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Origins and antiquity of the island fox (Urocyon littoralis) on California's Channel Islands

Published online by Cambridge University Press:  20 January 2017

Torben C. Rick*
Affiliation:
Department of Anthropology, National Museum of Natural History, Smithsonian Institution, Washington D.C. 20013-7012, USA
Jon M. Erlandson
Affiliation:
Museum of Natural and Cultural History, University of Oregon, Eugene 97403-1224, USA Department of Anthropology, University of Oregon, Eugene, OR 97403-1218, USA
René L. Vellanoweth
Affiliation:
Department of Anthropology, California State University, Los Angeles, CA 90032, USA
Todd J. Braje
Affiliation:
Department of Anthropology, Humboldt State University, Arcata, CA 95521, USA
Paul W. Collins
Affiliation:
Department of Vertebrate Zoology, Santa Barbara Museum of Natural History, Santa Barbara, CA 93105, USA
Daniel A. Guthrie
Affiliation:
Joint Science Department, Claremont Colleges, Claremont, CA 91711-5916, USA
Thomas W. Stafford Jr.
Affiliation:
Stafford Research, Inc., 200 Acadia Avenue, Lafayette, CO 80026, USA
*
Corresponding author. Fax: +1 (202)357 2208. E-mail address:rickt@si.edu

Abstract

The island fox (Urocyon littoralis) is one of few reportedly endemic terrestrial mammals on California's Channel Islands. Questions remain about how and when foxes first colonized the islands, with researchers speculating on a natural, human-assisted, or combined dispersal during the late Pleistocene and/or Holocene. A natural dispersal of foxes to the northern Channel Islands has been supported by reports of a few fox bones from late Pleistocene paleontological localities. Direct AMS 14C dating of these “fossil” fox bones produced dates ranging from ∼ 6400 to 200 cal yr BP, however, postdating human colonization of the islands by several millennia. Although one of these specimens is the earliest securely dated fox from the islands, these new data support the hypothesis that Native Americans introduced foxes to all the Channel Islands in the early to middle Holocene. However, a natural dispersal for the original island colonization cannot be ruled out until further paleontological, archaeological, and genetic studies (especially aDNA [ancient DNA]) are conducted.

