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ALTITUDINAL CLINAL VARIATION IN WING SIZE AND SHAPE IN AFRICAN DROSOPHILA MELANOGASTER: ONE CLINE OR MANY?

Authors

  • William Pitchers,

    1. 1 Department of Zoology, Program in Ecology, Evolutionary Biology and Behavior, Michigan State University, East Lansing, Michigan 48823 2E-mail: pitchers@msu.edu3Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706
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  • 1,2 John E. Pool,

    1. 1 Department of Zoology, Program in Ecology, Evolutionary Biology and Behavior, Michigan State University, East Lansing, Michigan 48823 2E-mail: pitchers@msu.edu3Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706
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  • and 3 Ian Dworkin 1

    1. 1 Department of Zoology, Program in Ecology, Evolutionary Biology and Behavior, Michigan State University, East Lansing, Michigan 48823 2E-mail: pitchers@msu.edu3Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706
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Abstract

Geographical patterns of morphological variation have been useful in addressing hypotheses about environmental adaptation. In particular, latitudinal clines in phenotypes have been studied in a number of Drosophila species. Some environmental conditions along latitudinal clines—for example, temperature—also vary along altitudinal clines, but these have been studied infrequently and it remains unclear whether these environmental factors are similar enough for convergence or parallel evolution. Most clinal studies in Drosophila have dealt exclusively with univariate phenotypes, allowing for the detection of clinal relationships, but not for estimating the directions of covariation between them. We measured variation in wing shape and size in D. melanogaster derived from populations at varying altitudes and latitudes across sub-Saharan Africa. Geometric morphometrics allows us to compare shape changes associated with latitude and altitude, and manipulating rearing temperature allows us to quantify the extent to which thermal plasticity recapitulates clinal effects. Comparing effect vectors demonstrates that altitude, latitude, and temperature are only partly associated, and that the altitudinal shape effect may differ between Eastern and Western Africa. Our results suggest that selection responsible for these phenotypic clines may be more complex than just thermal adaptation.

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