Premiers - Outil de Suivi des Contrats
Premiers - Outil de Suivi des Contrats Premiers - Outil de Suivi des Contrats
Annexe IV _____________________________________________ J. G. Kingsolver and R. B. Huey. 2003. Introduction: The evolution of morphology, performance and fitness. Integrative and Comparative Biology 43: 361-366. J. J. Kolbe and F. J. Janzen. 2002. Experimental analysis of an early life-history stage: water loss and migrating hatchling turtles. Copeia 1: 220-226. S. P. Lailvaux, G. J. Alexander and M. J. Whiting. 2003. Sex-based differences and similarities in locomotor performance, thermal preferences, and escape behaviour in the lizard Platysaurus intermedius wilhelmi. Physiological and Biochemical Zoology 76: 511-521. J. F. Le Gaillard, J. Clobert and R. Ferrière. 2004. Physical performance and darwinian fitness in lizards. Nature 432: 502-505. A. R. Main and C. M. Bull. 2000. The impact of tick parasites on the behaviour of the lizard Tiliqua rugosa. Oecologia 122: 574-581. K. Miller, G. C. Packard and M. J. Packard. 1987. Hydric conditions during incubation influence locomotor performance of hatchling snapping turtles. Journal of Experimental Biology 127: 401-412. N. Mrosovsky and C. Pieau. 1991. Transitional range of temperature, pivotal temperatures and thermosensitive stages for sex determination in reptiles. Amphibia Reptilia 12: 169-179. G. C. Packard and M. J. Packard. 1988. Physiological ecology of reptilian eggs and embryos. In: (G. C. and H. R. B., eds.). Biology of the Reptilia. New York: Liss.523-605. C. Pieau. 1972. Effets de la température sur le développement des glandes génitales chez les embryons de deux Chéloniens, Emys orbicularis L. et Testudo graeca L. Compte-Rendus de l'Académie des Sciences de Paris 274: 719-722. T. Rhen and J. W. Lang. 1995. Phenotypic plasticity for growth in the common snapping turtle: effects of incubation temperature, clutch, and their interaction. The American Naturalist 146: 726-747. T. Rhen and J. W. Lang. 1999. Temperature during embryonic and juvenile development influences growth in hatchling snapping turtles, Chelydra serpentina. Journal of Thermal Biology 24: 33-41. T. Rhen and J. W. Lang. 2004. Phenotypic effects of incubation temperature in reptiles. In: (N. Valenzuela and V. Lance, eds.). Temperature-dependent sex determination in Vertebrates. Washington: Smithsonian Books.90-98. R. Shine. 2002. Eggs in autumn: responses to declining incubation temperatures by the eggs of montane lizards. Biological Journal of the Linnean Society 76: 71-77. 23
Annexe IV _____________________________________________ R. Shine and P. S. Harlow. 1997. The influence of natural incubation environments on the phenotypic traits of hatchling lizards. Ecology 78: 2559-2568. G. Sorci and J. Clobert. 1995. Effects of maternal parasite load on offspring life-history traits in the common lizard (Lacerta vivipara). Journal of Evolutionary Biology 8: 711-723. G. Sorci and J. Clobert. 1997. Environmental maternal effects on locomotor performance in the common lizard (Lacerta vivipara). Evolutionary Ecology 11: 531-541. G. Sorci, M. Massot and J. Clobert. 1994. Maternal parasite load increases sprint speed and philopatry in female offspring of the common lizard. American Naturalist 144: 153-164. S. C. Stearns. 1992. The evolution of life histories. New York: Oxford University Press. A. C. Steyermark and J. R. Spotila. 2001. Body temperature and maternal identity affect snapping turtle (Chelydra serpentina) righting response. Copeia 4: 1050-1057. L. Thibodeaux and T. V. Hancock. 2004. The effects of developmental temperature on morphology and locomotor performance in the salamander, Ambystoma maculatum. FASEB Journal 18: A366-A366. J. Travis, M. G. McManus and C. F. Baer. 1999. Sources of variation in physiological phenotypes and their evolutionary significance. American Zoologist 39: 422-433. J. K. Tucker. 2000. Body size and migration of hatchling turtles: Inter- and intraspecific comparisons. Journal of Herpetology 34: 541-546. J. K. Tucker and G. L. Paukstis. 1999. Post-hatching substrate moisture and overwintering hatchlings turtles. Journal of Herpetology 33: 608-615. N. Valenzuela. 