Neural spine elongation in dinosaurs: sailbacks or buffalo-backs? | Journal of Paleontology | Cambridge Core

Alexander, R. M. 1985. Mechanics of posture and gait of some large dinosaurs. Zoological Journal of the Linnean Society, 83:1–25.CrossRefGoogle Scholar

Alexander, R. M. 1989. Dynamics of Dinosaurs and Other Extinct Giants. Columbia University Press, New York, 167 p.Google Scholar

Allen, P. 1975. Wealden of the Weald: a new model. Proceedings of the Geologists' Association, 86:389–436.CrossRefGoogle Scholar

Allen, P. 1981. Pursuit of Wealden models. Journal of the Geological Society, London, 138:375–406.CrossRefGoogle Scholar

Alvin, K. L., Fraser, C. J., and Spicer, R. A. 1981. Anatomy and palaeoecology of Pseudofrenelopsis and associated conifers in the English Wealden. Palaeontology, 24:759–778.Google Scholar

Bailey, J. B. 1996. Sails or humps? Inquiry into the biological significance of elongated neural spines among the Dinosauria. Geological Society of America Abstracts with Programs, 28(6):28.Google Scholar

Bakker, R. T. 1978. Dinosaur feeding behaviour and the origin of flowering plants. Nature, 274:661–663.CrossRefGoogle Scholar

Barbour, E. H., and Schultz, C. B. 1939. A new giant camel Gigantocamelus fricki, gen. et sp. nov. Bulletin of the University of Nebraska State Museum, 2(2):17–27.Google Scholar

Barron, E. J. 1983. A warm equable Cretaceous: the nature of the problem. Earth Science Reviews, 19:305–338.CrossRefGoogle Scholar

Barron, E. J., and Washington, W. M. 1982. Cretaceous climate: a comparison of atmospheric simulations with the geologic record. Palaeogeography, Palaeoclimatology, Palaeoecology, 40:103–133.CrossRefGoogle Scholar

Bellairs, A. 1970. The Life of Reptiles, Volumes 1 and 2. Universe Books, New York, 590 p.Google Scholar

Bentley, P. J. 1976. Chapter 7 Osmoregulation, p. 365–412. In Gans, C., and Dawson, W. R. (eds.), Biology of the Reptilia, 5, Physiology A. Academic Press, London and New York.Google Scholar

Bogert, C. M., and Del Campo, R. M. 1956. The Gila Monster and its allies. The relationships, habits and behavior of the lizards of the family Helodermatidae. Bulletin of the American Museum of Natural History, 109:1–238.Google Scholar

Bramwell, C. D., and Fellgett, P. B. 1973. Thermal regulation in sail lizards. Nature, 242:203–205.CrossRefGoogle Scholar

Brenner, G. J. 1976. Middle Cretaceous floral provinces and early migrations of angiosperms, p. 23–47. In Beck, C. B. (ed.), Origin and Early Evolution of Angiosperms. Columbia University Press, New York.Google Scholar

Brouwers, E. M., Clemens, W. A., Spicer, R. A., Ager, T. A., Carter, L. D., and Sliter, W. V. 1987. Dinosaurs on the North Slope, Alaska: high latitude, latest Cretaceous environments. Science, 237:1608–1610.CrossRefGoogle ScholarPubMed

Brown, B. 1913. A new trachodont dinosaur, Hypacrosaurus, from the Edmonton Cretaceous of Alberta. Bulletin of the American Museum of Natural History, 32:395–406.Google Scholar

Brown, B. 1914a. Corythosaurus casuarius, a new crested dinosaur from the Belly River Cretaceous, with provisional classification of the family Trachodontidae. Bulletin of the American Museum of Natural History, 33:559–565.Google Scholar

Brown, B. 1914b. Leptoceratops, a new genus of Ceratopsia from the Edmonton Cretaceous of Alberta. Bulletin of the American Museum of Natural History, 33:567–580.Google Scholar

Brown, B., and Schlaikjer, E. M. 1940. The structure and relationships of Protoceratops. Annals of the New York Academy of Sciences, 40:133–266.CrossRefGoogle Scholar

Brown, B., and Schlaikjer, E. M. 1942. The skeleton of Leptoceratops with the description of a new species. American Museum Novitates, Number 1169, 15 p.Google Scholar

Buffetaut, E. 1989. New remains of the enigmatic dinosaur Spinosaurus from the Cretaceous of Morocco and the affinities between Spinosaurus and Baryonyx. Neues Jahrbuch für Geologie und Paläontolgie, Monatsheften, 1989:79–87.CrossRefGoogle Scholar

Buffetaut, E. 1992. Remarks on the Cretaceous theropod dinosaurs Spinosaurus and Baryonyx. Neues Jahrbuch für Geologie und Paläontologie, Monatsheften, 1992:88–96.CrossRefGoogle Scholar

Buffrénil, V. De, Farlow, J. O., and de Ricqlès, A. 1986. Growth and function of Stegosaurus plates: evidence from bone histology. Paleobiology, 12:459–473.CrossRefGoogle Scholar

Calder, W. A. 1984. Size, Function and Life History. Harvard University Press, Cambridge, Massachusetts, 431 p.Google Scholar

Charig, A. J., 1990. [Chapter] 9. The systematic position of Baryonx walkeri, in the light of Gauthier's reclassification of the Theropoda, p. 127–140. In Carpenter, K., and Currie, P. J. (eds.), Dinosaur Systematics, Approaches and Perspectives. Cambridge University Press, Cambridge and New York.CrossRefGoogle Scholar

Chinsamy, A. 1994. Dinosaur bone histology: implications and inferences, p. 213–227. In Rosenberg, G. D., and Wolberg, D. L. (eds.), Dino Fest. The Paleontological Society Special Publication, .Google Scholar

