Geographic Isolation Facilitates the Evolution of Reproductive Isolation and Morphological Divergence




Worsham, McLean
Julius, Eric P.
Nice, Chris C.
Diaz, Peter H.
Huffman, David G.

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John Wiley & Sons Ltd.


Geographic isolation is known to contribute to divergent evolution, resulting in unique phenotypes. Oftentimes morphologically distinct populations are found to be interfertile while reproductive isolation is found to exist within nominal morphological species revealing the existence of cryptic species. These disparities can be difficult to predict or explain especially when they do not reflect an inferred history of common ancestry which suggests that environmental factors affect the nature of ecological divergence. A series of laboratory experiments and observational studies were used to address what role biogeographic factors may play in the ecological divergence of Hyalella amphipods. It was found that geographic isolation plays a key role in the evolution of reproductive isolation and divergent morphology and that divergence cannot be explained by molecular genetic variation.



geographic isolation, molecular diversity, morphological diversity, reproductive isolation, evolution, Biology


Worsham, M. L. D., Julius, E. P., Nice, C. C., Diaz, P. H., & Huffman, D. G. (2017). Geographic isolation facilitates the evolution of reproductive isolation and morphological divergence. Ecology and Evolution, 7(23), pp. 10278–10288.


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