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References

  • Belkhir, K. & Britton-Davidian, J. (1991) De nouvelles populations robertsoniennes de souris (Mus musculus domesticus) au nord des Alpes. Genome 34, 658660.
  • Bennett, N.C. & Spinks, A.C. (1995) Thermoregulation & metabolism in the Cape golden mole (Insectivora: Chrysochloris asiatica). Journal of Zoology 236, 521529.
  • Britton-Davidian, J., Catalan, J., Ramalhinho, M.G., Ganem, G., Auffray, J.C., Capela, R., Biscoito, M., Searle, J. & Mathias, M.L. (2000) Rapid chromosomal evolution in island mice. Nature 403, 158.
  • Burness, G.P., Ydenberg, R.C. & Hochachka, P.W. (1998) Intraindividual variability in body composition and resting oxygen consumption rate in breeding tree swallows, Tachycineta bicolour. Physiological Zoology 71, 247256.
  • Cowell, J.K. (1984) A photographic representation of the variability of G-banded structure of the chromosomes of the mouse karyotype. Chromosoma 89, 294320.
  • Daan, S., Masman, D., Strijkstra, A. & Verhulst, S. (1990) Intraspecific allometry of basal metabolic-rate – relations with body size, temperature, composition, and circadian phase in the kestrel, Falco tinnunculus. Journal of Biological Rhythms 4, 267283.
  • Depocas, F. & Hart, J.S. (1957) Use of the Pauling oxygen analyser for measurement of oxygen consumption of animals in open-circuit systems and in short-lag, closed-circuit apparatus. Journal of Applied Physiology 10, 388392.
  • Gazave, E., Catalan, J., Ramalhinho, M.G., Mathias, M.L., Nunes, A.C., Dumas, D., Britton-Davidian, J. & Auffray, J.-C. (2003) The non-random occurrence of Robertsonian fusion in the house mouse. Genetical Research 81, 3342.
  • Górecki, A., Meczeva, R., Pis, T., Gerasimov, S. & Walkowa, W. (1990) Geographical variation of thermoregulation in wild populations of Mus musculus and Mus spretus. Acta Theriologica 35 (3–4), 209214.
  • Greenberg, J.A. & Boozer, C.N. (2000) Metabolic mass, metabolic rate, caloric restriction, and aging in male Fischer 344 rats. Mechanisms of Ageing and Development 113, 3748.
  • Greenberg, J.A., Wei, H., Ward, K. & Boozer, C.N. (2000) Whole-body metabolic rate appears to determine the rate of DNA oxidative damage and glycation involved in aging. Mechanisms of Ageing and Development 115, 107117.
  • Gropp, A., Winking, H., Zech, L. & Muller, H. (1972) Robertsonian chromosomal variation and identification of metacentric chromosomes in feral mice. Chromosoma 39, 265288.
  • Gündüz, I., Auffray, J.-C., Britton-Davidian, J., Catalan, J., Ganem, G., Ramalhinho, M.G., Mathias, M.L. & Searle, J.B. (2001) Molecular studies on the colonization of the Madeiran archipelago by house mice. Molecular Ecology 10, 20232029.
  • Haim, A., Racey, P.A., Speakmam, J.R., Ellison, G.T. & Skinner, J.D. (1991) Seasonal acclimatization and thermoregulation in the pouched mouse Saccostomus campestris. Journal of Thermal Biology 16 (1), 1317.
  • Hayes, J.P., Garland, T. Jr & Dohm, M.R. (1992) Individual variation in metabolism and reproduction of Mus: are energetics and life history linked? Functional Ecology 6, 514.
  • Johnson, M.S., Thomson, S.C. & Speakman, J.R. (2001) Limits to sustained energy intake II. Inter-relationships between resting metabolic rate, lifehistory traits and morphology in Mus musculus. Journal of Experimental Biology 204, 19371946.
  • Kleiber, M. (1961) The Fire of Life. John Wiley and Sons, New York.
  • Koteja, P. & Weiner, J. (1993) Mice, voles and hamsters: metabolic rates and adaptive strategies in muroid rodents. Oikos 66, 505514.
  • Lee, M.R. & Elder, F.F.B. (1980) Yeast stimulation of bone marrow mitosis for cytogenetic investigations. Cytogenetics and Cell Genetics 26, 3640.
  • Lovegrove, B.G. (1986) The metabolism of social subterranean rodents: adaptation to aridity. Oecologia 69, 551555.
  • Mathias, M.L. (1993) Historical and recent data on the mammals from the Madeira islands. Courier Forschsinstitut Senckenberg 159, 445450.
  • Mathias, M.L., Nunes, A.C., Marques, C., Sousa, I., Ramalhinho, M.G., Auffray, J.-C., Catalan, J. & Britton-Davidian, J. (2004) Adaptive energetics in house mice, Mus musculus domesticus, from the island of Porto Santo (Madeira archipelago, North Atlantic). Comparative Biochemistry and Physiology A 137, 703709.