Chinsamy, A., Chiappe, L. M., and Dodson, P. 1994. Growth rings in Mesozoic avian bones: physiological implications for basal birds. Nature, 368:196–197.CrossRefGoogle Scholar

Chinsamy, A., and Dodson, P. 1995. Inside a dinosaur bone. American Scientist, 83:174–180.Google Scholar

Clemens, W. A., and Nelms, L. G. 1993. Paleocological implications of Alaskan terrestrial vertebrate fauna in latest Cretaceous time at high paleolatitudes. Geology, 21:503–506.2.3.CO;2>CrossRefGoogle Scholar

Coe, M. J., Dilcher, D. L., Farlow, J. O., Jarzen, D. M., and Russell, D. A. 1987. Dinosaurs and land plants, p. 225–258. In Friis, E. M., Chaloner, W. G. and Crane, P. R. (eds), The Origins of Angiosperms and their Biological Consequences. Cambridge University Press, Cambridge and New York.Google Scholar

Cook, T. D., and Bally, A. W. 1975. Stratigraphic Atlas of North and Central America. Princeton University Press, Princeton, New Jersey, 272 p.Google Scholar

Cool, T. E. 1982. Sedimentological evidence concerning the paleoceanography of the Cretaceous western North Atlantic Ocean. Palaeogeography, Palaeoclimatology, Palaeoecology, 39:1–35.CrossRefGoogle Scholar

Coombs, W. P. Jr. 1978. Theoretical aspects of cursorial adaptations in dinosaurs. The Quarterly Review of Biology, 53:393–418.CrossRefGoogle Scholar

Coombs, W. P. Jr. 1989. Modern analogs for dinosaur nesting and parental behavior, p. 21–53. In Farlow, J. O. (ed.), Paleobiology of the Dinosaurs. .Google Scholar

Cope, E. D. 1869. Synopsis of the extinct Batrachia, Reptilia, and Aves of North America. Transactions of the American Philosophical Society, 14:1–252.CrossRefGoogle Scholar

Crane, P. R. 1987. Vegetational consequences of the angiosperm diversification, p. 107–144. In Friis, E. M., Chaloner, W. G., and Crane, P. R. (eds.), The Origin of Angiosperms and their Biological Consequences. Cambridge University Press, Cambridge and New York.Google Scholar

Currey, J. D. 1984. The Mechanical Adaptations of Bones. Princeton University Press, Princeton, New Jersey, 294 p.CrossRefGoogle Scholar

Currie, P. J. 1986. Dinosaur fauna, p. 17–23. In Naylor, B. G. (ed.), Dinosaur Systematics Symposium Field Trip Guidebook, .Google Scholar

Currie, P. J. 1987. New approaches to studying dinosaurs in Dinosaur Provincial Park, p. 101–117. In Czerkas, S. J., and Olson, E. C. (eds.), Dinosaurs Past and Present, Volume II. Natural History Museum of Los Angeles County and University of Washington Press, Seattle.Google Scholar

Currie, P. J., and Dodson, P. 1984. Mass death of a herd of ceratopsian dinosaurs, p. 61–66. In Reif, W.-E., and Westphal, F. (eds.), Third Symposium on Mesozoic Terrestrial Ecosystems. Attempo Verlag, Tübingen.Google Scholar

Czerkas, S. A. 1987. A reevaluation of the plate arrangement on Stegosaurus stenops, p. 83–99. In Czerkas, S. J., and Olson, E. C. (eds.), Dinosaurs Past and Present, Volume II. Natural History Museum of Los Angeles County and University of Washington Press, Seattle.Google Scholar

Czerkas, S. J., and Czerkas, S. A. 1991. Dinosaurs, A Global View. Mallard Press, New York, 247 p.Google Scholar

Daniels, C. B. 1984. The importance of caudal lipid in the gecko Phyllodactylus marmoratus. Herpetologica, 40:337–344.Google Scholar

Dial, B. E., and Fitzpatrick, L. C. 1981. The energetic costs of tail autotomy to reproduction the lizard Coleonyx brevis (Sauria: Gekkonidae). Oecologia, 51:310–317.CrossRefGoogle ScholarPubMed

DiMichele, W. A., and Hook, R. W. 1992. Chapter 5, Paleozoic Terrestrial Ecosystems, p. 205–326. In Behrensmeyer, A. K., Damuth, J. D., DiMichele, W. A., Potts, R., Sues, H.-D., and Wing, S. L. (eds.), . Evolutionary Paleoecology of Terrestrial Plants and Animals. . University of Chicago Press, Chicago.Google Scholar

Dodson, P. A. 1975. Taxonomic implications of relative growth in lambeosaurine hadrosaurs. Systematic Zoology, 24:37–54.CrossRefGoogle Scholar

Dodson, P. A. 1990. Sauropod paleoecology, p. 402–407. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Dodson, P. A., Behrensmeyer, A. K., Bakker, R. T., and Mcintosh, J. S. 1980. Taphonomy and paleoecology of the dinosaur beds of the Jurassic Morrison Formation. Paleobiology, 6:208–232.CrossRefGoogle Scholar

Dong, Z. 1973. Dinosaurs from Wuerho. Memoirs of the Institute of Vertebrate Paleontology and Paleoanthropology, Academia Sinica, 11:45–52.Google Scholar

Dong, Z. 1990. Stegosaurs of Asia, p. 255–268. In Carpenter, K. and Currie, P. J. (eds.), Dinosaur Systematics: Perspectives and Approaches. Cambridge University Press, Cambridge and New York.Google Scholar

Dong, Z., Chang, Y., Li, X., and Zhou, S. 1978. Note on a new carnosaur (Yangchuanosaurus shangyouensis gen. et sp. nov.) from the Jurassic of Yangchuan District Szechuan Province. Kexue Tongbao, 23:298–302.Google Scholar

