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Can thermoregulatory traits and evolutionary history predict climatic niches of thermal specialists?
Author(s) -
Bujan Jelena,
Ollier Sébastien,
Villalta Irene,
Devers Séverine,
Cerdá Xim,
Amor Fernando,
Dahbi Abdallah,
Bertelsmeier Cleo,
Boulay Raphaël
Publication year - 2022
Publication title -
diversity and distributions
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.918
H-Index - 118
eISSN - 1472-4642
pISSN - 1366-9516
DOI - 10.1111/ddi.13511
Subject(s) - ecological niche , niche , ecology , biology , environmental niche modelling , niche segregation , range (aeronautics) , species distribution , habitat , ecophysiology , materials science , photosynthesis , botany , composite material
Aim Predictions of future species distributions rest on the assumption that climatic conditions in the current range reflect fundamental niche requirements. So far, it remains unclear to what extent this is true. We tested if three important factors determining fundamental niche—ecophysiology, morphology and evolutionary history—can predict the realized niche, using thermal specialist ants. They are suitable model organisms because their body temperature, metabolism and fitness are closely tied to the habitat temperatures. Location Iberian Peninsula and Maghreb. Time period 2013–2015. Major taxa studied Ants (Hymenoptera:Formicidae). Methods We measured heat tolerance, chill coma recovery, body size and phylogenetic relationships in 19 desert specialist ants in the genus Cataglyphis to test if these important determinants of fundamental niches are good predictors of species realized niches. We modelled species climatic niches using 19 bioclimatic variables from WorldClim for recorded occurrence of each species. Results None of the determinants of the species' fundamental niche were linked to their realized climatic niche, modelled using species distribution models. However, both heat tolerance and chill coma recovery were highly correlated with body size and all three thermoregulatory traits were phylogenetically constrained, suggesting they reflect fundamental requirements of each species. Main conclusions Our results challenge the basic assumption of climatic niche modelling, that the realized niche can be used as a proxy for determining fundamental niche requirements. These findings are particularly concerning for studies that use the species' current realized niche to predict their responses to climate change.

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