Alker, J. (1968). The occurrence of Paracricetodon Schaub (Cricetidae) in North America. Journal of Mammalogy, 49, 529–30.CrossRefGoogle Scholar

Alker, J. (1969). Paciculus (Cricetinae, incertae sedis) teeth from the Miocene of Nebraska. Journal of Paleontology, 43, 171–4.Google Scholar

Baird, S. F. (1857). Mammals: general report on the zoology of the several Pacific railroad routes. Reports, Explorations and Surveys for Railroad Route from Mississippi River to Pacific Ocean, Vol. 8, pp. 1–757. Washington, D.C.: US Goverment Printing Office.Google Scholar

Baskin, J. A. (1978). Bensonomys, Calomys, and the origin of the phyllotine group of Neotropical cricetines (Rodentia: Cricetidae). Journal of Mammalogy, 59, 125–35.CrossRefGoogle Scholar

Baskin, J. A. (1979). Small mammals of the Hemphillian age White Cone local fauna, northeastern Arizona. Journal of Paleontology, 53, 695–708.Google Scholar

Baskin, J. A. (1986). The late Miocene radiation of Neotropical sigmodontine rodents in North America. [In Vertebrates, Phylogeny, and Philosophy, ed. Flanagan, K. M. and Lillegraven, J. A..] University of Wyoming Contributions to Geology, Special Paper, 3, 287–303.Google Scholar

Black,, C. C. (1961a). Additions to the late Miocene Flint Creek local fauna. Annals of the Carnegie Museum, 36, 69–76.Google Scholar

(1961b). Rodents and lagomorphs from the Miocene Fort Logan and Deep River formations of Montana: Postilla. Yale Peabody Museum, 48, l–20.

Burt, W. H. and Grossenheider, R. P. (1976). A Field Guide to the Mammals, 3rd edn. Boston, MA: Houghton Mifflin.Google Scholar

Cantwell, R. J. (1969). Fossil Sigmodon from the Tusker locality, 111 Ranch, Arizona. Journal of Mammalogy, 50, 375–8.CrossRefGoogle Scholar

Carleton, M. D. (1980). Phylogenetic relationships of Neotomine–Peromyscine rodents (Muroidea) and a reappraisal of the dichotomy within New World Cricetinae. Miscellaneous Publications of the Museum of Zoology, University of Michigan, 157, 1–146.Google Scholar

Carleton, M. D. and Eshelman, R. E. (1979). A synopsis of fossil grasshopper mice, genus Onychomys, and their relationships to Recent species. [Claude W. Hibbard Memorial Volume 7.] University of Michigan, Papers on Paleontology, 21, 1–63.Google Scholar

Carleton,, M. D. and Musser,, G. G. (1984). Muroid Rodents. In Orders and Families of Recent Mammals of the World, ed. Anderson, S. and Jones, J. K., pp. 289–379. New York: Wiley-Interscience.Google Scholar

Clark, J. B., Dawson, M. R., and Wood, A. E. (1964). Fossil mammals from the lower Pliocene of Fish Lake Valley, Nevada. Bulletin of the Museum of Comparative Zoology, 131, 27–63.Google Scholar

Cockrum, E. L. (1962). Introduction to Mammalogy. New York: Ronald Press.Google Scholar

Cope, E. D. (1874). On a new mastodon and rodent. Proceedings of the American Philosophical Society, 1874, 221–3.Google Scholar

Cope, E. D. (1879). Observations on the faunae of the Miocene Tertiaries of Oregon. Bulletin of the United States Geological Survey of the Territories, 5, 55–69.Google Scholar

Cope, E. D. (1881a). Review of the Rodentia of the Miocene period of North America. United States Geological and Geographical Survey of the Territories, 6, 1–370.Google Scholar

Cope, E. D. (1881b). The Rodentia of the American Miocene. American Naturalist, 15, 586–7.Google Scholar

Czaplewski, N. J. (1987). Sigmodont rodents (Mammalia: Muroidea: Sigmodontinae) from the Pliocene (early Blancan) Verde Formation, Arizona. Journal of Vertebrate Paleontology, 7, 183–99.CrossRefGoogle Scholar

