Abstract
Phytolith analysis is now sufficiently mature to provide an independent source of data in tropical paleoethnobotany and paleoecology. At the same time, ongoing studies of phytoliths from tropical plants and sediments are discovering new applications. There are, to be sure, problems in interpreting prehistoric plant use and paleoecology which cannot be addressed through phytolith analysis; some of the more important ones are listed. Through a review of recent studies in the New World tropics, this paper presents some contributions to, problems of, and prospects for phytolith analysis to inform the archaeological community about such issues as (1) the origins and dispersals of domesticated plants, (2) the development of tropical forest agriculture, (3) the uses of tropical plants in prehistory, and (4) the distribution and composition of past plant communities.
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References
Anderson, P. (1980). A testimony of prehistoric tasks: Diagnostic residues on stone tool working edges.World Archaeology 12 181–194.
Andersson, L. (1986). Revision of Maranta subgen. Maranta (Marantaceae).Nordic Journal of Botany 6 729–756.
Andrejko, M., and Cohen, A. (1984). Scanning electron microscopy of silicophytoliths from the Okefenokie swamp-marsh complex. In Cohen, A., Casagrande, D. J., Andrejko, M., and Best G. (eds.),The Okefenokie Swamp: Its Natural History, Geology and Geochemistry, Wetland Surveys, Los Alamos, N.M., pp. 468–491.
Ayensu, E. S. (1972).Anatomy of the Monocotyledons. VI. Dioscoreales, Oxford University Press, London.
Bartlett, A. S., and Barghoorn, E. S. (1973). Phytogeographic history of the Isthmus of Panama during the past 12,000 years (a history of vegetation, climate and sea-level change). In Graham, A. (ed.),Vegetation and Vegetational History of Northern Latin America, Elsevier, New York, pp. 203–209.
Beadle, G. (1980). The Ancestry of Corn.Scientific American 242 112–119.
Benz, B. F. (1989). On the origin, evolution, and dispersal of maize. InProceedings of the Circum Pacific Prehistory Conference, Washington State University Press, Olympia.
Birks, H. J. B., and Gordon, A. D. (1985).Numerical Methods in Quaternary Pollen Analysis, Academic Press, London.
Bishop, R. L., Rands, R. L., and Holley, G. R. (1982). Ceramic composition analysis in archaeological perspective. In Schiffer, M. B. (ed.),Advances in Archaeological Method and Theory, Vol. 5, Academic Press, New York, pp. 275–330.
Bozarth, S. R. (1986). Morphologically distinctivePhaseolus, Cucurbita, andHelianthus Annuus phytoliths. In Rovner, I. (ed.),Plant Opal Phytolith Analysis in Archaeology and Paleoecology, Occasional Papers No. 1 of the Phytolitharien, North Carolina State University, Raleigh.
Bozarth, S. R. (1990). Diagnostic opal phytoliths from pods of selected varieties of common beans (Phaseolus vulgaris).American Antiquity 55 98–104.
Bush, M. B., and Colinvaux, P. A. (1990). A long record of climate and vegetation change in lowland Panama.Journal of Vegetation Science 1 105–118.
Bush, M. B., Piperno, D. R., and Colinvaux, P. A. (1989). A 6,000 year history of Amazonian maize cultivation.Nature 340 303–305.
Bush, M. B., Colinvaux, P. A., Wiemann, M. C., Piperno, D. R., and Liu, K.-b. (1991). Late Pleistocene temperature depression and vegetation change in Ecuadorian Amazonia.Quaternary Research 34 330–345.
Ciochon, R., Piperno, D. R., and Thompson, R. (1990). Opal phytoliths found on the teeth of the extinct apeGigantopithecus blacki: Implications for paleodietary studies.Proceedings of the National Academy of Sciences 87 8120–8124.
Coley, P. D., Bryant, J. P., and Chapin, F. S., III (1985). Resource availability and plant anti-herbivore defense.Science 230 895–899.
Cooke, R., and Ranere, A. J. (1984). The “Proyecto Santa Maria”: A multidisciplinary analysis of prehistoric adaptations to a tropical watershed in Panama. In Lange, F. (ed.)Recent Developments in Isthmian Archaeology, British Archaeological Reports, International Series ZIZ, Oxford, pp. 3–30.
