from Collections of Body Parts: A Taphonomic Limitation of the Paleontological Record. Paleobiology 20:245–258.CrossRefGoogle Scholar

Gobalet, K. W. 2001. A Critique of Faunal Analysis: Inconsistency Among Experts in Blind Tests. Journal of Archaeological Science 28:377–386.CrossRefGoogle Scholar

Gobalet, K. W. 2005. Comment on “Size Matters: 3-mm Sieves Do Not Increase Richness in a Fishbone Assemblage from Arrawarra I, An Aboriginal Australian Shell Midden on the Mid-North Coast of New South Wales, Australia” by Vale and Gargett. Journal of Archaeological Science 32:643–645.CrossRefGoogle Scholar

Gotelli, N. J., and Colwell, R. K.. 2001. Quantifying Biodiversity: Procedures and Pitfalls in the Measurement and Comparison of Species Richness. Ecology Letters 4:379–391.CrossRefGoogle Scholar

Graham, R. W. 1984. Paleoenvironmental Implications of the Quaternary Distribution of the Eastern Chipmunk (Tamias striatus) in Central Texas. Quaternary Research 21:111–114.CrossRefGoogle Scholar

Grayson, D. K. 1973. On the Methodology of Faunal Analysis. American Antiquity 39:432–439.CrossRefGoogle Scholar

Grayson, D. K. 1978a. Minimum Numbers and Sample Size in Vertebrate Faunal Analysis. American Antiquity 43:53–65.CrossRefGoogle Scholar

Grayson, D. K. 1978b. Reconstructing Mammalian Communities: A Discussion of Shotwell's Method of Paleoecological Analysis. Paleobiology 4:77–81.CrossRefGoogle Scholar

Grayson, D. K. 1979. On the Quantification of Vertebrate Archaeofaunas. In Advances in Archaeological Method and Theory, Vol. 2, edited by Schiffer, M. B., pp. 199–237. Academic Press, New York.Google Scholar

Grayson, D. K. 1981a. A Critical View of the Use of Archaeological Vertebrates in Paleoenvironmental Reconstruction. Journal of Ethnobiology 1:28–38.Google Scholar

Grayson, D. K. 1981b. The Effects of Sample Size on Some Derived Measures in Vertebrate Faunal Analysis. Journal of Archaeological Science 8:77–88.CrossRefGoogle Scholar

Grayson, D. K. 1984. Quantitative Zooarchaeology: Topics in the Analysis of Archaeological Faunas. Academic Press, Orlando, Florida.Google Scholar

Grayson, D. K. 1988. Danger Cave, Last Supper Cave, and Hanging Rock Shelter: The Faunas. American Museum of Natural History Anthropological Papers Vol. 66, No. 1. New York.

Grayson, D. K. 1991a. Alpine Faunas from the White Mountains, California: Adaptive Change in the Late Prehistoric Great Basin?Journal of Archaeological Science 18:483–506.CrossRefGoogle Scholar

Grayson, D. K. 1991b. The Small Mammals of Gatecliff Shelter: Did People Make a Difference? In Beamers, Bobwhites, and Blue-Points: Tributes to the Career of Paul W. Parmalee, edited by Purdue, J. R., Klippel, W. E., and Styles, B. W., pp. 99–109. Illinois State Museum Scientific Papers 23. Springfield.Google Scholar

Grayson, D. K. 1998. Moisture History and Small Mammal Community Richness During the Latest Pleistocene and Holocene, Northern Bonneville Basin, Utah. Quaternary Research 49:330–334.CrossRefGoogle Scholar

Grayson, D. K. 2000. The Homestead Cave Mammals. In Late Quaternary Paleoecology in the Great Basin, edited by D. B. Madsen, pp. 67–89. Utah Geological Survey Bulletin 130. Salt Lake City.Google Scholar

Grayson, D. K., and Delpech, F.. 1994. The Evidence for Middle Paleolithic Scavenging from Couche VIII, Grotte Valley (Dordogne, France). Journal of Archaeological Science 21:359–375.CrossRefGoogle Scholar

Grayson, D. K., and Delpech, F.. 1998. Changing Diet Breadth in the Early Upper Paleolithic of Southwestern France. Journal of Archaeological Science 25:1119–1129.CrossRefGoogle Scholar

Grayson, D. K., Delpech, F., Rigaud, J.-P., and Simek, J. F.. 2001. Explaining the Development of Dietary Dominance by a Single Ungulate Taxon at Grotte XVI, Dordogne, France. Journal of Archaeological Science 28:115–125.CrossRefGoogle Scholar

Grayson, D. K., and Frey, C. J.. 2004. Measuring Skeletal Part Representation in Archaeological Faunas. Journal of Taphonomy 2:27–42.Google Scholar

Greenfield, H. J. 1999. The Origins of Metallurgy: Distinguishing Stone from Metal Cut-Marks on Bones from Archaeological Sites. Journal of Archaeological Science 26:797–808.CrossRefGoogle Scholar

Guilday, J. E. 1970. Animal Remains from Archeological Excavations at Fort Ligonier. Annals of the Carnegie Museum 42:177–186.Google Scholar

Guilday, J. E., Parmalee, P. W., and Tanner, D. P.. 1962. Aboriginal Butchering Techniques at the Eschelman Site (36LA12), Lancaster County, Pennsylvania. Pennsylvania Archaeologist 32(2):59–83.Google Scholar

Guthrie, R. D. 1968. Paleoecology of the Large-Mammal Community in Interior Alaska During the Late Quaternary. American Midland Naturalist 79:346–363.CrossRefGoogle Scholar

Guthrie, R. D. 1982. Mammals of the Mammoth Steppe as Paleoenvironmental Indicators. In Paleoecology of Beringia, edited by Hopkins, D. M., Matthews, J. V. Jr., Schweger, C. E., and Young, S. B., pp. 307–326. Academic Press, New York.Google Scholar

Guthrie, R. D. 1984a. Alaskan Megabucks, Megabulls, and Megagrams: The Issue of Pleistocene Gigantism. In Contributions in Quaternary Vertebrate Paleontology: A Volume in Memorial to John E. Guilday, edited by Genoways, H. H. and Dawson, M. R., pp. 482–510. Carnegie Museum of Natural History Special Publication No. 8. Pittsburgh, Pennsylvania.Google Scholar

Guthrie, R. D. 1984b. Mosaics, Allelochemics, and Nutrients: An Ecological Theory of Late Pleistocene Megafaunal Extinctions. In Quaternary Extinctions: A Prehistoric Revolution, edited by Martin, P. S. and Klein, R. G., pp. 259–298. University of Arizona Press, Tucson.Google Scholar

Hadly, E. A. 1999. Fidelity of Terrestrial Vertebrate Fossils to a Modern Ecosystem. Palaeogeography, Palaeoclimatology, Palaeoecology 149:389–409.CrossRefGoogle Scholar

Hardesty, D. L. 1975. The Niche Concept: Suggestions for Its Use in Human Ecology. Human Ecology 3:71–85.CrossRefGoogle Scholar

Haynes, G. 1980. Evidence of Carnivore Gnawing on Pleistocene and Recent Mammalian Bones. Paleobiology 6:341–351.CrossRefGoogle Scholar

Haynes, G. 1988. Mass Deaths and Serial Predation: Comparative Taphonomic Studies of Modern Large Mammal Death Sites. Journal of Archaeological Science 15:119–135.CrossRefGoogle Scholar

Haynes, G. 2002. Archeological Methods for Reconstructing Human Predation on Terrestrial Vertebrates. In The Fossil Record of Predation, edited by Kowalewski, M. and Kelley, P. H., pp. 51–67. Paleontological Society Paper No. 8. New Haven, Connecticut.Google Scholar

Henderson, R. A., and Heron, M. L.. 1977. A Probabilistic Method of Paleobiogeographic Analysis. Lethaia 10:1–15.CrossRefGoogle Scholar

Hesse, B. 1982. Bias in the Zooarchaeological Record: Suggestions for Interpretation of Bone Counts in Faunal Samples from the Plains. In Plains Indian Studies: A Collection of Essays in Honor of John C. Ewers and Waldo R. Wedel, edited by Ubelaker, D. H. and Viola, H. J., pp. 157–172. Smithsonian Contributions to Anthropology No. 30. Washington, DC.Google Scholar

Hesse, B., and Wapnish, P.. 1985. Animal Bone Archeology: From Objectives to Analysis. Manuals on Archeology 5. Taraxacum, Washington, DC.Google Scholar

Hibbard, C. W. 1949. Techniques of Collecting Microvertebrate Fossils. University of Michigan Contributions from the Museum of Paleontology 7(2):7–19.Google Scholar

Higham, C. F. W. 1968. Faunal Sampling and Economic Prehistory. Zeitschrift fur Saugertierkunde 33:297–305.Google Scholar

Hoffman, A. 1979. Community Paleoecology as an Epiphenomenal Science. Paleobiology 5:357–379.CrossRefGoogle Scholar

Hoffman, R. 1988. The Contribution of Raptorial Birds to Patterning in Small Mammal Assemblages. Paleobiology 14:81–90.CrossRefGoogle Scholar

Holland, S. 2005. Analytical Rarefaction, version 1.3. http://www.uga.edu/~strata/software/software.html. Accessed Nov. 15, 2006.

