SEARCH

SEARCH BY CITATION

References

  • Andrews, R.M. (1982) Patterns of growth in reptiles. Biology of the Reptilia (eds C. Gans & F.H. Pough), pp. 273320, vol. 13. Academic Press, New York.
  • Angilletta, M.J. (2009) Thermal Adaptation: A Theoretical and Empirical Synthesis. University Press, New York, Oxford.
  • Angilletta, M.J., Hill, T. & Robson, M.A. (2002) Is physiological performance optimized by thermoregulatory behavior?: a case study of the eastern fence lizard, Sceloporus undulatus. Journal of Thermal Biology, 27, 199204.
  • Angilletta, M.J., Steury, T.D. & Sears, M.W. (2004) Temperature, growth rate, and body size in ectotherms: fitting pieces of a life-history puzzle. Integrative and Comparative Biology, 44, 498509.
  • Bakken, G.S., Santee, W.R. & Erskine, D.J. (1985) Operative and standard operative temperature: tools for thermal energetic studies. American Zoology, 25, 933943.
  • Ballinger, R.E. & Hipp, T.G. (1985) Reproduction in the collared lizard, Crotaphytus collaris, in west central Texas. Copeia, 1985, 976980.
  • Beaupre, S.J., Jacobson, E.R., Lillywhite, H.B. & Zamudio, K. (2004) Guidelines for use of live amphibians and reptiles in field and laboratory research. American Society of Ichthyologists and Herpetologists. http://www.asih.org/files/hacc-final.pdf.
  • Blouin-Demers, G. & Nadeau, P. (2005) The cost-benefit model of thermoregulation does not predict lizard thermoregulatory behavior. Ecology, 86, 560566.
  • Brett, J.R. (1971) Energetic responses of salmon to temperatures, a study of some thermal relations in the physiology and freshwater ecology of sockeye salmon (Oncorhynchus nerka). American Zoologist, 11, 99113.
  • Brisson, J.A., Strasburg, J.L. & Templeton, A.R. (2003) Impact of fire management on the ecology of collared lizard (Crotaphytus collaris) populations living on the Ozark Plateau. Animal Conservation, 6, 247254.
  • Buffenstein, R. & Louw, G. (1982) Temperature effects on bioenergetics of growth, assimilation efficiency and thyroid activity in juvenile varanid lizards. Journal of Thermal Biology, 7, 197200.
  • Dunham, A.E., Grant, B.W. & Overall, K.L. (1989) Interfaces between biophysical and physiological ecology and the population ecology of terrestrial vertebrate ectotherms. Physiological Zoology, 62, 335355.
  • Fitch, H.S. (1970) Reproductive cycles in lizards and snakes. University of Kansas Museum of Natural History. Miscellaneous Publication, 52, 1247.
  • Fralish, J.S. (2004) The keystone role of oak and hickory in the central hardwood forest. Upland Oak Ecology Symposium: History, Current Conditions, and Sustainability. USDA Forest Service General Technical Report SRS-373, Southern Research Station, Asheville, North Carolina.
  • Grant, B.W. (1990) Trade-offs in activity time and physiological performance for thermoregulating desert lizards, Sceloporus merriami. Ecology, 71, 23232333.
  • Herczeg, G., Gonda, A., Saarikivi, J. & Merilä, J. (2006) Experimental support for the cost-benefit model of lizard thermoregulation. Behavioral Ecology and Sociobiology, 60, 405414.
  • Hertz, P.E. (1992) Temperature regulation in Puerto Rican Anolis lizards: a field test using null hypotheses. Ecology, 73, 14051417.
  • Hertz, P.E., Huey, R.B. & Stevenson, R.D. (1993) Evaluating temperature regulation by field-active ectotherms: the fallacy of the inappropriate question. American Naturalist, 142, 796818.
  • Huey, R.B. (1974) Behavioral thermoregulation in lizards: importance of associated costs. Science, 184, 10011003.
  • Huey, R.B. (1982) Temperature, physiology, and the ecology of reptiles. Biology of the Reptilia, vol. 12 (eds C. Gans & F.H. Pough), pp. 2591. Academic Press, London.
  • Huey, R.B. (1991) Physiological consequences of habitat selection. American Naturalist, 137, 91115.
  • Huey, R.B. & Slatkin, M. (1976) Cost and benefit of lizard thermoregulation. Quarterly Review of Biology, 51, 363384.
  • John-Alder, H.B. & Bennett, A.F. (1981) Thermal dependence of endurance and locomotory energetics in a lizard. American Journal of Physiology, 241, 342349.
