Testing the thermal melanism hypothesis: a macrophysiological approach
Functional ecology, 2008 - JSTOR
1. The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance)
individuals are at an advantage in cool climates as they heat faster and reach higher …
individuals are at an advantage in cool climates as they heat faster and reach higher …
[引用][C] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche… - Functional …, 2007 - scholar.sun.ac.za
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
[PDF][PDF] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2007 - podarcis.de
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
Testing the thermal melanism hypothesis: a macrophysiological approach.
S Clusella-Trullas, JS Terblanche… - Functional …, 2008 - search.ebscohost.com
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
[PDF][PDF] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2007 - academia.edu
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
[引用][C] Testing the thermal melanism hypothesis: A macrophysiological approach
S Clusella-Trullas, JS Terblanche… - Functional …, 2008 - research.monash.edu
Testing the thermal melanism hypothesis: A macrophysiological approach — Monash
University Skip to main navigation Skip to search Skip to main content Monash University …
University Skip to main navigation Skip to search Skip to main content Monash University …
[引用][C] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2008 - cir.nii.ac.jp
[PDF][PDF] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2007 - lacerta.de
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
[PDF][PDF] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2007 - podarcis.de
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
[PDF][PDF] Testing the thermal melanism hypothesis: a macrophysiological approach
S Clusella-Trullas, JS Terblanche, TM Blackburn… - Functional …, 2007 - gallotia.de
The thermal melanism hypothesis (TMH) predicts that dark (low skin reflectance) individuals
are at an advantage in cool climates as they heat faster and reach higher equilibrium …
are at an advantage in cool climates as they heat faster and reach higher equilibrium …