Dong, Z., Zhou, S., and Zhang, Y. 1983. The dinosaurian remains from Sichuan Basin, China. Palaeontologica Sinica, 162:1–145.Google Scholar

Dunham, A. E., Overall, K. L., Porter, W. P., and Forster, C. A. 1989. Implications of ecological energetics and biophysical and developmental constraints for life-history variation in dinosaurs, p. 1–19. In Farlow, J. O. (ed.), Paleobiology of the Dinosaurs. .Google Scholar

Farlow, J. O. 1987. Lower Cretaceous tracks, Paluxy River Valley, Texas. , Geological Society of America, Baylor University, p. 1–50.Google Scholar

Farlow, J. O. 1990. Dinosaur energetics and thermal biology, p. 43–55. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Farlow, J. O., Thompson, C. V., and Rosner, D. E. 1976. Plates of the dinosaur Stegosaurus: forced convection heat loss fins? Science, 192:1123–1125.CrossRefGoogle ScholarPubMed

Forster, C. A. 1990. The postcranial skeleton of the ornithopod dinosaur Tenontosaurus tilletti. Journal of Vertebrate Paleontology, 10:273–294.CrossRefGoogle Scholar

Frakes, L. A. 1979. Climates Through Geologic Time. Elsevier, Amsterdam, and New York, 310 p.Google Scholar

Frakes, L. A., Francis, J. E., and Syktus, J. I. 1992. Climate Modes of the Phanerozoic. Cambridge University Press, Cambridge and New York, 274 p.CrossRefGoogle Scholar

Frost, H. M. 1964. The Laws of Bone Structure. C. Thomas, Springfield, Illinois, 167 p.Google Scholar

Frost, H. M. 1967. An Introduction to Biomechanics. C. Thomas, Springfield, Illinois, 151 p.Google Scholar

Galton, P. M. 1990. Stegosauria, p. 435–455. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Gatesy, S. M. 1990. Caudofemoral musculature and the evolution of theropod locomotion. Paleobiology, 16:170–186.CrossRefGoogle Scholar

Gatesy, S. M. 1995. Functional evolution of the hindlimb and tail from basal theropods to birds, p. 219–234. In Thomason, J. (ed.), Functional Morphology in Vertebrate Paleontology. Cambridge University Press, Cambridge and New York.Google Scholar

Gilmore, C. W. 1933. On the dinosaurian fauna of the Iren Dabasu Formation. Bulletin of the American Museum of Natural History, 67:23–78.Google Scholar

Gould, S. J. 1996. A lesson from the old masters. Natural History, 105(8):16–22, .Google Scholar

Granger, W., and Gregory, W. K. 1923. Protoceratops andrewsi, a pre-ceratopsian dinosaur from Mongolia. American Museum Novitates, Number 72, 9 p.Google Scholar

Grenot, C. 1967. Observations physiol-écologiques sur la régulation thermique chez le lézard agamide Uromastix acanthinurus Bell. Bulletin de la Société Zoologique de France, 92:51–66.Google Scholar

Guthrie, R. D. 1990. Frozen Fauna of the Mammoth Steppe. The Story of Blue Babe. University of Chicago Press, Chicago, 323 p.Google Scholar

Haack, S. C. 1986. A thermal model of the sailback pelycosaur. Paleobiology, 12:450–458.CrossRefGoogle Scholar

Habicht, J. K. A. 1979. Paleoclimate, paleomagnetism, and continental drift. American Association of Petroleum Geologists Studies in Geology, 9, 31 p.Google Scholar

Hallam, A. 1984. Continental humid and arid zones during the Jurassic and Cretaceous. Palaeogeography, Palaeoclimatology, Palaeoecology, 47:195–233.CrossRefGoogle Scholar

Harestad, A. S., and Bunnell, F. L. 1979. Home range and body weight—a reevaluation. Ecology, 60:389–402.CrossRefGoogle Scholar

Harris, T. M. 1981. Burnt ferns in the English Wealden. Proceedings of the Geologists' Association, 92:47–58.CrossRefGoogle Scholar

Harrison, J. A. 1985. Giant camels from the Cenozoic of North America. Smithsonian Contributions to Paleobiology, 57, 29 p.Google Scholar

Hentz, T. F. 1988. Lithostratigraphy and paleoenvironments of Upper Paleozoic continental red beds, north-central Texas: Bowie (new) and Wichita (revised) Groups. Texas Bureau of Economic Geology Report of Investigations, 170, 55 p.Google Scholar

Hibbard, C. W., and Riggs, E. S. 1949. Upper Pliocene vertebrate fossils from Keefe Canyon, Meade County, Kansas. Bulletin of the Geological Society of America, 60:829–860.CrossRefGoogle Scholar

Hooley, R. W. 1925. On the skeleton of Iguanodon atherfieldensis sp. nov., from the Wealdon Shales of Atherfield (Isle of Wight). Quarterly Journal of the Geological Society of London, 81:1–61.CrossRefGoogle Scholar

Horner, J. R. 1982. Evidence of colonial nesting and ‘site fidelity’ among ornithischian dinosaurs. Nature, 297:675–676.CrossRefGoogle Scholar

Horner, J. R. 1984. The nesting behavior of dinosaurs. Scientific American, 250:130–137.CrossRefGoogle Scholar

Horner, J. R. 1990. Evidence of diphyletic orignination of the hadrosaurian (Reptilia: Ornithischia) dinosaurs, p. 179–187. In Carpenter, K. and Currie, P. J. (eds.), Dinosaur Systematics: Perspectives and Approaches. Cambridge University Press, Cambridge and New York.CrossRefGoogle Scholar

Horner, J. R. 1994a. Steak knives, beady eyes, and tiny little arms (a portrait of T. rex as a scavenger), p. 157–164. In Rosenberg, G. D. and Wolberg, D. L. (eds.), Dino Fest. .Google Scholar