Holtzman, R. C. 1979. Maximum Likelihood Estimation of Fossil Assemblage Composition. Paleobiology 5:77–90.CrossRefGoogle Scholar

Hopkins, H. L., and Kennedy, M. L.. 2004. An Assessment of Indices of Relative and Absolute Abundance for Monitoring Populations of Small Mammals. Wildlife Society Bulletin 32:1289–1296.CrossRefGoogle Scholar

Horton, D. R. 1984. Minimum Numbers: A Consideration. Journal of Archaeological Science 11:255–271.CrossRefGoogle Scholar

Howard, H. 1930. A Census of the Pleistocene Birds of Rancho La Brea from the Collections of the Los Angeles Museum. Condor 32:81–88.CrossRefGoogle Scholar

Hudson, J. 1990. Advancing Methods in Zooarchaeology: An Ethnoarchaeological Study Among the Aka Pygmies. Ph.D. dissertation, Department of Anthropology, University of California, Santa Barbara.Google Scholar

Hudson, R. J., J. C. Haigh, and A. B. Bubenik. 2002. Physical and Physiological Adaptations. In North American Elk: Ecology and Management, edited by Toweill, D. E. and Thomas, J. W., pp. 199–257. Smithsonian Institution Press, Washington, DC.Google Scholar

Huelsbeck, D. R. 1989. Zooarchaeological Measures Revisited. Historical Archaeology 23:113–117.CrossRefGoogle Scholar

Hurlbert, S. H. 1971. The Nonconcept of Species Diversity: A Critique and Alternative Parameters. Ecology 52:577–586.CrossRefGoogle ScholarPubMed

Jackson, H. E. 1989. The Trouble with Transformations: Effects of Sample Size and Sample Composition on Meat Weight Estimates Based on Skeletal Mass Allometry. Journal of Archaeological Science 16:601–610.CrossRefGoogle Scholar

Jackson, H. E., and S. L. Scott. 2002. Woodland Faunal Exploitation in the Midsouth. In The Woodland Southeast, edited by Anderson, D. G. and Mainfort, R. C. Jr., pp. 461–482. University of Alabama Press, Tuscaloosa.Google Scholar

Jackson, J. B. C., and Johnson, K. G.. 2001. Measuring Past Biodiversity. Science 293:2401–2404.CrossRefGoogle ScholarPubMed

Jacobson, J. A. 2003. Identification of mule deer (Odocoileus hemionus) and white-tailed deer (Odocoileus virginianus) postcranial remains as a means of determining human subsistence strategies. Plains Anthropologist 48:287–297.CrossRefGoogle Scholar

Jacobson, J. A. 2004. Determining human ecology on the Plains through the identification of mule deer (Odocoileus hemionus) and white-tailed deer (Odocoileus virginianus) postcranial remains. Unpublished Ph.D. dissertation, University of Tennessee, Knoxville, Tennessee.

James, S. R. 1990. Monitoring Archaeofaunal Changes During the Transition to Agriculture in the American Southwest. Kiva 56:25–43.CrossRefGoogle Scholar

James, S. R. 1997. Methodological Issues Concerning Screen Size Recovery Rates and Their Effects on Archaeofaunal Interpretations. Journal of Archaeological Science 24:385–397.CrossRefGoogle Scholar

Jamniczky, H. A., Brinkman, D. B., and Russell, A. P.. 2003. Vertebrate Microsite Sampling: How Much is Enough?Journal of Vertebrate Paleontology 23:725–734.CrossRefGoogle Scholar

Janson, S., and Vegelius, J.. 1981. Measures of Ecological Association. Oecologia 49:371–376.CrossRefGoogle ScholarPubMed

Johnson, E. 1989. Human Modified Bones from Early Southern Plains Sites. In Bone Modification, edited by Bonnichsen, R. and Sorg, M. H., pp. 431–471. University of Maine Center for the Study of the First Americans, Orono.Google Scholar

Johnson, R. E., and Cassidy, K. M.. 1997. Terrestrial Mammals of Washington State: Location Data and Predicted Distributions. Vol. 3. Washington State Gap Analysis Project Final Report, Washington Cooperative Fish and Wildlife Research Unit, University of Washington, Seattle.Google Scholar

Jones, E. L. 2004. Dietary Evenness, Prey Choice, and Human–Environment Interactions. Journal of Archaeological Science 31:307–317.CrossRefGoogle Scholar

Kadane, J. B. 1988. Possible Statistical Contributions to Paleoethnobotany. In Current Paleoethnobotany, edited by Hastorf, C. A. and Popper, V. S., pp. 206–214. University of Chicago Press, Chicago.Google Scholar

Kehoe, T. F., and Kehoe, A. B.. 1960. Observations on the Butchering Technique at a Prehistoric Bison-Kill in Montana. American Antiquity 25:421–423.CrossRefGoogle Scholar

Kent, S. 1981. The Dog: An Archaeologist's Best Friend or Worst Enemy – The Spatial Distribution of Faunal Remains. Journal of Field Archaeology 8:367–372.Google Scholar

Kerrich, J. E., and Clarke, D. L.. 1967. Notes on the Possible Misuse and Errors of Cumulative Percentage Frequency Graphs for the Comparison of Prehistoric Artefact Assemblages. Proceedings of the Prehistoric Society 33:57–69.CrossRefGoogle Scholar

Kidwell, S. M. 2001. Preservation of Species Abundance in Marine Death Assemblages. Science 294:1091–1094.CrossRefGoogle ScholarPubMed

Kidwell, S. M. 2002. Time-Averaged Molluscan Death Assemblages: Palimpsests of Richness, Snapshots of Abundance. Geology 30:803–806.2.0.CO;2>CrossRefGoogle Scholar

Kintigh, K. W. 1984. Measuring Archaeological Diversity by Comparison with Simulated Assemblages. American Antiquity 49:44–54.CrossRefGoogle Scholar

Klein, R. G. 1978. The Fauna and Overall Interpretation of the “Cutting 10” Acheulian Site at Elandsfontein (Hopefield), Southwestern Cape Province, South Africa. Quaternary Research 10:69–83.CrossRefGoogle Scholar

Klein, R. G. 1980. The Interpretation of Mammalian Faunas from Stone-Age Archeological Sites, with Special Reference to Sites in the Southern Cape Province, South Africa. In Fossils in the Making, edited by Behrensmeyer, A. K. and Hill, A. P., pp. 223–246. University of Chicago Press, Chicago.Google Scholar

Klein, R. G. 1989. Why Does Skeletal Part Representation Differ Between Smaller and Larger Bovids at Klasies River Mouth and Other Archeological Sites?Journal of Archaeological Science 16:363–381.CrossRefGoogle Scholar

Klein, R. G., and Cruz-Uribe, K.. 1984. The Analysis of Animal Bones from Archeological Sites. University of Chicago Press, Chicago.Google Scholar

Klein, R. G., and Cruz-Uribe, K.. 1991. The Bovids from Elandsfontein, South Africa, and Their Implications for the Age, Palaeoenvironment, and Origins of the Site. African Archaeological Review 9:21–79.CrossRefGoogle Scholar

