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Distinct cold tolerance traits independently vary across genotypes in Drosophila melanogaster
Author(s) -
Garcia Mark J.,
Littler Aerianna S.,
Sriram Aditya,
Teets Nicholas M.
Publication year - 2020
Publication title -
evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.84
H-Index - 199
eISSN - 1558-5646
pISSN - 0014-3820
DOI - 10.1111/evo.14025
Subject(s) - biology , cold tolerance , drosophila melanogaster , cold stress , frost (temperature) , genetics , adaptation (eye) , gene , population , genotype , extreme cold , phenotype , evolutionary biology , botany , demography , geomorphology , neuroscience , sociology , geology , climatology
Cold tolerance, the ability to cope with low temperature stress, is a critical adaptation in thermally variable environments. An individual's cold tolerance comprises several traits including minimum temperatures for growth and activity, ability to survive severe cold, and ability to resume normal function after cold subsides. Across species, these traits are correlated, suggesting they were shaped by shared evolutionary processes or possibly share physiological mechanisms. However, the extent to which cold tolerance traits and their associated mechanisms covary within populations has not been assessed. We measured five cold tolerance traits—critical thermal minimum, chill coma recovery, short‐ and long‐term cold tolerance, and cold‐induced changes in locomotor behavior—along with cold‐induced expression of two genes with possible roles in cold tolerance ( heat shock protein 70 and frost )—across 12 lines of Drosophila melanogaster derived from a single population. We observed significant genetic variation in all traits, but few were correlated across genotypes, and these correlations were sex‐specific. Further, cold‐induced gene expression varied by genotype, but there was no evidence supporting our hypothesis that cold‐hardy lines would have either higher baseline expression or induction of stress genes. These results suggest cold tolerance traits possess unique mechanisms and have the capacity to evolve independently.

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