Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-22T23:05:29.622Z Has data issue: false hasContentIssue false
  • English
  • Français

Spatial and Temporal Distribution of Radiocarbon Ages on Rodent Middens from the Southwestern United States

Published online by Cambridge University Press:  18 July 2016

Robert H Webb
Robert H Webb*
Affiliation:
U S Geological Survey, 300 W Congress Street, FB-44 Tucson, Arizona 85701
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The analysis of rodent middens, principally deposited by packrats (Neotoma sp), has rapidly become the most important paleoecologic and paleoclimatologic tool in the southwestern United States. The recent discovery of rodent middens created by stick-nest rats (Leporillus sp) and rock wallabies (Petrogale sp) in Australia (Green et al, 1983; P S Martin, oral commun, 1984) and by dassie rats (Petromus typicus) in South Africa (L Scott, oral commun, 1984) portends the use of midden analysis in arid regions worldwide. Several recent reviews of southwestern paleoecology (eg, Spaulding et al, 1983) rely heavily on rodent middens for ecologic and climatic reconstructions.

Type
Research Article
Information
Radiocarbon , Volume 28 , Issue 1 , 1986 , pp. 1 - 8
Copyright
Copyright © The American Journal of Science 

References

BIBLIOGRAPHY

Betancourt, J L, 1984, Late Quaternary plant zonation and climate in Southeastern Utah: Great Basin Naturalist, v 44, p 135.Google Scholar
Betancourt, J L and Davis, O K, 1984, Packrat middens from Canyon de Chelley, northeastern Arizona, paleoecological and archaeological implications: Quaternary Research, v 21, p 5664.CrossRefGoogle Scholar
Betancourt, J L, Martin, P S and Van Devender, T R, 1983, Fossil packrat middens from Chaco Canyon, New Mexico, cultural and ecological significance, in Wells, S G, Love, D and Gardner, T W, eds, Chaco Canyon Country, a field guide to the geomorphology, Quaternary geology, paleoecology, and environmental geology of northwestern New Mexico: 1983 Field Trip Guidebook, Am Geomorphol Field Group, p 207217.Google Scholar
Cole, K, 1982, Late Quaternary zonation of vegetation in the eastern Grand Canyon: Science, v 217, p 11421145.CrossRefGoogle ScholarPubMed
Cole, K, 1983, Late Pleistocene vegetation of Kings Canyon, Sierra Nevada, California: Quaternary Research, v 19, p 117129.CrossRefGoogle Scholar
Cole, K L and Webb, R H, 1985, Late Holocene vegetation changes in Greenwater Valley, Mojave Desert, California: Quaternary Research, v 23, p 227235.Google Scholar
Donahue, D J, Jull, A J T, Zabel, T H and Damon, P A, 1983, The use of accelerators for archaeological dating: Nuclear Instruments & Methods, v 218, p 425429.CrossRefGoogle Scholar
Green, N, Caldwell, J, Hope, J and Luly, J, 1983, Pollen from an 1800 year old stick-nest rat (Leporillus sp) midden from Gnalta, western New South Wales: Quaternary Australasia, v 1, p 3141.Google Scholar
Haan, C T, 1977, Statistical methods in hydrology: Ames, Iowa State Univ Press, 378 p.Google Scholar
King, T M Jr, 1976, Late Pleistocene-Early Holocene history of coniferous woodlands in the Lucerne Valley region, Mojave Desert, California: Great Basin Naturalist, v 36, p 227238.Google Scholar
King, J E and Van Devender, T R, 1977, Pollen analysis of fossil packrat middens from the Sonoran Desert: Quaternary Research, v 8, p 191204.Google Scholar
Lanner, R M and Van Devender, T R, 1981, Late Pleistocene pinon pines in the Chihuahuan Desert: Quaternary Research, v 15, p 278290.Google Scholar
Leskinen, P H, 1975, Occurrence of oaks in Late Pleistocene vegetation in the Mojave Desert of Nevada: Madrono, v 23, p 234235.Google Scholar
Mead, J I and Phillips, A M III, 1981, The Late Pleistocene and Holocene fauna and flora of Vulture Cave, Grand Canyon, Arizona: SW Naturalist, v 26, p 257288.CrossRefGoogle Scholar
Mead, J I, Thompson, R S and Long, A, 1978, Arizona radiocarbon dates IX: Carbon isotope dating of packrat middens: Radiocarbon, v 20, p 171191.CrossRefGoogle Scholar
Mead, J I, Thompson, R S and Van Devender, T R, 1982, Late Wisconsinan and Holocene fauna from Smith Creek Canyon, Snake Range, Nevada: San Diego Soc Nat Hist Trans, v 20, p 126.CrossRefGoogle Scholar
Phillips, A M III and Van Devender, T R, 1974, Pleistocene packrat middens from the lower Grand Canyon of Arizona: Arizona Acad Sci Jour, v 9, p 117119.CrossRefGoogle Scholar
Schmutz, E M, Dennis, A E, Harlan, A, Hendricks, D, and Zauderer, J, 1976, An ecological survey of Wide Rock Butte in Canyon de Chelley National Monument, Arizona: Arizona Acad Sci Jour, v 11, p 114125.CrossRefGoogle Scholar
Spaulding, W G, 1980, The presettlement vegetation of the California Desert: Riverside, California, unpub BLM rept, 97 p.CrossRefGoogle Scholar
Spaulding, W G, 1983a, Vegetation and climate of the last 45,000 years in the vicinity of the Nevada Test site, south-central Nevada: USGS open-file rept 83–535, 205 p.CrossRefGoogle Scholar
Spaulding, W G, 1983b, Late Wisconsin macrofossil records of desert vegetation in the American Southwest: Quaternary Research, v 19, p 256264.Google Scholar
Spaulding, W G, Leopold, E B and Van Devender, T R, 1983, Late Wisconsin paleoecology of the American Southwest, in Porter, S C, ed, Late-Quaternary environments of the United States, Vol 1, The Late Pleistocene: Minneapolis, Univ Minnesota Press, p 259293.Google Scholar
Stuiver, M, 1982, A high-precision calibration of the AD radiocarbon time scale: Radiocarbon, v 24, p 126.CrossRefGoogle Scholar
Thompson, R S (ms), 1984, Late Pleistocene and Holocene environments in the Great Basin: PhD dissert, Univ Arizona, Tucson, 256 p.Google Scholar
Thompson, R S and Mead, J I, 1982, Late Quaternary environments and biogeography in the Great Basin: Quaternary Research, v 17, p 3955.Google Scholar
Van Devender, T R, 1977, Holocene woodlands in the southwestern deserts: Science, v 198, p 189192.Google Scholar
Van Devender, T R, 1980, Holocene plant remains from Rocky Arroyo and Last Chance Canyon, Eddy County, New Mexico: SW Naturalist, v 25, p 361372.CrossRefGoogle Scholar
Van Devender, T R, 1981, Late Holocene plant records from the Dolores River area, Montezuma County, Colorado. Section 5f, in Benz, B, Clay, V L, Van Devender, T R, Glaser, T L, Petersen, K L and Robinson, W J, eds, Laboratory and field studies of the environmental studies group—1980: Dolores Archaeol Progress Tech Repts IX (1), US Bureau Reclaimation contract #8-07-40-50562, Salt Lake City, Utah. Google Scholar
Van Devender, T R, Betancourt, J L and Wimberly, M, 1984, Biogeographic implications of a packrat midden sequence from the Sacramento Mountains, south-central New Mexico: Quaternary Research, v 22, p 344360.Google Scholar
Van Devender, T R and Everitt, B L, 1977, The Latest Pleistocene and recent vegetation of the Bishop's Cap, south-central New Mexico: SW Naturalist, v 22, p 337352.Google Scholar
Van Devender, T R, Freeman, C E and Worthington, R D, 1978, Full-glacial and recent vegetation of Livingston Hills, Presidio County, Texas: SW Naturalist, v 23, p 289302.CrossRefGoogle Scholar
Van Devender, T R and King, J E, 1971, Late Pleistocene vegetational records in western Arizona: Arizona Acad Sci Jour, v 6, p 240244.CrossRefGoogle Scholar
Van Devender, T R and Riskind, D H, 1979, Late Pleistocene and early Holocene plant remains from Hueco Tanks State Historical Park, the development of a refugium: SW Naturalist, v 24, p 127140.Google Scholar
Van Devender, T R and Spaulding, W G, 1979, Development of vegetation and climate in the southwestern United States: Science, v 204, p 701710.CrossRefGoogle ScholarPubMed
Van Devender, T R, Spaulding, W G and Phillips, A M III, 1979, Late Pleistocene plant communities in the Guadalupe Mountains, Culbertson County, Texas, in Genoways, H H and Baker, R J, eds, Biological investigations in the Guadalupe Mountains National Park, Texas: Washington, D C, Natl Park Serv Trans Proc ser no. 4, p 1330.Google Scholar
Van Devender, T R and Toolin, L J, 1983, Late Quaternary vegetation of the San Andres Mountains, Sierra County, New Mexico, in Eidenbach, P L, ed, The prehistory of Rhodes Canyon, survey and mitigation: Human Systems Research, Inc, Tularosa, New Mexico, p 3354.Google Scholar
Wells, P V, 1974, Postglacial origin of the present Chihuahuan Desert less than 11,500 years ago, in Wauer, R H and Riskind, D H, eds, Transactions of a symposium on the biological resources of the Chihuahuan Desert region, United States and Mexico: Washington, DC, Natl Park Serv Trans Proc ser no. 3, p 6783.Google Scholar
Wells, P V, 1979, An equable glaciopluvial in the West, pleniglacial evidence for increased precipitation in a gradient from the Great Basin to the Sonoran and Chihuahuan Deserts: Quaternary Research, v 12, p 311325.CrossRefGoogle Scholar
Wells, P V, 1983, Paleobiogeography of montane islands in the Great Basin since the last glaciopluvial: Ecol Mono, v 53, p 341382.CrossRefGoogle Scholar