2001. Constant, shift, and natural temperature effects on sex determination in Podocnemis expansa turtles. Ecology 82: 3010-3024. N. Valenzuela. 2004. Evolution and maintenance of temperature-dependent sex determination. In: (N. Valenzuela and V. Lance, eds.). Temperature-dependent sex determination in Vertebrates. Washington: Smithsonian Books.131-147. D. A. Warner and R. M. Andrews. 2002. Laboratory and field experiments identify sources of variation in phenotypes and survival of hatchling lizards. Biological Journal of the Linnean Society 76: 105-124. J. K. Webb, G. P. Brown and R. Shine. 2001. Body size, locomotor speed and antipredator behaviour in a tropical snake (Tropidonophis mairii, Colubridae): the influence of incubation environments and genetic factors. Functional Ecology 15: 561-568. C. L. Yntema. 1976. Effects of incubation temperatures on sexual differentiation in the turtle, Chelydra serpentina. Journal of Morphology 150: 453-462. 24
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Annexe IV<br />
_____________________________________________<br />
R. Shine and P. S. Harlow. 1997. The influence of natural incubation environments on the<br />
phenotypic traits of hatchling lizards. Ecology 78: 2559-2568.<br />
G. Sorci and J. Clobert. 1995. Effects of maternal parasite load on offspring life-history<br />
traits in the common lizard (Lacerta vivipara). Journal of Evolutionary Biology 8: 711-723.<br />
G. Sorci and J. Clobert. 1997. Environmental maternal effects on locomotor performance in<br />
the common lizard (Lacerta vivipara). Evolutionary Ecology 11: 531-541.<br />
G. Sorci, M. Massot and J. Clobert. 1994. Maternal parasite load increases sprint speed and<br />
philopatry in female offspring of the common lizard. American Naturalist 144: 153-164.<br />
S. C. Stearns. 1992. The evolution of life histories. New York: Oxford University Press.<br />
A. C. Steyermark and J. R. Spotila. 2001. Body temperature and maternal i<strong>de</strong>ntity affect<br />
snapping turtle (Chelydra serpentina) righting response. Copeia 4: 1050-1057.<br />
L. Thibo<strong>de</strong>aux and T. V. Hancock. 2004. The effects of <strong>de</strong>velopmental temperature on<br />
morphology and locomotor performance in the salaman<strong>de</strong>r, Ambystoma maculatum. FASEB<br />
Journal 18: A366-A366.<br />
J. Travis, M. G. McManus and C. F. Baer. 1999. Sources of variation in physiological<br />
phenotypes and their evolutionary significance. American Zoologist 39: 422-433.<br />
J. K. Tucker. 2000. Body size and migration of hatchling turtles: Inter- and intraspecific<br />
comparisons. Journal of Herpetology 34: 541-546.<br />
J. K. Tucker and G. L. Paukstis. 1999. Post-hatching substrate moisture and overwintering<br />
hatchlings turtles. Journal of Herpetology 33: 608-615.<br />
N. Valenzuela. 2001. Constant, shift, and natural temperature effects on sex <strong>de</strong>termination in<br />
Podocnemis expansa turtles. Ecology 82: 3010-3024.<br />
N. Valenzuela. 2004. Evolution and maintenance of temperature-<strong>de</strong>pen<strong>de</strong>nt sex<br />
<strong>de</strong>termination. In: (N. Valenzuela and V. Lance, eds.). Temperature-<strong>de</strong>pen<strong>de</strong>nt sex<br />
<strong>de</strong>termination in Vertebrates. Washington: Smithsonian Books.131-147.<br />
D. A. Warner and R. M. Andrews. 2002. Laboratory and field experiments i<strong>de</strong>ntify sources<br />
of variation in phenotypes and survival of hatchling lizards. Biological Journal of the Linnean<br />
Society 76: 105-124.<br />
J. K. Webb, G. P. Brown and R. Shine. 2001. Body size, locomotor speed and antipredator<br />
behaviour in a tropical snake (Tropidonophis mairii, Colubridae): the influence of incubation<br />
environments and genetic factors. Functional Ecology 15: 561-568.<br />
C. L. Yntema. 1976. Effects of incubation temperatures on sexual differentiation in the turtle,<br />
Chelydra serpentina. Journal of Morphology 150: 453-462.<br />
24
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