Czaplewski, N. J. (1990). The Verde local fauna: small vertebrate fossils from the Verde Formation, Arizona. San Bernardino County Museum Associates, Quarterly, 37, 1–39.Google Scholar

Dalquest, W. W. (1978). Early Blancan mammals of the Beck Ranch local fauna of Texas. Journal of Mammalogy, 59, 269–98.CrossRefGoogle Scholar

Dalquest, W. W. (1983). Mammals of the Coffee Ranch local fauna, Hemphillian of Texas. The Pearce-Sellards Series, Texas Memorial Museum, 38, 1–41.Google Scholar

Dawson, M. R., Krishtalka, L., and Stucky, R. K. (1990). Revision of the Wind River Faunas, early Eocene of central Wyoming. Part 9: The oldest known hystricomorphous rodent (Mammalia: Rodentia). Annals of the Carnegie Museum, 59, 135–47.Google Scholar

Dingus, L. (1978). The Warm Springs fauna (Mammalia, Hemingfordian) from the Western Facies of the John Day Formation, Oregon. M.Sc. Thesis, University of California, Riverside.

Emry, R. J. (1981). New material of the Oligocene muroid rodent Nonomys, and its bearing on muroid origins. American Museum Novitates, 2712, 1–14.Google Scholar

Emry, R. J. and Korth, W. W. (1989). Rodents of the Bridgerian (Middle Eocene) Elderberry Canyon local fauna of eastern Nevada. Smithsonian Contributions to Paleobiology, 67, 1–14.CrossRefGoogle Scholar

Fahlbusch, V. (1964). Die Cricetiden (Mamm.) der Oberen Susswasser–Molasse Bayerns. Akademie der Wissenshaften, Mathematisch-naturwissenschaftliche Klasse, Neue Folge, 118, 1–134.Google Scholar

Fahlbusch, V. (1967). Die Beziehungen zwischen einigen Cricetiden des nordamerikanischen und europaischen Jungtertiars. Palaontologie Zeitschrift, 41, 154–64.CrossRefGoogle Scholar

Fahlbusch, V. (1987). The Neogene mammalian faunas of Ertemte and Harr Obo in Inner Mongolia (Nei Mongol), China, 5. The genus Microtoscoptes (Rodentia: Cricetidae). Senckenbergiana Lethae, 67, 345–73.Google Scholar

Fisher, R. V. and Rensberger, J. M. (1972). Physical stratigraphy of the John Day Formation, central Oregon. University of California Publications in Geological Sciences, 101, 1–33.Google Scholar

Flynn,, L. J., Jacobs,, L. L., and Lindsay,, E. H. (1985). Problems in muroid phylogeny: relationship to other rodents and origin of major groups. In Evolutionary Relationships Among Rodents: A Multidisciplinary Approach, ed. Luckett, W. P. and Hartenberger, J. L., pp. 589–616. New York: Plenum Press.Google Scholar

Galbreath, E. C. (1953). A contribution to the Tertiary geology and paleontology of northeastern Colorado. University of Kansas Paleontological Contributions, Vertebrata, 4, 1–120.Google Scholar

Galusha, T. and Blick, J. C. (1971). Stratigraphy of the Santa Fe Group, New Mexico. Bulletin of the American Museum of Natural History, 144, 1–128.Google Scholar

Giglioli, X. (1874). Bolletino Societe Geographica Italia, Roma, 11, 326.

Gloger, X. (1841). Gemeinutziges Hand-und Hilfs buch der Naturgeschichte, 1, 95.