Dillehay, T. (1986). The cultural relationships at Monte Verde: A late Pleistocene site in south-central Chile. In Bryan, A. L. (ed.)New Evidence for the Pleistocene Peopling of the Americas, Center for the Study of Early Man, Orono, Maine, pp. 319–337.
Doebley, J. F. (1983). The maize and teosinte male inflorescence: A numerical taxonomic study.Annals of the Missouri Botanical Garden 70 32–70.
Doebley, J. F., and Iltis, H. H. (1980). Taxonomy ofZea (Gramineae) I. A subspecific classification with key to taxa.American Journal of Botany 67 982–993.
Flannery, K. V. (ed.) (1986).Guila Naquitz: Archaic Foraging and Early Agriculture in Oaxaca, Mexico, Academic Press, Orlando, Fla.
Galinat, W. C. (1983). The origin of maize as shown by key morphological traits of its ancestor, teosinte.Maydica 28 121–138.
Harris, D. R., and Hillman, G. C. (eds.) (1989).Foraging and Farming: The Evolution of Plant Exploitation, George Allen and Unwin, London.
Hart, D. M. (1988). The plant opal content in the vegetation and sediment of a swamp at Oxford Falls, New South Wales, Australia.Australian Journal of Botany 36 159–170.
Iltis, H. H. (1983). From teosinte to maize: The catastrophic sexual transmutation.Science 222 886–894.
Iltis, H. H., and Doebley, J. F. (1984).Zea-A biosystematical odyssey. In Grant, W. F. (ed.),Plant Systematics, Academic Press, Toronto, pp. 587–616.
Janzen, D. (1969). Seed-eaters versus seed size, number, toxicity, and dispersal.Evolution 23 1–27.
Jones, J. G. (1988). Macrobotanical analysis. Analysis of botanical materials from the Alabonson Road site, 41 Hr273. Report prepared for the Archaeological Research Laboratory, Texas A&M University, College Station.
Jones, J. G. (1990). Analysis of pollen and phytoliths in residue from a Colonial Period ceramic vessel (submitted for publication).
Lathrap, D. (1977). The antiquity and importance of long-distance trade relationships in the moist tropics of pre-Columbian South America.World Archaeology 5 170–186.
Lovering, T. S. (1959). Significance of accumulator plants in rock weathering.Bulletin of the Geological Society of America 70 781–800.
Lynch, T. F. (1990). Glacial-age man in South America? A critical review.American Antiquity 55 12–36.
MacNeish, R. S. (1967). A summary of the subsistence. In Byers, D. S. (ed.)The Prehistory of the Tehuacan Valley, Vol. 1. Environment and Subsistence, University of Texas Press, Austin, pp. 290–309.
Metcalfe, C. R. (1971).Anatomy of the Monocotyledons. V. Cyperaceae, Oxford University Press, London.
Metcalfe, C. R., and Chalk, L. (1950).Anatomy of the Dicotyledons, Oxford University Press (Clarendon), London.
Monsalve, J. G. (1985). A Pollen Core from the Hacienda Lusitania.Pro Calima 4 40–44.
Mulholland, S. C. (1989). Phytolith shape frequencies in North Dakota grasses: A comparison to general patterns.Journal of Archaeological Science 16 489–511.
Mulholland, S. C. (1990).Arundo Donax phytolith assemblages.The Phytolitharien 6 3–9.
Mulholland, S. C., Rapp, G., Jr., and Ollendorf, A. L. (1988). Variation in phytoliths from corn leaves.Canadian Journal of Botany 66 2001–2008.
Netolitzky, F. (1929). Die Kielselkorper.Linsbauer's Handbuch der Pflanzenanatomie 3/1a 1–19.
Pearsall, D. M. (1978). Phytolith analysis of archaeological soils: Evidence for maize cultivation in formative Ecuador.Science 199 177–178.
Pearsall, D. M. (1979).The Application of Ethnobotanical Techniques to the Problem of Subsistence in the Ecuadorian Formative, Ph.D. dissertation, University of Illinois, Urbana.
Pearsall, D. M. (1985). Analysis of soil phytoliths and botanical macroremains from El Bronce archaeological site, Ponce, Puerto Rico. In Robinson, L. S., Lundberg, E. R., and Walker, J. B. (eds.),Archaeological Data Recovery at El Bronce, Puerto Rico: Final Report, Phase 2, prepared for U.S. Army Corps of Engineers, Jacksonville District, pp. 11–46.
