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References

  • Addo-Bediako, A., Chown, S.L. & Gaston, K.J. (2002) Metabolic cold adaptation in insects: a large-scale perspective. Functional Ecology 16, 332338.
  • Allen, A.P., Brown, J.H. & Gillooly, J.F. (2002) Global biodiversity, biochemical kinetics, and the energy-equivalence rule. Science 297, 15451548.
  • Archer, S.D. & Johnston, I.A. (1991) Density of cristae and distribution of mitochondria in the slow muscles of Antarctic fish. Physiological Zoology 64, 242258.
  • Arrhenius, S. (1889) Über die Reaktionsgesechwindigkeit bei der Inversion von Rohrzucker durch Säuren. Zeitschrift für Physikalisch Chemie 4, 226248.
  • Arrhenius, S. (1915) Quantitative Laws in Biological Chemistry. Bell, London.
  • Blaxter, K.L. (1967) The Energetics of Ruminants. Hutchinson, London.
  • Brett, J.R. & Groves, T.D.D. (1997) Physiological energetics. Fish Physiology, Vol. 8: Bioenergetics and Growth (eds W.S.Hoar, D.J.Randall & J.R.Brett), pp. 279352. Academic Press, New York.
  • Brody, S. (1945) Bioenergetics and Growth. Reinhold Publishing Corporation, New York.
  • Brown, J.H. (1995) Macroecology. University of Chicago Press, Chicago, IL.
  • Calder, W.A. (1984) Size, Function and Life History. Harvard University Press, Cambridge, MA.
  • Clarke, A. (1991) What is cold adaptation and how should we measure it? American Zoologist 31, 8192.
  • Clarke, A. (1993) Seasonal acclimatization and latitudinal compensation in metabolism: do they exist? Functional Ecology 7, 139149.
  • Clarke, A. (2003a) Evolution and low temperatures. Evolution on Planet Earth (eds A.Lister & L.Rothschild), pp. 187207. Academic Press, London.
  • Clarke, A. (2003b) Costs and consequences of evolutionary temperature adaptation. Trends in Ecology and Evolution 18, 573581.
  • Clarke, A. (2004) Is there a Universal Temperature Dependence of metabolism? Functional Ecology 18, 252256.
  • Clarke, A. & Johnston, N.M. (1999) Scaling of metabolic rate with body mass and temperature in teleost fish. Journal of Animal Ecology 68, 893905.
  • Clarke, A. & Peck, L.S. (1991) The physiology of polar plankton. Polar Research 10, 355369.
  • Clarke, A., Rodhouse, P.G., Holmes, L.J. & Pascoe, P.L. (1989) Growth rate and nucleic acid ratio in cultured cuttlefish Sepia officinalis (Mollusca: Cephalopoda). Journal of Experimental Marine Biology and Ecology 133, 229240.
  • Daan, S., Masman, D. & Groenewold, A. (1990) Avian basal metabolic rates: their association with body composition and energy expenditure in nature. American Journal of Physiology 259, R333R340.
  • Dodds, P.S., Rothman, D.H. & Weitz, J.S. (2001) Re-examination of the ‘3/4-law’ of metabolism. Journal of Theoretical Biology 209, 927.
  • Ege, R. & Krogh, A. (1914) On the relation between the temperature and the respiratory exchange in fishes. Internationale Revue der Gesamten Hydrobiologie und Hydrographie 7, 4855.
  • Feder, M.E., Bennett, A.F. & Huey, R.B. (2000) Evolutionary physiology. Annual Reviews of Ecology and Systematics 31, 315341
  • Gillooly, J.F., Brown, J.H., West, G.B., Savage, V.M. & Charnov, E.L. (2001) Effects of size and temperature on metabolic rate. Science 293, 22482251.
  • Gillooly, J.F., Charnov, E.L., West, G.B., Savage, V.M. & Brown, J.H. (2002) Effects of size and temperature on developmental time. Nature 417, 7073.
  • Graves, J.E. & Somero, G.N. (1982) Electrophoretic and functional enzymic evolution in four species of eastern Pacific barracudas from different thermal environments. Evolution 36, 97106.
  • Hemmingsen, A.M. (1950) The relation of standard (basal) energy metabolism to total fresh weight of living organisms. Reports of the Steno Memorial Hospital and the Nordisk Insulinlaboratorium 4, 148.
  • Hemmingsen, A.M. (1960) Energy metabolism as related to body size and respiratory surfaces, and its evolution. Reports of the Steno Memorial Hospital and the Nordisk Insulinlaboratorium 9, 1110.
  • Hochachka, P.W. & Somero, G.N. (2002) Biochemical Adaptation: Mechanism and Process in Physiological Evolution. Oxford University Press, Oxford.
  • Van’t Hoff, J.H. (1896) Studies of Chemical Dynamics (English translation by Thomas Ewan). Williams & Norgate, London.
