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References

  • Alexander, R.M.N. (2003) Principles of Animal Locomotion. Princeton University Press, Princeton, NJ and Oxford.
  • Anderson, K.J. & Jetz, W. (2005) The broad-scale ecology of energy expenditure of endotherms. Ecology Letters, 8, 310318.
  • Armstrong, H.M. & Robertson, A. (2000) Energetics of free-ranging large herbivores: when should costs affect foraging behaviour? Canadian Journal of Zoology, 78, 16041615.
  • Avgar, T., Mosser, A., Brown, G.S. & Fryxell, J.M. (2013) Environmental and individual drivers of animal movement patterns across a wide geographical gradient (ed A Mysterud). Journal of Animal Ecology, 82, 96106.
  • Body, G., Weladji, R.B. & Holand, Ø. (2012) The recursive model as a new approach to validate and monitor activity sensors. Behavioral Ecology and Sociobiology, 66, 15311541.
  • Boertje, R.D. (1985a) An energy model for adult female caribou of the Denali Herd, Alaska. Journal of Range Management, 38, 468473.
  • Boertje, R.D. (1985b) Seasonal activity of the Denali caribou herd, Alaska. Rangifer, 5, 3242.
  • Brown, G.S., Rettie, W.J. & Mallory, F.F. (2006) Application of a variance decomposition method to compare satellite and aerial inventory data: a tool for evaluating wildlife–habitat relationships. Journal of Applied Ecology, 43, 173184.
  • Brown, J.H., Gillooly, J.F., Allen, A.P., Savage, V.M. & West, G.B. (2004) Toward a metabolic theory of ecology. Ecology, 85, 17711789.
  • Brown, G.S., Rettie, W.J., Brooks, R.J. & Mallory, F.F. (2007) Predicting the impacts of forest management on woodland caribou habitat suitability in black spruce boreal forest. Forest Ecology and Management, 245, 137147.
  • Buckley, L.B. (2008) Linking traits to energetics and population dynamics to predict lizard ranges in changing environments. The American Naturalist, 171, E1E19.
  • Burnham, K.P. & Anderson, D.R. (2002) Model Selection and Multimodel Inference: A Practical Information-Theoretic Approach. Springer Scientific, New York, NY.
  • Callaghan, C., Virc, S. & Duffe, J. (2011) Woodland caribou, boreal population, trends in Canada. Canadian Councils of Resource Ministers. Canadian Biodiversity: Ecosystem Status and Trends 2010, Technical Thematic Report 11.
  • Cooke, S.J., Hinch, S.G., Wikelski, M., Andrews, R.D., Kuchel, L.J., Wolcott, T.G. et al. (2004) Biotelemetry: a mechanistic approach to ecology. Trends in Ecology & Evolution, 19, 334343.
  • Duquette, L.S. & Klein, D.R. (1987) Activity budgets and group size of caribou during spring migration. Canadian Journal of Zoology, 65, 164168.
  • Elliott, J.M. & Davison, W. (1975) Energy equivalents of oxygen consumption in animal energetics. Oecologia, 19, 195201.
  • Fancy, S.G. & White, R.G. (1985) Energy expenditures by caribou while cratering in snow. The Journal of Wildlife Management, 49, 987993.
  • Fancy, S.G. & White, R.G. (1986) Predicting energy expenditures for activities of caribou from heart rates. Rangifer, Special Issue No. 1, 123130.
  • Festa-Bianchet, M., Ray, J.C., Boutin, S., Côté, S. & Gunn, A. (2011) Conservation of caribou (Rangifer tarandus) in Canada: an uncertain future. Canadian Journal of Zoology, 89, 419434.
  • Gleiss, A.C., Wilson, R.P. & Shepard, E.L.C. (2011) Making overall dynamic body acceleration work: on the theory of acceleration as a proxy for energy expenditure. Methods in Ecology and Evolution, 2, 2333.
  • Halsey, L.G., Shepard, E.L.C. & Wilson, R.P. (2011) Assessing the development and application of the accelerometry technique for estimating energy expenditure. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, 158, 305314.
  • Halsey, L.G., Green, J.A., Wilson, R.P. & Frappell, P.B. (2009a) Accelerometry to estimate energy expenditure during activity: best practice with data loggers. Physiological and Biochemical Zoology, 82, 396404.
  • Halsey, L., Shepard, E., Quintana, F., Gomezlaich, A., Green, J. & Wilson, R. (2009b) The relationship between oxygen consumption and body acceleration in a range of species. Comparative Biochemistry and Physiology. Part A, Molecular & Integrative Physiology, 152, 197202.
  • Humphries, M.M. & Careau, V. (2011) Heat for nothing or activity for free? Evidence and implications of activity-thermoregulatory heat substitution. Integrative and Comparative Biology, 51, 419431.
  • McNab, B.K. (2002) The Physiological Ecology of Vertebrates: A View from Energetics. Comstock Publishing Assoc./Cornell University Press, Ithica, NY.
  • Nathan, R., Spiegel, O., Fortmann-Roe, S., Harel, R., Wikelski, M. & Getz, W.M. (2012) Using tri-axial acceleration data to identify behavioral modes of free-ranging animals: general concepts and tools illustrated for griffon vultures. The Journal of Experimental Biology, 215, 986996.
  • Nilssen, K.J., Johnson, H.K., Rognmo, A. & Blix, A.S. (1984) Heart rate and energy expenditure in resting and running Svalbard and Norwegian reindeer. The American Journal of Physiology, 246, R963R967.
  • Porter, W.P., Sabo, J.L., Tracy, C.R., Reichman, O.J. & Ramankutty, N. (2002) Physiology on a landscape scale: plant–animal interactions. Integrative and Comparative Biology, 42, 431453.
  • Schaefer, J.A. (2003) Long-term range recession and the persistence of caribou in the Taiga. Conservation Biology, 17, 14351439.
  • Scharf, F.S., Juanes, F. & Sutherland, M. (1998) Inferring ecological relationships from the edges of scatter diagrams: comparison of regression techniques. Ecology, 79, 448460.
  • Shepard, E.L.C., Wilson, R.P., Rees, W.G., Grundy, E., Lambertucci, S.A. & Vosper, S.B. (2013) Energy landscapes shape animal movement ecology. The American Naturalist, 182, 298312.
  • Soppela, P., Nieminen, M. & Timisjàrvi, J. (1986) Thermoregulation in reindeer. Rangifer, Special Issue No. 1, 273278.
  • Spectranalysis Inc. (2004) Introduction to the Ontario Land Cover Data Base, Second Edition (2000): Outline of Production Methodology and Description of 27 Land Cover Classes. Report to the Ontario Ministry of Natural Resources.
  • Tyler, N.J.C. & Blix, A.S. (1990) Survival strategies in arctic ungulates. Rangifer, Special Issue No. 3, 211230.
  • Wilson, R.P., Quintana, F. & Hobson, V.J. (2011) Construction of energy landscapes can clarify the movement and distribution of foraging animals. Proceedings of the Royal Society of London. Series B-Biological Sciences, 279, 975980.
  • Wilson, R.P., White, C.R., Quintana, F., Halsey, L.G., Liebsch, N., Martin, G.R. et al. (2006) Moving towards acceleration for estimates of activity-specific metabolic rate in free-living animals: the case of the cormorant. Journal of Animal Ecology, 75, 10811090.
  • Zheng, B. (2000) Summarizing the goodness of fit of generalized linear models for longitudinal data. Statistics in Medicine, 19, 12651275.