  • Martin, T.L. & Huey, R.B. (2008) Why suboptimal is optimal: Jensen's inequality and ectotherm thermal preferences. American Naturalist, 171, E102E118.
  • R Development Core Team (2011) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing,Vienna, Austria, URL http://www.R-project.org.
  • Row, J.R. & Blouin-Demers, G. (2006) Thermal quality influences effectiveness of thermoregulation, habitat use, and behaviour in milksnakes. Oecologia, 148, 111.
  • SAS Institute (2011) SAS User's Guide; Statistics, Version 9.2, SAS Institute, Cary, NC.
  • Saveland, J.M. (1995) Fire in the forest. Forest Health Through Silviculture. Proceedings of the Silviculture Workshop (ed. L. Eskew), pp. 1419. Mescalero, NM. Gen. Tech. Rep. RM-GTR-267. U.S. Department of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station, Fort Collins, CO.
  • Sears, M.W. (2005) Geographic variation in the life history of the sagebrush lizard: the role of thermal constraints on activity. Oecologia, 143, 2536.
  • Sears, M.W., Raskin, E. & Angilletta, M.J. (2011) The world is not flat: defining relevant thermal landscapes in the context of climate change. Integrative and Comparative Biology, 51, 666675.
  • Sexton, O.J., Andrews, R.M. & Bramble, J.E. (1992) Size and growth rate characteristics of a peripheral population of Crotaphytus collaris (Sauria: Crotaphytidae). Copeia, 1992, 968990.
  • Shine, R. (1980) Costs of reproduction in reptiles. Oecologia, 46, 92100.
  • Sikes, R.S., Paul, E. & Beaupre, S.J. (2012) Standards for wildlife research: taxon-specific guidelines versus US Public Health Services policy. BioScience, 62, 830834.
  • Sinervo, B. (1990) Evolution of thermal physiology and growth rate between populations of the western fence lizard (Sceloporus occidentalis). Oecologia, 83, 228237.
  • Sinervo, B. & Adolph, S.C. (1989) The thermal sensitivity of growth in hatchling Sceloporus lizards: environmental, behavioral and genetic aspects. Oecologia, 78, 411419.
  • Templeton, A.R., Robertson, R.J., Brisson, J. & Strasburg, J. (2001) Disrupting evolutionary processes: the effect of habitat fragmentation on collared lizards in the Missouri Ozarks. Proceedings of the National Academy of Science, 998, 54265432.
  • Thompson, G.G. & Withers, P.C. (1992) Effects of body mass and temperature on standard metabolic rates for two Australian Varanid lizards (Varanus gouldii and V. panoptes). Copeia, 1992, 343350.
  • Tracy, C.R. (1976) A model of the dynamic exchanges of water and energy between a terrestrial amphibian and its environment. Ecological Monographs, 46, 293326.
  • Trauth, S.E. (1978) Ovarian cycle of Crotaphytus collaris (Reptilia, Lacertilia, Iguanidae) from Arkansas with emphasis on corpora albicantia, follicular atresia and reproductive potential. Journal of Herpetology, 12, 461470.
  • Trauth, S.E., Robison, H.W. & Plummer, M.V. (2004) The Amphibians and Reptiles of Arkansas. University of Arkansas Press, Fayetteville.
  • Van der Have, T.M. & De Jong, G. (1996) Adult size in ectotherms: temperature effects on growth and differentiation. Journal of Theoretical Biology, 183, 329340.
  • Van Zandt, P.A., Collins, E., Losos, J.B. & Chase, J.M. (2005) Implications of food web interactions for restoration of Missouri Ozark glade habitats. Restoration Ecology, 13, 312317.
  • Verble, R.M. (2012) Effects of prescribed fire on Ozark ant ecology. PhD Dissertation, University of Arkansas at Little Rock, Little Rock.
  • Vickers, M., Manicom, C. & Schwarzkopf, L. (2011) Extending the cost-benefit model of thermoregulation: high-temperature environments. American Naturalist, 177, 452461.
  • Voituron, Y., Herold, J.P. & Grenot, C. (2000) Metabolic adaptations of overwintering European common lizards (Lacerta vivipara). Physiological and Biochemistry Zoology, 73, 264270.
  • Withers, P.C. & Campbell, J.D. (1985) Effects of environmental cost on thermoregulation in the desert iguana. Physiological Zoology, 58, 329333.
  • Zar, J. (1984) Biostatistics. Prentice-Hall Publishing, Englewood Cliffs.