Type
Articles
Copyright
University of Washington

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References

Agenbroad, L.D. New pygmy mammoth (Mammuthus exilis) localities and radiocarbon dates from San Miguel, Santa Rosa, and Santa Cruz Islands. Weigand, P. Contributions to the Geology of the Northern Channel Islands, Southern California. (1998). Pacific Section American Association of Petroleum Geologists, Bakersfield. 169175.Google Scholar
Agenbroad, L.D. California's Channel Islands: a one way trip in the tunnel of doom. Browne, D., Mitchell, K., and Chaney, H. Proceedings of the Fifth California Islands Symposium. (2002). Santa Barbara Museum of Natural History, Santa Barbara. 16.Google Scholar
Agenbroad, L.D. New localities, chronology, and comparisons for the pygmy mammoth (Mammuthus exilis): 1994–1998. Browne, D., Mitchell, K., and Chaney, H. Proceedings of the Fifth California Islands Symposium. (2002). Santa Barbara Museum of Natural History, Santa Barbara. 518524.Google Scholar
Agenbroad, L.D., Johnson, J.R., Morris, D., Stafford, T.W. Jr. Mammoths and humans as late Pleistocene contemporaries on Santa Rosa Island. Garcelon, D., and Schwemm, C. Proceedings of the Sixth California Islands Symposium. National Park Service Technical Publication CHIS-05-01. (2005). Institute for Wildlife Studies, Arcata. 37.Google Scholar
Aguilar, A., Roemer, G., Debenham, S., Binns, M., Garcelon, D., and Wayne, R.K. High MHC diversity maintained by balancing selection in an otherwise genetically monomorphic mammal. Proceedings of the National Academy of Sciences 101, (2004). 34903494.CrossRefGoogle Scholar
Anderson, R.P., Handley, C.O. Jr. Dwarfism in insular sloths: biogeography, selection, and evolutionary rate. Evolution 56, (2002). 10451058.Google ScholarPubMed
Arnold, J.E. Craft specialization in the prehistoric Channel Islands, California. University of California Publications in Anthropology 18. (1987). University of California Press, Berkeley.Google Scholar
Case, T.J., and Schwaner, T.D. Island/mainland body size differences in Australian varinid lizards. Oecologia 84, (1993). 102109.Google Scholar
Chisholm, B.S., Nelson, D.E., and Schwarcz, H.P. Stable-carbon isotope ratios as a measure of marine versus terrestrial protein in ancient diets. Science 216, (1982). 11311132.Google Scholar
Clifford, D.L., Mazet, J.A.K., Dubovi, E.J., Garcelon, D.K., Coonan, T.J., Conrad, P.A., and Munson, L. Pathogen exposure in endangered island fox (Urocyon littoralis) populations: implications for conservation management. Biological Conservation 131, (2006). 230243.CrossRefGoogle ScholarPubMed
Collins, P.W. Interaction between island foxes (Urocyon littoralis) and Indians on islands off the coast of southern California: I. Morphological and archaeological evidence of human assisted dispersal. Journal of Ethnobiology 11, (1991). 5181.Google Scholar
Collins, P.W. Interaction between island foxes (Urocyon littoralis) and Native Americans on islands off the coast of southern California: II. Ethnographic, archaeological, and historical evidence. Journal of Ethnobiology 11, (1991). 205229.Google Scholar
Collins, P.W. Taxonomic and biogeographic relationships of the island fox (Urocyon littoralis) and gray fox (U. cinereoargenteus) from western North America. Hochberg, F.G. Third California Islands Symposium: Recent Advances in Research on the California Islands. (1993). Santa Barbara Museum of Natural History, Santa Barbara. 351390.Google Scholar
Collins, P.W., and George, S.B. Systematics and taxonomy of island and mainland populations of western harvest mice (Reithrodontomys megalotis) in southern California. Natural History Museum of Los Angeles County Contributions in Science 420, (1990). 126.Google Scholar
Collins, P.W., Guthrie, D.A., Rick, T.C., and Erlandson, J.M. Analysis of prey remains from an historic bald eagle nest site on San Miguel Island, California. Garcelon, D., and Schwemm, C. Proceedings of the Sixth California Islands Symposium. National Park Service Technical Publication CHIS-05-01. (2005). Institute for Wildlife Studies, Arcata. 103120.Google Scholar
Colten, R.H. Ecological and economic analysis of faunal remains from Santa Cruz Island. Arnold, J.E. The Origins of a Pacific Coast Chiefdom: The Chumash of the Channel Islands. (2001). University of Utah Press, Salt Lake City. 199219.Google Scholar
Coonan, T.J., Schwemm, C.A., Roemer, G.W., and Austin, G. Population decline of island foxes (Urocyon littoralis littoralis) on San Miguel Island. Browne, D., Mitchell, K., and Chaney, H. Proceedings of the Fifth California Islands Symposium. (2002). Santa Barbara Museum of Natural History, Santa Barbara. 289297.Google Scholar
Coonan, T.J., Rutz, K., Garcelon, D.K., Latta, B.C., Gray, M.M., and Ashehoug, E.T. Progress in island fox recovery efforts on the northern Channel Islands. Garcelon, D., and Schwemm, C. Proceedings of the Sixth California Islands Symposium. National Park Service Technical Publication CHIS-05-01. (2005). Institute for Wildlife Studies, Arcata. 263273.Google Scholar
