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Woodcutting behavior in beavers (Castoridae, Rodentia): estimating ecological performance in a modern and a fossil taxon

Published online by Cambridge University Press:  08 April 2016

Natalia Rybczynski*
Affiliation:
Earth Sciences, Canadian Museum of Nature, Post Office Box 3443 STN “D,” Ottawa, Ontario K1P 6P4, Canada. E-mail: [email protected]

Abstract

An early Pliocene fossil locality in the Canadian High Arctic preserves the remains of the extinct beaver Dipoides sp. (Castoridae, Rodentia) in association with an assemblage of fossil beaver-cut wood. The wood assemblage presents a first opportunity to investigate woodcutting behavior and ecological performance in an extinct castorid genus. This study compares woodcutting in Dipoides sp. with that of the modern beaver, Castor canadensis, using evidence from small-diameter cut sticks (i.e., sticks transected by parallel series of cut marks) in combination with behavioral observations of Castor woodcutting. During woodcutting both Castor and Dipoides used their incisors unilaterally; the upper incisor was pressed against the stick while the corresponding lower incisor cut. Cut marks were relatively larger for Castor than Dipoides (scaled to incisor size). Compared with Dipoides, Castor more frequently used a cutting strategy that minimized the number of cuts needed to transect a stick (e.g., clipping as opposed to chip removal). Taken together, the behavioral evidence suggests that ecological cutting performance was lower for Dipoides than Castor.

