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References

  • Addo-Bediako, A., Chown, S. & Gaston, K.J. (2002) Metabolic cold adaptation in insects: a large-scale perspective. Functional Ecology 16, 332338.
  • Arnqvist, G. & Wooster, D. (1995) Meta-analysis: synthesizing research findings in ecology and evolution. Trends in Ecology and Evolution 10, 236240.
  • Aunaas, T., Baust, J.G. & Zachariessen, K.E. (1983) Ecophysiological studies on arthropods from Spitsbergen. Polar Research 1, 235240.
  • Bale, J.S., Hodkinson, I.D., Block, W., Webb, N.R., Coulson, S.C. & Strathdee, A. (1997) Life strategies of arctic terrestrial arthropods. Ecology of Arctic Environments (eds S.J.Woodin & M.Marquiss), pp. 137165. Blackwell Science, Oxford.
  • Bennett, V.A., Kukal, O. & Lee, R.E. (1999) Metabolic opportunists: feeding and temperature influence the rate and pattern of respiration in the high arctic woollybear caterpillar Gynaephora groenlandica (Lymantriidae). Journal of Experimental Biology 202, 4753.
  • Bertram, G.C.L. (1935) The low temperature limit of activity of Arctic insects. Journal of Animal Ecology 4, 3542.
  • Block, W. (1976) Oxygen uptake by Nanochestes antarcticus (Acari). Oikos 27, 320323.
  • Block, W. (1978) Metabolic adaptations of Antarctic terrestrial micro-arthropods. Comparative Biochemistry and Physiology 61A, 363368.
  • Block, W. (1979) Oxygen consumption of the Antarctic springtail Parisotoma octoculata (Willem) (Isotomidae). Revue d’Écologie et Biologie du Sol 16, 227233.
  • Block, W. & Convey, P. (1995) The biology, life-cycle and ecophysiology of the Antarctic mite Alaskozetes antarcticus. Journal of Zoology 236, 431449.
  • Block, W. & Tilbrook, P.J. (1975) Respiration studies on the Antarctic collembolan Cryptopygus antarcticus. Oikos 26, 1525.
  • Block, W. & Tilbrook, P.J. (1978) Oxygen uptake by Cryptopygus antarcticus (Collembola) at South Georgia. Oikos 30, 6167.
  • Block, W. & Young, S.R. (1978) Metabolic adaptations of Antarctic terrestrial micro-arthropods. Comparative Biochemistry and Physiology 61A, 363368.
  • Block, W., Webb, N.R., Coulson, S., Hodkinson, I.D. & Worland, M.R. (1994) Thermal adaptation in the Arctic collembolan Onychiurus arcticus (Tullberg). Journal of Insect Physiology 40, 715722.
  • Block, W., Worland, M.R. & Bale, J. (1998) Respiratory responses to chilling and freezing in two sub-antarctic insects. Cryobiology 37, 163166.
  • Böcher, J. & Nachman, G. (2001) Temperature and humidity responses of the arctic-alpine seed bug Nysius groenlandicus. Entomologia Experimentalis et Applicata 99, 319330.
  • Brett, M.T. (1997) Meta-analysis in ecology. Bulletin of the Ecological Society of America 78, 9294.
  • Cappelletto, A. (1938) Richerche sul ricambio rispiratorio d’ell’Isotoma saltans Nic. Archivio di Fisiologia 38, 433444.
  • Chown, S.L. (1997) Thermal sensitivity of oxygen uptake of Diptera from sub-Antarctic South Georgia and Marion Island. Polar Biology 17, 8186.
  • Chown, S.L. & Gaston, K.J. (1999) Exploring links between physiology and ecology at macro-scales: the role of respiratory metabolism in insects. Biological Reviews of the Cambridge Philosophical Society 74, 87120.
  • Conradi-Larsen, E.M. & Sømme, L. (1973) The overwintering of Pelophia borealis Payk. II. Aerobic and anaerobic metabolism. Norsk Entomologisk Tidsskrift 20, 325332.
