Quantification: Abundance and Other Measures in Archaeology

• Barrett, J. H., 1993, Bone weight, meat yield estimates and cod (Cadus morhua): A preliminary study of the weight method. International Journal of Osteoarchaeology 3:1–18.

  Article  Google Scholar 

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

  Google Scholar 

• -1981, Bones: Ancient Men and Modern Myths. Academic Press, New York.

  Google Scholar 

• -1984, Faunal Remains from the Klasies River Mouth. Academic Press, New York.

  Google Scholar 

• Birks, H. J. B. and Line, J. M., 1992, The use of rarefaction analysis for estimating palynological richness from Quaternary pollen-analytical data. HOLOCENE 2 (1):1–10.

  Google Scholar 

• Bonzani, R. M., 1997, Plant diversity in the archaeological record: A means toward defining hunter-gatherer mobility strategies. Journal of Archaeological Science 24:1129–39.

  Article  Google Scholar 

• Boyd, W. E., 1988, Methodological problems in the analysis of fossil non-artifactual wood assemblages from archaeological sites. Journal of Archaeological Science 15:603–19.

  Article  Google Scholar 

• Bunn, H. T., and Kroll, E. M., 1986, Systematic butchery by Plio-Pleistocene hominids at Olduvai Gorge, Tanzania. Current Anthropology 27:431–52.

  Article  Google Scholar 

• Byrd, J. E., and Owens, D. D., 1997, A method for measuring relative abundance of fragmented archaeological ceramics. Journal of Field Archaeology 24:315–20.

  Google Scholar 

• Casteel, R. W., 1974, A method for estimation of live weight of fish from the size of skeletal elements. American Antiquity 39:94–98.

  Google Scholar 

• -1977, Characterization of faunal assemblages and the minimum number of individuals determined from paired elements: Continuing problems in archaeology. Journal of Archaeological Science 4:125–34.

  Article  Google Scholar 

• -1978, Faunal assemblage and the ‘weigemethode’ or weight method. Journal of Field Archaeology 5:71–77.

  Google Scholar 

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

  Google Scholar 

• Chase, P. G., 1985, Whole vessels and sherds: an experimental investigation of their quantitative relationship. Journal of Field Archaeology 12:213–18.

  Google Scholar 

• Chase, P. G. and Hagaman, R. M., 1987, Minimum number of individuals and its alternatives: a probability theory perspective. Ossa 13:75–86.

  Google Scholar 

• Cruz-Uribe, K., 1988, The use and meaning of species diversity and richness in archaeological faunas. Journal of Archaeological Science 15:179–96.

  Google Scholar 

• Davis, M. B., 1963, On the theory of pollen analysis. American Journal of Science 261:897–912.

  Article  Google Scholar 

• -1965, A method for determination of absolute pollen frequency. In Handbook of Palaeontological Techniques, edited by B. G. Kummel and D. M. Raup, pp. 647–86. Freeman, San Francisco.

  Google Scholar 

• Drennan, R. D., 1996, Statistics for Archaeologists, A Commonsense Approach. Plenum Press, New York.

  Google Scholar 

• Egloff, B. J., 1973, A method for counting ceramic rim sherds. American Antiquity 38:351–53.

  Google Scholar 

• Fægri, K., and Iverson, J., 1989, Textbook of Pollen Analysis, 4th ed. Blackwell Scientific Publications, Oxford.

  Google Scholar 

• Fieller, N. R. J. and Turner, A., 1982, Number estimation in vertebrate samples. Journal of Archaeological Science 9:49–62.

  Article  Google Scholar 

• Gautier, A., 1984, How do we count these bones, let me count the ways? Problems of archaeozoological quantification. In Animals and Archaeology, edited by C. Grigson and J. Clutton-Brock, pp. 237–51. BAR International Series 227. British Archaeological Reports, Oxford.

  Google Scholar 

• Gilbert, A., and Singer, B. H., 1982, Reassessing zooarchaeological quantification. World Archaeology 14:21–40.

  Article  Google Scholar 

• Gould, S. J., 1966, Allometry and size in ontogeny and phytogeny. Biological Review of the Cambridge Philosophical Society 41:587–640.

  Google Scholar 

• Grayson, D. K., 1978, Minimum numbers and sample size in vertebrate faunal analyssis. American Antiquity 43:53–65.

  Google Scholar 

• -1981, The effects of sample size on some derived measures in vertebrate faunal analysis. Journal of Archaeological Science 8:77–88.

  Article  Google Scholar 

• -1984, Quantitative Zooarchaeology. Academic Press, Orlando, FL.

  Google Scholar 

• Hill, M. O., 1973, Diversity and evenness: A unifying notation and its consequences. Ecology 54:427–32.

