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Body-size trends in Peromyscus (Rodentia: Cricetidae) on Vancouver Island, Canada, with comments on relictual gigantism

Published online by Cambridge University Press:  10 May 2016

Martina L. Steffen*
Affiliation:
Archaeology, Royal BC Museum, Victoria, British Columbia V8W 9W2, Canada. E-mail: [email protected]

Abstract

Large body size in Keen’s mouse, Peromyscus keeni, has been regarded as a relictual character that developed in times of geographic separation from P. maniculatus. However, body-size changes in Keen’s mouse have not been studied in detail. To address this problem the present paper compares the size of ancient and modern Peromyscus specimens from Vancouver Island. Results indicate that Late Pleistocene Peromyscus from Arch-2 Cave and early Holocene Peromyscus from Pellucidar Cave are significantly larger than those of modern P. maniculatus and P. keeni. Morphology and linear discriminant analyses support tentative assignment of several ancient specimens to P. keeni. Radiocarbon age estimates of 11,960±45 BP (14,004–13,637 cal BP) on a small mammal bone and 12,370±35 BP (14,695–14,148 cal BP) on Ursus arctos from Arch-2 Cave place these faunas on the island as relative sea level fell from a postglacial highstand, suggesting a local source for faunas with limited over-water dispersal capacities. Results of this study are consistent with insular relictual gigantism in Keen’s mouse, although some modification of the original hypothesis is needed to explain the smaller size of modern than ancient mice.

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Articles
Copyright
Copyright © 2016 The Paleontological Society. All rights reserved 