Cushing, J., Daily, M., Noble, E., Roth, L., and Wenner, A. Fossil mammoths from Santa Cruz Island, California. Quaternary Research 21, (1984). 376384.Google Scholar
Erlandson, J.M., Kennett, D.J., Ingram, B.L., Guthrie, D.A., Morris, D.P., Tveskov, M.A., West, G.J., and Walker, P.L. An archaeological and paleontological chronology for Daisy Cave (CA-SMI-261), San Miguel Island, California. Radiocarbon 38, (1996). 355373.Google Scholar
Erlandson, J.M., Rick, T.C., Jones, T.L., and Porcasi, J. One if by land, two if by sea: who were the first Californians?. Jones, T.L., and Klar, K.A. California Prehistory: Colonization, Culture, and Complexity. (2007). Altamira Press, Walnut Creek. 5362.Google Scholar
Goldberg, C.F. The Application of Stable Carbon and Nitrogen Isotope Analysis to Human Dietary Reconstruction in Prehistoric Southern California. Ph.D. Dissertation. (1993). University of California, Los Angeles.Google Scholar
Goldstein, D.B., Roemer, G.W., Smith, D.A., Reich, D.E., Bergman, A., and Wayne, R.K. The use of microsatellite variation to infer population structure and demographic history in a natural system model. Genetics 151, (1999). 797801.CrossRefGoogle Scholar
Gompper, M.E., Petrites, A.E., and Lyman, R.L. Cozumel Island fox (Urocyon sp.) dwarfism and possible divergence history based on subfossil bones. Journal of Zoology 270, (2006). 7277.Google Scholar
Gray, R.S., and Harz, W.H. Pygmy mammoths from San Miguel Island, California. Weigand, P. Contributions to the Geology of the Northern Channel Islands, Southern California. (1998). Pacific Section American Association of Petroleum Geologists, Bakersfield. 177184.Google Scholar
Grayson, D.K. The archaeological record of human impacts on animal populations. Journal of World Prehistory 15, (2001). 168.Google Scholar
Guthrie, D.A. Analysis of avifauna and bat remains from midden sites on San Miguel Island. Power, D.M. The California Islands: Proceedings of a Multidisciplinary Symposium. (1980). Santa Barbara Museum of Natural History, Santa Barbara. 689702.Google Scholar
Guthrie, D.A. New information on the prehistoric fauna of San Miguel Island, California. Hochberg, F.G. Third California Islands Symposium: Recent Advances in Research on the California Islands. (1993). Santa Barbara Museum of Natural History, Santa Barbara. 405416.Google Scholar
Guthrie, D.A. Fossil vertebrates from Pleistocene terrestrial deposits on the northern Channel Islands, Southern California. Weigand, P. Contributions to the Geology of the Northern Channel Islands, Southern California. (1998). Pacific Section American Association of Petroleum Geologists, Bakersfield. 187192.Google Scholar
Guthrie, D.A. Distribution and provenance of fossil avifauna from San Miguel Island. Garcelon, D., and Schwemm, C. Proceedings of the Sixth California Islands Symposium. National Park Service Technical Publication CHIS-05-01. (2005). Institute for Wildlife Studies, Arcata. 3542.Google Scholar
Johnson, D.L. New evidence on the origin of the fox, Urocyon littoralis clementae, and feral goats on San Clemente Island, California. Journal of Mammalogy 56, (1975). 925928.Google Scholar
Johnson, D.L. The California continental borderland: land bridges, watergaps, and biotic dispersals. Masters, P.M., and Flemming, N.C. Quaternary Coastlines and Marine Archaeology: Towards the Prehistory of Land Bridges and Continental Shelves. (1983). Academic Press, London. 481527.Google Scholar
Johnson, J.R., Stafford, T.W. Jr., Ajie, V., and Morris, D.P. Arlington springs revisited. Browne, D., Mitchell, K., and Chaney, H. Proceedings of the Fifth California Islands Symposium. (2002). Santa Barbara Museum of Natural History, Santa Barbara. 541545.Google Scholar
Jones, T.L., Porcasi, J.F., Erlandson, J.M., Dallas, H. Jr., Wake, T.A., and Schwaderer, R. The protracted Holocene extinction of California's flightless sea duck (Chendytes lawi) and its implications for the Pleistocene overkill hypothesis. Proceedings of the National Academy of Sciences 105, (2008). 41054108.Google Scholar
Kennett, D.J. The Island Chumash: Behavioral Ecology of a Maritime Society. (2005). University of California Press, Berkeley.CrossRefGoogle Scholar
Kennett, D.J., Kennett, J.P., West, G.J., Erlandson, J.M., Johnson, J.R., Hendy, I.L., West, A., Culleton, B.J., Jones, T.L., Stafford, T.W. Jr. Wildfire and abrupt ecosystem disruption on California's Northern Channel Islands at the Ållerød-Younger Dryas Boundary (13.0–12.9 ka). Quaternary Science Reviews 27, (2008). 25282543.CrossRefGoogle Scholar
Lipps, J.H. Late Pleistocene history of west Anacapa Island, California. Geological Society of America Bulletin 75, (1964). 11691176.Google Scholar
Lister, A.M. Rapid dwarfing of red deer on Jersey Island in the last interglacial. Nature 342, (1989). 539542.Google Scholar
Lister, A.M. Sea-levels and the evolution of island endemics: the dwarf red deer of Jersey. Geological Society 96, (1995). Special Publications, London. 151172.Google Scholar
Martz, P.C. Prehistoric subsistence and settlement on San Nicolas Island. Garcelon, D., and Schwemm, C. Proceedings of the Sixth California Islands Symposium. National Park Service Technical Publication CHIS-05-01. (2005). Institute for Wildlife Studies, Arcata. 6582.Google Scholar