Horner, J. R. 1994b. Comparative taphonomy of some dinosaur and extant bird colonial nesting grounds, p. 116–123. In Carpenter, K., Hirsch, D. F., and Horner, J. R. (eds.), Dinosaur Eggs and Babies. Cambridge University Press, Cambridge and New York.Google Scholar

Horner, J. R., and Currie, P. J. 1994. Embryonic and neonatal morphology and ontogeny of a new species of Hypacrosaurus (Ornithischia, Lambeosauridae) from Montana and Alberta, p. 312–336. In Carpenter, K., Hirsch, D. F., and Horner, J. R. (eds.), Dinosaur Eggs and Babies. Cambridge University Press, Cambridge and New York.Google Scholar

Horner, J. R., and Gorman, J. 1988. Digging Dinosaurs. Workman Publishers, New York, 210 p.Google Scholar

Hotton, N. III. 1980. An alternative to dinosaur endothermy: the happy wanderers, p. 311–350. In Thomas, R. D. K., and Olson, E. C. (eds.), A Cold Look at the Warm-Blooded Dinosaurs. . Westview Press, Boulder, Colorado.Google Scholar

Von Huene, F. 1956. Paläontologie und Phylogenie der Niederen Tetrapoden. Fischer, Jena, 716 p.Google Scholar

Hughes, N. F. 1976. Paleobiology of Angiosperm Origins, Problems of Mesozic Seed-Plant Evolution. Cambridge University Press, Cambridge and New York, 242 p.Google Scholar

Hughes, N. F. 1994. The Enigma of Angiosperm Origins. Cambridge University Press, Cambridge and New York, 303 p.Google Scholar

Janensch, W. 1914. Übersicht über die Wirbeltierfauna der Tendaguru-Schichten, nebst einer kurzen Charakterisierung der neu aufgeführten Arten von Sauropoden. Archiv für Biontologie, 3:81–110.Google Scholar

Janensch, W. 1929. Die Wirbelsäule der Gattung Dicraeosaurus. Palaeontographica, Supplement, 7:35–133.Google Scholar

Janensch, W. 1936. Ein aufgestelltes Skelett von Dicraeosaurus hansemanni. Palaeontographica, Supplement, 7:299–308.Google Scholar

Jerzykiewicz, T., Currie, P. J., Johnston, P. A., Koster, E. H., and Gradzinski, R. 1989. Upper Cretaceous dinosaur-bearing eolianites in the Mongolian Basin. .Google Scholar

Kauffman, E. G. 1984. The fabric of Cretaceous marine extinctions, p. 151–246. In Berggren, W. A. and Van Couvering, J. A. (eds.), Catastrophes and Earth History. Princeton University Press, Princeton, New Jersey.Google Scholar

Kellner, A. W. A., and Mader, B. J. 1997. Archosaur teeth from the Cretaceous of Morocco. Journal of Paleontology, 71:525–527.CrossRefGoogle Scholar

Koch, W. 1932. Über Wachstume und Alterveränderung am Skelett des Wisents. Abhandlungen der Bayerischen Akademie der Wissenschaften Mathematisch-naturwissenschaftliche Abteilung, 15:555–678.Google Scholar

Koster, E. H., and Currie, P. J. 1987. Upper Cretaceous coastal plain sediments at Dinosaur Provincial Park, southeast Alberta, p. 9–14. In Beus, S. (ed.), Rocky Mountain Section of the Geological Society of America. Decade of North American Geology Centennial Field Guide, .CrossRefGoogle Scholar

Krassilov, V. A. 1973. Mesozoic plants and the problem of angiosperm ancestry. Lethaia, 6:163–178.CrossRefGoogle Scholar

Lambe, L. M. 1918. On the genus Trachodon of Leidy. Ottawa Naturalist, 31:135–139.Google Scholar

Lambert, D. 1993. The Ultimate Dinosaur Book. Dorling-Kindersley, Ltd., London, , 192 p.Google Scholar

Langston, W. Jr. 1974. Nonmammalian Comanchean tetrapods. Geoscience and Man, 8:77–102.Google Scholar

de Lapparent, A. F. 1960. Les dinosauriens du “continental intercalaire” du Sahara central. Mémoires de la Société Géologique de France (Nouvelle Série), 88A, 56 p.Google Scholar

Lapparent, A. F. de., and Lavocat, R. 1955. Dinosauriens, p. 785–962. In Piveteau, J. (ed.), Traité de Paléontologie, 5, Amphibiens, Reptiles, Oiseaux. Masson et Cie, Paris.Google Scholar

Larson, P. L. 1994. Tyrannosaurus sex, p. 139–155. In Rosenberg, G. D., and Wolberg, D. L. (eds.), Dino Fest. The Paleontological Society Special Publication, .Google Scholar

Lavocat, R. 1954. Sur les Dinosauriens du continental intercalaire des Kem-Kem de la Daoura. Compte Rendu 19th International Geological Congress, 1952:65–68.Google Scholar

Lister, A. M. 1994. The evolution of the giant deer, Megaloceros giganteus (Blumenbach). Zoological Journal of the Linnean Society, 112:65–100.CrossRefGoogle Scholar

Lockley, M. G. 1986. A guide to dinosaur tracksites of the Colorado Plateau and American southwest. University of Colorado at Denver. Geology Department Magazine Special Issue, 1, 56 p.Google Scholar

Lockley, M. G. 1987. Dinosaur trackways and their importance in paleontological reconstruction, p. 80–95. In Czerkas, S. J., and Olson, E. C. (eds.), Dinosaurs Past and Present, Volume I. Natural History Museum of Los Angeles County and University of Washington Press, Seattle.Google Scholar

Lockley, M. G. 1991. Tracking Dinosaurs: A New Look at an Ancient World. Cambridge University Press, Cambridge and New York, 238 p.Google Scholar