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References

Literature Cited

Abrogast, B. S., Browne, R. A., and Weigl, P. D.. 2001. Evolutionary genetics and Pleistocene biogeography of North American tree squirrels (Tamiasciurus). Journal of Mammalogy 82:302319.Google Scholar
Allard, M. W., and Greenbaum, I. F.. 1988. Morphological variation and taxonomy of chromosomally differentiated Peromyscus from the Pacific Northwest. Canadian Journal of Zoology 66:27342739.Google Scholar
Allard, M. W., Gunn, S. J., and Greenbaum, I. F.. 1987. Mensural discrimination of chromosomally characterized Peromyscus oreas and P. maniculatus. Journal of Mammalogy 68:402406.Google Scholar
Al-Suwaidi, M., Ward, B. C., Wilson, M. C., Hebda, R. J., Nagorsen, D. W., Marshall, D., Ghaleb, D., Wigen, R., and Enkin, R. J.. 2006. Late Wisconsinan Port Eliza Cave deposits and their implications for human coastal migration. Geoarchaeology 21:307332.Google Scholar
Anderson, R. M. 1934. Sorex palustris brooksi, a new shrew from Vancouver Island. Canadian Field Naturalist 48:134.Google Scholar
Beaumont, W., Beverly, R., Southon, J., and Taylor, R. E.. 2010. Bone preparation at the KKCAMS laboratory. Nuclear Instruments and Methods in Physics Research B 268:906909.Google Scholar
Blacklaws, R. W. 1979. Excavations at Esquimalt Lagoon: a contribution to Straits Salish prehistory. M.S. thesis. Simon Fraser University, Burnaby, B.C.Google Scholar
Blois, J. L., McGuire, J. L., and Hadly, E. A.. 2010. Small mammals diversity loss in response to late-Pleistocene climatic change. Nature 465:771774.Google Scholar
Blumenbach, J. F. 1779. Handbuch der Naturgeschichte. Johann Christian Dieterich, Göttingen.Google Scholar
Bowdich, T. E. 1821. An analysis of the natural classifications of Mammalia for the use of students and travellers. J. Smith, Paris.Google Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1), 337360.Google Scholar
Brown, T. A., Nelson, D., Vogel, D. E., and Southon, J. R.. 1988. Improved collagen extraction by modified Longin method. Radiocarbon 30:171177.Google Scholar
Carleton, M. D. 1989. Systematics and evolution. Pp. 7141 in D. L. Kirkland and J. Layne, eds. Advances in the study f Peromyscus (Rodentia). Texas Tech University Press, Lubbock.Google Scholar
Case, T. J. 1978. A general explanation for insular body size trends in terrestrial vertebrates. Ecology 59:118.Google Scholar
Campbell, W. R, Dawe, N. K., McTaggart-Cowan, I., Cooper, J. M., Kaiser, G. W., Stewart, A., and McNall, M.. 2001. Birds of British Columbia, Vol. 4. Royal BC Museum and Environment Canada, Victoria.Google Scholar
Churcher, C. S. 1999. Grizzly or brown bear Ursus arctos. Pp. 160162 in D. E. Wilson and S. Ruff, eds. The Smithsonian book of North American mammals. Smithsonian Institution Press, Washington, D.C.Google Scholar
Clague, J. J. 1981. Late Quaternary geology and geochronology of British Columbia, Part 2. Summary and discussion of radiocarbon-dated Quaternary history. Geological Survey of Canada Paper 41:80–35.Google Scholar
Clague, J. J. 1983. Glacio-isostatic effects of the Cordilleran Ice Sheet, British Columbia, Canada. Pp. 321343 in D. Smith and A. Dawson, eds. Shorelines and isostasy. Academic, London.Google Scholar
Clague, J. J., and James, T. S.. 2002. History and isostatic effects of the last ice sheet in southern British Columbia. Quaternary Science Reviews 21:7187.Google Scholar
Clague, J. J., and Ward, B.. 2011. Pleistocene glaciation of British Columbia. Developments in Quaternary Science 15:563573.Google Scholar
Cosma, T. N., Hendy, I. L., and Chang, A. S.. 2008. Chronological constraints on Cordilleran Ice Sheet glaciomarine sedimentation from core MD02-2496 off Vancouver Island (western Canada). Quaternary Science Reviews 27:941955.Google Scholar
Dice, L. R. 1949. Variation of Peromyscus manicuatus in parts of western Washington and adjacent Oregon. Contributions from the Laboratory of Vertebrate Biology, University of Michigan 44:134.Google Scholar
Fischer von Waldheim, G. 1814. Zoognosia tabulis synopticis illustrata, 3:3. Nicolai Sergeidis Vsevolozsky, Moscow.Google Scholar
Fischer von Waldheim, G. 1817. Adversaria zoologica. Mémoires de la Société Impériale des Naturalistes de Moscow 5:357472.Google Scholar
Foster, B. J. 1964. Evolution of mammals on islands. Nature 202:234235.Google Scholar
Gloger, C. W. L. 1841. Gemeinnütziges Hand- und Hilfsbuch der Naturgeschichte. Für gebildete Leser aller Stände. Band I. Schulz, Breslau, Poland.Google Scholar
Goodwin, H. T. 2004. Systematics and faunal dynamics of fossil squirrels (Rodentia, Sciuridae) from Porcupine Cave, Park County, Colorado. Pp. 172192 in A. D. Barnoski, ed. Biodiversity response to climate change in the middle Pleistocene. University of California Press, Berkeley.Google Scholar
Gray, J. E. 1821. On the natural arrangement of vertebrose animals. London Medical Repository 15:296310.Google Scholar
