Hostname: page-component-84b7d79bbc-2l2gl Total loading time: 0 Render date: 2024-08-01T21:22:41.112Z Has data issue: false hasContentIssue false
  • English
  • Français

Testing Flotation Recovery Rates

Published online by Cambridge University Press:  20 January 2017

Gail E. Wagner
Get access Rights & Permissions [Opens in a new window]

Abstract

The poppy seed recovery test is a simple and inexpensive means of determining the effectiveness and consistency of any particular botanical flotation system. By adding a known number of charred poppy seeds (Papaver somniferum) to a sample before it is processed, archaeologists can check for loss, damage, and inter-sample contamination. Different systems, equipment, methods, and personnel tested since 1976 yield recovery rate percentages ranging from 6% to 98%. Such percentages provide a basis of comparison among widely differing flotation systems and enable the archaeologist to decide which flotation system to use under particular logistical constraints.

Type
Reports
Information
American Antiquity , Volume 47 , Issue 1 , January 1982 , pp. 127 - 132
Copyright
Copyright © Society for American Archaeology 1982

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Benninghoff, W. S. 1962 Calculation of pollen and spores density in sediments by addition of exotic pollen in known quantities. Pollen et Spores 4:332333.Google Scholar
Bodner, Connie Cox, and Ralph M., Rowlett 1980 Separation of bone, charcoal, and seeds by chemical flotation. American Antiquity 45:110116.Google Scholar
Davis, E. Mott, and Al B., Wesolowsky 1975 The Izum: a simple water separation device. Journal of Field Archaeology 2:271273.Google Scholar
Dye, David H., and Katherine M., Moore 1978 Recovery systems for subsistence data: water screening and water flotation. Tennessee Anthropologist 3:5969.Google Scholar
French, D. H. 1971 An experiment in water-sieving. Anatolian Studies 21:5964.CrossRefGoogle Scholar
Jarman, H. N., Legge, A. J., and Charles, J. A. 1972 Retrieval of plant remains from archaeological sites by froth flotation. In Papers in economic prehistory, edited by Higgs, E. S., pp. 3948. Cambridge University Press, Cambridge.Google Scholar
Kaplan, Lawrence, and Shirley L., Maina 1977 Archeological botany of the Apple Creek Site, Illinois, Journal of Seed Technology 2(2):4053.Google Scholar
Keeley, H. C. M. 1978 The cost-effectiveness of certain methods of recovering macroscopic organic remains from archaeological deposits. Journal of Archaeological Science 5:179183.CrossRefGoogle Scholar
Keepax, Carole 1977 Contamination of archaeological deposits by seeds of modern origin with particular reference to the use of flotation machines. Journal of Archaeological Science 4:221229.Google Scholar
Lange, Frederick W., and Frederick M., Carty 1975 Salt water application of the flotation technique. Journal of Field Archaeology 2:119123.Google Scholar
Limp, W. Fredrick 1974 Water separation and flotation processes. Journal of Field Archaeology 1:337342.Google Scholar
Minnis, Paul, and Steven, LeBlanc 1976 An efficient, inexpensive arid lands flotation system. American Antiquity 41:491493.Google Scholar
Munson, Patrick J., Paul W., Parmalee, and Richard A., Yarnell 1971 Subsistence ecology of Scovill, a terminal Middle Woodland village. American Antiquity 36:410431.Google Scholar
Payne, Sebastian 1972 Partial recovery and sample bias: the results of some sieving experiments. In Papers in economic prehistory, edited by Higgs, E. S., pp. 4964. Cambridge University Press, Cambridge.Google Scholar
Pendleton, Michael W. 1979 Flotation methodology. Paper presented at the 78th Annual Meetings of the American Anthropological Association, Cincinnati.Google Scholar
Schock, Jack M. 1971 Indoor water flotation—a technique for the recovery of archaeological materials. Plains Anthropologist 16:228231.Google Scholar
Stewart, Robert B., and William, Robertson IV 1973 Application of the flotation technique in arid areas. Economic Botany 27:114116.Google Scholar
Struever, Stuart 1968 Flotation techniques for the recovery of small-scale archaeological remains. American Antiquity 33: 353362.Google Scholar
Wagner, Gail E. 1976 IDOT flotation procedure manual. Ms. on file, Illinois Department of Transportation, District 8, and the University of Illinois-Urbana FAI-270 project.Google Scholar
Disselhoff, Hans-Dietrich 1979a The Dayton Museum of Natural History flotation procedure manual. Ms. on file, Dayton Museum of Natural History. Dayton, Ohio.Google Scholar
Disselhoff, Hans-Dietrich 1979b The Green fliver Archaic: a botanical reconstruction II. Paper presented at the 36th Annual Southeastern Archaeological Conference, Atlanta.Google Scholar
Watson, Patty Jo 1976 In pursuit of prehistoric subsistence: a comparative account of some contemporary flotation techniques. Midcontinental Journal of Archaeology 1:77100.Google Scholar
Williams, David 1973 Flotation at Siraf. Antiquity 47:288292.Google Scholar