Klein, R. G., and Cruz-Uribe, K.. 1994. The Paleolithic Mammalian Fauna from the 1910−14 Excavations at El Castillo Cave (Cantabria). Museo y Centro de Investigación de Altamira, Monografias 17:141–158.Google Scholar

Klippel, W. E., Snyder, L. M., and Parmalee, P. W.. 1987. Taphonomy and Archaeologically Recovered Mammal Bone from Southeast Missouri. Journal of Ethnobiology 7:155–169.Google Scholar

Koch, C. F. 1987. Prediction of Sample Size Effects on the Measured Temporal and Geographic Distribution Patterns of Species. Paleobiology 13:100–107.CrossRefGoogle Scholar

Kooyman, B. 2004. Identification of Marrow Extraction in Zooarchaeological Assemblages Based on Fracture Patterns. In Archaeology on the Edge: New Perspectives from the Northern Plains, edited by Kooyman, B. and Kelley, J. H., pp. 187–209. Canadian Archaeological Association Occasional Paper No. 4. Calgary, Alberta.Google Scholar

Korth, W. W. 1979. Taphonomy of Microvertebrate Fossil Assemblages. Annals of the Carnegie Museum 48:235–285.Google Scholar

Kowalewski, M. 2002. The Fossil Record of Predation: An Overview of Analytical Methods. In The Fossil Record of Predation, edited by Kowalewski, M. and Kelley, P. H., pp. 3–42. Paleontological Society Paper No. 8. New Haven, Connecticut.Google Scholar

Kowalewski, M., Carroll, M., Casazza, L., Gupta, N. S., Hannisdal, B., Hendy, A., Krause, R. A. Jr., LaBarbera, M., Lazo, D. G., Messina, C., Puchalski, S., Rothfus, T. A., Sälgeback, J., Stempien, J., Terry, R. C., and Tomasovych, A.. 2003. Quantitative Fidelity of Brachiopod–Mollusk Assemblages from Modern Subtidal Environments of San Juan Islands, USA. Journal of Taphonomy 1:43–66.Google Scholar

Kowalewski, M., Goodfriend, G. A., and Flessa, K. W.. 1998. High-Resolution Estimates of Temporal Mixing Within Shell Beds: The Evils and Virtues of Time-Averaging. Paleobiology 24:287–304.Google Scholar

Kowalewski, M., and Hoffmeister, A. P.. 2003. Sieves and Fossils: Effects of Mesh Size on Paleontological Patterns. Palaios 18:460–469.2.0.CO;2>CrossRefGoogle Scholar

Krantz, G. S. 1968. A New Method of Counting Mammal Bones. American Journal of Archaeology 72:286–288.CrossRefGoogle Scholar

Kranz, P. M. 1977. A Model for Estimating Standing Crop in Ancient Communities. Paleobiology 3:415–421.CrossRefGoogle Scholar

Krumbein, W. C. 1965. Sampling in Paleontology. In Handbook of Paleontological Techniques, edited by Kummel, B. and Raup, D., pp. 137–150. W. H. Freeman & Co., San Francisco.Google Scholar

Kuehne, W. G. 1971. Collecting Vertebrate Fossils by the Henkel Process. Curator 14:175–179.CrossRefGoogle Scholar

Kusmer, K. D. 1990. Taphonomy of Owl Pellet Deposition. Journal of Paleontology 64:629–637.CrossRefGoogle Scholar

Lande, R. 1996. Statistics and Partitioning of Species Diversity, and Similarity Among Multiple Communities. Oikos 76:5–13.CrossRefGoogle Scholar

Landon, D. B. 1996. Feeding Colonial Boston: A Zooarchaeological Study. Historical Archaeology 30:1–153.Google Scholar

Lapham, H. A. 2005. Hunting for Hides: Deerskins, Status, and Cultural Change in the Protohistoric Appalachians. University of Alabama Press, Tuscaloosa.Google Scholar

Lawrence, B. 1973. Problems in the Inter-Site Comparison of Faunal Remains. In Domestikationsforschung und Geschichte der Haustiere, edited by Matolcsi, J., pp. 397–402. Akademiai Kiado, Budapest.Google Scholar

Lawson, J. D. 1999. Autecology and Communities. In Paleocommunities: A Case Study from the Silurian and Lower Devonian, edited by Boucot, A. J. and Lawson, J. D., pp. 7–12. Cambridge University Press, Cambridge, UK.Google Scholar

Leonard, R. D. 1987. Incremental Sampling in Artifact Analysis. Journal of Field Archaeology 14:498–500.CrossRefGoogle Scholar

Leonard, R. D. 1989. Anasazi Faunal Exploitation: Prehistoric Subsistence on Northern Black Mesa, Arizona. Center for Archaeological Investigations Occasional Paper No. 13. Southern Illinois University, Carbondale.Google Scholar

Leonard, R. D. 1997. The Sample Size–Richness Relation: A Comment on Plog and Hegmon. American Antiquity 62:713–716.CrossRefGoogle Scholar

Leonardi, G., and Dell'Arte, G. L.. 2006. Food Habits of the Barn Owl (Tyto alba) in a Steppe Area of Tunisia. Journal of Arid Environments 65:677–681.CrossRefGoogle Scholar

Lepofsky, D., and Lertzman, K.. 2005. More on Sampling for Richness and Diversity in Archaeobiological Assemblages. Journal of Ethnobiology 25:175–188.CrossRefGoogle Scholar

Lie, R. W. 1980. Minimum Number of Individuals from Osteological Samples. Norwegian Archaeological Review 13:24–30.CrossRefGoogle Scholar

Lie, R. W. 1983. Reply (to Wild and Nichol). Norwegian Archaeological Review 16:49.Google Scholar

Livingston, S. D. 1984. Faunal Analysis. In Archaeological Investigations at Sites 45-OK-2 and 45-OK-2A, Chief Joseph Dam Project, Washington, edited by Campbell, S. K., pp. 191–205. Office of Public Archaeology, Institute for Environmental Studies, University of Washington, Seattle. Report to the U.S. Army Corps of Engineers, Seattle District.Google Scholar

Loreau, M. 2000. Are Communities Saturated? On the Relationship Between α, β and γ Diversity. Ecology Letters 3:73–76.CrossRefGoogle Scholar

Lorrain, D. 1968. Analysis of the Bison Bones from Bonfire Shelter. In Bonfire Shelter: A Stratified Bison Kill Site, Val Verde County, Texas, edited by Dibble, D. S. and Lorrain, D., pp. 78–132. Texas Memorial Museum, Miscellaneous Papers No. 1.Google Scholar

Lubinski, P. M. 2000. Of Bison and Lesser Mammals: Prehistoric Hunting Patterns in the Wyoming Basin. In Intermountain Archaeology, edited by Madsen, D. B. and Metcalf, M. D., pp. 176–188. University of Utah Anthropological Papers No. 122. Salt Lake City.Google Scholar

Lundelius, E. Jr. 1964. The Use of Vertebrates in Paleoecological Reconstructions. Fort Burgwin Research Center Publication 3:26–31.Google Scholar

Lupo, K. D., and O'Connell, J. F.. 2002. Cut and Tooth Mark Distributions on Large Animal Bones: Ethnoarchaeological Data from the Hadza and Their Implications for Current Ideas About Early Human Carnivory. Journal of Archaeological Science 29:85–109.CrossRefGoogle Scholar

Lyman, R. L. 1977. Analysis of Historic Faunal Remains. Historical Archaeology 11:67–73.CrossRefGoogle Scholar

Lyman, R. L. 1979. Available Meat from Faunal Remains: A Consideration of Techniques. American Antiquity 44:536–546.CrossRefGoogle Scholar

Lyman, R. L. 1984. Bone Density and Differential Survivorship of Fossil Classes. Journal of Anthropological Archaeology 3:259–299.CrossRefGoogle Scholar

Lyman, R. L. 1987a. Archaeofaunas and Butchery Studies: A Taphonomic Perspective. Advances in Archaeological Method and Theory 10:249–337.CrossRefGoogle Scholar

