Abstract
It is commonly known that drought stress is a major constraint limiting crop production. Drought stress and associated drought tolerance mechanisms are therefore under intense investigation with the view to future production of drought tolerant crops. With an ever-growing population and variable climate, novel approaches need to be considered to sustainably feed future generations. In this context, definitions of drought tolerance are highly variable, which poses a major challenge for the systematic assessment of this trait across the plant kingdom. Furthermore, drought tolerance is a polygenic trait and understanding the evolution of this complex trait may inform us about patterns of gene gain and loss in relation to diverse drought adaptations. We look at the transition of plants from water to land, and the role of drought tolerance in enabling this transition, before discussing the first drought tolerant plant and common drought responses amongst vascular plants. We reviewed the distribution of a combined “drought tolerance” trait in very broad terms to encompass different experimental systems and definitions used in the current literature and assigned a binary trait “tolerance vs. sensitivity” in 178 extant plant species. By simplifying drought responses of plants into this “binary” trait we were able to explore the evolution of drought tolerance across the wider plant kingdom, compared to previous studies. We show how this binary “drought tolerance/sensitivity” trait has evolved and discuss how incorporating this information into an evolutionary genomics framework could provide insights into the molecular mechanisms underlying extreme drought adaptations.
Highlights
Defining Drought ToleranceWater is essential for life on Earth, and there are diverse adaptations to water availability within the plant tree of life
These species are distributed across the plant phylogeny, occurring in all major evolutionary groups, there is a bias on the number of genomes available toward angiosperms
The analysis suggested that the last common ancestor (LCA) of Streptophyta was drought adapted and likely had the capacity for desiccation tolerance
Summary
Defining Drought ToleranceWater is essential for life on Earth, and there are diverse adaptations to water availability within the plant tree of life. On the other hand, facilitates plant survival during periods of dehydration, but does not contribute toward growth and yield maintenance post drought stress (Blum, 2005, 2009; Passioura, 2007). It is the drought avoidance strategies designed to evade damage or death, which have been proposed to drive the evolution of genes controlling growth in stressful environments (Maggio et al, 2018). This means that plant mechanisms to cope with stressful environments during evolution were mostly designed to avoid detrimental effects such as injury and death, and extinction
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