  • Hofmann, G.E., Buckley, B.A., Place, S.P. & Zippay, M.L. (2002) Molecular chaperones in ectothermic marine animals: biochemical function and gene expression. Integrative and Comparative Biology 42, 808814.
  • Holland, L.Z., McFall-Ngai, M. & Somero, G.N. (1997) Evolution of lactate dehydrogenase-A homologs of barracuda fishes (genus Sphyraena) from different thermal environments: differences in kinetic properties and thermal stability are due to amino acid substitutions outside the active site. Biochemistry 36, 32073215.
  • Hulbert, A.J. & Else, P.L. (2000) Mechanisms underlying the cost of living in animals. Annual Review of Physiology 62, 207235.
  • Ikeda, T. (1985) Metabolic rates of epipelagic marine zooplankton as a function of body mass and temperature. Marine Biology 85, 111.
  • Ikeda, T., Kanno, Y., Ozaki, K. & Shinada, A. (2001) Metabolic rates of epipelagic marine copepods as a function of body mass and temperature. Marine Biology 139, 587596.
  • Ivleva, I.V. (1980) The dependence of crustacean respiration on body mass and habitat temperature. Internationale Revue der Gesamten Hydrobiologie 65, 147.
  • Jeong, M., Tombor, B., Albert, R., Oltvai, Z.N. & Barabási, A.L. (2000) The large-scale organization of metabolic networks. Nature 407, 651654.
  • Johnston, I.A., Clarke, A. & Ward, P. (1991) Temperature and metabolic rate in sedentary fish from the Antarctic, North Sea and Indo-West Pacific Ocean. Marine Biology 109, 191195.
  • Kerr, S.R. & Dickie, L.M. (2001) The Biomass Spectrum: a Predator–Prey Theory of Aquatic Production. Columbia University Press, New York.
  • Krogh, A. (1916) The Respiratory Exchange of Animals and Man. Longmans Green, London.
  • Lawton, J.H. (1999) Are there general laws in ecology? Oikos 84, 177192.
  • Lotka, A.J. (1922) Contribution to the energetics of evolution. Proceedings of the National Academy of Sciences of the USA 8, 147150.
  • Maurer, B.A. (1999) Untangling Ecological Complexity: the Macroscopic Perspective. Chicago University Press, Chicago, IL.
  • Moerland, T.S. (1995) Temperature: enzyme and organelle. Biochemistry and Molecular Biology of Fishes, Vol. 5 (eds P.W.Hochachka & T.P.Mommsen), pp. 5771. Elsevier, Amsterdam.
  • Morris, D.J. & North, A.W. (1984) Oxygen consumption of five species of fish from South Georgia. Journal of Experimental Marine Biology and Ecology 78, 7586.
  • Peck, L.S. & Conway, L.Z. (2000) The myth of cold adaptation: oxygen consumption in stenothermal Antarctic bivalves. The Evolutionary Biology of the Bivalvia (eds E.M.Harper, J.D.Taylor & J.A.Crame), pp. 441450. Geological Society, London.
  • Peters, R.H. (1983) The Ecological Implications of Body Size. Cambridge University Press, Cambridge.
  • Preedy, V.R., Paska, L., Sugden, P.H. & Schofield, P.S. & Sugden, M.C. (1988) The effects of surgical stress and short-term fasting in protein synthesis in vivo in diverse tissues of the mature rat. Biochemical Journal 250, 179188.
  • Rolfe, D.F.S. & Brown, G.C. (1997) Cellular energy utilization and molecular origin of standard metabolic rate in mammals. Physiological Reviews 77, 731758.
  • Russell, N.J. (2000) Towards an understanding of cold activity of enzymes from psychrophiles. Extremophiles 4, 8390.
  • Schmidt-Nielsen, K. (1984) Scaling: Why Is Animal Size So Important? Cambridge University Press, Cambridge.
  • Somero, G.N. (1995) Proteins and temperature. Annual Reviews of Physiology 57, 4368.
  • Wagner, A. & Fell, D.A. (2001) The small world inside large metabolic networks. Proceedings of the Royal Society of London, Series B 268, 18031810.
  • West, G.B., Brown, J.H. & Enquist, B.J. (1997) A general model for the origin of allometric scaling laws in biology. Science 276, 122126.
  • West, G.B., Brown, J.H. & Enquist, B.J. (1999) The fourth dimension of life: fractal geometry and allometric scaling of organisms. Science 284, 16771679.
  • Wilson, K.J. (1974) The relationship of maximum and resting oxygen consumption and heart rates to weight in reptiles of the order Squamata. Copeia 74, 781784.
  • Zimmerman, C. & Hubold, G. (1998) Respiration and activity of Arctic and Antarctic fish with different modes of life: a multivariate analysis of experimental data. Fishes of Antarctica: a Biology Overview (eds G.Di Prisco, E.Pisano & A.Clarke), pp. 163174. Springer-Verlag, Berlin.