Lyman, R. L. 1987b. On Zooarchaeological Measures of Socioeconomic Position and Cost-Efficient Meat Purchases. Historical Archaeology 21:58–66.CrossRefGoogle Scholar

Lyman, R. L. 1988. Zooarchaeology of 45DO189. In Archaeological Investigations at River Mile 590: The Excavations at 45DO189, edited by Galm, J. R. and Lyman, R. L., pp. 97–141. Eastern Washington University Reports in Archaeology and History 100–61. Cheney.Google Scholar

Lyman, R. L. 1989. Taphonomy of Cervids Killed by the 18 May 1980 Volcanic Eruption of Mount St. Helens, Washington, U.S.A. In Bone Modification, edited by Bonnichsen, R. and Sorg, M., pp. 149–167. University of Maine Center for the Study of Early Man, Orono.Google Scholar

Lyman, R. L. 1991. Prehistory of the Oregon Coast: The Effects of Excavation Strategies and Assemblage Size on Archaeological Inquiry. Academic Press, San Diego.Google Scholar

Lyman, R. L. 1992a. Review of “The Economic Prehistory of Namu” by Aubrey Cannon. Canadian Journal of Archaeology 16:134–136.Google Scholar

Lyman, R. L. 1992b. Prehistoric Seal and Sea-Lion Butchering on the Southern Northwest Coast. American Antiquity 57:246–261.CrossRefGoogle Scholar

Lyman, R. L. 1994a. Quantitative Units and Terminology in Zooarchaeology. American Antiquity 59:36–71.CrossRefGoogle Scholar

Lyman, R. L. 1994b. Relative Abundances of Skeletal Specimens and Taphonomic Analysis of Vertebrate Remains. Palaios 9:288–298.CrossRefGoogle Scholar

Lyman, R. L. 1994c. Vertebrate Taphonomy. Cambridge University Press, Cambridge, UK.CrossRefGoogle Scholar

Lyman, R. L. 1995a. Determining When Rare (Zoo)Archaeological Phenomena Are Truly Absent. Journal of Archaeological Method and Theory 2:369–424.CrossRefGoogle Scholar

Lyman, R. L. 1995b. A Study of Variation in the Prehistoric Butchery of Large Artiodactyls. In Ancient Peoples and Landscapes, edited by Johnson, E., pp. 233–253. Museum of Texas Tech University, Lubbock.Google Scholar

Lyman, R. L. 2003a. Pinniped Behavior, Foraging Theory, and the Depression of Metapopulations and Nondepression of a Local Population on the Southern Northwest Coast of North America. Journal of Anthropological Archaeology 22:376–388.CrossRefGoogle Scholar

Lyman, R. L. 2003b. The Influence of Time Averaging and Space Averaging on the Application of Foraging Theory in Zooarchaeology. Journal of Archaeological Science 30:595–610.CrossRefGoogle Scholar

Lyman, R. L. 2004a. Prehistoric Biogeography, Abundance, and Phenotypic Plasticity of Elk (Cervus elaphus) in Washington State. In Zooarchaeology and Conservation Biology, edited by Lyman, R. L. and Cannon, K. P., pp. 136–163. University of Utah Press, Salt Lake City.Google Scholar

Lyman, R. L. 2004b. Late-Quaternary Diminution and Abundance of Prehistoric Bison (Bison sp.) in Eastern Washington State, U.S.A. Quaternary Research 62:76–85.CrossRefGoogle Scholar

Lyman, R. L. 2004c. The Concept of Equifinality in Taphonomy. Journal of Taphonomy 2:15–26.Google Scholar

Lyman, R. L. 2004d. Aboriginal Overkill in the Intermountain West of North America: Zooarchaeological Tests and Implications. Human Nature 15:169–208.CrossRefGoogle Scholar

Lyman, R. L. 2005a. Zooarchaeology. In Handbook of Archaeological Methods, edited by Chippendale, C. and Maschner, H. D. G., pp. 835–870. Altimira Press, Walnut Creek, California.Google Scholar

Lyman, R. L. 2005b. Analyzing Cut Marks: Lessons from Artiodactyl Remains in the Northwestern United States. Journal of Archaeological Science 32:1722–1732.CrossRefGoogle Scholar

Lyman, R. L. 2006a. Identifying Bilateral Pairs of Deer (Odocoileus sp.) Bones: How Symmetrical is Symmetrical Enough?Journal of Archaeological Science 33:1256–1265.CrossRefGoogle Scholar

Lyman, R. L. 2006b. Late Prehistoric and Early Historic Abundance of Columbian White-Tailed Deer, Portland Basin, Washington and Oregon, U.S.A. Journal of Wildlife Management 70:278–282.CrossRefGoogle Scholar

Lyman, R. L. 2006c. Archaeological Evidence of Anthropogenically Induced Twentieth-Century Diminution of North American Wapiti (Cervus elaphus). American Midland Naturalist 156:88–98.CrossRefGoogle Scholar

Lyman, R. L., and Ames, K. A.. 2004. Sampling to Redundancy in Zooarchaeology: Lessons from the Portland Basin, Northwestern Oregon and Southwestern Washington. Journal of Ethnobiology 24:329–346.Google Scholar

Lyman, R. L., and Ames, K. A.. 2007. On the Use of Species-Area Curves to Detect the Effects of Sample Size. Journal of Archaeological Science 34: 1985–1990.CrossRefGoogle Scholar

Lyman, R. L., and Fox, G. L.. 1989. A Critical Evaluation of Bone Weathering as an Indication of Bone Assemblage Formation. Journal of Archaeological Science 16:293–317.CrossRefGoogle Scholar

Lyman, R. L., Harpole, J. L., Darwent, C., and Church, R.. 2002. Prehistoric Occurrence of Pinnipeds in the Lower Columbia River. Northwestern Naturalist 83:1–6.CrossRefGoogle Scholar

Lyman, R. L., and Lyman, R. J.. 2003. Lessons from Temporal Variation in the Mammalian Faunas from Two Collections of Owl Pellets in Columbia County, Washington. International Journal of Osteoarchaeology 13:150–156.CrossRefGoogle Scholar

Lyman, R. L., and O'Brien, M. J.. 1987. Plow-Zone Zooarchaeology: Fragmentation and Identifiability. Journal of Field Archaeology 14:493–498.CrossRefGoogle Scholar

Lyman, R. L., and O'Brien, M. J.. 1999. Americanist Stratigraphic Excavation and the Measurement of Culture Change. Journal of Archaeological Method and Theory 6:55–108.CrossRefGoogle Scholar

Lyman, R. L., and O'Brien, M. J.. 2005. Within-Taxon Morphological Diversity as a Paleoenvironmental Indicator: Late-Quaternary Neotoma in the Bonneville Basin, Northwestern Utah. Quaternary Research 63:274–282.CrossRefGoogle Scholar

Lyman, R. L., Power, E., and Lyman, R. J.. 2001. Ontogeny of Deer Mice (Peromyscus maniculatus) and Montane Voles (Microtus montanus) as Owl Prey. American Midland Naturalist 146:72–79.CrossRefGoogle Scholar

Lyman, R. L., Power, E., and Lyman, R. J.. 2003. Quantification and Sampling of Faunal Remains in Owl Pellets. Journal of Taphonomy 1:3–14.Google Scholar

Lyman, R. L., and Zehr, J.. 2003. Archaeological Evidence of Mountain Beaver (Aplodontia rufa) Mandibles as Chisels and Engravers on the Northwest Coast. Journal of Northwest Anthropology 37:89–100.Google Scholar

MacKenzie, D. I. 2005. What are the Issues with Presence–Absence Data for Wildlife Managers?Journal of Wildlife Management 69:849–860.CrossRefGoogle Scholar

Magurran, A. E. 1988. Ecological Diversity and Its Measurement. Princeton University Press, Princeton.CrossRefGoogle Scholar

Maltby, J. M. 1985. Assessing Variation in Iron Age and Roman Butchery Practices: The Need for Quantification. In Paleobiological Investigations: Research Design, Methods and Data Analysis, edited by Fieller, N. R. J., Gilbertson, D. D., and Ralph, N. G. A., pp. 19–30. British Archaeological Reports International Series 266. Oxford.Google Scholar

