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References

Bartholomew, G. A., Bennett, A. F., & Dawson, W. R. (1976). SWIMMING DIVING AND LACTATE PRODUCTION OF THE MARINE IGUANA AMBLYRHYNCHUS-CRISTATUS. Copeia, 4, 709-720.

Bartholomew, G. A., & Vleck, D. (1979). THE RELATION OF OXYGEN CONSUMPTION TO BODY SIZE AND TO HEATING AND COOLING IN THE GALAPAGOS ECUADOR MARINE IGUANA AMBLYRHYNCHUS-CRISTATUS. Journal of Comparative Physiology B Biochemical Systemic & Environmental Physiology, 132(4), 285-288.

Bennett, A. F., Dawson, W. R., & Bartholomew, G. A. (1975). EFFECTS OF ACTIVITY AND TEMPERATURE ON AEROBIC AND ANAEROBIC METABOLISM IN THE GALAPAGOS MARINE IGUANA. Journal of Comparative Physiology B Metabolic & Transport Functions, 100(4), 317-330.

Berger, S., Wikelski, M., Romero, L. M., Kalko, E. K., & Roedl, T. (2007). Behavioral and physiological adjustments to new predators in an endemic island species, the galapagos marine iguana. Hormones and Behavior, 52(5), 653-663.

Butler, P. J., Frappell, P. B., Wang, T., & Wikelski, M. (2002). The relationship between heart rate and rate of oxygen consumption in galapagos marine iguanas (amblyrhynchus cristatus) at two different temperatures. Journal of Experimental Biology, 205(13), 1917-1924.

Laurie, A. (1987). Marine iguanas - living on the ocean margin. Oceanus, 30(2), 54-60.

Laurie, W. A. (1990). Population biology of marine iguanas (amblyrhynchus-cristatus) .1. changes in fecundity related to a population crash. Journal of Animal Ecology, 59(2), 515-528.

Laurie, W. A., & Brown, D. (1990). Population biology of marine iguanas (amblyrhynchus-cristatus) .2. changes in annual survival rates and the effects of size, sex, age and fecundity in a population crash. Journal of Animal Ecology, 59(2), 529-544.

Nagy, K. A., & Shoemaker, V. H. (1984). FIELD ENERGETICS AND GOOD CONSUMPTION OF THE GALAPAGOS MARINE IGUANA AMBLYRHYNCHUS-CRISTATUS. Physiological Zoology, 57(3), 281-290.

Rassmann, K., Tautz, D., Trillmich, F., & Gliddon, C. (1997). The microevolution of the galapagos marine iguana amblyrhynchus cristatus assessed by nuclear and mitochondrial genetic analyses. Molecular Ecology, 6(5), 437-452.

Roedl, T., Berger, S., Romero, L. M., & Wikelski, M. (2007). Tameness and stress physiology in a predator-naive island species confronted with novel predation threat. Proceedings of the Royal Society B-Biological Sciences, 274(1609), 577-582.

Romero, L. M., & Wikelski, M. (2001). Corticosterone levels predict survival probabilities of galapagos marine iguanas during el nino events. Proceedings of the National Academy of Sciences of the United States of America, 98(13), 7366-7370.

Romero, L. M., & Wikelski, M. (2002). Daily differences in the capacity of marine iguanas to respond to stress. Integrative and Comparative Biology, 42(6), 1302-1302.

Romero, L. M., & Wikelski, M. (2002). Exposure to tourism reduces stress-induced corticosterone levels in galapagos marine iguanas. Biological Conservation, 108(3), 371-374.

Shepherd, S. A., & Hawkes, M. W. (2005). Algal food preferences and seasonal foraging strategy of the marine iguana, amblyrhynchus cristatus, on santa cruz, galapagos. Bulletin of Marine Science, 77(1), 51-72.

Tracy, C. R., Nussear, K. E., Esque, T. C., Dean-Bradley, K., Tracy, C. R., DeFalco, L. A., et al. (2006). The importance of physiological ecology in conservation biology. Integrative and Comparative Biology, 46(6), 1191-1205.

Vinueza, L. R., Branch, G. M., Branch, M. L., & Bustamante, R. H. (2006). Top-down herbivory and bottom-up el nino effects on galapagos rocky-shore communities. Ecological Monographs, 76(1), 111-131.

Vitousek, M. N., Rubenstein, D. R., Nelson, K. N., & Wikelski, M. (2008). Are hotshots always hot? A longitudinal study of hormones, behavior, and reproductive success in male marine iguanas. General and Comparative Endocrinology, 157(3), 227-232.

Vleck, D., Gleeson, T. T., & Bartholomew, G. A. (1981). Oxygen-consumption during swimming in galapagos marine iguanas and its ecological correlates. Journal of Comparative Physiology, 141(4), 531-536.

White, F. N. (1973). TEMPERATURE AND THE GALAPAGOS MARINE IGUANA INSIGHTS INTO REPTILIAN THERMO REGULATION. Comparative Biochemistry & Physiology A, 45(2), 503-513.

Wikelski, M. (1999). Influences of parasites and thermoregulation on grouping tendencies in marine iguanas. Behavioral Ecology, 10(1), 22-29.

Wikelski, M. (2005). Evolution of body size in galapagos marine iguanas. Proceedings of the Royal Society B-Biological Sciences, 272(1576), 1985-1993.

Wikelski, M., Carrillo, V., & Trillmich, F. (1997). Energy limits to body size in a grazing reptile, the galapagos marine iguana. Ecology, 78(7), 2204-2217.

Wikelski, M., & Romero, L. M. (2003). Body size, performance and fitness in galapagos marine iguanas. Integrative and Comparative Biology, 43(3), 376-386.

Wikelski, M., & Thom, C. (2000). Marine iguanas shrink to survive el nino - changes in bone metabolism enable these adult lizards to reversibly alter their length. Nature, 403(6765), 37-38.

Wikelski, M., & Wrege, P. H. (2000). Niche expansion, body size, and survival in galapagos marine iguanas. Oecologia, 124(1), 107-115.

Wikelski, M. C. (2002). Morphology, performance and fitness in galapagos marine iguanas. Integrative and Comparative Biology, 42(6), 1334-1334.

Woodley, S. K., Painter, D. L., Moore, M. C., Wikelski, M., & Romero, L. M. (2003). Effect of tidal cycle and food intake on the baseline plasma corticosterone rhythm in intertidally foraging marine iguanas. General and Comparative Endocrinology, 132(2), 216-222.

 

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