  • Coulson, S., Hodkinson, I.D., Strathdee, A., Bale, J.S., Block, W., Worland, M.R. & Webb, N.R. (1993) Simulated climate change – the interaction between vegetation type and microhabitat temperatures at Ny-Ålesund, Svalbard. Polar Biology 13, 6770.
  • Coulson, S.J., Hodkinson, I.D., Block, W., Webb, N.R. & Worland, M.R. (1995a) Low summer temperatures – a potential mortality factor for high arctic soil microarthropods. Journal of Insect Physiology 41, 783792.
  • Coulson, S.J., Hodkinson, I.D., Strathdee, A.T., Block, W., Webb, N.R., Bale, J.S. & Worland, M.R. (1995b) Thermal environments of Arctic soil organisms during winter. Arctic and Alpine Research 27, 364370.
  • Crafford, J.E. & Chown, S.L. (1993) Respiratory metabolism of sub-Antarctic insects from different habitats on Marion Island. Polar Biology 13, 411415.
  • Erikstad, K.E. (1989) The diel activity of carabid beetles (Coleoptera) north of the Arctic Circle, with particular reference to Patrobus assimilis Chaud. & Notiophilus aquaticus L. Polar Biology 9, 319323.
  • Fox, H.M. (1936) The activity and metabolism of poikilothermic animals in different latitudes. Proceedings of the Zoological Society of London 107A, 945955.
  • Hågvar, S. & Østbye, E. (1974) Oxygen consumption, caloric values, water and ash content of some dominant terrestrial arthropods from alpine habitats at Finse, south Norway. Norsk Entomologisk Tidsskrift 21, 117126.
  • Hodkinson, I.D., Coulson, S.J., Webb, N.R. & Block, W. (1996) Can high Arctic soil microarthropods survive elevated summer temperatures? Functional Ecology 10, 314321.
  • Hofsvang, T. (1973) Energy flow in Tipula excisa Schum. (Diptera: Tipulidae) in a high mountain area, Finse, south Norway. Norwegian Journal of Zoology 21, 716.
  • Jordan, A.D., Jungersen, M. & Steffensen, J.F. (2001) Oxygen consumption of East Siberian cod: no support for the metabolic cold adaptation theory. Journal of Fish Biology 59, 818823.
  • Kawall, H.G., Torres, J.J., Sidell, B.D. & Somero, G.N. (2002) Metabolic cold adaptation in Antarctic fishes: evidence from enzymatic activities of brain. Marine Biology 140, 279286.
  • Lee, R.E. & Baust, J.G. (1982a) Absence of metabolic cold adaptation and compensatory acclimation in the Antarctic fly, Belgica antarctica. Journal of Insect Physiology 28, 725729.
  • Lee, R.E. & Baust, J.G. (1982b) Respiratory metabiolism of the Antarctic tick Ixodes uriae. Comparative Biochemistry and Physiology 72A, 167171.
  • MacKay, W.P. (1982) An altitudinal comparison of oxygen consumption rates in three species of Pogonomyrmex harvester ants (Hymenoptera: Formicidae). Physiological Zoology 55, 367377.
  • MacLean, S.F. (1973) Life cycle and growth energetics of the Arctic crane fly. Pedicia Hannai Antenatta Oikos 24, 436443.
  • MacLean, S.F. (1981) Introduction: invertebrates. Tundra Ecosystems: A Comparative Analysis (eds L.C.Bliss, O.W.Heal & J.J.Moore), pp. 509516. Cambridge University Press, Cambridge.
  • Massion, D.D. (1983) An altitudinal comparison of water and metabolic relations in two acridid grasshoppers. Comparative Biochemistry and Physiology 74A, 101105.
  • Morrisey, R. & Edwards, J.S. (1979) Neural function in an alpine grylloblattid: a comparison with the house cricket Acheta domestica. Physiological Entomology 4, 241250.