Gunn, S. J., and Greenbaum, I. F.. 1986. Systematic implications of karyotypic variation in mainland Peromyscus from the Pacific Northwest. Journal of Mammalogy 67:297304.Google Scholar
Haeckel, E. 1874. Anthropogenie oder Entwickelungsgeschichte des Menschen. Engelmann, Leipzig.Google Scholar
Hall, E. R. 1981. The mammals of North America. Wiley, New York.Google Scholar
Hanson, D. K. 1991. Late prehistoric subsistence in the Strait of Georgia region of the Northwest Coast. Ph.D. dissertation. Simon Fraser University, Burnaby, B.C.Google Scholar
Harington, C. R. 1996. Quaternary animals: vertebrates of the ice age. Pp. 259273 in R. Ludvigsen, ed. Life in stone: a natural history of British Columbia’s fossils. UBC Press, Vancouver.Google Scholar
Harris, A. H. 1985. Late Pleistocene vertebrate paleoecology of the West. University of Texas Press, Austin.Google Scholar
Hebda, R. J., and Spalding, D. A. E.. 1996. Fossils and museums: windows into ancient worlds. Pp. 1424 in R. Ludvigsen, ed. Life in stone: a natural history of British Columbia’s fossils. British Columbia Press, Vancouver.Google Scholar
Hetherington, R., Barrie, J. V., Reid, R. G. B., MacLeod, R., Smith, D. J., James, T. S., and Kung, R.. 2003. Late Pleistocene coastal paleogeography of the Queen Charlotte Islands, British Columbia, Canada, and its implications for terrestrial biogeography and early postglacial human occupation. Canadian Journal of Earth Sciences 20:17551766.Google Scholar
Heusser, C. J. 1971. North Pacific coastal refugia. Ecology 52:727728.Google Scholar
Hogan, K. M., Hedin, M. C., Koh, H. S., Davis, S. K., and Greenbaum, I. F.. 1993. Systematic and taxonomic implications of karyotypic, electrophoretic, and mitochondrial-DNA variation in Peromyscus from the Pacific Northwest. Journal of Mammalogy 74:819831.Google Scholar
Hooper, E. T. 1957. Dental patterns in mice of the genus Peromyscus. Miscellaneous Publications, Museum of Zoology, University of Michigan, Ann Arbor.Google Scholar
Howes, D. E. 1983. Late Quaternary sediments and geomorphic history of northern Vancouver Island, British Columbia. Canadian Journal of Earth Sciences 20:5765.Google Scholar
Hutchinson, I., James, T. S., Clague, J. J., Barrie, J. V., and Conway, K. W.. 2004. Reconstruction of late Quaternary sea level change in southwestern British Columbia from sediments in isolation basins. Boreas 33:183194.Google Scholar
Huxley, T. H. 1880. On the application of the laws of evolution to the arrangement of the Vertebrata, and more particularly of the Mammalia. Proceedings of the Zoological Society of London 43:649662.Google Scholar
James, T., Gowan, E. J., Hutchinson, I., Clague, J. J., Barrie, V. J., and Conway, K. W.. 2009. Sea level change and paleogeographic reconstructions, southern Vancouver Island, British Columbia, Canada. Quaternary Science Reviews 28:12001216.Google Scholar
James, T. S., Hutchinson, I., Barrie, J. V., Conway, K. W., and Mathews, D.. 2005. Relative sea level change in the northern Strait of Georgia, British Columbia. Géographie physique et Quaternaire 59:113127.Google Scholar
Kurtén, B. 1967. Pleistocene bears of North America, Part 2. Genus Arctodus, short-faced bears. Acta Zoologica Fennica 117:160.Google Scholar
Lacourse, T. 2005. Late Quaternary dynamics of forest vegetation on northern Vancouver Island, British Columbia, Canada. Quaternary Science Reviews 24:105121.Google Scholar
Lindsay, E.H., and Czaplewski, N.J.. 2011. New rodents (Mammalia, Rodentia, Cricetidae) from the Verde Fauna of Arizona and the Maxum Fauna of California, USA, early Blancan Land Mammal Age. Palaeontologia Electronica 14(3), 29A. palaeo-electronica.org/2011_3/5_lindsay/index.html.Google Scholar
Linnaeus, C. 1758. Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis, 10th ed. Laurentius Salvius, Stockholm.Google Scholar
Lomolino, M. V. 2005. Body size evolution in insular vertebrates: generality of the island rule. Journal of Biogeography 32:16831699.Google Scholar
Lucid, M. K., and Cook, J. A.. 2004. Phylogeography of Keen’s mouse (Peromyscus keeni) in a naturally fragmented landscape. Journal of Mammalogy 85:11491159.Google Scholar
Luternauer, J. L., Clague, J. J., Conway, K. W., Barrie, J. V., Blaise, B., and Mathews, R. W.. 1989. Late Pleistocene terrestrial deposits on the continental shelf of Western Canada: evidence for rapid sea level change at the end of the last glaciation. Geology 17:357360.Google Scholar
Lyman, R. L., Power, E., and Lyman, R. J.. 2001. Ontogeny of deer mice (Peromyscus maniculatus) and montane voles (Microtus montanus) as owl prey. American Midland Naturalist 146:7279.Google Scholar
MacArthur, R. H., and Wilson, E. O.. 1967. The theory of island biogeography. Princeton University Press, Princeton, N.J.Google Scholar
Maser, C., and Storm, R. M.. 1970. A key to Microtinae of the Pacific Northwest: Oregon, Washington, Idaho. O.S.U. Book Stores, Corvallis, Ore.Google Scholar
