Literaturdatenbank
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Clark, N. J., Gordos, M. A., & Franklin, C. E. (2008). Thermal plasticity of diving behavior, aquatic respiration, and locomotor performance in the mary river turtle elusor macrurus. Physiological and Biochemical Zoology, 81(3), 301–309.
Added by: Admin (14 Aug 2008 20:34:31 UTC) |
| Resource type: Journal Article BibTeX citation key: Clark2008 View all bibliographic details  |
Categories: General Keywords: Chelidae, Elusor, Elusor macrurus, Physiologie = physiology, Schildkröten = turtles + tortoises Creators: Clark, Franklin, Gordos Collection: Physiological and Biochemical Zoology |
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| Abstract |
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Locomotion is a common measure of performance used in studies of thermal acclimation because of its correlation with predator escape and prey capture. However, for sedentary animals such as freshwater turtles, we propose that diving behavior may be a more ecologically relevant measure of performance. Increasing dive duration in hatchling turtles reduces predator exposure and therefore functions as an ecological benefit. Diving behavior is thermally dependent, and in some species of freshwater turtles, it is also reliant on aquatic respiration. This study examined the influence of thermal acclimation on diving behavior, aquatic respiration, and locomotor performance in the endangered, bimodally respiring Mary River turtle Elusor macrurus. Diving behavior was found to partially acclimate at 17 degrees C, with turtles acclimated to a cold temperature (17 degrees C) having a significantly longer dive duration than hatchlings acclimated to a warm temperature (28 degrees C). This increase in dive duration at 17 degrees C was not a result of physiological alterations in metabolic rate but was due instead to an increase in aquatic oxygen consumption. Increasing aquatic oxygen consumption permitted cold-acclimated hatchlings to remain submerged for significantly longer periods, with one turtle undertaking a dive of over 2.5 d. When burst-swimming speed was used as the measure of performance, thermal acclimation was not detected. Overall, E. macrurus demonstrated a partial ability to acclimate to changes in environmental temperature.
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WIF
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