Marean, C. W. 1992. Hunter to Herder: Large Mammal Remains from the Hunter-Gatherer Occupation at Enkapune Ya Muto Rockshelter, Central Rift, Kenya. The African Archaeological Review 10:65–127.CrossRefGoogle Scholar

Marean, C. W. 1995. Of Taphonomy and Zooarcheology. Evolutionary Anthropology 4:64–72.CrossRefGoogle Scholar

Marean, C. W., Abe, Y., Frey, C. J., and Randall, R. C.. 2000. Zooarchaeological and Taphonomic Analysis of the Die Kelders Cave 1 Layers 10 and 11 Middle Stone Age Larger Mammal Fauna. Journal of Human Evolution 38:197–233.CrossRefGoogle ScholarPubMed

Marean, C. W., Abe, Y., Nilssen, P., and Stone, E.. 2001. Estimating the Minimum Number of Skeletal Elements (MNE) in Zooarchaeology: A Review and A New Image-Analysis GIS Approach. American Antiquity 66:333–348.CrossRefGoogle Scholar

Marean, C. W., Domínguez-Rodrigo, M., and Pickering, T. R.. 2004. Skeletal Element Equifinality in Zooarchaeology Begins with Method: The Evolution and Current Status of the “Shaft Critique.” Journal of Taphonomy 2:69–98.Google Scholar

Marean, C. W., and Ehrhardt, C. L.. 1995. Paleoanthropological and Paleoecological Implications of the Taphonomy of a Sabertooth's Den. Journal of Human Evolution 29:515–547.CrossRefGoogle Scholar

Marean, C. W., and Frey, C. J.. 1997. Animal Bones from Caves to Cities: Reverse Utility Curves as Methodological Artifacts. American Antiquity 62:698–711.CrossRefGoogle Scholar

Marean, C. W., and Kim, S. Y.. 1998. Mousterian Large-Mammal Remains from Kobeh Cave: Behavioral Implications for Neanderthals and Early Modern Humans. Current Anthropology 39:S79–S113.CrossRefGoogle Scholar

Marean, C. W., and Spencer, L. M.. 1991. Impact of Carnivore Ravaging on Zooarchaeological Measures of Element Abundance. American Antiquity 56:645–658.CrossRefGoogle Scholar

Marshall, F., and Pilgram, T.. 1991. Meat versus Within-Bone Nutrients: Another Look at the Meaning of Body-Part Representation in Archaeological Sites. Journal of Archaeological Science 18:149–163.CrossRefGoogle Scholar

Marshall, F., and Pilgram, T.. 1993. NISP vs. MNI in Quantification of Body-Part Representation. American Antiquity 58:261–269.CrossRefGoogle Scholar

Marti, C. D. 1987. Raptor Food Habits Studies. In Raptor Management Techniques Manual, edited by Pendleton, B. A. G., Millsap, B. A., Cline, K. W., and Bird, D. M., pp. 67–80. National Wildlife Federation, Washington, DC.Google Scholar

Matthews, T. 2002. South African Micromammals and Predators: Some Comparative Results. Archaeometry 44:363–370.CrossRefGoogle Scholar

Mayhew, D. F. 1977. Avian Predators as Accumulators of Fossil Mammal Material. Boreas 6:25–31.CrossRefGoogle Scholar

McCartney, P. H., and Glass, M. F.. 1990. Simulation Models and the Interpretation of Archaeological Diversity. American Antiquity 55:521–536.CrossRefGoogle Scholar

McClure, S. B. 2004. Small Mammal Procurement in Coastal Contexts: A California Perspective. Journal of California and Great Basin Anthropology 24:207–232.Google Scholar

McKenna, M. C. 1962. Collecting Small Fossils by Washing and Screening. Curator 5:221–235.CrossRefGoogle Scholar

McMahon, T. A. 1975. Allometry and Biomechanics: Limb Bones in Adult Ungulates. American Naturalist 109:547–563.CrossRefGoogle Scholar

McMeekan, C. P. 1940. Growth and Development in the Pig, with Special Reference to Carcass Quality Characters, Part I. Journal of Agricultural Science 30:276–343.CrossRefGoogle Scholar

Mendoza, M., Janis, C. M., and Palmqvist, P.. 2006. Estimating the Body Mass of Extinct Ungulates: A Study on the Use of Multiple Regression. Journal of Zoology 270:90–101.Google Scholar

Miller, A. I., and Foote, M.. 1996. Calibrating the Ordovician Radiation of Marine Life: Implications for Phanerozoic Diversity Trends. Paleobiology 22:304–309.CrossRefGoogle ScholarPubMed

Miller, G. R., and Gill, A. L.. 1990. Zooarchaeology at Pirincay, a Formative Period Site in Highland Ecuador. Journal of Field Archaeology 17:49–68.Google Scholar

Milo, R. G. 1998. Evidence for Hominid Predation at Klasies River Mouth, South Africa, and Its Implications for the Behaviour of Early Modern Humans. Journal of Archaeological Science 25:99–133.CrossRefGoogle Scholar

Mollhagen, T. R., Wiley, R. W., and Packard, R. L.. 1972. Prey Remains in Golden Eagle Nests: Texas and New Mexico. Journal of Wildlife Management 36:784–792.CrossRefGoogle Scholar

Monahan, C. M. 1999. Comparing Apples and Oranges in the Plio-Pleistocene: Methodological Comments on “Meat-Eating by Early Hominids at the FLK 22 Zinjanthropus Site, Olduvai Gorge (Tanzania): An Experimental Approach Using Cut-Mark Data.” Journal of Human Evolution 37:789–792.CrossRefGoogle ScholarPubMed

Monks, G. G. 2000. How Much is Enough? An Approach to Sampling Ichthyofaunas. Ontario Archaeology 69:65–75.Google Scholar

Moore, P. D., Webb, J. A., and Collinson, M. E.. 1991. Pollen Analysis, 2nd ed. Blackwell Scientific, Oxford.Google Scholar

Morlan, R. E. 1983. Counts and Estimates of Taxonomic Abundance in Faunal Remains: Microtine Rodents from Bluefish Cave I. Canadian Journal of Archaeology 7:61–76.Google Scholar

Morlan, R. E. 1994. Bison Bone Fragmentation and Survivorship: A Comparative Method. Journal of Archaeological Science 21:797–807.CrossRefGoogle Scholar

Morrison, D. A. 1997. Caribou Hunters in the Western Arctic: Zooarchaeology of the Rita-Claire and Bison Skull Site. Archaeological Survey of Canada Mercury Series Paper No. 157. Canadian Museum of Civilization, Hull, Quebec.CrossRefGoogle Scholar

Muir, R. J., and Driver, J. C.. 2002. Scale of Analysis and Zooarchaeological Interpretation: Pueblo III Faunal Variation in the Northern San Juan Region. Journal of Anthropological Archaeology 21:165–199.CrossRefGoogle Scholar

Munro, N. D., and Bar-Oz, G.. 2005. Gazelle Bone Fat Processing in the Levantine Epipaleolithic. Journal of Archaeological Science 32:223–239.CrossRefGoogle Scholar

Nagaoka, L. 2001. Using Diversity Indices to Measure Changes in Prey Choice at the Shag River Mouth Site, Southern New Zealand. International Journal of Osteoarchaeology 11:101–111.CrossRefGoogle Scholar

Nagaoka, L. 2002. Explaining Subsistence Change in Southern New Zealand Using Foraging Theory Models. World Archaeology 34:84–102.CrossRefGoogle Scholar

Nagaoka, L. 2005a. Declining Foraging Efficiency and Moa Carcass Exploitation in Southern New Zealand. Journal of Archaeological Science 32:1328–1338.CrossRefGoogle Scholar

Nagaoka, L. 2005b. Differential Recovery of Pacific Island Fish Remains. Journal of Archaeological Science 32:941–955.CrossRefGoogle Scholar

Nance, J. D. 1983. Regional Sampling in Archaeological Survey: The Statistical Perspective. Advances in Archaeological Method and Theory 6:289–356.CrossRefGoogle Scholar