Green, M. (1985). Micromammals from the Miocene Bijou Hills local fauna, South Dakota. [Guidebook for 45th Annual Meeting, Society Vertebrate Paleontology.] Dakoterra, South Dakota School of Mines and Technology, 2, 141–54.Google Scholar

Gustafson, E. P. (1978). The vertebrate faunas of the Pliocene Ringold Formation, south-central Washington. Bulletin of the Natural History Museum, University of Oregon, 23, 1–62.Google Scholar

Hall, E. R. and Kelson, K. R. (1959). Mammals of North America. New York: Ronald Press.Google Scholar

Harrison, J. A. (1978). Mammals of the Wolf Ranch local fauna, Pliocene of the San Pedro Valley, Arizona. Occasional Papers of the Museum of Natural History, University of Kansas, 73, 1–18.Google Scholar

Hartenberger, J.-L. (1971). Contribution a l'etude des genres Gliravus et Microparamys (Rodentia) de l'Eocene d'Europe. Palaeovertebrata, 4, 97–135.CrossRefGoogle Scholar

Hartenberger,, J.-L. (1984). The Order Rodentia: major questions on their evolutionary origin, relationships, and suprafamilial systematics. In Evolutionary Relationships Among Rodents, ed. Luckett, W. P. and Hartenberger, J.-L., pp. 1–33. New York: Plenum Press.Google Scholar

Hibbard, C. W. (1937). Additional fauna of Edson Quarry of the middle Pliocene of Kansas. The American Midland Naturalist, 18, 460–4.CrossRefGoogle Scholar

Hibbard, C. W. (1941). New mammals from the Rexroad fauna, upper Pliocene of Kansas. The American Midland Naturalist, 26, 337–68.CrossRefGoogle Scholar

Hibbard, C. W. (1953). The Saw Rock Canyon fauna and its stratigraphic significance. Papers of the Michigan Academy of Science, Arts and Letters, 38, 387–411.Google Scholar

Hibbard, C. W. (1964). A contribution to the Saw Rock Canyon local fauna of Kansas. Papers of the Michigan Academy of Science, Arts and Letters, 44, 115–27.Google Scholar

Hibbard, C. W. (1967). New rodents from the late Cenozoic of Kansas. Papers of the Michigan Academy of Science, Arts, and Letters, 52, 115–32.Google Scholar

Hoffmeister, D. F. (1945). Cricetine rodents of the middle Pliocene of the Mulholland fauna, California. Journal of Mammalogy, 26, 186–91.CrossRefGoogle Scholar

Hoffmeister, D. F. (1959). New cricetid rodents from the Niobrara River fauna, Nebraska. Journal of Paleontology, 33, 696–9.Google Scholar

Hooper, E. T. and Musser, G. G. (1964). The glans penis in Neotropical cricetines (Family Muridae) with comments on the classification of muroid rodents. Miscellaneous Publications of the Museum of Zoology, University of Michigan, 123, 1–57.Google Scholar

Illiger, C. (1811). Prodromus Systematis Mammalilum et Avium Additis Terminis Zoographicis Utriudque Classis. Berlin: C. Salfeld.CrossRefGoogle Scholar

Jacobs,, L. L. (1977a). A new genus of murid rodent from the Miocene of Pakistan and comments on the origin of Muridae. PaleoBios, 25, 1–11.Google Scholar

(1977b). Rodents of the Hemphillian age Redington local fauna, San Pedro Valley, Arizona. Journal of Paleontology, 51, 505–19.

Jacobs, L. L. (1978). Fossil rodents (Rhizomyidae and Muridae) from Neogene Siwalik deposits, Pakistan. Bulletin Series, Museum of Northern Arizona, 52, 1–103.Google Scholar

Jacobs, L. L. and Lindsay, E. H. (1981). Prosigmodon oroscoi, a new sigmodont rodent from the late Tertiary of Mexico. Journal of Paleontology, 55, 425–30.Google Scholar

Kelly, T. S. (1992). New Uintan and Duchesnean (middle and late Eocene) rodents from the Sespe Formation, Simi Valley, California. Bulletin of the Southern California Academy of Sciences, 91, 97–120.Google Scholar

Korth, W. W. (1981). New Oligocene rodents from western North America. Annals of the Carnegie Museum, 50, 289–318.Google Scholar

Korth, W. W.(1987). New rodents (Mammalia) from the late Barstovian (Miocene) Valentine Formation, Nebraska. Journal of Paleontology, 61, 1058–64.CrossRefGoogle Scholar

