Literaturdatenbank
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O'Steen, S. (1998). Embryonic temperature influences juvenile temperature choice and growth rate in snapping turtles chelydra serpentina. Journal of Experimental Biology, 201(3), 439–449.
Added by: Admin (14 Aug 2008 22:46:51 UTC) |
| Resource type: Journal Article BibTeX citation key: OSteen1998 View all bibliographic details  |
Categories: General Keywords: Chelydra, Chelydra serpentina, Chelydridae, Schildkröten = turtles + tortoises, Zeitigung = incubation Creators: O'Steen Collection: Journal of Experimental Biology |
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| Abstract |
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Snapping turtles (Chelydra serpentina) demonstrate temperature-dependent sex determination (TSD): intermediate egg incubation temperatures (23-27 degrees C) produce males, while extreme temperatures produce females. Snapping turtles are also sexually dimorphic: adult males are typically larger than females. Previous researchers hypothesized that male-producing egg temperatures enhanced the growth rate of juvenile turtles, resulting in the adult dimorphism and potentially providing an adaptive benefit for TSD. In reptiles, the choice of ambient temperature can also influence growth. I measured the effect of egg incubation temperature on juvenile growth rate and water temperature choice of C. serpentina. Eggs were incubated in the laboratory at 21.5, 24.5, 27.5 or 30.5 degrees C to produce both sexes, all males, both sexes or all females, respectively. Egg temperature was linearly and negatively correlated with growth rate of both male and female juveniles. Thus, growth was enhanced, but not maximized, by male-producing egg temperatures. Egg temperature was also negatively correlated with juvenile temperature choice such that, on average, turtles from 21.5 degrees C eggs selected 28 degrees C water, while turtles from 30.5 degrees C eggs chose 24.5 degrees C water. Additionally, these temperature choices were highly repeatable, even following a 6 month hibernation period at 7 degrees C. Thus, while male egg temperatures do not directly maximize growth, multiple effects of embryonic temperature may combine to create long-lasting differences in the behavioral physiology of male and female C. serpentina. Such differences could be important to the ecology and evolution of TSD.
Added by: Admin |