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1 May 2002 ACCELERATED MOLECULAR EVOLUTION IN HALOPHILIC CRUSTACEANS
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Abstract

In contrast to the stable ionic composition of the oceans, inland waters show striking diversity, possessing salt concentrations varying from 1 mM to 5 M. Although species diversity is highest in fresh water, some lineages have colonized hypersaline environments where they encounter elevated levels of both ultraviolet (UV) radiation and osmotic stress. This study compares rates of evolution in halophilic and freshwater taxa for two groups of microcrustaceans, anostracans and daphniids, from Australia and North America. The results establish that halophilic species show consistent rate acceleration, involving elevated levels of both insertion/deletion events and of nucleotide substitutions. The elevated pace of molecular evolution does not appear to be linked to selection or to other agents that are known to influence the supply rate of mutations, such as UV exposure, generation length, or shifts in metabolic rate. However, variance in ionic strength, which is known to have potent effects on DNA-protein interactions as well as on the structural properties of DNA and proteins, might account for the lowered fidelity of DNA replication in life from hypersaline settings. Regardless of its cause, the consistent rate acceleration in halophiles suggests that past efforts to employ sequence divergences to date events, such as the age of asexual lineages in Artemia, have resulted in serious overestimates. More generally, the results indicate that coordinated shifts in rates of molecular evolution may occur in lineages exposed to extreme environmental conditions.

Corresponding Editor: H. Ochman

Paul D. N. Hebert, Elpidio A. Remigio, John K. Colbourne, Derek J. Taylor, and Christopher C. Wilson "ACCELERATED MOLECULAR EVOLUTION IN HALOPHILIC CRUSTACEANS," Evolution 56(5), 909-926, (1 May 2002). https://doi.org/10.1554/0014-3820(2002)056[0909:AMEIHC]2.0.CO;2
Received: 6 September 2001; Accepted: 1 January 2002; Published: 1 May 2002
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