Korth, W. W.(1992). Fossil small mammals from the Harrison Formation (late Arikareean: earliest Miocene), Cherry County, Nebraska. Annals of the Carnegie Museum, 61, 69–131.Google Scholar

Korth, W. W.(1994). The Tertiary Record of Rodents in North America. New York: Plenum Press.CrossRefGoogle Scholar

Korth, W. W.(1997). Additional rodents (Mammalia) from the Clarendonian (Miocene) of northcentral Nebraska, and a review of Clarendonian rodent biostratigraphy of that area. Paludicola, 1, 97–111.Google Scholar

Korth, W. W. (1998). Rodents and lagomorphs (Mammalia) from the late Clarendonian (Miocene) Ash Hollow Formation, Brown County, Nebraska. Annals of the Carnegie Museum, 67, 299–348.Google Scholar

Kurtén, B. and Anderson, E. (1980). Pleistocene Mammals of North America. New York: Columbia University Press.Google Scholar

Leidy, J. (1856). Notices of remains of extinct Mammalia discovered by Dr. F. V. Hayden in Nebraska Territory. Academy Natural Sciences, Proceedings, 8, 88–90.Google Scholar

Lillegraven, J. A. and Wilson, R. W. (1975). Analysis of Simimys simplex, an Eocene rodent (?Zapodidae). Journal of Paleontology, 49, 856–74.Google Scholar

Lindsay, E. H. (1972). Small mammal fossils from the Barstow Formation, California. University of California Publications in Geological Sciences, 93, 1–104.Google Scholar

Lindsay, E. H. (1988). Cricetid rodents from Siwalik deposits near Chinji Village, part I. Megacricetodontinae, Myocricetodontinae and Dendromurinae. Palaeovertebrata, 18, 95–154.Google Scholar

Lindsay, E. H. and Jacobs, L. L. (1985). Pliocene small mammal fossils from Chihuahua, Mexico. Paleontologia Mexicana, Universita Nacional Autonomica Mexico, Instituto de Geologia, 51, 1–50.Google Scholar

Luckett, W. P. and Hartenberger, J.-L. (eds.) (1985). Evolutionary Relationships among Rodents: A Multidisciplinary Analysis. New York: Plenum Press.CrossRefGoogle Scholar

Macdonald, J. R. (1963). The Miocene faunas from the Wounded Knee area of western South Dakota. Bulletin of the American Museum of Natural History, 125, 139–238.Google Scholar

Macdonald, J. R. (1970). Review of the Miocene Wounded Knee faunas of southwestern South Dakota. Bulletin of the Los Angeles County Museum of Natural Science, 8, 1–82.Google Scholar

Marshall, L. G. (1988). Land Mammals and the Great American Interchange. American Scientist, 76, 380–8.Google Scholar

Marshall, L. G. and Cifelli, R. L. (1990). Analysis of changing diversity patterns in Cenozoic land mammal age faunas, South America. Palaeovertebrata, 19, 169–210.Google Scholar

Martin, L. D. (1975). Microtine rodents from the Ogallala Pliocene of Nebraska and the early evolution of the Microtinae in North America. [In Claude W. Hibbard Memorial Volume 3: Studies on Cenozoic Paleontology and Stratigraphy, ed. G. R. Smith and N. E. Friedland.] Papers on Paleontology, University of Michigan, 12, 101–10.Google Scholar

Martin, L. D. (1980). The early evolution of the Cricetidae in North America. University of Kansas Paleontological Contributions, 102, 1–42.Google Scholar

Martin, L. D. and Corner, R. G. (1980). A new genus of cricetid rodent from the Hemingfordian (Miocene) of Nebraska. University of Kansas Paleontological Contributions, 103, 1–6.Google Scholar

Martin, R. A. (1970). Line and grade in the extinct medius species group of Sigmodon. Science, 167, 1504–6.CrossRefGoogle ScholarPubMed

Martin,, R. A. (1974). Fossil mammals from the Coleman IIA fauna, Sumter County. In Pleistocene Mammals of Florida, ed. Webb, S. D., pp. 35–99. Gainesville, FL: University of Florida Press.Google Scholar