Needs-Howarth, S. 1995. Quantifying Animal Food Diet: A Comparison of Four Approaches Using Bones from a Prehistoric Iroquoian Village. Ontario Archaeology 60:92–101.Google Scholar

Nichol, R. K., and Creak, G. A.. 1979. Matching Paired Elements Among Archaeological Bone Remains: A Computer Procedure and Some Practical Limitations. Newsletter of Computer Archaeology 14:6–17.Google Scholar

Nichol, R. K., and Wild, C. J.. 1984. “Numbers of Individuals” in Faunal Analysis: The Decay of Fish Bone in Archaeological Sites. Journal of Archaeological Science 11:35–51.CrossRefGoogle Scholar

Nichols, J. D. 1992. Capture–Recapture Models: Using Marked Animals to Study Population Dynamics. BioScience 42:94–102.CrossRefGoogle Scholar

Noe-Nygaard, N. 1977. Butchering and Marrow Fracturing as a Taphonomic Factor in Archaeological Deposits. Paleobiology 3:218–237.CrossRefGoogle Scholar

Noe-Nygaard, N. 1989. Man-Made Trace Fossils on Bones. Human Evolution 4:461–491.CrossRefGoogle Scholar

Noodle, B. 1973. Determination of the Body Weight of Cattle from Bone Measurements. In Domestikationsforschung und Geschichte der Haustiere, edited by Matolcsi, J., pp. 377–389. Akademiai Kiado, Budapest.Google Scholar

O'Connell, J. F. 1987. Alyawara Site Structure and Its Archaeological Implications. American Antiquity 52:74–108.CrossRefGoogle Scholar

O'Connell, J. F., Hawkes, K., Lupo, K. D., and Jones, N. G. Blurton. 2003. Another Reply to Domínguez-Rodrigo. Journal of Human Evolution 45:417–419.CrossRefGoogle Scholar

O'Connell, J. F., and Lupo, K. D.. 2003. Reply to Domínguez-Rodrigo. Journal of Archaeological Science 30:387–390.CrossRefGoogle Scholar

O'Connor, T. 2000. The Archaeology of Animal Bones. Texas A&M University Press, College Station.Google Scholar

O'Connor, T. P. 2001. Animal Bone Quantification. In Handbook of Archaeological Sciences, edited by Brothwell, D. R. and Pollard, A. M., pp. 703–710. John Wiley and Sons, Chichester.Google Scholar

O'Connor, T. P. 2003. The Analysis of Urban Animal Bone Assemblages: A Handbook for Archaeologists. Archaeology of York 19(2):69–224. Council for British Archaeology, York.Google Scholar

Odum, E. P. 1971. Fundamentals of Ecology, 3rd ed. Saunders, W. B., Philadelphia.Google Scholar

Oliver, J. S. 1994. Estimates of Hominid and Carnivore Involvement in the FLK Zinjanthropus Fossil Assemblage: Some Socioecological Implications. Journal of Human Evolution 27:267–294.CrossRefGoogle Scholar

Olsen, S. L., and Shipman, P.. 1988. Surface Modification on Bone: Trampling versus Butchery. Journal of Archaeological Science 15:535–553.CrossRefGoogle Scholar

Olszewski, T. 1999. Taking Advantage of Time Averaging. Paleobiology 25:226–238.CrossRefGoogle Scholar

Olszewski, T. D. 2004. A Unified Mathematical Framework for the Measurement of Richness and Evenness Within and Among Multiple Communities. Oikos 104:377–387.CrossRefGoogle Scholar

Olszewski, T. D., and Kidwell, S. M.. 2007. The Preservational Fidelity of Evenness in Molluscan Death Assemblages. Paleobiology 33:1–23.CrossRefGoogle Scholar

Orchard, T. J. 2005. The Use of Statistical Size Estimations in Minimum Number Calculations. International Journal of Osteoarchaeology 15:351–359.CrossRefGoogle Scholar

Orton, C. 2000. Sampling in Archaeology. Cambridge University Press, Cambridge, UK.CrossRefGoogle Scholar

Osman, R. W., and Whitlatch, R. B.. 1978. Patterns of Species Diversity: Fact or Artifact?Paleobiology 4:41–54.CrossRefGoogle Scholar

Palmer, A. R. 1986. Inferring Relative Levels of Genetic Variability in Fossils: The Link Between Heterozygosity and Fluctuating Asymmetry. Paleobiology 12:1–5.CrossRefGoogle Scholar

Palmer, A. R. 1994. Fluctuating Asymmetry Analyses: A Primer. In Developmental Instability, edited by Markow, T. A., pp. 335–364. Kluwer, Dordrecht.Google Scholar

Palmer, A. R. 1996. Waltzing with Asymmetry. BioScience 46:518–532.CrossRefGoogle Scholar

Palmer, A. R., and Strobeck, C.. 1986. Fluctuating Asymmetry: Measurement, Analysis, Patterns. Annual Review of Ecology and Systematics 17:391–421.CrossRefGoogle Scholar

Palmer, M. W. 1990. The Estimation of Species Richness by Extrapolation. Ecology 71:1195–1198.CrossRefGoogle Scholar

Pankakoski, E. 1985. Epigenetic Asymmetry as an Ecological Indicator in Muskrats. Journal of Mammalogy 66:52–57.CrossRefGoogle Scholar

Partlow, M. A. 2006. Sampling Fish Bones: A Consideration of the Importance of Screen Size and Disposal Context in the North Pacific. Arctic Anthropology 43:67–79.CrossRefGoogle Scholar

Patterson, B. D. 1987. The Principle of Nested Subsets and Its Implications for Biological Conservation. Conservation Biology 1:323–334.CrossRefGoogle Scholar

Patterson, B. D., and Atmar, W.. 1986. Nested Subsets and the Structure of Insular Mammalian Faunas and Archipelagos. Biological Journal of the Linnean Society 28:65–82.CrossRefGoogle Scholar

Pavao-Zuckerman, B. 2007. Deerskins and Domesticates: Creek Subsistence and Economic Strategies in the Historic Period. American Antiquity 72:5–33.CrossRefGoogle Scholar

Payne, S. 1972. Partial Recovery and Sample Bias: The Results of Some Sieving Experiments. In Papers in Economic Prehistory, edited by Higgs, E. S., pp. 49–64. Cambridge University Press, Cambridge, UK.Google Scholar

Payne, S. 1975. Partial Recovery and Sample Bias. In Archaeozoological Studies, edited by Clason, A. T., pp. 7–17. North Holland, Amsterdam.Google Scholar

Pearson, O. P., and Pearson, A. K.. 1947. Owl Predation in Pennsylvania, with Notes on the Small Mammals of Delaware County. Journal of Mammalogy 28:137–147.CrossRefGoogle Scholar

Peet, R. K. 1974. The Measurement of Species Diversity. Annual Review of Ecology and Systematics 5:285–307.CrossRefGoogle Scholar

Perkins, D., Jr. 1973. A Critique on the Methods of Quantifying Faunal Remains from Archaeological Sites. In Domestikationsforschung und Geschichte der Haustiere, edited by Matolcsi, J., pp. 367–369. Akademiai Kiado, Budapest.Google Scholar

Peterson, C. H. 1977. The Paleoecological Significance of Undetected Short-Term Temporal Variability. Journal of Paleontology 51:976–981.Google Scholar

Pettigrew, R. M. 1981. A Prehistoric Cultural Sequence in the Portland Basin of the Lower Columbia Valley. University of Oregon Anthropological Papers No. 22. Eugene.Google Scholar

Pianka, E. R. 1978. Evolutionary Ecology, 2nd ed. Harper, and Row, , New York.Google Scholar

Pickering, T. R., and Egeland, C. P.. 2006. Experimental Patterns of Hammerstone Percussion Damage on Bones: Implications for Inferences of Carcass Processing by Humans. Journal of Archaeological Science 33:459–469.CrossRefGoogle Scholar

Pickering, T. R., Marean, C. W., and Domínguez-Rodrigo, M.. 2003. Importance of Limb Bone Shaft Fragments in Zooarchaeology: A Response to “On in situ Attrition and Vertebrate Body Part Profiles” (2002), by M. C. Stiner. Journal of Archaeological Science 30:1469–1482.CrossRefGoogle Scholar