  Google Scholar 

• Holtzman, R. C., 1979, Maximum likelihood estimation of fossil assemblage composition. Paleobiology 5:77–89.

  Google Scholar 

• Hubbard, R. N. L. B. and al-Azm, A., 1990, Quantifying preservation and distortion in carbonized seeds; and investigating the history of friké production. Journal of Archaeological Science 17:103–106.

  Article  Google Scholar 

• Hulthén, B., 1974, On choice of element for determination of quantity of pottery. Norwegian Archaeological Review 7:1–5.

  Google Scholar 

• Hurlbert, S. H., 1971, The nonconcept of species diversity: A critique and alternative parameters. Ecology 52:577–86.

  Google Scholar 

• 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 16:601–10.

  Google Scholar 

• Kadane, J. B., 1988, Possible statistical contributions to paleoethnobotany. In Current Paleoethnobotany, Analytical Methods and Cultural Interpretations of Archaeological Plant Remains, edited by C. A. Hastorf and V. S. Popper, pp. 206–214. University of Chicago Press, Chicago.

  Google Scholar 

• Kempton, R. A., 1979, The structure of species abundance and measurement of diversity. Biometrics 35:307–21.

  Google Scholar 

• Kintigh, K., 1989, Sample size, significance and measures of diversity. In Quantifying Diversity in Archaeology, edited by R. Leonard and G. Jones, pp. 25–36. Cambridge University Press, Cambridge.

  Google Scholar 

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

  Google Scholar 

• Krantz, G. S., 1968, A new method of counting mammal bones. American Journal of Archaeology 72:286–88.

  Google Scholar 

• Kruz-Uribe, K., 1988, The use and meaning of species diversity and richness in archaeological faunas. Journal of Archaeological Science 15:179–96.

  Google Scholar 

• Lie, R. W., 1980, Minimum numbers of individuals from osteological samples. Norwegian Archaeological Review 13:24–30.

  Article  Google Scholar 

• Lyman, R. L., 1979, Available meat from faunal remains: A consideration of techniques. American Antiquity 44:536–46.

  Google Scholar 

• -1984, Bone density and differential survivorship of fossil classes. Journal of Anthropological Archaeology 3:259–99.

  Article  Google Scholar 

• -1985, Bone frequencies: differential transportation, in-situ destruction and the MGUI. Journal of Archaeological Science 12:221–36.

  Google Scholar 

• -1992, Anatomical considerations of utility curves in archaeology. Journal of Archaeological Science 19:7–22.

  Google Scholar 

• Lyman, R.L., Savelle, J.M., and Whitridge, P., 1992, Derivation and application of a meat utility index for Phocid seals. Journal of Archaeological Science 19:531–55.

  Google Scholar 

• MacNeish, R. S., 1967, A summary of the subsistence. In The Prehistory of The Tehuacan Valley, volume 1, Environment and Subsistence, edited by D. S. Byers, pp. 290–309. University of Texas Press, Austin.

  Google Scholar 

• Marean, C. W., and Frey, 1997, Animal bones from caves to cities: Reverse utility curves as methodological artifacts. American Antiquity 62:698–711.

  Google 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 18:149–63.

  Article  Google Scholar 

• -1993, NISP vs. MNI in quantification of body-part representation. American Antiquity 58:261–69.

  Google Scholar 

• Meltzer, D. J., Leonard, R. D., and Stratton, S. K., 1992, The relationship between sample size and diversity in archaeological assemblages. Journal of Archaeological Science 19:375–87.

  Article  Google Scholar 

• Metcalfe, D., and Jones, K. T., 1988, A reconsideration of animal-part utility indices. American Antiquity 53:486–504.

  Google Scholar 

• Miller, N. F., 1988, Ratio in paleoethnobotanical analysis. In Current Paleoethnobotany, Analytical Methods and Cultural Interpretations of Archaeological Plant Remains, edited by C. Hastorf and V. Popper, pp. 72–85. University of Chicago Press, Chicago.

  Google Scholar 

• Monckton, S. G., 1992, Huron Paleoethnobotany. Ontario Archaeological Reports 1. Ontario Heritage Foundation, Toronto.

  Google Scholar 

• Moore, P. D., J. Webb and M. C. Collinson (1991). Pollen Analysis, A Laboratory Manual. Oxford: Blackwell.

  Google Scholar 

• Moreno-Garcia, M., Orton, C., and Rackham, J., 1996, A new statistical tool for the comparison of animal bone assemblages. Journal of Archaeological Science 23:437–453.

  Google Scholar 

• Morlan, R.E., 1983, Counts and estimates of taxonomic abundance of faunal remains: Microtine rodents from Bluefish Cave 1. Canadian Journal of Archaeology 7:61–76.