Lockley, M. G. 1994. Dinosaur ontogeny and population structure: interpretations and speculations based on fossil footprints, p. 347–365. In Carpenter, K., Hirsch, D. F., and Horner, J. R. (eds.), Dinosaur Eggs and Babies. Cambridge University Press, Cambridge and New York.Google Scholar

Lucas, S. G., and Hunt, A. P. 1989. Alamosaurus and the sauropod hiatus in the Cretaceous of the North American western interior, p. 75–85. In Farlow, J. O. (ed.), Paleobiology of the Dinosaurs. .Google Scholar

Mader, B. J. 1989. The Brontotheriidae: a systematic revision and preliminary phylogeny of North American genera, p. 458–484. In Prothero, D. R. and Schoch, R. M. (eds.), The Evolution of Perissodactyls. Oxford University Press, New York.Google Scholar

Marsh, O. C. 1877. New order of extinct Reptilia (Stegosauria) from the Jurassic of the Rocky Mountains. American Journal of Science (series 3), 14:513–514.CrossRefGoogle Scholar

Marsh, O. C. 1878. Principal characters of American Jurassic dinosaurs. Part I. American Journal of Science (series 3), 16:411–416.CrossRefGoogle Scholar

Marsh, O. C. 1879. Principal characters of American Jurassic dinosaurs. Part II. American Journal of Science (series 3), 17:86–92.CrossRefGoogle Scholar

Marsh, O. C. 1880. Principal characters of American Jurassic dinosaurs. Part III. American Journal of Science (series 3), 19:253–259.CrossRefGoogle Scholar

Marsh, O. C. 1881. Principal characters of American Jurassic dinosaurs. Part V. American Journal of Science (series 3), 21:417–423.CrossRefGoogle Scholar

Marsh, O. C. 1887. Principal characters of American Jurassic dinosaurs. Part IX. American Journal of Science (series 3), 34:413–417.CrossRefGoogle Scholar

Marsh, O. C. 1890. Additional characters of the Ceratopsidae with notice of new Cretaceous dinosaurs. American Journal of Science (series 3), 39:418–426.CrossRefGoogle Scholar

Maryańska, T. and Osmólska, H. 1981. First lambeosaurine dinosaur from the Nemegt Formation, Upper Cretaceous, Mongolia. Acta Palaeontologica Polonica, 26:243–255.Google Scholar

McDonald, J. N. 1981. North American Bison, Their Classification and Evolution. University of California Press, Berkeley, 316 p.Google Scholar

McIntosh, J. S. 1990a. Sauropoda, p. 345–407. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

McIntosh, J. S. 1990b. Species determination in sauropod dinosaurs with tentative suggestions for their classification, p. 53–69. In Carpenter, K. and Currie, P. J. (eds.), Dinosaur Systematics: Perspectives and Approaches. Cambridge University Press, Cambridge and New York.CrossRefGoogle Scholar

McClung, C. E. 1908. Restoration of the skeleton of Bison occidentalis. Kansas University Science Bulletin, 4(10):249–252.Google Scholar

McNab, B. K. 1963. Bioenergetics and the determination of home range size. American Naturalist, 97:133–140.CrossRefGoogle Scholar

Moberly, R. M. J. 1960. Morrison, Cloverly and Sykes Mountain Formations, northern Bighorn Basin, Wyoming and Montana. Bulletin of the Geological Society of America, 71:1137–1176.CrossRefGoogle Scholar

Molnar, R. E. 1990. Problematic Theropoda: “carnosaurs,” p. 306–317. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Molnar, R. E., Kurzanov, S. M., and Dong, Z. 1990. Carnosauria, p. 169–209. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Morris, W. J. 1978. Hypacrosaurus altispinus? Brown from the Two Medicine Formation, Montana, a taxonomically indeterminate specimen. Journal of Paleontology, 52:200–205.Google Scholar

Nairn, A. E. M. 1978. Northern and eastern Africa, p. 329–370. In Moullade, M. and Nairn, A. E. M. (eds.), The Phanerozoic Geology of the World, II. The Mesozoic. A. Elsevier, Amsterdam and New York.Google Scholar

Niklas, K. 1986. Large-scale changes in animal and plant terrestrial communities, p. 383–406. In Raup, D. M. and Jablonski, D. (eds.), Patterns and Processes in the History of Life. Springer-Verlag, Berlin.CrossRefGoogle Scholar

Niklas, K., Tiffney, B. H., and Knoll, A. H. 1980. Apparent changes in the diversity of fossil plants. Evolutionary Biology, 12:1–89.Google Scholar

Niklas, K., Tiffney, B. H., and Knoll, A. H. 1985. Patterns in vascular plant diversification: an analysis at the species level, p. 97–128. In Valentine, J. W. (ed.), Phanerozoic Diversity Patterns. Princeton University Press, Princeton, New Jersey.Google Scholar

Norman, D. B. 1980. On the ornithischian dinosaur Iguanodon bernissartensis of Bernissart (Belgium). Mémoires de l'Institut Royal des Sciences Naturelles de Belgique, 178:1–103.Google Scholar

Norman, D. B. 1985. The Illustrated Encyclopedia of Dinosaurs. Crescent Books, New York, 208 p.Google Scholar

Norman, D. B. 1986. On the anatomy of Iguanodon atherfieldensis (Ornithischia: Ornithopoda). Bulletin de l'Institute Royal des Sciences Naturelles de Belgique. Sciences de la Terre, 56:281–372.Google Scholar

Norman, D. B., and Weishampel, D. B. 1990. Iguanodontidae and related ornithopods, p. 510–533. In Weishampel, D. B., Dodson, P. and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Owen, R. 1846. A History of British Fossil Mammals and Birds. J. Van Voorst, London, 560 p.Google Scholar

Owen-Smith, R. N. 1988. Megaherbivores. The Influence of Very Large Body Size on Ecology. Cambridge University Press, Cambridge and New York, 369 p.CrossRefGoogle Scholar

