Literaturdatenbank
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Valenzuela, N. (2001). Constant, shift and natural temperature effects on sex determination in podocnemis expansa turtles. Ecology, 82(9), 1108–1122.
Added by: Admin (17 Aug 2008 18:55:02 UTC) |
| Resource type: Journal Article BibTeX citation key: Valenzuela2001c View all bibliographic details  |
Categories: General Keywords: Podocnemididae, Podocnemis, Podocnemis expansa, Schildkröten = turtles + tortoises, Zeitigung = incubation Creators: Valenzuela Collection: Ecology |
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| Abstract |
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Podocnemis expansa Abstract.Environmental sex determination may yield biased sex ratios, as is the case in many reptilian species with temperature-dependent sex determination (TSD). Determining TSD thermal ecology is important to understanding sex ratio evolution in those species, as TSD systems may pose a challenge to Fisherian models that predict the production of 1:1 sex ratios through frequency-dependent selection. Unfortunately, the relationship between fluctuating temperatures and sex in nature remains poorly understood. Here I present a novel statistical model of TSD in the endangered Amazonian freshwater turtle, Podocnemis expansa, designed to account for heterogeneous daily fluctuations of natural nest temperatures by comparing laboratory and field data on sex ratios, developmental stages, cumulative temperature units (CTUs), and time spent below the survival threshold (28°C). Experiments encompassed constant, shift-once, and shift-twice temperatures in the laboratory, plus depth and shading treatments in the field. A constant temperature of 32.6°C produced 1:1 males:females, the highest pivotal temperature ever reported for a turtle species. The thermosensitive period for sex determination (TSP) roughly occurs during developmental stages 17–24 as determined from shift experiments. The CTUs during the TSP plus the number of hours below 28°C prior to the TSP significantly explained sex ratio production in the combined laboratory and field data set (positive and negative effects, respectively). However, the relationship for field nests only was not significant. Higher temperatures had a disproportionately larger effect on female production in the combined field and laboratory data set. Depth and shading had drastic effects on nest temperature, embryonic development, and sex ratio. Seasonal climate changes can override the effect of nest depth via differences in oviposition time. Two of the shaded nests experienced the coldest temperatures of all field nests but yielded the highest female proportion, according to a TSDII pattern (when females are produced at low and high temperatures and males are produced at intermediate temperatures). Thus Podocnemis expansa may be a TSDII species, but this intrinsic system seems to be realized as TSDIa in nature (males produced at low temperatures and females produced at high temperatures), because of the general lethality of cold temperatures which precludes the production of low-temperature females.
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