Pearsall, D. M. (1987a). Phytolith analysis of soil samples from raised fields in the Yumes Area, Daule river floodplain, Ecuador. Ms. on file, American Archaeology Division, University of Missouri, Columbia.
Pearsall, D. M. (1987b). Evidence for prehistoric maize cultivation on raised fields at Penon del Rio, Guayas, Ecuador. In Denevan, W., Mathewson, K., and Knapp, G. (eds.),Pre-Hispanic Agricultural Fields in the Andean Region (Part 2), BAR International Series 359, pp. 279–296.
Pearsall, D. M. (1989).Paleoethnobotany: A Handbook of Procedures, Academic Press, San Diego.
Pearsall, D. M. (1990a). Maize imitators: How great a problem? A comment on “Arundo Donax Phytolith Assemblages” by S. C. Mulholland.The Phytolitharien 6 10–11.
Pearsall, D. M. (1990b). Phytolith testing of sites in the Santiago and Cayapas River drainages, Esmeraldas Province, Ecuador. Ms. on file, Department of Anthropology, University of Missouri, Columbia.
Pearsall, D. M., and Piperno, D. R. (1990a). The identification of irregular short-cell phytoliths recovered from tropical sediments. Ms. on file, University of Missouri, Columbia.
Pearsall, D. M., and Piperno, D. R. (1990b). The antiquity of maize in Ecuador: Summary and reevaluation of the evidence.American Antiquity 55 324–337.
Piperno, D. R. (1984). A comparison and differentiation of phytoliths from maize and wild grasses: Use of morphological criteria.American Antiquity 49 361–383.
Piperno, D. R. (1985a). Phytolith analysis and tropical paleo-ecology: Production and taxonomic significance of siliceous forms in New World plant domesticates and wild species.Review of Paleobotany and Palynology 45 185–228.
Piperno, D. R. (1985b). Phytolith taphonomy and distributions in archaeological sediments from Panama.Journal of Archaeological Science 12 247–267.
Piperno, D. R. (1985c). Phytolith records from prehistoric agricultural fields in the Calima region.Pro Calima 4 37–40.
Piperno, D. R. (1985d). Phytolithic Analysis of Geological Sediments from Panama.Antiquity LIX 13–19.
Piperno, D. R. (1988).Phytolith Analysis: An Archaeological and Geological Perspective, Academic Press, San Diego.
Piperno, D. R. (1989). The occurrence of phytoliths in the reproductive structures of selected tropical angiosperms and their significance in tropical paleoecology, paleoethnobotany and systematics.Review of Palaeobotany and Palynology 61 147–173.
Piperno, D. R. (1990a). Aboriginal agriculture and land usage in the Amazon Basin, Ecuador.Journal of Archaeological Science 17 665–677.
Piperno, D. R. (1990b). The use of modern phytolith records in paleoecology. Ms. on file, MASCA, University Museum, Univrsity of Pennsylvania, Philadelphia.
Piperno, D. R. (1991a). Phytoliths. In Sheets, P. (ed.),Archaeology and Volcanism in the Cordillera de Tilaran, Costa Rica, University of Texas Press, Austin (in press).
Piperno, D. R. (1991b). The origins and development of food production in Pacific Panama. In Blake, M. (ed.),The Development of Agriculture in Central and South America, Washington State University Press, Olympia (in press).
Piperno, D. R., and Pearsall, D. M. (1990a). Phytolith morphology in tropical Bambusoideae and Arundinoideae: Taxonomy, new forms, and implications for archaeological maize identification. Ms. on file, MASCA, University Museum, University of Pennsylvania, Philadelphia.
Piperno, D. R., and Pearsall, D. M. (1990b). Phytoliths in the reproductive structures ofZea andTripsacum: Implications for the study of maize evolution. Ms. on file, MASCA, University Museum, University of Pennsylvania, Philadelphia.
Piperno, D. R., Bush, M. B., and Colinvaux, P. A. (1990). Paleoenvironments and human occupation in late-glacial Panama.Quaternary Research 33 108–116.
Piperno, D. R., Bush, M. B., and Colinvaux, P. A. (1991a). Paleoecological perspectives on human adaptation in central Panama. I. The Pleistocene.Geoarchaeology (in press).
Piperno, D. R., Bush, M. B., and Colinvaux, P. A. (1991b). Paleoecological perspectives on human adaptation in central Panama. II. The Holocene.Geoarchaeology (in press).