Martin, R. A. (1979). Fossil history of the rodent genus Sigmodon. Evolutionary Monographs, 2, 1–36.Google Scholar

Martin, R. A. (2000). The taxonomic status of Peromyscus sawrockensis Hibbard, 1964 (Rodentia, Cricetidae). Paludicola, 2, 269–72.Google Scholar

Martin, R. A. and Prince, R. H. (1989). A new species of early Pleistocene cotton rat from the Anza-Borrego Desert of southern California. Bulletin of the Southern California Academy of Sciences, 88, 80–7.Google Scholar

Martin, R. A., Goodwin, H. T., and Farlow, J. O. (2002). Late Neogene (late Hemphilllian) rodents from Pipe Creek Sinkhole, Grant County, Indiana. Journal of Vertebrate Paleontology, 22, 137–51.CrossRefGoogle Scholar

Matthew, W. D. (1924). Third contribution to the Snake Creek fauna. Bulletin of the American Museum Natural History, 50, 61–210.Google Scholar

May, S. R. (1981). Repomys (Mammalia: Rodentia) from the late Neogene of California and Nevada. Journal of Vertebrate Paleontology, 1, 219–30.CrossRefGoogle Scholar

McKenna, M. C. and Bell, S. K. (1997). Classification of Mammals Above the Species Level. New York: Columbia University Press.Google Scholar

Mein, P. and Freudenthal, M. (1971). Une nouvelle classification des Cricetidae (Mammalia, Rodentia) du Tertiaire de l'Europe. Scripta Geologica, 2, 1–37.Google Scholar

Mou, Y. (1999). Biochronology and magnetostratigraphy of the Pliocene Panaca Formation, Southeast Nevada. Ph. D. Thesis, University of Arizona, Tucson.Google Scholar

Nowak, R. M. (1999). Walker's Mammals of the World, 6th edn. Baltimore, MD: Johns Hopkins University Press.Google Scholar

Rensberger, J. M. (1983). Successions of Meniscomyine and Allomyine Rodents (Aplodontidae) in the Oligo-Miocene John Day Formation, Oregon. University of California Publications in Geological Sciences, 124, 1–157.Google Scholar

Repenning, C. A. and May, S. R. (1986). New evidence for the age of the Palomas Formation, Truth or Consequences, New Mexico. In New Mexico Geological Society Guidebook for the 37th Field Conference, Truth or Consequences, pp 257–60. Socorro, NM: New Mexico Geological Society.Google Scholar

Rochebrune,, A. T. (1883). Faune de la Sénégambie. Mammifères. Actea Societe Linnéenne (Bordeaux), 37, 49–203.Google Scholar

Ruez, D. R. (2001). Early Irvingtonian (latest Pliocene) rodents from Inglis IC, Citrus County, Florida. Journal of Vertebrate Paleontology, 21, 172–85.CrossRefGoogle Scholar

Say,, T. and Ord,, G. (1825). Description of a new species of Mammalia, whereon a new genus is proposed to be found. Journal of the Academy of Natural Sciences, Philadelphia, 4, 352–5.Google Scholar

Schaub, S. (1934). Uber einige fossile Simplicidentaten aus China und der Mongolei. Abhhandlungen Schweizerische Palaeontologische Gesellschaft, 54, 1–40.Google Scholar

Schaub, S. (1940). Zur Revision des Genus Trilophomys Deperet. Verhandlugen Naturforschen Gesellschaft, Basel, 51, 65–75.Google Scholar

Setoguchi, T. (1978). Paleontology and geology of the Badwater Creek area, central Wyoming. Part 16: The Cedar Ridge local fauna (late Oligocene). Bulletin of the Carnegie Museum of Natural History, 9, 1–61.Google Scholar

Shotwell, J. A. (1970). Pliocene mammals of southeast Oregon and adjacent Idaho. Bulletin of the Museum of Natural History, University of Oregon, 17, 1–103.Google Scholar

Simpson, G. G. (1945). Principles of classification and a classification of mammals. Bulletin of the American Museum of Natural History, 85, 1–350.Google Scholar

