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Effects of wetland connectivity on overwintering and movement behaviours of Australian freshwater turtles |
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| Authors: | James U Van Dyke Luke M McPhan Katie Howard Tracy Hamilton Liticia Ross Robyn J Watts |
| Institution: | 1. Department of Environment and Genetics, School of Agriculture, Biomedicine and Environment, Centre for Freshwater Ecosystems, La Trobe University, West Wodonga, Victoria, Australia;2. Department of Environment and Genetics, Centre for Freshwater Ecosystems, La Trobe University, West Wodonga, Victoria, Australia
Contribution: Formal analysis (equal), ?Investigation (supporting), Methodology (supporting), Visualization (lead), Writing - original draft (supporting), Writing - review & editing (supporting);3. Arthur Rylah Institute for Environmental Research, DEECA, Heidelberg, Victoria, Australia Contribution: Conceptualization (supporting), ?Investigation (supporting), Methodology (equal), Writing - review & editing (supporting);4. Yarkuwa Indigenous Knowledge Centre, Deniliquin, New South Wales, Australia Contribution: ?Investigation (supporting), Methodology (supporting), Resources (equal), Writing - original draft (supporting), Writing - review & editing (supporting);5. School of Agricultural, Environmental and Veterinary Sciences, Charles Sturt University, Albury, New South Wales, Australia Contribution: Conceptualization (equal), Funding acquisition (lead), ?Investigation (equal), Project administration (equal), Resources (equal), Writing - review & editing (lead) |
| Abstract: | Freshwater turtles are important consumers in Australian freshwater ecosystems. They serve as scavengers, nutrient regulators, and as food sources and Totems for Traditional Owners throughout Australia. Despite their importance, most Australian freshwater turtle species are declining. The impact of winter wetland drying on turtle populations remains unknown, and winter exposure of hibernating turtles may be an important additional source of mortality. We aimed to examine turtle responses to seasonal and episodic wetland drying in wetlands using acoustic telemetry and active trapping. Wetlands were chosen that spanned a range of hydrological connectivity to the adjacent Edward/Kolety-Wakool River. We found that tagged Emydura macquarii typically exit wetlands disconnected from the adjacent permanent river prior to winter, and overwinter in the river. Female E. macquarii rapidly re-entered ‘home’ wetlands (wetlands in which they were initially tagged) the following spring, whereas males tended to leave the study area, returning occasionally. Although we were not able to evaluate a winter drying event, one of the wetlands experienced partial summer drying. All three local turtle species (E. macquarii, Chelodina expansa, C. longicollis) exited the wetland long before winter drying would have become a potential threat. Our results suggest that turtles in this system may be protected from winter wetland drying because they move to the adjacent permanent river prior to winter. Spending the winter in the river channel reduces the risks of being trapped in a drying wetland as temperatures drop in winter. |
| Keywords: | hibernation movement ecology Murray-Darling Basin river flows telemetry water management wetlands |