TY - JOUR
T1 - Evolutionary stasis and lability in thermal physiology in a group of tropical lizards
AU - Muñoz, Martha M.
AU - Stimola, Maureen A.
AU - Algar, Adam C.
AU - Conover, Asa
AU - Rodriguez, Anthony J.
AU - Landestoy, Miguel A.
AU - Bakken, George S.
AU - Losos, Jonathan B.
PY - 2014/1/15
Y1 - 2014/1/15
N2 - Understanding howquickly physiological traits evolve is a topic of great interest, particularly in the context of how organisms can adapt in response to climate warming. Adjustment to novel thermal habitats may occur either through behavioural adjustments, physiological adaptation or both. Here, we test whether rates of evolution differ among physiological traits in the cybotoids, a clade of tropical Anolis lizards distributed in markedly different thermal environments on the Caribbean island of Hispaniola. We find that cold tolerance evolves considerably faster than heat tolerance, a difference that results because behavioural thermoregulation more effectively shields these organisms from selection on upper than lower temperature tolerances. Specifically, because lizards in very different environments behaviourally thermoregulate during the day to similar body temperatures, divergent selection on body temperature and heat tolerance is precluded, whereas night-time temperatures can only be partially buffered by behaviour, thereby exposing organisms to selection on cold tolerance. We discuss how exposure to selection on physiology influences divergence among tropical organisms and its implications for adaptive evolutionary response to climate warming.
AB - Understanding howquickly physiological traits evolve is a topic of great interest, particularly in the context of how organisms can adapt in response to climate warming. Adjustment to novel thermal habitats may occur either through behavioural adjustments, physiological adaptation or both. Here, we test whether rates of evolution differ among physiological traits in the cybotoids, a clade of tropical Anolis lizards distributed in markedly different thermal environments on the Caribbean island of Hispaniola. We find that cold tolerance evolves considerably faster than heat tolerance, a difference that results because behavioural thermoregulation more effectively shields these organisms from selection on upper than lower temperature tolerances. Specifically, because lizards in very different environments behaviourally thermoregulate during the day to similar body temperatures, divergent selection on body temperature and heat tolerance is precluded, whereas night-time temperatures can only be partially buffered by behaviour, thereby exposing organisms to selection on cold tolerance. We discuss how exposure to selection on physiology influences divergence among tropical organisms and its implications for adaptive evolutionary response to climate warming.
KW - Anolis lizards
KW - Bogert effect
KW - Physiological evolution
KW - Thermal physiology
KW - Thermoregulation
UR - http://www.scopus.com/inward/record.url?scp=84892566767&partnerID=8YFLogxK
U2 - 10.1098/rspb.2013.2433
DO - 10.1098/rspb.2013.2433
M3 - Article
C2 - 24430845
AN - SCOPUS:84892566767
SN - 0962-8452
VL - 281
JO - Proceedings of the Royal Society B: Biological Sciences
JF - Proceedings of the Royal Society B: Biological Sciences
IS - 1778
M1 - 20132433
ER -