Sinclair, W. J. (1905). New or imperfectly known rodents and ungulates from the John Day series. University of California Bulletin of the Geology Department, 4, 125–43.Google Scholar

Skinner, M. F. and Johnson, F. W. (1984). Tertiary stratigraphy and Frick Collection of fossil vertebrates from North-Central Nebraska. Bulletin of the American Museum of Natural History, 178, 215–368.Google Scholar

Skinner, M. F. and Taylor, B. E. (1967). A revision of the geology and paleontology of the Bijou Hills, South Dakota. American Museum Novitates, 2300, 1–53.Google Scholar

Skinner, M. F., Skinner, S. M., and Gooris, R. J. (1977). Stratigraphy and biostratigraphy of late Cenozoic deposits in central Sioux County, Western Nebraska. Bulletin of the American Museum of Natural History, 158, 263–370.Google Scholar

Skwara, T. (1988). Mammals of the Topham local fauna: Early Miocene (Hemingfordian), Cypress Hills Formation, Saskatchewan. Natural History Contributions, Saskatchewan Museum of Natural History, 9, 1–169.Google Scholar

Stehlin, H. G. and Schaub, S. (1951). Die Trigonodontie der simplicidentaten Nager. Abhandlungen Schweizerische Palaeontologische, Basel, 67, 1–384.Google Scholar

Storer, J. E. (1988). The rodents of the Lac Pelletier lower fauna, late Eocene (Duchesnean) of Saskatchewan. Journal of Vertebrate Paleontology, 8, 84–101.CrossRefGoogle Scholar

Sutton, J. F. and Korth, W. W. (1995). Rodents (Mammalia) from the Barstovian (Miocene) Anceney local fauna, Montana. Annals of the Carnegie Museum, 64, 267–314.Google Scholar

Tedford, R. H. (1981). Mammalian biochronology of the late Cenozoic basins of New Mexico. Bulletin of the Geological Society of America, 92, 1008–22.2.0.CO;2>CrossRefGoogle Scholar

Tedford,, R. H., Skinner,, M. S., Fields,, R. S., et al. (1987). Faunal succession and biochronology of the Arikareean through Hemphilllian interval (late Oligocene through earliest Pliocene epochs) in North America. In Cenozoic Mammals of North America, ed. Woodburne, M. O., pp. 153–210. Berkeley, CA: University of California Press.Google Scholar

Thaler, L. (1966). Les rongeurs fossiles du Bas-Languedoc dans leurs rapports avec l'histoire de faunes et la stratigraphie d'Europe. Mémoires du Muséum National d'Histoire Naturelle, Nouvelle Séries C, 17, 1–295.Google Scholar

(1969). Rongeurs nouveaux de l'Oligocene moyen d'Espagne. Palaeovertebrata, 2, 191–209.CrossRef

Tomida, Y. (1987). Monograph 3: Small Mammal Fossils and Correlation of Continental Deposits, Safford and Duncan Basins, Arizona, USA. Tokyo: National Science Museum.Google Scholar

Tong, Y. (1992). Pappocricetodon, a pre-Oligocene cricetid genus (Rodentia) from central China. Vertebrata PalAsiatica, 30, 1–16.Google Scholar

True,, F. W. (1894). On the relationships of Taylor's mouse, Sitomys taylori. Proceedings of United States National Museum, 16, 757–8.

Vianey-Liaud,, M. (1985). Possible evolutionary relationships among Eocene and lower Oligocene rodents of Asia, Europe and North America. In Evolutionary Relationships Among Rodents: A Multidisciplinary Analysis, ed. Luckett, W. P. and Hartenberger, J. L., pp. 277–309. New York: Plenum Press.Google Scholar

Voorhies, M. R. (1990a). Technical Report 82-09: Vertebrate Paleontology of the Proposed Norden Reservoir Area, Brown, Cherry and Keya Paha Counties, Nebraska. Denver, CO: US Bureau of Land Reclaimation Division of Archeological Research.