Type
Articles
Copyright
Copyright © The Paleontological Society 

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References

Literature Cited

Aalto, M., Donner, J., Hirvas, H., and Niemelä, J. 1989. An interglacial beaver dam deposit at Vimpeli, Ostrobothnia, Finland. Geological Survey of Finland, Bulletin 348:134.Google Scholar
Arnold, S. J. 1983. Morphology, performance and fitness. American Zoologist 23:347361.CrossRefGoogle Scholar
Boucot, A. J., ed. 1990. Evolutionary paleobiology of behavior and coevolution. Elsevier, Amsterdam.Google Scholar
Butler, D. R. 1995. Zoogeomorphology: animals as geomorphic agents. Cambridge University Press, Cambridge.CrossRefGoogle Scholar
Carroll, R. L. 1997. Patterns and processes of vertebrate evolution. Cambridge University Press, Cambridge.Google Scholar
Clack, J. A. 2006. The emergence of early tetrapods. Palaeogeography, Palaeoclimatology, Palaeoecology 232:167189.CrossRefGoogle Scholar
Collinson, M. E., and Hooker, J. J. 2000. Gnaw marks on Eocene seeds: evidence for early rodent behaviour. Palaeogeography, Palaeoclimatology, Palaeoecology 157:127149.CrossRefGoogle Scholar
Costes, J. P., Ko, P. L., Ji, T., Deces-Petit, C., and Altintas, Y. 2004. Orthogonal cutting mechanics of maple: modeling a solid wood-cutting process. Journal of Wood Science 50:2834.CrossRefGoogle Scholar
Druzinsky, R. E. 1995. Incisal biting in the mountain beaver (Aplodontia rufa) and woodchuck (Marmota monax). Journal of Morphology 226:79101.CrossRefGoogle ScholarPubMed
Dumont, E. R., and Herrel, A. 2003. The effects of gape angle and bite point on bite force in bats. Journal of Experimental Biology 206:21172123.CrossRefGoogle ScholarPubMed
Dumont, E. R., Piccirillo, J., and Grosse, L. R. 2005. Finite-element analysis of biting behavior and bone stress in the facial skeletons of bats. Anatomical Record, Part A, Discoveries in Molecular Cellular and Evolutionary Biology 283A:319330.CrossRefGoogle Scholar
Erickson, G. M., VanKirk, S. D., Su, J. T., Levenston, M. E., Caler, W. E., and Carter, D. R. 1996. Bite-force estimation for Tyrannosaurus rex from tooth-marked bones. Nature 382:706708.CrossRefGoogle Scholar
Garrison, G. 1966. Pollen stratigraphy and age of an early postglacial beaver site near Columbus, Ohio. Ohio Journal of Science 67:96105.Google Scholar
Geist, O. W. Undated (1956?). Scientific investigations of the Old Crow and Porcupine River regions of Alaska and Yukon Territory, 1952–1953. Unpublished report.Google Scholar
Gingerich, P. D. 2003. Land-to-sea transition in early whales: evolution of Eocene Archaeoceti (Cetacea) in relation to skeletal proportions and locomotion of living semiaquatic mammals. Paleobiology 29:429454.2.0.CO;2>CrossRefGoogle Scholar
Harington, C. R. 1996. Paleoecology of a Pliocene beaver pond site in the Canadian Arctic Islands. Second International Geological Congress, Beijing, Abstracts of papers, p. 114.Google Scholar
Hiiemae, K. M. 2000. Feeding in mammals. Pp. 411448 in Schwenk, K., ed. Feeding. Academic Press, San Diego.CrossRefGoogle Scholar
Hillerud, J. M. 1975. New specimens of Castoroides ohioensis from Ohio. (Paper presented at annual meeting of Society of Vertebrate Paleontology, Museum of Comparative Zoology, Cambridge, Mass.)Google Scholar
Hillerud, J. M. 1976. Ohio specimens of the giant beaver, Castoroides ohioensis Foster 1837. (Paper presented at Ohio Academy of Science meetings, Miami University, Oxford, Ohio.)Google Scholar
Hugueney, M. 1999. Family Castoridae in Rössner, G. E., and Heissig, K., eds. The Miocene land mammals of Europe. Friedrich Pfeil, Munich.Google Scholar
Husak, J. F., and Fox, S. F. 2006. Field use of maximal sprint speed by collared lizards (Crotaphytus collaris): compensation and sexual selection. Evolution 60:18881895.Google ScholarPubMed
Irschick, D. J. 2003. Measuring performance in nature: implications for studies of fitness within populations. Integrative and Comparative Biology 43:396407.CrossRefGoogle ScholarPubMed
Irschick, D., Bailey, J. K., Schweitzer, J. A., Husak, J. F., and Meyers, J. J. 2007. New directions for studying selection in nature: studies of performance and communities. Physiological and Biochemical Zoology 80:557567.CrossRefGoogle ScholarPubMed
Kangas, P. C. 2004. Ecological engineering: principles and practice. CRC Press, Boca Raton, Fla. Google Scholar
Kaye, C. A. 1962. Early postglacial beavers in southeastern New England. Science 138:906907.CrossRefGoogle ScholarPubMed
Korth, W. W. 1994. The Tertiary record of rodents in North America. Plenum, New York.CrossRefGoogle Scholar
Korth, W. W. 2001. Cranial morphology of some early beavers (Rodentia, Castoridae) from the Oligocene (Orellan and Whitneyan) of South Dakota. Paludicola 3:4050.Google Scholar
Korth, W. W. 2002. Comments on the systematics and classification of the beavers (Rodentia, Castoridae). Journal of Mammalian Evolution 8:279296.CrossRefGoogle Scholar
Korth, W. W. 2004. Beavers (Rodentia, Castoridae) from the Running-water Formation (early Miocene, early Hemingfordian) of western Nebraska. Annals of the Carnegie Museum 73:6171.CrossRefGoogle Scholar
Laboratory, F. P. 1999. Wood handbook: wood as an engineering material. United States Department of Agriculture, Forest Service, Forest Products Laboratory, Madison, Wisc. CrossRefGoogle Scholar
Lauder, G. V. 1990. Functional morphology and systematics: studying functional patterns in an historical context. Annual Review of Ecology and Systematics 21:317340.CrossRefGoogle Scholar
MacArthur, R. A., and Aleksiuk, M. 1979. Seasonal microenvironments of the muskrat Ondatra zibethicus in a northern marsh. Journal of Mammalogy 60: 164–154.CrossRefGoogle Scholar