  Google Scholar 

• Noddle, B. A., 1973, Determination of the body weight of cattle from bone measurements. In Domestikations forschung und Geschichte der Haustiere, edited by J. Matolsci, pp. 377–89. Akadémiai Kiadó, Budapest.

  Google Scholar 

• Orton, C., 1980, Mathematics in Archaeology. Collins, London.

  Google Scholar 

• -1993,’ How many pots make five? — an historical review of pottery quantification’ Archaeometry 35:169–184.

  Google Scholar 

• Orton, C., and Tyers, 1992, Counting broken objects: The statistics of ceramic assemblages. Proceedings of the British Academy 77:163–84.

  Google Scholar 

• -1993, A User’s Guide to Pie-slice. University College London, Institute of Archaeology, London.

  Google Scholar 

• Orton, C., Tyers, P. A., and Vince, A. G., 1993, Pottery in Archaeology. Cambridge University Press, Cambridge.

  Google Scholar 

• Patil, G. P., and Taillie, C., 1979, An overview of diversity. In Ecological Diversity in Theory and Practice, edited by J. F. Grassle, G. P. Patil, W. K. Smith, and C. Taillie, pp. 3–27. International Co-operative Publishing House, Fairfield, MD.

  Google Scholar 

• Payne, S., 1975, Partial recovery and sample bias. In Archaeolozoological Studies, edited by A. T. Clason, pp. 7–17. American Elsevier, New York.

  Google Scholar 

• Peet, R. K., 1974, The measurement of species diversity. Annual Review of Ecology and Systematics 5:285–307.

  Article  Google Scholar 

• Poplin, F., 1976, Rémarques théoretique et pratiques sur les unites utilisées dans les études ďostéologie quantitative, particulièrement en archéologie préhistorique. In Union Internationale des Sciences Préhistoriques 9e Congrès, Themes Specialisées, pp. 124–41. Nice.

  Google Scholar 

• Popper, V. S., 1988, Selecting quantitative meaurements in paleoethnobotany. In Current Paleoethnobotany, Analytical Methods and Cultural Interpretations of Archaeological Plant Remains, C. Hastorf and V. Popper, pp. 53–71. University of Chicago Press, Chicago.

  Google Scholar 

• Prange, H. D., Anderson, J. F., and Rahn, H., 1979, Scaling of skeletal mass to body mass in birds and mammals. American Naturalist 113:103–22.

  Article  Google Scholar 

• Rackham, D. J., 1986, Assessing the relative frequencies of species by the application of a stochastic model to a zooarchaeological database. In Database Management and Zooarchaeology, edited by V. Wijngaarden-Bakker. Journal of the European Study Group of Physical, Chemical, Biological, and Mathematical Techniques Applied to Archaeology, Research Volume 40.

  Google Scholar 

• Reynolds, W. W., 1977, Skeletal weight allometry in aquatic and terrestrial vertebrates. Hydrobiologist 56:35–37.

  Google Scholar 

• Rhode, D., 1988, Measurements of archaeological diversity and the sample-size effect. American Antiquity 53:708–716.

  Google Scholar 

• Ringrose, T. J., 1993a, Bone counts and statistics: A critique. Journal of Archaeological Science 20:121–57.

  Article  Google Scholar 

• -1993b, Diversity indices and archaeology. In Computing the Past. Computer Applications and Quantitative Methods in Archaeology, CAA92, edited by J. Andresen, T. Madsen, and I. Scollar, pp. 279–85. Aarhus University Press, Aarhus.

  Google Scholar 

• Shotwell, A. J., 1955, An approach to the paleoecology of mammals. Ecology 36:327–37.

  Google Scholar 

• Smith, B. D., 1975, Toward a more accurate estimation of the meat yield of animal species at archeological sites. In Archaeozoological Studies, edited by A. T. Clason, pp. 99–106. North-Holland Publishing Company, Amsterdam.

  Google Scholar 

• Solheim, W. G., 1960, The use ofsherd weights and counts in the handling of archaeological data. Current Anthropology 1:325–29.

  Google Scholar 

• Stahl, P. W., 1982, On small mammal remains in archaeological contexts. American Antiquity 47:822–29.

  Google Scholar 

• Wild, C. J. and Nichol, R. K., 1983, Estimation of the original number of individuals from paired bone counts using estimators of the Krantz type. Journal of Field Archaeology 10:337–44.

  Google Scholar 

• Yarnell, R., 1974, Plant food and cultivation of the Salt Cavers. In Culture Change and Continuity, edited by C. E. Cleland, pp. 113–22. Academic Press, New York.

  Google Scholar 

Download references