Osborn, H. F. 1929. The titanotheres of ancient Wyoming, Dakota, and Nebraska. United States Geological Survey Monograph 55, 953 p.Google Scholar

Ostrom, J. H. 1970. Stratigraphy and paleontology of the Cloverly Formation (Lower Cretaceous) of the Bighorn Basin area, Wyoming and Montana. Peabody Museum of Natural History Bulletin, 35, 234 p.Google Scholar

Ostrom, J. H., and McIntosh, J. S. 1966. Marsh's Dinosaurs, The Collections from Como Bluff. Yale University Press, New Haven and London, 388 p.Google Scholar

Paladino, F. V., O'Connor, M. P., and Spotila, J. R. 1990. Metabolism in leatherback turtles, gigantothermy, and thermoregulation in dinosaurs. Nature, 344:858–860.CrossRefGoogle Scholar

Paladino, F. V., and Spotila, J. R. 1994. Does the physiology of large living reptiles provide insights into the evolution of endothermy and paleophysiology of extinct dinosaurs?, p. 261–273. In Rosenberg, G. D., and Wolberg, D. L. (eds.), Dino Fest. The Paleontological Society Special Publication, .Google Scholar

Parks, W. A. 1920. The osteology of the trachodont dinosaur, Kritosaurus incurvimanus. University of Toronto Studies, Geological Series, 11:1–74.Google Scholar

Parks, W. A. 1922. Parasaurolophus walkeri, a new genus and species of crested trachodont dinosaur. University of Toronto Studies, Geological Series, 13:1–32.Google Scholar

Parks, W. A. 1923. Corythosaurus intermedius, a new species of trachodont dinosaur. University of Toronto Studies, Geological Series, 15:1–57.Google Scholar

Parrish, J. T., Ziegler, A. M., and Scotese, C. R. 1982. Rainfall patterns and the distribution of coals and evaporites in the Mesozoic and Cenozoic. Palaeogeography, Palaeoclimatology, Palaeoecology, 40:67–101.CrossRefGoogle Scholar

Parrish, J. M., Parrish, J. T., and Ziegler, A. M. 1986. Permian–Triassic paleogeography and paleoclimatology and implications for therapsid distribution, p. 109–131. In Hotton, N., MacLean, P. D., Roth, J. J., and Roth, E. C. (eds.), The Ecology and Biology of Mammallike Reptiles. Smithsonian Institution Press, Washington and London.Google Scholar

Parrish, J. M., Rees, P. M., and Ziegler, A. M. 1996. Correspondence of paleolatitudinal diversity in herbivorous dinosaurs and plants during the Jurassic, p. 301. In Repetski, J. E. (ed.), Sixth North American Paleontological Convention Abstracts of Papers. The Paleontological Society Special Publication, .Google Scholar

Paul, G. S. 1987. The science and art of restoring the life appearance of dinosaurs and their relatives, a rigorous how-to guide, p. 4–49. In Czerkas, S. J. and Olson, E. C. (eds.), Dinosaurs Past and Present, Volume II. Natural History Museum of Los Angeles, and University of Washington Press, Seattle.Google Scholar

Paul, G. S. 1988. Predatory Dinosaurs of the World. Simon and Schuster, New York., 464 p.Google Scholar

Payne, J. H., and Scott, A. J. 1982. Facies analysis of the Cretaceous Hensel Formation, response of a fluvial system to a marine transgression. Gulf Coast Association of Geological Societies Transactions, 32:91–100.Google Scholar

Peterson, O. A. 1909. A revision of the Entelodontidae. Memoirs of the Carnegie Museum, 4:41–158.CrossRefGoogle Scholar

Prothero, D. R. 1994. Mammalian evolution, p. 238–270. In Spencer, R. S. (ed.), Major Features of Vertebrate Evolution. . The Paleontological Society and University of Tennessee, Knoxville.Google Scholar

Reisz, R. R. 1986. Pelycosauria Part 17A, p. 1–102. In Wellnhofer, P. (ed.), Handbuch der Paläoherpetologie. Gustaf Fisher Verlag, Stuttgart.Google Scholar

Rich, T. V., and Rich, P. V. 1989. Polar dinosaurs and biotas of the Early Cretaceous of southeastern Australia. National Geographic Research, 5:15–53.Google Scholar

Rich, P. V., Rich, T. H., Wagstaff, B. E., Mason, J. M., Douthitt, C. B., Gregory, R. T., and Felton, E. A. 1988. Evidence for low temperatures and biologic divesity in Cretaceous high latitudes of Australia. Science, 242:1403–1406.CrossRefGoogle Scholar

de Ricolès, A. J. 1974. Evolution of endothermy: histological evidence. Evolutionary Theory, 1:51–80.Google Scholar

Romer, A. S., and Price, L. I. 1940. Review of the Pelycosauria. Geological Society of America Special Paper, 28:1–538.CrossRefGoogle Scholar

Roskosz, T., and Empel, W. 1961. The size of the head and height of the spinous processes in the region of the withers of the European bison. Acta Theriologica, 6:63–69.CrossRefGoogle Scholar

Rouse, G. E., and Srivastava, S. K. 1972. Palynological zonation of Cretaceous and Early Tertiary rocks of the Bonnet Plume Formation, northeastern Yukon, Canada. Canadian Journal of Earth Sciences, 9:1163–1179.CrossRefGoogle Scholar

Rozhdestvensky, A. K. 1952. Discovery of an iguanodont in Mongolia. Doklady Akademii Nauk SSSR, 84:1243–1246. Google Scholar

Ruben, J. 1995. The evolution of endothermy in mammals and birds: from physiology to fossils. Annual Review of Physiology, 57:69–95.CrossRefGoogle ScholarPubMed

