Environmental and climatic determinants of molecular diversity and genetic population structure in a coenagrionid damselfly |
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Authors: | Wellenreuther Maren Sánchez-Guillén Rosa A Cordero-Rivera Adolfo Svensson Erik I Hansson Bengt |
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Institution: | Department of Biology, Lund University, Lund, Sweden. maren.wellenreuther@biol.lu.se |
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Abstract: | Identifying environmental factors that structure intraspecific genetic diversity
is of interest for both habitat preservation and biodiversity conservation.
Recent advances in statistical and geographical genetics make it possible to
investigate how environmental factors affect geographic organisation and
population structure of molecular genetic diversity within species. Here we
present a study on a common and wide ranging insect, the blue tailed damselfly
Ischnuraelegans, which has been the target of many
ecological and evolutionary studies. We addressed the following questions: (i)
Is the population structure affected by longitudinal or latitudinal gradients?;
(ii) Do geographic boundaries limit gene flow?; (iii) Does geographic distance
affect connectivity and is there a signature of past bottlenecks?; (iv) Is there
evidence of a recent range expansion and (vi) what is the effect of geography
and climatic factors on population structure? We found low to moderate genetic
sub-structuring between populations (mean
FST = 0.06,
Dest = 0.12), and an effect of longitude, but
not latitude, on genetic diversity. No significant effects of geographic
boundaries (e.g. water bodies) were found. FST-and
Dest-values increased with geographic distance; however, there was no
evidence for recent bottlenecks. Finally, we did not detect any molecular
signatures of range expansions or an effect of geographic suitability, although
local precipitation had a strong effect on genetic differentiation. The
population structure of this small insect has probably been shaped by ecological
factors that are correlated with longitudinal gradients, geographic distances,
and local precipitation. The relatively weak global population structure and
high degree of genetic variation within populations suggest that I.
elegans has high dispersal ability, which is consistent with this
species being an effective and early coloniser of new habitats. |
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