Millien, V. Morphological evolution is accelerated among island mammals. PLoS Biology 4, 10 (2006). http://dx.doi.org/10.1371/journal.pbio.0040321 Google ScholarPubMed
Moore, C.M., and Collins, P.W. Urocyon littoralis . Mammalian Species 489, (1995). 17.CrossRefGoogle Scholar
Newsome, S.D., Phillips, D.L., Culleton, B.J., Guilderson, T.P., and Koch, P.L. Dietary reconstruction of an early to middle Holocene human population from the central California Coast: insights from advanced stable isotope mixing models. Journal of Archaeological Science 31, (2004). 11011115.Google Scholar
Noah, A.C. Household Economies: The Role of Animals in a Historic Period Chiefdom on the California Coast. PhD Dissertation. (2005). University of California, Los Angeles.Google Scholar
Orr, P.C. Prehistory of Santa Rosa Island. (1968). Santa Barbara Museum of Natural History, Santa Barbara.Google Scholar
Pergams, O.R.W., and Ashley, M.V. Rapid morphological change in Channel Island deer mice. Evolution 53, (1999). 15731581.Google Scholar
Porcasi, P., Porcasi, J.F., and O'Neill, C. Early Holocene coastlines of the California Bight: the Channel Islands as first visited by humans. Pacific Coast Archaeological Society Quarterly 35, 2 & 3 (1999). 124.Google Scholar
Rick, T.C., Walker, P.L., Willis, L.M., Noah, A.C., Erlandson, J.M., Vellanoweth, R.L., Braje, T.J., and Kennett, D.J. Dogs, humans, and island ecosystems: the antiquity, distribution, and ecology of domestic dogs (Canis familiaris) on California's Channel Islands. The Holocene 18, (2008). 10771087.CrossRefGoogle Scholar
Roemer, G.W., Donlan, C.J., and Courchamp, F. Golden eagles, feral pigs, and insular carnivores: how exotic species turn native predators into prey. Proceedings of the National Academy of Sciences 99, (2002). 791796.CrossRefGoogle ScholarPubMed
Roemer, G.W., Coonan, T.J., Munson, L., and Wayne, R.K. The island fox. Sillero-Zubiri, C., Hoffman, M., and MacDonald, D.W. Canids: Foxes, Wolves, Jackals, and Dogs, Status Survey and Conservation Action Plan. 2nd Edition (2004). IUCN/SSC Canid Specialist Group, The World Conservation Unit, Gland. 97105.Google Scholar
Schoenherr, A.A., Feldmath, R.C., and Emerson, M.J. Natural History of the Islands of California. (1999). University of California Press, Berkeley.Google Scholar
Schoeninger, M.J., DeNiro, M.T., and Tauber, H. Stable nitrogen isotope ratios of bone collagen reflect marine and terrestrial components of prehistoric human diet. Science 220, (1983). 13811383.Google Scholar
Shelley, S.D. Archaeological Evidence of the Island Fox (Urocyon littoralis) on California's Channel Islands. Technical Report 98–12. (2001). Statistical Research Inc, Tucson.Google Scholar
Stuiver, M., and Reimer, P.J. Extended 14C data base and revised Calib 3.0 14C age calibration program. Radiocarbon 35, (1993). 215230.Google Scholar
Stuiver, M., Reimer, P.J., and Reimer, R. (2005). Calib 5 Manual. http://calib.qub.ac.uk/calib/.Google Scholar
Thaler, P.F. Mammoth remains on the Channel Islands of southern California. Weigand, P. Contributions to the Geology of the Northern Channel Islands, Southern California. (1998). Pacific Section American Association of Petroleum Geologists, Bakersfield. 161167.Google Scholar
Vellanoweth, R.L. Earliest island fox remains on the Southern Channel Islands: evidence from San Nicolas Island, California. Journal of California and Great Basin Anthropology 20, (1998). 100108.Google Scholar
Vellanoweth, R.L. AMS radiocarbon dating and shell bead chronologies: middle Holocene trade and interaction in western North America. Journal of Archaeological Science 28, (2001). 941950.Google Scholar
Walker, P.L. Archaeological evidence for the recent extinction of three terrestrial mammals on San Miguel Island. Power, D.M. The California Islands: Proceedings of a Multidisciplinary Symposium. (1980). Santa Barbara Museum of Natural History, Santa Barbara. 703717.Google Scholar
Walker, P.L., and DeNiro, M.J. Stable nitrogen and carbon isotope ratios in bone collagen as indices of prehistoric dietary dependence on marine and terrestrial resources in Southern California. American Journal of Physical Anthropology 71, (1986). 5161.Google Scholar
Waters, M.R., Stafford, T.W. Jr. Redefining the age of Clovis: implications for the peopling of the Americas. Science 315, (2007). 11221126.Google Scholar
Wayne, R.K., George, S.B., Gilbert, D., Collins, P.W., Kovach, S.D., Girman, D., and Lehman, N. A morphologic and genetic study of the island fox, Urocyon littoralis . Evolution 45, (1991). 18491868.Google Scholar
Wenner, A.M., and Johnson, D.L. Land vertebrates on the islands: sweepstakes or landbridges?. Power, D.M. The California Islands: Proceedings of a Multidisciplinary Symposium. (1980). Santa Barbara Museum of Natural History, Santa Barbara. 497530.Google Scholar
White, J.P. Where the wild things are: prehistoric animal translocation in the Circum New Guinea Archipelago. Fitzpatrick, S.M. Voyages of Discovery: The Archaeology of Islands. (2004). Praeger, Westport. 147164.Google Scholar