Russell, D. A. 1970. A skeletal reconstruction of Leptoceratops gracilis from the Upper Edmonton Formation (Cretaceous) of Alberta. Canadian Journal of Earth Sciences, 9:375–402.CrossRefGoogle Scholar

Russell, D. A. 1977. A Vanished World. The Dinosaurs of Western Canada. , 4. National Museums of Canada, Ottawa, 142 p.Google Scholar

Russell, D. A. 1987. Models and paintings of North American dinosaurs, p. 114–131. In Czerkas, S. J. and Olson, E. C. (eds.), Dinosaurs Past and Present, Volume I. Natural History Museum of Los Angeles County and University of Washington Press, Seattle.Google Scholar

Said, R. 1962. The Geology of Egypt. Elsevier, Amsterdam and New York, 377 p.Google Scholar

Salgado, L., and Bonaparte, J. F. 1991. Un nuevo saurópodo Dicraeosauridae, Amargasaurus cazaui gen. et sp. nov., de la Formación La Amarga, Neocomiano de la Provincia del Neuquén, Argentina. Ameghiniana, 28:333–346.Google Scholar

Sereno, P. C. 1989. Evolution of bird-hipped dinosaurs (Ornithischia), p. 48–57. In Culver, S. J. (ed.), The Age of Dinosaurs. . The Paleontological Society and University of Tennessee, Knoxville.Google Scholar

Sereno, P. C., Wilson, J. A., Larsson, H. C. E., Dutheil, D. B., and Sues, H.-D. 1994. Early Cretaceous dinosaurs from the Sahara. Science, 266:267–270.CrossRefGoogle ScholarPubMed

Schmidt-Nielsen, K. 1964. Desert Animals: Physiological Problems of Heat and Water. Oxford University Press, New York, 277 p.Google Scholar

Schneider, K. M. 1941. Über Fettlager im Schwanz der Krusten—(Heloderma Wiegm.) und Stutz-Echse (Trachydosaurus Gray). Der Zoologische Garten, 13:236–247.Google Scholar

Scott, W. B. 1937. A History of the Land Mammals in the Western Hemisphere. American Philosophical Society , 786 p.Google Scholar

Slijper, E. J. 1946. Comparative biologic-anatomical investigations on the vertebral column and spinal musculature of mammals. Verhandelingen der Koninklijke Nederlandsche Akademie van Wetenschappen, Afdeeling Natuurkunde, 2, 42(5):1–128.Google Scholar

Smith, A. G., Smith, D. G., and Funnell, B. M. 1994. Atlas of Mesozoic and Cenozoic Coastlines. Cambridge University Press, Cambridge and New York, 99 p.Google Scholar

Spotila, J. R. 1980. Constraints of body size and environment on the temperature regulation of dinosaurs, p. 233–252. In Thomas, R. D. K., and Olson, E. C. (eds.), A Cold Look at the Warm-Blooded Dinosaurs. . Westview Press, Boulder, Colorado.Google Scholar

Spotila, J. R., Lommen, P. W., Bakken, G. S., and Gates, D. M. 1973. A mathematical model for body temperatures of large reptiles: implications for dinosaur physiology. American Naturalist, 107:391–404.CrossRefGoogle Scholar

Spotila, J. R., O'Connor, M. P., Dodson, P., and Paladino, F. V. 1991. Hot and cold running dinosaurs: body size, metabolism and migration. Modern Geology, 16:203–227.Google Scholar

Steel, R. 1969. Ornithischia, p. 1–84. In Kuhn, O. (ed.), Handbuch der Paläoherpetologie, 15. Gustav Fischer Verlag, Suttgart.Google Scholar

Sternberg, C. M. 1951. Complete skeleton of Leptoceratops gracilis Brown from the Upper Edmonton member on the Red Deer River, Alberta. Bulletin of the National Museum of Canada, 123:225–255.Google Scholar

Stock, C. 1930. Rancho La Brea, a record of Pleistocene life in California. Los Angeles County Museum of Natural History Science Series, 20, Paleontology, 11, 83 p.Google Scholar

Stovall, J. W., and Langston, W. Jr. 1950. Acrocathosaurus atokensis, a new genus and species of Lower Cretaceous Theropoda from Oklahoma. American Midland Naturalist, 43:696–728.CrossRefGoogle Scholar

Stromer, E. 1915. Ergebnisse der Forschungsreisen Prof. E. Stromers in den Wusten Aegyptens. II: Wirbeltierreste der Bajarije-Stufe (unterstes Cenoman). 3: Das Original des Theropoden Spinosaurus aegyptiacus nov. gen., nov. spec. Abhandlungen der Königlich bayerischen Akademie der Wissenschafte, 3:1–32.Google Scholar

Stromer, E. 1934. Ergebnisse der Forschungsreisen Prof. E. Stromers in den Wusten Aegyptens. II: Wirbeltierreste der Bajarije-Stufe (unterstes Cenoman). 13. Dinosauria. Abhandlungen der Königlich bayerischen Akademie der Wissenschafte (neue Folge), 22:1–79.Google Scholar

Sues, H.-D., and Norman, D. B. 1990. Hypsilophodontidae, Tenontosaurus, Dryosauridae, p. 498–509. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Swiezynski, K. 1962. Pleistocene musculatural systems of the European bison, Bison bonasus. Acta Theriologica, 6:165–217.CrossRefGoogle Scholar

Taquet, P. 1976. Géologie et paléontologie du gisement de Gadoufaoua (Aptien du Niger). Cahiers de Paléontologie, Centre National de la Recherche Scientifique Paris, p. 1–191.Google Scholar

Terpin, K. M., Spotila, J. R., and Foley, R. E. 1979. Thermoregulatory adaptations and heat energy budget analyses of the American alligator, Alligator mississippiensis. Physiological Zoology, 52:296–312.CrossRefGoogle Scholar