Pilgram, T., and Marshall, F.. 1995. Bone Counts and Statisticians: A Reply to Ringrose. Journal of Archaeological Science 22:93–97.CrossRefGoogle Scholar

Pimm, S. L., and Lawton, J. H.. 1998. Planning for Biodiversity. Science 279:2068–2069.CrossRefGoogle Scholar

Plug, C., and Plug, I.. 1990. MNI Counts as Estimates of Species Abundance. South African Archaeological Bulletin 45:53–57.CrossRefGoogle Scholar

Plug, I. 2004. Resource Exploitation: Animal Use During the Middle Stone Age at Sibudu Cave, KwaZulu-Natal. South African Journal of Science 100:151–158.Google Scholar

Plug, I., and Badenhorst, S.. 2006. Notes on the Fauna from Three Late Iron Age Mega-Sites, Boitsemagano, Molokwane, and Mabjanamatshwana, North West Province, South Africa. South African Archaeological Bulletin 61:57–67.Google Scholar

Plug, I., and Sampson, C. G.. 1996. European and Bushman Impacts on Karoo Fauna in the Nineteenth Century: An Archaeological Perspective. South African Archaeological Bulletin 51:26–31.CrossRefGoogle Scholar

Pobiner, B. L., and Braun, D. R.. 2005. Strengthening the Inferential Link Between Cutmark Frequency Data and Oldowan Hominid Behavior: Results from Modern Butchery Experiments. Journal of Taphonomy 3:107–119.Google Scholar

Popper, V. S. 1988. Selecting Quantitative Measures in Paleoethnobotany. In Current Paleoethnobotany: Analytical Methods and Cultural Interpretations of Archaeological Plant Remains, edited by Hastorf, C. A. and Popper, V. S., pp. 53–71. University of Chicago Press, Chicago, Illinois.Google Scholar

Potter, S. L. 2005. The Physics of Cutmarks. Journal of Taphonomy 3:91–106.Google Scholar

Potts, R. 1986. Temporal Span of Bone Accumulations at Olduvai Gorge and Implications for Early Hominid Foraging Behavior. Paleobiology 12:25–31.CrossRefGoogle Scholar

Potts, R. B. 1988. Early Hominid Activities at Olduvai. Aldine de Gruyter, New York.Google Scholar

Pozorski, S. 1979. Late Prehistoric Llama Remains from the Moche Valley, Peru. Annals of the Carnegie Museum 48:139–170.Google Scholar

Prange, H. D., Anderson, J. F., and Rahn, H.. 1979. Scaling of Skeletal Body Mass in Birds and Mammals. American Naturalist 113:103–122.CrossRefGoogle Scholar

Prummel, W. 2003. Animal Remains from the Hellenistic Town of New Halos in the Almirós Plain, Thessaly. In Zooarchaeology in Greece: Recent Advances, edited by Kotjabopoulou, E., Hamilakis, Y., Halstead, P., Gamble, C., and Elefanti, P., pp. 153–159. British School at Athens Studies 9, London.Google Scholar

Purdue, J. R. 1980. Clinal Variation of Some Mammals During the Holocene in Missouri. Quaternary Research 13:242–258.CrossRefGoogle Scholar

Purdue, J. R. 1982. Methods of Determining Sex and Body Size in Prehistoric Samples of White-tailed Deer (Odocoileus virginianus). Transactions of the Illinois State Academy of Science 76:351–357.Google Scholar

Purdue, J. R. 1986. The Size of White-Tailed Deer (Odocoileus virginianus) During the Archaic Period in Central Illinois. In Foraging, Collecting, and Harvesting: Archaic Period Subsistence and Settlement in the Eastern Woodlands, edited by Neusius, S. W., pp. 65–95. Center for Archaeological Investigations Occasional Paper No. 6. Southern Illinois University, Carbondale.Google Scholar

Purdue, J. R. 1987. Estimation of Body Weight of White-tailed Deer (Odocoileus virginianus) from Bone Size. Journal of Ethnobiology 7:1–12.Google Scholar

Purdue, J. R., Styles, B. W., and Masulis, M. C.. 1989. Faunal Remains and White-Tailed Deer Exploitation from a Late Woodland Upland Encampment: The Boschert Site (23SC609), St. Charles County, Missouri. Midcontinental Journal of Archaeology 14:146–163.Google Scholar

Quimby, G. I. 1960. Habitat, Culture, and Archaeology. In Essays in the Science of Culture in Honor of Leslie A. White, edited by Cole, G. E. and Carneiro, R. L., pp. 380–389. Thomas Y. Crowell Company, New York.Google Scholar

Quitmyer, I. R., and Reitz, E. J.. 2006. Marine Trophic Levels Targeted Between AD 300 and 1500 on the Georgia Coast, USA. Journal of Archaeological Science 33:806–822.CrossRefGoogle Scholar

Rackham, J. 1994. Animal Bones. University of California Press, Berkeley.Google Scholar

Rapson, D. J., and L. C. Todd. 1992. Conjoins, Contemporaneity, and Site Structure: Distributional Analyses of the Bugas-Holding Site. In Piecing Together the Past: Applications of Refitting Studies in Archaeology, edited by Hofman, J. L. and Enloe, J. G., pp. 238–263. British Archaeological Reports International Series 578. Oxford.Google Scholar

Raup, D. M. 1972. Taxonomic Diversity During the Phanerozoic. Science 177:1065–1071.CrossRefGoogle ScholarPubMed

Raup, D. M., and Crick, R. E.. 1979. Measurement of Faunal Similarity in Paleontology. Journal of Paleontology 53:1213–1227.Google Scholar

Reed, C. A. 1963. Osteo-Archaeology. In Science in Archaeology, edited by Brothwell, D. R. and Higgs, E. S., pp. 204–216. Thames and Hudson, London.Google Scholar

Reitz, E. J. 1988. Preceramic Animal Use on the Central Coast. In Economic Prehistory of the Central Andes, edited by Wing, E. S. and Wheeler, J. C., pp. 31–55. British Archaeological Reports International Series 427. Oxford.Google Scholar

Reitz, E. J. 1994. Zooarchaeological Analysis of a Free African Community: Gracia Real de Santa Teresa de Mose. Historical Archaeology 28:23–40.CrossRefGoogle Scholar

Reitz, E. J. 2003. Resource Use Through Time at Paloma, Peru. In Zooarchaeology: Papers to Honor Elizabeth S. Wing, edited by King, F. W. and Porter, C. M., pp. 65–80. Bulletin of the Florida State Museum 44. Gainesville.Google Scholar

Reitz, E. J., and D. Cordier. 1983. Use of Allometry in Zooarchaeological Analysis. In Animals and Archaeology: 2. Shell Middens, Fishes and Birds, edited by Grigson, C. and Clutton-Brock, J., pp. 237–252. British Archaeological Reports International Series 183. Oxford.Google Scholar

Reitz, E., and Honerkamp, N.. 1983. British Colonial Subsistence Strategy on the Southeastern Coastal Plain. Historical Archaeology 17:4–26.CrossRefGoogle Scholar

Reitz, E. J., Quitmyer, I. R., Hale, H. S., Scudder, S. J., and Wing, E. S.. 1987. Application of Allometry to Zooarchaeology. American Antiquity 52:304–317.CrossRefGoogle Scholar

Reitz, E. J., and Wing, E. S.. 1999. Zooarchaeology. Cambridge University Press, Cambridge, UK.Google Scholar

Reynolds, P. S. 2002. How Big is Giant? The Importance of Method in Estimating Body Size of Extinct Mammals. Journal of Mammalogy 83:321–332.2.0.CO;2>CrossRefGoogle Scholar

Rhode, D. 1988. Measurement of Archaeological Diversity and Sample-Size Effect. American Antiquity 53:708–716.CrossRefGoogle Scholar

Ricklefs, R. E. 1979. Ecology, 2nd ed. Chiron Press, New York.Google Scholar

Ringrose, T. J. 1993. Bone Counts and Statistics: A Critique. Journal of Archaeological Science 20:121–157.CrossRefGoogle Scholar