McTaggart-Cowan, I. 1935. A distributional study of the Peromyscus stikensis group of white-footed mice. University of California Publications in Zoology 40:429.Google Scholar
McTaggart-Cowan, I., and Guiguet, C. J.. 1965. The mammals of British Columbia, rev. ed., Handbook 11. British Columbia Provincial Museum, Victoria.Google Scholar
Merriam, C. H. 1889. Description of a new genus Phenacomys and four new species of Arvicolinae. North American Fauna 2:2745.Google Scholar
Mustoe, G. E., Harington, C. R., and Morlan, R. E.. 2005. Cedar Hollow, an early Holocene faunal site from Whidbey Island, Washington. Western North American Naturalist 65:429440.Google Scholar
Nagorsen, D. W., and Brigham, R. M.. 1993. The bats of British Columbia. Royal British Columbia Museum Handbook, Vol. 1. The Mammals of British Columbia. UBC Press, Vancouver.Google Scholar
Nagorsen, D. W., and Keddie, G.. 2000. Late Pleistocene mountain goats (Oreamnos americanus) from Vancouver Island: biogeographic implications. Journal of Mammalogy 81:666675.Google Scholar
Nixon, G. T., Kelman, M. C., Stevenson, D., Stokes, L. A., and Johnston, K. A.. 2006. Preliminary geology of the Nimpkish map area (NTS 092L/07), northern Vancouver Island, British Columbia. Pp. 135–152 in B. Grant and J. M. Newell, eds., Geological fieldwork 2005: British Columbia Ministry of Energy, Mines and Petroleum Resources Paper 2006-1.Google Scholar
Osgood, W. H. 1909. Revision of the mice of the American genus Peromyscus. North American Fauna 28:1285.Google Scholar
Porter, S. C., and Swanson, T. W.. 1998. Radiocarbon age constraints on rates of advance and retreat of the Puget Lobe of the Cordilleran Ice Sheet during the last glaciation. Quaternary Research 50:205213.Google Scholar
Reimer, P. J., Bard, E., Bayliss, A., Beck, J. W., Blackwell, P. G., Bronk Ramsey, C., Grootes, P. M., Guilderson, T. P., Haflidason, H., Hajdas, I., HattŽ, C., Heaton, T. J., Hoffmann, D. L., Hogg, A. G., Hughen, K. A., Kaiser, K. F., Kromer, B., Manning, S. W., Niu, M., Reimer, R. W., Richards, D. A., Scott, E. M., Southon, J. R., Staff, R. A., Turney, C. S. M., and van der Plicht, J.. 2013. IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0-50,000 Years cal BP. Radiocarbon 55:18691887.Google Scholar
Rhoads, S. N. 1894. Descriptions of a new subgenus and a new species of arvicoline rodents from British Columbia and Washington. Proceedings of the Academy of Natural Sciences Philadelphia 46:282288.Google Scholar
Richards, R. L., Churcher, C. S., and Turnbull, W. D.. 1996. Distribution and size variation in North American short-faced bears, Arctodus simus. Pp. 191246 in K. M. Stewart, and K. L. Seymour, eds. Palaeoecology and palaeoenvironments of Late Cenozoic mammals: tributes to the career of C. S. (Rufus) Churcher. University of Toronto Press, Toronto.Google Scholar
Roe, H. M., Doherty, C. T., Patterson, R. T., and Milne, G. A.. 2013. Isolation basin records of late Quaternary sea-level change, central mainland British Columbia, Canada. Quaternary International 310:181198.Google Scholar
Sheppe, W. 1961. Systematic and ecological relations of Peromyscus oreas and P. maniculatus. Proceedings of the American Philosophical Society 105:421446.Google Scholar
Shugar, D. H., Walker, I. J., Lian, O. B., Eamer, J. B. R., Neudorf, C., McLaren, D., and Fedje, D.. 2014. Post-glacial sea-level change along the Pacific coast of North America. Quaternary Science Reviews 97:170192.Google Scholar
Steffen, M. L., Hebda, R. J., and McLaren, D. S.. 2008. Pellucidar II Cave: paleontological recovery and archaeological potential. Poster presented at the 74th Annual Meeting of the American Archaeological Association, Vancouver.Google Scholar
Tisnérat-Laborde, N., Valladas, H., Kaltnecker, E., and Arnold, M.. 2003. AMS radiocarbon dating of bones at LSCE. Radiocarbon 45:409419.Google Scholar
Trouessart, E. L. 1880. Catalogue des mammiferes vivants et fossils. Ordre des Rongeurs. Bulletin of the Society d’Etudes Science d’Angers 10:58212.Google Scholar
Wilson, D. E., and Reeder, D. M.. eds. 2005. Mammal species of the world: a taxonomic and geographic reference, 3rd ed. Johns Hopkins University Press, Baltimore, Md.Google Scholar
Wilson, M. C., Kenady, S. M., and Schalk, R. F.. 2009. Late Pleistocene Bison antiquus from Orcas Island, Washington, and the biogeographic importance of an early postglacial land mammal dispersal corridor from the mainland to Vancouver Island. Quaternary Research 71:4961.Google Scholar
Zheng, X., Abrogast, B. S., and Kenagy, G. J.. 2003. Historical demography and genetic structure of sister species: deer mice (Peromyscus) in the North American temperate rain forest. Molecular Ecology 12:711724.Google Scholar
Zwolak, R. 2009. A meta-analysis of the effects of wildfire, clearcutting, and partial harvest on the abundance of North American small mammals. Forest Ecology and Management 258:545.Google Scholar