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Macroevolution of thermal tolerance in intertidal crabs from Neotropical provinces: A phylogenetic comparative evaluation of critical limits
Author(s) -
Faria Samuel C.,
Faleiros Rogério O.,
Brayner Fábio A.,
Alves Luiz C.,
Bianchini Adalto,
Romero Carolina,
Buranelli Raquel C.,
Mantelatto Fernando L.,
McNamara John C.
Publication year - 2017
Publication title -
ecology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.17
H-Index - 63
ISSN - 2045-7758
DOI - 10.1002/ece3.2741
Subject(s) - phylogenetic tree , biology , ectotherm , critical thermal maximum , intertidal zone , phylogenetics , macroevolution , ecology , microevolution , zoology , gene , biochemistry , acclimatization , population , demography , sociology
Thermal tolerance underpins most biogeographical patterns in ectothermic animals. Macroevolutionary patterns of thermal limits have been historically evaluated, but a role for the phylogenetic component in physiological variation has been neglected. Three marine zoogeographical provinces are recognized throughout the Neotropical region based on mean seawater temperature ( T m ): the Brazilian ( T m  = 26 °C), Argentinian ( T m  = 15 °C), and Magellanic ( T m  = 9 °C) provinces. Microhabitat temperature ( MHT ) was measured, and the upper ( UL 50 ) and lower ( LL 50 ) critical thermal limits were established for 12 eubrachyuran crab species from intertidal zones within these three provinces. A molecular phylogenetic analysis was performed by maximum likelihood using the 16S mitochondrial gene, also considering other representative species to enable comparative evaluations. We tested for: (1) phylogenetic pattern of MHT , UL 50 , and LL 50 ; (2) effect of zoogeographical province on the evolution of both limits; and (3) evolutionary correlation between MHT and thermal limits. MHT and UL 50 showed strong phylogenetic signal at the species level while LL 50 was unrelated to phylogeny, suggesting a more plastic evolution. Province seems to have affected the evolution of thermal tolerance, and only UL 50 was dependent on MHT . UL 50 was similar between the two northern provinces compared to the southernmost while LL 50 differed markedly among provinces. Apparently, critical limits are subject to different environmental pressures and thus manifest unique evolutionary histories. An asymmetrical macroevolutionary scenario for eubrachyuran thermal tolerance seems likely, as the critical thermal limits are differentially inherited and environmentally driven.

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