1 / 45

TSD in Reptiles How the physical and the physiological conspire to defeat global warming

TSD in Reptiles How the physical and the physiological conspire to defeat global warming. Arthur Georges Applied Ecology Research Group University of Canberra. Sex versus Temperature. Established Results. Dramatic effect – usually 100% of one sex or the other

ronnie
Download Presentation

TSD in Reptiles How the physical and the physiological conspire to defeat global warming

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. TSD in ReptilesHow the physical andthe physiological conspireto defeat global warming Arthur Georges Applied Ecology Research Group University of Canberra

  2. Sex versus Temperature

  3. Established Results • Dramatic effect – usually 100% of one sex or the other • Only a small range of temperatures (threshold) produces both sexes • TSD is widespread among reptiles

  4. European Pond Turtle (France) Threshold = 28°C

  5. Temperatures in Natural Nests Temperatures recorded atfour depths over 24hrs

  6. American Map Turtles

  7. Diel Cycle Daily Temperature Cycle T = R Cos (t) + M where M is the meanand +/-R is the range

  8. Diel Cycle Daily Temperature Cycle T = R Cos (t) + M where M is the meanand +/-R is the range

  9. Diel Cycle

  10. Diel Cycle

  11. Linear CTE Model CTE = R.Cos (t’) + M t’ = - sin (t’) p R 2 M – T0

  12. Predicting Sex

  13. American Map Turtles

  14. Development Rate Development Rate increases linearly with time = A(T – T0) where T0 is thedevelopmental zero ds dt

  15. Sex vs Temperature

  16. Loggerhead Turtles Sex ratios versus Daily range At a fixed mean of 26°C Line = model prediction

  17. Loggerhead Turtles Sex ratios versus Daily range At a fixed mean of 26°C Line = model prediction

  18. Daily Thermal Regimes Mean temperaturevaries a little –by 0.6°C Daily range variesby up to 3.0 °C CTE variesby about 2.0 °C

  19. Thermal Gradients

  20. Development in Carettochelys

  21. Core Temperature Trace

  22. Core Temperature Trace

  23. Core Temperature Trace

  24. Linear Model

  25. Fitting Non-linear Models

  26. Sharpe-DeMichelle Model

  27. Incubation Period

  28. Sex

  29. Sex

  30. Conclusion • Contrary to previous reports…

  31. Conclusion • Global warming may well NOT be the female turtle’s answer to male chauvinism!

  32. Single Switch

  33. Title? Patterns of oxygen consumption during incubation

  34. Linear CTE Model – example CTE = R.Cos (t’) + M t’ = - sin (t’) • Emys orbicularis – France (Pieau, 1982) • T0 = 16.1, Mean = 24.8°C, R = 7.5 °C • t’ = 0.8980 (6 hrs 51 mins) after 14 iterations • CTE = 29.5 °C p R 2 M – T0

  35. Refinement #1 • When temperatures drop below the developmental zero each day

  36. Yet to be done… • Test the utility of the models in real field situations • Test the Linear CTE Model with Threshold in the laboratory, incorporate the Sharpe-DeMichelle Model • Simplify computation – the WEB • Explore the broader implications for hatchling phenotypes in general • Global warming

  37. Double Switch

  38. European Pond Turtle (France) Threshold = 28°C

  39. Sex versus Temperature

More Related