  • Mathias, M.L. & Ramalhinho, M.G. (1992) A preliminary report on Robertsonian karyotype variation in long-tailed house mice (Mus musculus domesticus Rutty) from Madeira Islands. Bocagiana 156, 13.
  • McDevitt, R.M. & Speakman, J.R. (1994) Central limits to sustainable metabolic rate have no role in cold acclimation of the short-tailed field vole (Microtus agrestis). Physiological Zoology 67, 11171139.
  • McNab, B.K. (1986) The influence of food habitats on the energetics of eutherian mammals. Ecological Monographs 56, 119.
  • McNab, B.K. (2000) The influence of body mass, climate, and distribution on the energetics of South Pacific pigeons. Comparative Biochemistry and Physiology 127, 309329.
  • McNab, B.K. (2002) Minimizing energy expenditure facilitates vertebrate persistence on oceanic islands. Ecological Letters 5, 693704.
  • Nachman, M.W. & Searle, J.B. (1995) Why is the house mouse karyotype so variable? Trends in Ecology and Evolution 10 (10), 397402.
  • Nevo, E. & Shkolnik, A. (1974) Adaptive metabolic variation of chromosome forms in mole rats Spalax. Experientia 30, 724726.
  • Norusis, M. (1992) SPSS Professional Statistics 6·0. SPSS Inc., Chicago, IL.
  • Pena, A. & Cabral, J. (1997) Roteiros da Região Autónoma da Madeira. Temas e Debates, Lisboa.
  • Ramalhinho, M.G., Braz, C., Catalan, J., Mathias, M.L. & Britton-Davidian, J. (2005) AgNOR variability among Robertsonian races of the house mouse from the island of Madeira: implications for patterns of Rb fusion formation and genetic differentiation. Biological Journal of the Linnean Society 84, 585591.
  • Ribeiro, O. (1985) A Ilha da Madeira até meados do século XX. Estudo Geográfico. Instituto de Cultura e Lingua Portuguesa, Lisboa.
  • Richardson, C.S., Dohm, M.R. & Garland, T. Jr (1994) Metabolism and thermoregulation in crosses between wild and random-bred laboratory house mice (Mus domesticus). Physiological Zoology 67 (4), 944975.
  • Said, K., Jacquart, T., Montgelard, C., Sonjaya, H., Helal, A.N. & Britton-Davidian, J. (1986) Robertsonian house mouse populations in Tunisia. A karyological and biochemical study. Genetica 68, 191196.
  • Sebat, J., Lakshmi, B., Troge, J., Alexander, J., Young, J., Lundin, P., Manér, S., Massa, H., Walker, M., Chi, M., Navin, N., Lucito, R., Healy, J., Hicks, J., Ye, K., Reiner, A., Gilliam, T.C., Trask, B.J., Patterson, N., Zetterberg, A. & Wigler, M. (2004) Large-scale copy number polymorphism in the human genome. Science 305, 525528.
  • Selman, C., Lumsden, S., Bunger, L., Hill, W.G. & Speakman, J.R. (2001) Resting metabolic rate and morphology in mice (Mus musculus) selected for high and low food intake. Journal of Experimental Biology 204, 777784.
  • Selman, C., Phillips, T., Staib, J.L., Duncan, J.S., Leeuwenburgh, C. & Speakman, J.R. (2005) Calorically restricted rats expend more energy than predicted from their altered body composition. Mechanisms of Ageing and Development 126, 783793.
  • Speakman, J.R. & Johnson, M.S. (2000) Relationships between resting metabolic rate and morphology in lactating mice: what tissues are the major contributors to resting metabolism? Life in the cold (eds G.Heldmaier and M.Klingenspor), pp. 479486. Proceedings of the Eleventh International Hibernation Symposium. Springer, Berlin.
  • Speakman, J.R., Krol, E. & Johnson, M.S. (2004) The functional significance of individual variation in basal metabolic rate. Physiological and Biochemical Zoology 77, 900915.
  • Speakman, J.R. & McQueenie, J. (1996) Limits to sustained metabolic rate: the link between food intake, basal metabolic rate, and morphology in reproducing mice, Mus musculus. Physiological Zoology 69, 746769.
  • Speakman, J.R. & Rossi, F.P. (1999) No support for socio-physiological suppression effect on the metabolism of paired white mice (Mus sp.). Functional Ecology 13, 373382.
  • Wang, Z.M., Heshka, S., Gallagher, D., Boozer, C.N., Kotler, D.P. & Heymsfield, S.B. (2000) Resting energy expenditure-fat-free mass relationship: new insights provided by body composition modelling. American Journal of Physiology 279, E539545.