Thompson, D'A. W. 1942. On Growth and Form, (second edition). Cambridge University Press, Cambridge and New York, 1116 p.Google Scholar

Tidwell, W. D. 1975. Common Fossil Plants of Western North America. Brigham Young University Press, Provo, Utah, 197 p.Google Scholar

Tiffney, B. H. 1989. Plant life in the age of dinosaurs, p. 34–47. In Culver, S. J. (ed.), The Age of Dinosaurs. . The Paleontological Society, and University of Tennessee, Knoxville.Google Scholar

Tracey, R. C., Turner, J. S., and Huey, R. B. 1986. A biophysical analysis of possible thermoregulatory adaptations in sailed pelycosaurs, p. 195–206. In Hotton, N., MacLean, P. D., Roth, J. J., and Roth, E. C. (eds.), The Ecology and Biology of Mammal-like Reptiles. Smithsonian Institution Press, Washington and London.Google Scholar

Turner, C. E., and Fishman, N. S. 1991. Jurassic Lake T'oo‘dichi’: a large, saline lake, Morrison Formation, eastern Colorado Plateau. Geological Society of America Bulletin, 103:538–558.2.3.CO;2>CrossRefGoogle Scholar

Upchurch, G. R., Otto-Bliesner, B., and Scotese, S. 1996. Vegetation and warm climates during the Late Cretaceous, p. 404. In Repetski, J. E. (ed.), Sixth North American Paleontological Convention Abstracts of Papers. The Paleontological Society Special Publication, .Google Scholar

Van Houten, F. B. 1980. Latest Jurassic-Early Cretaceous regressive facies, northeastern African craton. Bulletin of the American Association of Petroleum Geologists, 64:857–867.Google Scholar

Vitt, L. J., Congdon, J. D., and Dickson, N. A. 1977. Adaptive strategies and energetics of tail autotomy in lizards. Ecology, 58:326–337.CrossRefGoogle Scholar

Vitt, L. J., and Cooper, W. E. Jr. 1986. Tail loss, tail color and predator escape in Eumeces (Lacertilia: Scincidae): age-specific differences in costs and benefits. Canadian Journal of Zoology, 64:583–592.CrossRefGoogle Scholar

Wainwright, S. A. 1988. Axis and Circumference, The Cylindrical Shape of Plants and Animals. Harvard University Press, Cambridge, Massachusetts, 132 p.CrossRefGoogle Scholar

Wainwright, S. A., Briggs, W. D., Currey, J. D., and Gosline, J. M. 1976. Mechanical Design in Organisms. Edward Arnold, London. , 423 p.Google Scholar

Walker, A. D. 1964. Triassic reptiles from the Elgin area: Ornithosuchus and the origin of carnosaurs. Philosophical Transactions of the Royal Society of London, B, 248:53–134.Google Scholar

Weaver, C. E. 1989. Clays, Muds, and Shales. Elsevier, Amsterdam and New York, 819 p.Google Scholar

Weishampel, D. B. 1990. Dinosaur distributions, p. 63–139. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Weishampel, D. B., and Norman, D. B. 1989. Vertebrate herbivory in the Mesozoic; jaws, plants, and evolutionary rates, p. 87–100. In Farlow, J. O. (ed.), Paleobiology of the Dinosaurs. .Google Scholar

Weishampel, D. B., and Horner, J. R. 1990. Hadrosauridae, p. 534–561. In Weishampel, D. B., Dodson, P., and Osmólska, H. (eds.), The Dinosauria. University of California Press, Berkeley.Google Scholar

Welty, J. C. 1975. The Life of Birds, (second edition). W. B. Saunders, Philadelphia, 623 p.Google Scholar

White, F. N. 1976. Chapter 5. Circulation, p. 275–334. In Gans, C., and Dawson, W. R. (eds.), Biology of the Reptilia, 5 Physiology A. Academic Press, London and New York.Google Scholar

Wilson, R. T. 1989. Ecophysiology of the Camelidae and Desert Ruminants. Springer-Verlag, Berlin, 120 p.CrossRefGoogle Scholar

Wing, S. L., and Tiffney, B. H. 1987. Interactions of angiosperms and herbivorous tetrapods through time, p. 203–224. In Friis, E. M., Chaloner, W. G. and Crane, P. R. (eds), The Origins of Angiosperms and their Biological Consequences. Cambridge University Press, Cambridge and New York.Google Scholar

Wing, S. L., and Sues, H.-D. 1992. Mesozoic and early Cenozoic terrestrial ecosystems, p. 327–418. In Behrensmeyer, A. K., Damuth, J. D., DiMichele, W. A., Potts, R., Sues, H.-D., and Wing, S. L. (eds.), Terrestrial Ecosystems Through Time. . University of Chicago Press, Chicago, Google Scholar

Winkler, D. A., and Murry, P. A. 1989. Paleoecology and hypsilophodontid behavior at the Proctor Lake dinosaur locality (Early Cretaceous), Texas, p. 55–61. In Farlow, J. O. (ed.), Paleobiology of the dinosaurs. .Google Scholar

Wolfe, J. A., and Upchurch, G. R. 1987a. North American nonmarine climates and vegetation during the Late Cretaceous. Palaeogeography, Palaeoclimatology, Palaeoecology, 61:33–77.CrossRefGoogle Scholar

Wolfe, J. A., and Upchurch, G. R. 1987b. Leaf assemblages across the Cretaceous Tertiary boundary in the Raton Basin, New Mexico and Colorado. Proceedings of the National Academy of Sciences of the United States of America, 84:5096–5100.CrossRefGoogle ScholarPubMed

Young, C. C. 1965. Fossil eggs from Nanhsiung, Kwangtung and Kanchou, Kiangsi. Vertebrata PalAsiatica, 9:141–170.Google Scholar

Young, J. Z. 1963. The Life of Mammals. Clarendon Press, Oxford, 820 p.Google Scholar