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Mol Ecol


Title:Aridity shapes cyanogenesis cline evolution in white clover (Trifolium repens L.)
Author(s):Kooyers NJ; Gage LR; Al-Lozi A; Olsen KM;
Address:"Department of Biology, Washington University in St. Louis, St. Louis, MO, 63130, USA"
Journal Title:Mol Ecol
Year:2014
Volume:20140218
Issue:5
Page Number:1053 - 1070
DOI: 10.1111/mec.12666
ISSN/ISBN:1365-294X (Electronic) 0962-1083 (Linking)
Abstract:"Adaptive differentiation between populations is often proposed to be the product of multiple interacting selective pressures, although empirical support for this is scarce. In white clover, populations show adaptive differentiation in frequencies of cyanogenesis, the ability to produce hydrogen cyanide after tissue damage. This polymorphism arises through independently segregating polymorphisms for the presence/absence of two required cyanogenic components, cyanogenic glucosides and their hydrolysing enzyme. White clover populations worldwide have evolved a series of recurrent, climate-associated clines, with higher frequencies of cyanogenic plants in warmer locations. These clines have traditionally been hypothesized to reflect a fitness trade-off between chemical defence in herbivore-rich areas (warmer climates) and energetic costs of producing cyanogenic components in areas of low herbivore pressure (cooler climates). Recent observational studies suggest that cyanogenic components may also be beneficial in water-stressed environments. We investigated fitness trade-offs associated with temperature-induced water stress in the cyanogenesis system using manipulative experiments in growth chambers and population surveys across a longitudinal precipitation gradient in the central United States. We find that plants producing cyanogenic glucosides have higher relative fitness in treatments simulating a moderate, persistent drought stress. In water-neutral treatments, there are energetic costs to producing cyanogenic components, but only in treatments with nutrient stress. These fitness trade-offs are consistent with cyanogenesis frequencies in natural populations, where we find clinal variation in the proportion of plants producing cyanogenic glucosides along the precipitation gradient. These results suggest that multiple selective pressures interact to maintain this adaptive polymorphism and that modelling adaptation will require knowledge of environment-specific fitness effects"
Keywords:"Adaptation, Physiological/*genetics *Biological Evolution *Climate *Droughts Genetic Fitness Genetics, Population Glycosides/biosynthesis Hydrogen Cyanide/metabolism Microsatellite Repeats Polymorphism, Genetic Stress, Physiological Trifolium/*genetics/ph;"
Notes:"MedlineKooyers, Nicholas J Gage, Lily R Al-Lozi, Amal Olsen, Kenneth M eng Research Support, U.S. Gov't, Non-P.H.S. England 2014/01/21 Mol Ecol. 2014 Mar; 23(5):1053-70. doi: 10.1111/mec.12666. Epub 2014 Feb 18"

 
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