Piperno, D. R., Husum-Clary, K., Cooke, R., Ranere, A. J., and Weiland, D. (1985). Preceramic maize in central Panama: Phytolith and pollen evidence.American Anthropologist 87 871–878.
Powers, A. H., Padmore, J., and Gilbertson, D. D. (1989). Studies of late prehistoric and modern opal phytoliths from coastal sand dunes and machair in northwest Britain.Journal of Archaeological Science 16 27–45.
Rands, R. L., and Bargielski (1986). Chemistry, color, and phytoliths: Mixed level ceramic research in the Palenque region, Mexico. Paper read at the 51st annual meeting of the Society for American Archaeology, New Orleans.
Ranere, A. J., and Cooke, R. G. (1991). Paleo-Indian occupation in the Central American tropics. In Bonnichsen, R., and Fladmark, K. (eds.),Clovis, Origins and Human Adaptation, Center for the Study of the First Americans, Orono, Maine (in press).
Roosevelt, A. (1980).Parmana: Prehistoric Maize and Manioc Subsistence along the Amazon and Orinoco. Academic Press, New York.
Roosevelt, A. (1989). Resource management in Amazonia before the Conquest. In Posey, D. A., and Balee, W. (eds.),Resource Management in Amazonia: Indigenous and Folk Strategies. Advances in Economic Botany7 30–62, New York Botanical Garden.
Rosen, A. (1987). Phytolith studies at Shiqmim. In Levy, T. E. (ed.),Shiqmim I: Studies Concerning Chalcolithic Societies in the Northern Negev Desert, Israel (1982–1984), BAR International Series 356, pp. 243–249.
Rovner, I. (1988). Macro- and micro-ecological reconstruction using plant opal phytolith data from archaeological sediments.Geoarchaeology 3 155–163.
Rowlett, R. M., and Pearsall, D. M. (1990). Archaeological age determinations derived from opal phytoliths by Thermoluminescence. Ms. on file, Department of Anthropology-American Archaeology, University of Missouri, Columbia.
Russ, J. C., and Rovner, I. (1989). Stereological identification of opal phytolith populations from wild and cultivatedZea.American Antiquity 54 784–792.
Siemens, A., Hebda, R., Navarrete Hernandez, M., Piperno, D. R., Stein, J., and Zola, M. (1988). Evidence for a cultivar and a chronology from patterned wetlands in central Veracruz, Mexico.Science 242 105–107.
Soderstrom, T. R., and Ellis, R. P. (1987). The position of bamboo genera and allies in a system of grass classification. In Soderstrom, T. R., Hilu, K. W., Campbell, C. S., and Barkworth, M. E. (eds.),Grass Systematics and Evolution, Smithsonian Institution Press, Washington, D.C.
Stothert, K. E. (1985). The preceramic Las Vegas culture of coastal Ecuador.American Antiquity 50 613–637.
Sturtevant, W. C. (1969). History and ethnography of some West Indian starches. In Ucko, P. J., and Dimbleby, G. W. (eds.),The Domestication and Exploitation of Plants and Animals, Aldine, Chicago, pp. 177–199.
Tomlinson, P. B. (1961).Anatomy of the Monocotyledons. II. Palmae, Oxford University Press, London.
Tomlinson, P. B. (1969).Anatomy of the Monocotyledons. III. Commelinales-Zingiberales, Oxford University Press, London.
Weiland, D. (1984). Prehistoric settlement patterns in the Santa Maria drainage of Panama: A preliminary analysis. In Lange, F. (ed.),Recent Advances in Isthmian Archaeology, British Archaeological Reports, International Series 212, Oxford, pp. 31–53.
Weiland, D. (1991). Preceramic settlement patterns in the Santa Maria drainage of Panama: A preliminary analysis. In Correal, G. and Cooke, R. (eds.)Cazadores y Recolectores en Centro-y Sudamerica, British Archaeological Reports, Oxford.
Wilding, L. P. (1967). Radiocarbon dating of biogenetic opal.Science 184 899–901.
Wright, H. (1967). The use of surface samples in quaternary pollen analysis.Review of Palaeobotany and Palynology 2 321–330.
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Piperno, D.R. The status of phytolith analysis in the American tropics. J World Prehist 5, 155–191 (1991). https://doi.org/10.1007/BF00974678
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DOI: https://doi.org/10.1007/BF00974678