(1990b). Vertebrate biostratigraphy of the Ogallala Group in Nebraska. In Geologic Framework and Regional Hydrology: Upper Cenozoic Blackwater Draw and Ogallala Formations, Great Plains, ed. Gustavson, T.C., pp. 115–51. Austin, TX: Bureau of Economic Geology, University of Texas.Google Scholar

Voss, R. S. (1988). Systematics and ecology of Ichthyomyine rodents (Muroidea): patterns of morphological evolution in a small adaptive radiation. Bulletin of the American Museum of Natural History, 188, 259–493.Google Scholar

Wagner,, J. A. (1843). Archiv für Naturgeschellschaft, 9, 52.

Walsh, S. L. (1997). New specimens of Metanoiamys, Pauromys, and Simimys (Rodentia: Myomorpha) from the Uintan (middle Eocene) of San Diego County, California, and comments on the relationships of selected Paleogene Myomorpha. Proceedings of the San Diego Society of Natural History, 32, 1–20.Google Scholar

Wang, B. Y. (1985). Zapodidae (Rodentia, Mammalia) from the lower Oligocene of Qujing, Yunnan, China. Mainzer Geowissenschaftliche Mitteilungen, 14, 345–67.Google Scholar

Wang, B. Y. and Dawson, M. R. (1994). A primitive cricetid (Mammalia: Rodentia) from the middle Eocene of Jiangsu Province, China. Annals of the Carnegie Museum, 63, 239–56.Google Scholar

Waterhouse,, G. R. (1837). Proceedings of the Zoological Society of London, 1837, 15–17, 27–32.

Webb,, S. D. and Marshall,, L. G. (1982). Historical biogeography of Recent South American land mammals, In Special Publication Series 6, Pymatuning Laboratory of Ecology, ed. Mares, M. A. and Genoways, H. H., pp. 39–52. Pittsburg, PA: University of Pittsburg Press.Google Scholar

White, T. H. (1954). Preliminary analysis of the fossil vertebrates of the Canyon Ferry Reservoir area. Proceedings of the United States National Museum, 103, 395–438.CrossRefGoogle Scholar

Williams, M. R. and Storer, J. E. (1998). Cricetid rodents of the Kealey Springs local fauna (early Arikareean, late Oligocene) of Saskatchewan. Paludicola, 1, 143–9.Google Scholar

Wilson, R. L. (1968). Systematics and faunal analysis of a lower Pliocene vertebrate assemblage from Trego County, Kansas. Contributions from the Museum of Paleontology, University of Michigan, 22, 75–126.Google Scholar

Wilson,, R. W. (1937). New middle Pliocene rodent and lagomorph faunas from Oregon and California. Carnegie Institution of Washington Publications, 487, 1–19.Google Scholar

Wilson, R. L. (1949a). Additional Eocene rodent material from southern California. Carnegie Institution of Washington Publications, 584, 1–25.Google Scholar

Wilson, R. L. (1949b). On some White River fossil rodents. Carnegie Institution of Washington Publications, 584, 27–50.Google Scholar

Wood, A. E. (1936). Cricetid rodents described by Leidy and Cope from the Tertiary of North America. American Museum Novitates, 822, 1–8.Google Scholar

Wood, A. E. (1937). Rodentia. [In The Mammalian Fauna of the White River Oligocene, ed. Scott, B., Jepsen, G. L. and Wood, A. E..] Transactions of the American Philosophical Society, New Series, 28, 155–269.Google Scholar

Wood, A. E. (1980). The Oligocene rodents of North America. Transactions of the American Philosophical Society, 70, 1–68.CrossRefGoogle Scholar

Woodburne, M. O. and Swisher, C. C. III (1995). Land mammal high-resolution geochronology, intercontinental overland dispersals, sea level, climate, and vicariance. [In Geochronology, Time Scales and Global Stratigraphic Correlation: Unified Temporal Framework for an Historical Geology, ed. Berggren, W.A., Kent, D.V., Aubry, M.-P., and Hardenbol, J..] Society of Economic and Petroleum Mineralogists Special Publication, 54, 335–64.Google Scholar

Zakrzewski, R. J. (1991). New species of Blancan woodrat (Cricetidae) from north-central Kansas. Journal of Mammalogy, 72, 104–9.CrossRefGoogle Scholar