Matheus, P., Begét, J., Mason, O., and Gelvin-Reymiller, C. 2003. Late Pliocene to late Pleistocene environments preserved at the Palisades Site, central Yukon River, Alaska. Quaternary Research 60:3343.CrossRefGoogle Scholar
Mathew, W. D. 1905. Notice of two new genera of mammals from the Oligocene of South Dakota. Bulletin of the American Museum of Natural History 21:2126.Google Scholar
Mathews, J. V. J., and Fyles, J. G. 2000. Late Tertiary plant and arthropod fossils from the High Terrace Sediments on the Fosheim Peninsula of Ellesmere Island (Northwest Territories, District of Franklin). Geological Survey of Canada. Bulletin 529:295317.Google Scholar
Mathews, J. V. J., and Ovenden, L. E. 1990. Late Tertiary plant macrofossils from localities in Arctic/Subarctic North America: a review of the data. Arctic 34:364392.Google Scholar
Mayr, E. 1974. Behavior programs and evolutionary strategies. American Scientist 62:650659.Google ScholarPubMed
Mazzetta, G. V., and Blanco, R. E. 2001. Speeds of dinosaurs from the Albian-Cenomanian of Patagonia and sauropod stance and gait. Acta Palaeontologica. Polonica 46:235246.Google Scholar
Morgan, L. H. 1868. The American beaver and his works. J. B. Lippincott, Philadelphia.Google Scholar
Muhs, D. R., Ager, T., Stattford, T. W., Pavich, M., Begét, J. E., and McGeehin, J. P. 1997. The last interglacial-glacial cycle in Late Quaternary loess, central interior Alaska. Beringian Paleoenvironments Workshop. Florissant, Colo., Program and abstracts, pp. 109112.Google Scholar
Müller-Schwarze, D., and Sun, L. 2003. The beaver: natural history of a wetlands engineer. Cornell University Press, Ithaca, N.Y. Google Scholar
Novak, M. 1987. Beaver. Pp. 283312 in Novak, M., Baker, J. A., Obbard, M. E., and Malloch, B., eds. Wild furbearer management and conservation in North America. Ontario Trappers Association, Toronto.Google Scholar
Nowak, R. M. 1999. Walker's mammals of the world. Johns Hopkins University Press, Baltimore.CrossRefGoogle Scholar
Odling-Smee, F. J., Laland, K. N., and Feldman, M. W. 2003. Niche construction: the neglected process in evolution. Princeton University Press, Princeton, N.J. Google Scholar
Reiterer, A., Burgert, I., Sinn, G., and Tschegg, S. 2002. The radial reinforcement of the wood structure and its implication on mechanical and fracture mechanical properties: a comparison between two tree species. Journal of Materials Science 37:935940.CrossRefGoogle Scholar
Ricklefs, R. E., and Miles, D. B. 1994. Ecological and evolutionary inferences from morphology: an ecological perspective. Pp. 4259 in Wainwright, P. C. and Reilly, S. M., eds. Ecological morphology: integrative organismal biology. University of Chicago Press, Chicago.Google Scholar
Ringrose, T. J. 1993. Bone counts and statistics: a critique. Journal of Archaeological Science 20:121157.CrossRefGoogle Scholar
Rybczynski, N. 2007. Castorid phylogenetics: implications for the evolution of swimming and tree-exploitation in beavers. Journal of Mammalian Evolution 14:135.CrossRefGoogle Scholar
Sheikh-Ahmed, J. Y., and McKenzie, W. M. 1997. Measurements of tool wear and dulling in the machining of particleboard. Pp. 659670 in Proceedings of the 13th International Wood Machining Seminar. Vancouver, Canada.Google Scholar
Shotwell, J. A. 1970. Pliocene mammals of southeast Oregon and adjacent Idaho. Museum of Natural History, University of Oregon, Bulletin 17:1103.Google Scholar
Smith, K., Somers, C., Moore, L., and Coy, B. 2003. Not just another dam exhibit. Soundings (Magazine of the International Marine Animal Trainers Association) 28:2829.Google Scholar
Smith, K. K., and Redford, K. H. 1990. The anatomy and function of the feeding apparatus in two armadillos (Dasypoda): anatomy is not destiny. Journal of Zoology 222:2747.CrossRefGoogle Scholar
Tedford, R. H., and Harington, C. R. 2003. An Arctic mammal fauna from the Early Pliocene of North America. Nature 425:388390.CrossRefGoogle ScholarPubMed
Thewissen, J. G. M., and Fish, F. E. 1997. Locomotor evolution in the earliest cetaceans: functional model, modern analogues, and paleontological evidence. Paleobiology 23:482490.CrossRefGoogle Scholar
Uhmeier, A. 1995. Some fundamental-aspects of wood chipping. TAPPI Journal 78(10):7986.Google Scholar
Van Valkenburgh, B. 1994. Ecomorphological analysis of fossil vertebrates and their paleocommunities. Pp. 140166 in Wainwright, P. C. and Reilly, S. M., eds. Ecological morphology: integrative organismal biology. University of Chicago Press, Chicago.Google Scholar
Vazquez-Cooz, I., and Meyer, R. W. 2006. Cutting forces for tension and normal wood of maple. Forest Products Journal 56:2634.Google Scholar
Weijs, W. A., and Dantuma, R. 1975. Electromyography and mechanics of mastication in the albino rat. Journal of Morphology 146:134.CrossRefGoogle ScholarPubMed
Wilsson, L. 1971. Observations and experiments on the ethology of the European beaver (Castor fiber L.). Viltrevy (Swedish Wildlife) 8:115266.Google Scholar
Woodward, D. K. 1977. The status and ecology of the beaver (Castor canadensis carolinensis) in South Carolina with emphasis on the Piedmont region. . Clemson University, Clemson, S.C. Google Scholar
Xu, X. 1995. Phylogeny of beavers (Family Castoridae): applications to faunal dynamics and biostratigraphy since the Eocene. . Southern Methodist University, Dallas.Google Scholar
Xu, X.-F. 1994. Evolution of Chinese Castoridae. In Tomida, Y., Li, C. K., and Setoguchi, T., eds. Rodent and lagomorph families of Asian origins and diversification. National Science Museum (Tokyo) Monographs 8:7797.Google Scholar