  • Nylund, L. (1991) Metabolic rates of Calathus melanocephalus (L.) (Coleoptera: Carabidae) from alpine and lowland habitats (Jeløy and Finse, Norway and Drenthe, the Netherlands. Comparative Biochemistry and Physiology 100A, 853862.
  • Peck, L.S. (2002) Ecophysiology of Antarctic marine ectotherms: limits to life. Polar Biology 25, 3140.
  • Proctor, D.L.C. (1977) Invertebrate respiration on Truelove Lowland. Truelove Lowland, Devon Island Canada: A High Arctic Ecosystem (ed. L.C.Bliss), pp. 383393. University of Alberta Press, Edmonton.
  • Rourke, B.C. (2000) Geographic and altitudinal variation in water balance and metabolic rate in a California grasshopper, Melanoplus sanguinipes. Journal of Experimental Biology 203, 26992712.
  • Sømme, L. & Block, W. (1991) Adaptations to alpine and polar environments in insects and other terrestrial arthropods. Insects at Low Temperature (eds R.E.Lee & D.L.Denlinger), pp. 318359. Chapman & Hall, London.
  • Sømme, L., Ring, R.A., Block, W. & Worland, M.R. (1989) Respiratory metabolism of Hydromedion sparsutum and Perimylops antarcticus (Col Perimylopidae) from South-Georgia. Polar Biology 10, 135139.
  • Steffensen, J.F. (2002) Metabolic cold adaptation of polar fish based on measurements of aerobic oxygen consumption: fact or artefact? Artefact! Comparative Biochemistry and Physiology A – Molecular and Integrative Physiology 132, 789795.
  • Steigen, A.L. (1976) Energy metabolism in the wolf spider Pardosa palustris (L.) (Araneae, Lycosidae) from Hardangervidda, southern Norway. Norwegian Journal of Entomology 23, 5160.
  • Strømme, J.A. (1989) Metabolic rates of alpine and high Arctic Amara quenseli (Col., Carabidae) beetles. Fauna Norvegica Series B 36, 5758.
  • Strømme, J.A., Ngari, T.W. & Zachariassen, K.E. (1986) Physiological adaptations in Coleoptera on Spitsbergen. Polar Research 4, 199204.
  • Strong, F.E., Dunkle, R.L. & Dunn, R.L. (1970) Low temperature physiology of Antarctic arthropods. Antarctic Journal of the United States 5, 123.
  • Sustr, V. (1996) Influence of temperature acclimation on respiration–temperature relationship in Tetrodontophora bielanensis (Collembola: Onychiuridae). European Journal of Entomology 93, 435442.
  • Testerink, G.J. (1982) Strategies in energy consumption and partitioning in Collembola. Ecological Entomology 7, 341351.
  • Todd, C.M. (1997) Respiratory metabolism in two species of carabid beetle from the sub-Antarctic island of south Georgia. Polar Biology 18, 166171.
  • Young, S.R. (1979a) Effect of temperature change on the respiratory metabolism of an Antarctic mite. Journal of Comparative Physiology 131B, 341346.
  • Young, S.R. (1979b) Respiratory metabolism of Alaskozetes antarcticus. Journal of Insect Physiology 25, 361369.
  • Young, S.R. & Block, W. (1980) Some factors affecting metabolic rate in an Antarctic mite. Oikos 34, 178185.
  • Zettel, J. (1982) Dietary influence on the biology and metabolism of Isotoma viridis (Collembola). Journal of Insect Physiology 28, 453458.
  • Zettel, J. (1985) The cyclomorphosis in Isotoma hiemalis (Collembola): endogenous control, phenological and physiological aspects. Zoologische Jahrbucher 112, 383404.
  • Zettel, J. (2000) Alpine Collembola – adaptations and strategies for survival in harsh environments. Zoology – Analysis of Complex Systems 102, 7389.
  • Zinkler, D. (1966) Vergleichende untersuchungen zur Atmungsphysiologie von Collembolen (Apterygota) und anderen Bodenkleinarthropoden. Zeitschrift für Vergleichende Physiologie 52, 99144.