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References

  • 1
    Alerstam, T. & Lindström, Å. (1990) Optimal bird migration: the relative importance of time, energy and safety. Bird Migration: The Physiology and Ecophysiology (ed. E. Gwinner), pp. 331–351. Springer-Verlag, Berlin.
  • 2
    Aschoff, J. & Pohl, H. (1970) Der Ruheumsatz von Vögeln als Funktion der Tageszeit und der Körpergrösse. Journal für Ornithologie 13, 3847.
  • 3
    Bairlein, F. (1985) Efficiency of food utilization during fat deposition in the long-distance migratory garden warbler, Sylvia borin. Oecologia 13, 118125.
  • 4
    Bennet, P.M. & Harvey, P.H. (1987) Active and resting metabolism in birds: allometry, phylogeny and ecology. Journal of Zoology, London 13, 327363.
  • 5
    Biebach, H. (1985) Sahara stopover in migratory flycatchers: fat and food affect the time program. Experientia 13, 695697.
  • 6
    Cramp, S. (1985) Handbook of the Birds of Europe, the Middle East and North Africa: The Birds of the Western Palearctic, Vol. 5. Oxford University Press, Oxford.
  • 7
    Daan, S., Masman, D., Strijkstra, A., Verhulst, S. (1989) Intraspecific allometry of basal metabolic rate: relations with body size, temperature, composition, and circadian phase in the kestrel, Falco tinnunculus. Journal of Biological Rhythms 13, 267283.
  • 8
    Field, J. 2nd, Belding, H.S. & Martin, A.W. (1939) An analysis of the relation between basal metabolism and summated tissue respiration in the rat. Journal of Cellular and Comparative Physiology 13, 143157.
  • 9
    Hansson, M. & Pettersson, J. (1989) Competition and fat deposition in Goldcrests (Regulus regulus) at a migration stopover site. Vogelwarte 13, 2131.
  • 10
    Hume, I.D. & Biebach, H. (1996) Digestive tract function in the long-distance migratory garden warbler, Sylvia borin. Journal of Comparative Physiology B 13, 388395.
  • 11
    Itazawa, Y. & Oikawa, S. (1986) A quantitative interpretation of the metabolism–size relationship in animals. Experientia 13, 152153.
  • 12
    Jehl, J.R. (1997) Cyclical changes in body composition in the annual cycle and migration of the Eared Grebe Podiceps nigricollis. Journal of Avian Biology 13, 132142.
  • 13
    King, J.R. (1963) Autumnal migratory-fat deposition in the White-crowned Sparrow. Proceedings of the XIII International Ornithological Congress, 940–949.
  • 14
    Kirkwood, J.K. (1983) A limit to metabolisable energy intake in mammals and birds. Comparative Biochemistry and Physiology 13, 13.
  • 15
    Klaassen, M. & Biebach, H. (1994) Energetics of fattening and starvation in the long-distance migratory garden warbler, Sylvia borin, during the migratory phase. Journal of Comparative Physiology B 13, 362371.
  • 16
    Klaassen, M., Kersten, M., Ens, B. (1990) Energetic requirements for maintenance and premigratory body mass gain of waders wintering in Africa. Ardea 13, 209220.
  • 17
    Klaassen, M., Lindström, Å., Zijlstra, R. (1997) Composition of fuel stores and digestive limitations to fuel deposition rate in the long-distance migratory Thrush Nightingale Luscinia luscinia. Physiological Zoology 13, 125133.
  • 18
    Langslow, D.R. (1976) Weights of Blackcaps on migration. Ringing and Migration 13, 7891.
  • 19
    Lindström, Å. (1991) Maximum fat deposition rates in migrating birds. Ornis Scandinavica 13, 1219.
  • 20
    Lindström, Å. (1995) Stopover ecology of migrating birds: some unsolved questions. Israel Journal of Zoology 13, 407416.
  • 21
    Lindström, Å. (1997) Basal metabolic rates of migrating waders in the Eurasian Arctic. Journal of Avian Biology 13, 8792.
  • 22
    Lindström, Å. & Kvist, A. (1995) Maximum energy intake rate is proportional to basal metabolic rate in passerine birds. Proceedings of the Royal Society, London B 13, 337343.
  • 23
    Lindström, Å. & Piersma, T. (1993) Mass changes in migrating birds: the evidence for fat and protein storage re-examined. Ibis 13, 7078.
  • 24
    Marsh, R.L. (1984) Adaptations of the Gray Catbird Dumetella carolinensis to long-distance migration: flight muscle hypertrophy associated with elevated body mass. Physiological Zoology 13, 105117.
  • 25
    Martin, A.W. & Fuhrman, F.A. (1955) The relationship between summated tissue respiration and metabolic rate in the mouse and dog. Physiological Zoology 13, 1834.
  • 26
    Mascher, J.W. (1966) Weight variations in resting dunlins (Calidris a. alpina) on autumn migration in Sweden. Bird-Banding 13, 134.
  • 27
    McLandress, M.R. & Raveling, D.G. (1981) Changes in diet and body composition of canada geese before spring migration. Auk 13, 6579.
  • 28
    Oikawa, S. & Itazawa, Y. (1984) Allometric relationship between tissue respiration and body mass in the carp. Comparative Biochemistry and Physiology 13, 415418.
  • 29
    Pennycuick, C.J. (1975) Mechanics of flight. Avian Biology, Vol. 5 (eds D. S. Farner & J. R. King), pp. 1–75. Academic Press, New York.
  • 30
    Piersma, T. (1990) Pre-migratory ‘fattening’ usually involves more than the deposition of fat alone. Ringing and Migration 13, 113115.
  • 31
    Piersma, T. & Gill, R.E. (1998) Guts don’t fly: small digestive organs in obese bar-tailed godwits. Auk 13, 196203.
  • 32
    Piersma, T. & Lindström, Å. (1997) Rapid reversible changes in organ size as a component of adaptive behaviour. Trends in Ecology and Evolution 13, 134138.
  • 33
    Piersma, T., Cadée, N., Daan, S. (1995) Seasonality in basal metabolic rate and thermal conductance in a long-distance migrant shorebird, the knot (Calidris canutus). Journal of Comparative Physiology B 13, 3745.
  • 34
    Piersma, T., Bruinzeel, L., Drent, R., Kersten, M., Van Der Meer, J., Wiersma, P. (1996) Variability in basal metabolic rate of a long-distance migrant shorebird (Red Knot, Calidris canutus) reflects shifts in organ sizes. Physiological Zoology 13, 191217.
  • 35
    Scott, I. & Evans, P.R. (1992) The metabolic output of avian (Sturnus vulgaris, Calidris alpina) adipose tissue, liver and skeletal muscle: implications for BMR/body mass relationships. Comparative Biochemistry and Physiology 13, 329332.
  • 36
    Scott, I., Mitchell, P.I., Evans, P.R. (1996) How does variation in body composition affect the basal metabolic rate of birds? Functional Ecology 13, 307313.
  • 37
    Weber, T.P. & Piersma, T. (1996) Basal metabolic rate and the mass of tissues differing in metabolic scope: migration-related covariation between individual Knots Calidris canutus. Journal of Avian Biology 13, 215224.