The evolution of drought escape and avoidance in natural herbaceous populations.

The evolution of drought escape and avoidance in natural herbaceous populations.
Authors: 
Kooyers NJ
Summary
Publication Date
2015 May
Abstract

While the functional genetics and physiological mechanisms controlling drought resistance in crop plants have been intensely studied, less research has examined the genetic basis of adaptation to drought stress in natural populations. Drought resistance adaptations in nature reflect natural rather than human-mediated selection and may identify novel mechanisms for stress tolerance. Adaptations conferring drought resistance have historically been divided into alternative strategies including drought escape (rapid development to complete a life cycle before drought) and drought avoidance (reducing water loss to prevent dehydration). Recent studies in genetic model systems such as Arabidopsis, Mimulus, and Panicum have begun to elucidate the genes, expression profiles, and physiological changes responsible for ecologically important variation in drought resistance. Similar to most crop plants, variation in drought escape and avoidance is complex, underlain by many QTL of small effect, and pervasive gene by environment interactions. Recently identified major-effect alleles point to a significant role for genetic constraints in limiting the concurrent evolution of both drought escape and avoidance strategies, although these constraints are not universally found. This progress suggests that understanding the mechanistic basic and fitness consequences of gene by environment interactions will be critical for crop improvement and forecasting population persistence in unpredictable environments.

Publication Type
Journal Article
DOI
10.1016/j.plantsci.2015.02.012
Citation
Kooyers NJ. The evolution of drought escape and avoidance in natural herbaceous populations.. Plant science : an international journal of experimental plant biology. 2015 May; 234:155-62.
Series Name: 
Plant science : an international journal of experimental plant biology
Page Numbers: 
155-62
Publisher: