Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-23T01:10:42.241Z Has data issue: false hasContentIssue false

North American Pika (Ochotona princeps) as a Late Quaternary Biogeographic Indicator Species

Published online by Cambridge University Press:  20 January 2017

Abstract

Reevaluation of Quaternary sites of fossil pika (Ochotona) lends no support for the inference that Nearctic pikas were not restricted to rocky habitat. The saxicolous nature of all widespread, isolated populations of extant Nearctic pikas and their closest Palearctic sister taxa support consideration of O. princeps, and perhaps all Nearctic Quaternary Ochotona , as indicators of cool, mesic, rocky situations. As indicators of rocky microhabitat, fossil remains of O. princeps do not require that the entire region was cool and mesic, but only that suitable rocky microhabitat existed in the vicinity. Use of fossil pika dung alone as indicative of pikas in the immediate community is suspect, as the small, round, and buoyant pellets may be transported downslope by hydraulic flushing of talus habitat. Current local elevational lower limits (E) of appropriate habitat for paleoecological reconstruction at extralimital fossil sites are predicted by the equation: E(m) = 14087 - (56.6)°N - (82.9)°W.

Type
Articles
Copyright
University of Washington

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

Anthony, A. W. (1923). Periodical emigrations of mammals. Journal of Mammalogy 4, 6061.CrossRefGoogle Scholar
Broadbooks, H. E. (1965). Ecology and distribution of the pikas of Washington and Alaska. American Midland Naturalist 73, 299335.CrossRefGoogle Scholar
Chomko, S. A. (1978). Paleoenvironmental studies at Prospects Shelter, Wyoming. AMQUA Abstracts 1978, 193.Google Scholar
Corbet, G. B. (1978). The mammals of the Palaearctic region: A taxo-nomic review. British Museum (Natural History) 788, 1314.Google Scholar
Emslie, S. D. (1986). Late Pleistocene vertebrates from Gunnison County, Colorado. Journal of Paleontology 60, 170176.CrossRefGoogle Scholar
Goodwin, H. T., and Reynolds, R. E. (1989). Late Quaternary Sciu-ridae from Kokoweef Cave, San Bernardino Co., California. Bulletin of the Southern California Academy of Sciences 88, 2132.Google Scholar
Grayson, D. K. (1977). On the Holocene history of some Great Basin lagomorphs. Journal of Mammalogy 58, 507513.Google Scholar
Grayson, D. K. (1983). The paleontology of Gatecliff Shelter: Small mammals. In “The Archaeology of Monitor Valley, 2. Gatecliff Shelter” (Thomas, D. H., Ed.), pp. 99126. American Museum of Natural History Anthropological Papers 59, 1552.Google Scholar
Grayson, D. K. (1987). The biogeographic history of small mammals in the Great Basin: Observations on the last 20,000 years. Journal of Mammalogy 68, 359375.CrossRefGoogle Scholar
Grinnell, J. (1917). Field tests of theories concerning distributional control. American Naturalist 51, 115128.Google Scholar
Gruhn, R. (1961). The archaeology of Wilson Butte Cave, south-central Idaho. Occasional Papers of the Idaho State College Museum 6, 1198.Google Scholar
Guilday, J. E. (1979). Eastern North American Pleistocene Ochotona (Lagomorpha: Mammalia). Annals of the Carnegie Museum 48, 435444.Google Scholar
Guilday, J. E., and Adam, E. K. (1967). Small mammal remains from Jaguar Cave, Lemhi County, Idaho. Tebiwa 10, 2636.Google Scholar
Harris, A. H. (1985), “Late Pleistocene vertebrate paleoecology of the West.” University of Texas Press, Austin.Google Scholar
Heaton, T. H. (1985). Quaternary paleontology and paleoecology of Crystal Ball Cave, Millard County, Utah: With emphasis on mammals and description of a new species of fossil skunk. The Great Basin Naturalist 45, 337390.Google Scholar
Krear, H. R. (1965). “An ecological and ethological study of the pika (Ochotona princeps saxatilis Bangs) in the Front Range of Colorado.” Unpublished Ph.D. dissertation, University of Colorado, Boulder.Google Scholar
Küchler, A. W. (1970). Potential natural vegetation (revised 1985). In “National Atlas of the United States of America,” pp. 8992. U.S. Department of the Interior, U.S. Geological Survey.Google Scholar
Lowe, C. H. (1964). “Arizona’s Natural Environment.” Univ. of Arizona Press, Tucson.Google Scholar
Lutton, L. M. (1975). Notes on territorial behavior and response to predators of the pika, Ochotona princeps. Journal of Mammalogy 56, 231234.CrossRefGoogle Scholar
Martin, L. D., and Gilbert, B. M. (1978). Excavations at Natural Trap Cave. Transactions of the Nebraska Academy of Science 6, 107116.Google Scholar
Mead, J. I. (1987). Quaternary records of pika, Ochotona, in North America. Boreas 16, 165171.Google 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. Transactions of the San Diego Natural History Museum 20, 126.Google Scholar
Mehringer, P. J. Jr., and Ferguson, C. W. (1969). Pluvial occurrence of bristlecone pine (Pinus aristata) in a Mohave Desert mountain range. Journal of Arizona Academy of Sciences 5, 284292.Google Scholar
NOAA (1990). “Climatic Atlas of the United States.” U.S. Department of Commerce.Google Scholar
Porter, S. C. (1989). Some geological implications of average Quaternary glacial conditions. Quaternary Research 32, 245261.Google Scholar
Quade, J. (1986). Late Quaternary geology of the Corn Creek Springs area, southern Nevada. Quaternary Research 26, 340357.Google Scholar
Richmond, G. M. (1962). Quaternary stratigraphy of the La Sal Mountains, Utah. U.S. Geological Survey Professional Paper 324, 1135.Google Scholar
Smith, A. T. (1974a). The distribution and dispersal of pikas: Influences of behavior and climate. Ecology 55, 13681376.Google Scholar
Smith, A. T. (1974b). The distribution and dispersal of pikas: Consequences of insular population structure. Ecology 55, 11121119.CrossRefGoogle Scholar
Smith, A. T. Formozov, N. A. Hoffmann, R. S. Zheng Changlin, , and Erbajeva, M. A. (1990). The pikas. In “Rabbits, Hares, and Pikas: Status Survey and Conservation Action Plan” (Chapman, J. A. and Flux, J. E. C, Eds.), pp. 1460. International Union for Conservation of Nature and Natural Resources, Gland, Switzerland.Google Scholar
Smith, A. T., and Weston, M. L. (1990). Ochotona princeps. Mamma-Han Species 352, 18.Google Scholar
Spaulding, W. G. (1981). “The Late Quaternary Vegetation of a Southern Nevada Mountain Range.” Unpublished Ph.D. dissertation, University of Arizona, Tucson.Google Scholar
Sullivan, R. M. (1988). “Biogeography of Southwestern Montane Mammals: An Assessment of the Historical and Environmental Predictions,” Unpublished Ph.D. dissertation, University of New Mexico, Albuquerque.Google Scholar
Tapper, S. C. (1973). “The Spatial Organisation of Pikas (Ochotona), and Its Effect on Population Recruitment.” Unpublished Ph.D. dissertation, University of Alberta, Edmonton.Google Scholar
Thompson, R. S. (1984). “Late Pleistocene and Holocene Environ-ments in the Great Basin.” Unpublished Ph.D. dissertation, Univer-sity of Arizona, Tucson.Google Scholar
Thompson, R. S., and Mead, J. I. (1982). Late Quaternary environ-ments and biogeography in the Great Basin. Quaternary Research 17, 3955.Google Scholar
Voorhies, M. R. (1986). Ochotona in the late Pleistocene of the Niobrara Valley, Nebraska: Paleoenvironmental significance. Current Research in the Pleistocene 3, 7677.Google Scholar
Voorhies, M. R., and Corner, R. G. (1985). Small mammals with boreal affinities in late Pleistocene (Rancholabrean) deposits of eastern and central Nebraska. Institute for Tertiary-Quaternary Studies-TER-QUA Symposium Series 1, 125142.Google Scholar
Wilkinson, L. (1990). “SYSTAT: The System for Statistics.” SYSTAT, Inc., Evanston, IL.Google Scholar
Ziegler, A. C. (1963). Unmodified mammal and bird remains from Deer Creek Cave, Elko County, Nevada. In “Deer Creek Cave, Elko County, Nevada” (Shutler, M. E. and Shutler, R. Jr., Eds.), pp. 1524. Nevada State Museum Anthropological Paper 11, 170.Google Scholar