Ringrose, T. J. 1995. Response to Pilgram and Marshall “Bone Counts and Statisticians: A Reply to Ringrose.” Journal of Archaeological Science 22:99–102.CrossRefGoogle Scholar

Rogers, A. R. 2000a. Analysis of Bone Counts by Maximum Likelihood. Journal of Archaeological Science 27:111–125.CrossRefGoogle Scholar

Rogers, A. R. 2000b. On Equifinality in Faunal Analysis. American Antiquity 65:709–723.CrossRefGoogle Scholar

Rogers, A. R., and Broughton, J. M.. 2001. Selective Transport of Animal Parts by Ancient Hunters: A New Statistical Method and an Application to the Emeryville Shellmound Fauna. Journal of Archaeological Science 28:763–773.CrossRefGoogle Scholar

Saleeby, B. 1983. Prehistoric Settlement Patterns in the Portland Basin on the Lower Columbia River: Ethnohistoric, Archaeological and Biogeographic Perspectives. Ph.D. dissertation, University of Oregon, Eugene.Google Scholar

Sanders, H. L. 1968. Marine Benthic Diversity: A Comparative Study. American Naturalist 48:675–706.Google Scholar

Scheiner, S. M. 2003. Six Types of Species–Area Curves. Global Ecology and Biogeography 12:441–447.CrossRefGoogle Scholar

Schindel, D. E. 1980. Microstratigraphic Sampling and the Limits of Paleontologic Resolution. Paleobiology 6:408–426.CrossRefGoogle Scholar

Schmitt, D. N., and Lupo, K. D.. 1995. On Mammalian Taphonomy, Taxonomic Diversity, and Measuring Subsistence Data in Zooarchaeology. American Antiquity 60:496–514.CrossRefGoogle Scholar

Schoereder, J. H., Galbiati, C., Ribas, C. R., Sobrinho, T. G., Sperber, C. F., DeSouza, O., and Lopes-Andrade, C.. 2004. Should We Use Proportional Sampling for Species–Area Studies?Journal of Biogeography 31:1219–1226.CrossRefGoogle Scholar

Schulz, P. D., and Gust, S. M.. 1983. Faunal Remains and Social Status in 19th Century Sacramento. Historical Archaeology 17:44–53.CrossRefGoogle Scholar

Scott, E. M. 2003. Horticultural Hunters: Seasonally Abundant Animal Resources and Gender Roles in Late Prehistoric Iroquoian Subsistence Strategies. In Zooarchaeology: Papers to Honor Elizabeth S. Wing, edited by King, F. W. and Porter, C. M., pp. 171–182. Bulletin of the Florida State Museum 44. Gainesville.Google Scholar

Scott, K. M. 1982. Prediction of Body Weight of Fossil Artiodactyla. Zoological Journal of the Linnaean Society 77:199–215.CrossRefGoogle Scholar

Selvaggio, M. M. 1994. Carnivore Tooth Marks and Stone Tool Butchery Marks on Scavenged Bones: Archaeological Implications. Journal of Human Evolution 27:215–228.CrossRefGoogle Scholar

Selvaggio, M. M. 1998. Evidence for a Three-Stage Sequence of Hominid and Carnivore Involvement with Long Bones at FLK Zinjanthropus, Olduvai Gorge, Tanzania. Journal of Archaeological Science 25:191–202.CrossRefGoogle Scholar

Sepkoski, J. J. Jr. 1988. Alpha, Beta, or Gamma: Where Does All the Diversity Go?Paleobiology 14:221–234.CrossRefGoogle ScholarPubMed

Sepkoski, J. J. Jr. 1997. Biodiversity: Past, Present, and Future. Journal of Paleontology 71:533–539.CrossRefGoogle ScholarPubMed

Shaffer, B. S. 1992. Quarter Inch Screening: Understanding Biases in Recovery of Vertebrate Faunal Remains. American Antiquity 57:129–136.CrossRefGoogle Scholar

Shaffer, B. S., and Baker, B. W.. 1999. Comments on James' Methodological Issues Concerning Analysis of Archaeofaunal Recovery and Screen Size Correction Factors. Journal of Archaeological Science 26:1181–1182.CrossRefGoogle Scholar

Sharp, N. D. 1990. Fremont and Anasazi Resource Selection: An Examination of Faunal Assemblage Variation in the Northern Southwest. Kiva 56:45–65.CrossRefGoogle Scholar

Shennan, S. 1988. Quantifying Archaeology. Academic Press, San Diego.Google Scholar

Shipman, P., Foster, G., and Schoeninger, M.. 1984. Burnt Bones and Teeth: An Experimental Study of Color, Morphology, Crystal Structure and Shrinkage. Journal of Archaeological Science 11:307–325.CrossRefGoogle Scholar

Shipman, P., and Rose, J.. 1983. Early Hominid Hunting, Butchering, and Carcass Processing Behaviors: Approaches to the Fossil Record. Journal of Anthropological Archaeology 2:57–98.CrossRefGoogle Scholar

Shipman, P., and Walker, A.. 1980. Bone-Collecting by Harvesting Ants. Paleobiology 6:496–502.CrossRefGoogle Scholar

Shotwell, J. A. 1955. An Approach to the Paleoecology of Mammals. Ecology 36:327–337.CrossRefGoogle Scholar

Shotwell, J. A. 1958. Inter-Community Relationships in Hemphillian (Mid-Pliocene) Mammals. Ecology 39:271–282.CrossRefGoogle Scholar

Simpson, G. G., Roe, A., and Lewontin, R. C.. 1960. Quantitative Zoology, revised ed. Harcourt, Brace and Company, New York. (reprinted 2003 by Dover Publications, Mineola, New York)Google Scholar

Smith, B., and Wilson, J. B.. 1996. A Consumer's Guide to Evenness Indices. Oikos 76:70–82.CrossRefGoogle Scholar

Smith, B. D. 1975. Toward a More Accurate Estimation of Meat Yield of Animal Species at Archaeological Sites. In Archaeozoological Studies, edited by Clason, A. T., pp. 99–106. North-Holland, Amsterdam.Google Scholar

Smith, E. P., Stewart, P. M., and Cairns, J. Jr. 1985. Similarities Between Rarefaction Methods. Hydrobiologia 120:167–170.CrossRefGoogle Scholar

Smith, R. J. 2002. Estimation of Body Mass in Paleontology. Journal of Human Evolution 43:271–287.CrossRefGoogle Scholar

Snyder, L. M., and W. E. Klippel. 2003. From Lerna to Kastro: Further Thoughts on Dogs as Food in Ancient Greece; Perceptions, Prejudices and Reinvestigations. In Zooarchaeology in Greece: Recent Advances, edited by Kotjabopoulou, E., Hamilakis, Y., Halstead, P., Gamble, C., and Elefanti, P., pp. 221–231. British School at Athens, London.Google Scholar

Southwood, T. R. E. 1987. The Concept and Nature of the Community. In Organization of Communities: Past and Present, edited by Gee, J. H. R. and Giller, P. S., pp. 3–27. Blackwell Scientific, Oxford.Google Scholar

Sparks, B. W. 1961. The Ecological Interpretation of Quaternary Non-Marine Mollusca. Proceedings of the Linnean Society of London 172:71–80.CrossRefGoogle Scholar

Spellerberg, I. F., and Fedor, P. J.. 2003. A Tribute to Claude Shannon (1916–2001) and a Plea for More Rigorous Use of Species Richness, Species Diversity and the ‘Shannon-Wiener’ Index. Global Ecology and Biogeography 12:177–179.CrossRefGoogle Scholar

Spencer, L. M., Valkenburgh, B., and Harris, J. M.. 2003. Taphonomic Analysis of Large Mammals Recovered from the Pleistocene Rancho La Brea Tar Seeps. Paleobiology 29:561–575.2.0.CO;2>CrossRefGoogle Scholar

Speth, J. D. 1983. Bison Kills and Bone Counts: Decision Making by Ancient Hunters. University of Chicago Press, Chicago.Google Scholar

Staff, G., Powell, E. N., Stanton, R. J. Jr., and Cummins, H.. 1985. Biomass: Is It a Useful Tool in Paleocommunity Reconstruction?Lethaia 18:209–232.CrossRefGoogle Scholar