Support for the evolutionary speed hypothesis from intraspecific population genetic data in the non-biting midge Chironomus riparius

Support for the evolutionary speed hypothesis from intraspecific population genetic data in the non-biting midge Chironomus riparius

The evolutionary speed hypothesis (ESH) proposes a causal mechanism for the latitudinal diversity gradient. The central idea of the ESH is that warmer temperatures lead to shorter generation times and increased mutation rates. On an absolute time scale, both should lead to an acceleration of selecti...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Vol. 283; no. 1825; p. 20152413
Main Authors: Oppold, Ann-Marie, Pedrosa, João A. M., Bálint, Miklós, Diogo, João B., Ilkova, Julia, Pestana, João L. T., Pfenninger, Markus
Format: Journal Article
Language:English
Published: England The Royal Society 24-02-2016
Subjects:
Animal Distribution
Animals
Biological Evolution
Chironomidae - genetics
Chironomidae - physiology
Climate
Europe
Haplotypes
Intraspecific Diversity
Neutral Evolution
Population Differentiation
Speciation
Temperature
neutral evolution
intraspecific diversity
population differentiation
speciation
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Summary:The evolutionary speed hypothesis (ESH) proposes a causal mechanism for the latitudinal diversity gradient. The central idea of the ESH is that warmer temperatures lead to shorter generation times and increased mutation rates. On an absolute time scale, both should lead to an acceleration of selection and drift. Based on the ESH, we developed predictions regarding the distribution of intraspecific genetic diversity: populations of ectothermic species with more generations per year owing to warmer ambient temperatures should be more differentiated from each other, accumulate more mutations and show evidence for increased mutation rates compared with populations in colder regions. We used the multivoltine insect species Chironomus riparius to test these predictions with cytochrome oxidase I (COI) sequence data and found that populations from warmer regions are indeed significantly more differentiated and have significantly more derived haplotypes than populations from colder regions. We also found a significant correlation of the annual mean temperature with the population mutation parameter θ that serves as a proxy for the per generation mutation rate under certain assumptions. This pattern could be corroborated with two nuclear loci. Overall, our results support the ESH and indicate that the thermal regime experienced may be crucially driving the evolution of ectotherms and may thus ultimately govern their speciation rate.
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ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2015.2413