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Why Behavioral (Rather than Physiological) Adjustment?
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Classroom Contents
Behavior Is a Motor and a Brake for Evolution
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- 1 Intro
- 2 Evolution proceeds unevenly.
- 3 Behavior is a major pacemaker for phenotypic evolution.
- 4 The 'Cybotoid' Anoles from Hispaniola
- 5 Cold Tolerance Decreases with Elevation
- 6 Body Temperature Remains Stable Across Elevation
- 7 Thermoregulation Buffers Organisms from Environmental Variation
- 8 The "Bogert Effect" or "Behavioral Inertia"
- 9 Why Behavioral (Rather than Physiological) Adjustment?
- 10 Hotter Is Better: Maximum Performance Increases with Body Temperature.
- 11 Geographic Distribution of Anolis Lizards
- 12 Does thermoregulation differ between island and mainland anoles?
- 13 Greater Thermoregulation in Island Anoles.
- 14 The Bogert Effect: Slower heat tolerance evolution, higher optimal trait value in island anoles.
- 15 The Island Bogert Effect 1. Heat tolerance evolution slower on islands.
- 16 Island lizards move around more than mainland anoles.
- 17 Operative Temperature (T.) Measurement on Trees and Boulders
- 18 The preferred temperature range (T...): Preferred range in the absence of ecological constraints.
- 19 High Elevation Lizards Perch on Boulders Arboreal
- 20 Does thermoregulation impact morphological evolution?
- 21 Thermal Environment
- 22 Can behavior stop the 'escalator to extinction?
- 23 When we incorporate physiology and behavior, we predict activity gain, not activity loss!
- 24 Warming constricts high-elevation pine forest
- 25 High Extinction Risk for Montane Anoles
- 26 Timing and Patterns of Diversification in Anoles
- 27 Reconstructing Adaptive Radiation Using Microbial Systems
