Abstract
Plants, as sessile organisms, have evolved a remarkable developmental plasticity to cope with their changing environment. When growing in hostile desert conditions, plants have to grow and thrive in heat and drought. This review discusses how desert plants have adapted their root system architecture (RSA) to cope with scarce water availability and poor nutrient availability in the desert soil. First, we describe how some species can survive by developing deep tap roots to access the groundwater while others produce shallow roots to exploit the short rain seasons and unpredictable rainfalls. Then, we discuss how desert plants have evolved unique developmental programs like having determinate meristems in the case of cacti while forming a branched and compact root system that allows efficient water uptake during wet periods. The remote germination mechanism in date palms is another example of developmental adaptation to survive in the dry and hot desert surface. Date palms have also designed non-gravitropic secondary roots, termed pneumatophores, to maximize water and nutrient uptake. Next, we highlight the distinct anatomical features developed by desert species in response to drought like narrow vessels, high tissue suberization, and air spaces within the root cortex tissue. Finally, we discuss the beneficial impact of the microbiome in promoting root growth in desert conditions and how these characteristics can be exploited to engineer resilient crops with a greater ability to deal with salinity induced by irrigation and with the increasing drought caused by global warming.
Highlights
We address root adaptations in desert plants at multiscale with a particular focus on two desert plant representatives: Opuntia ficus indica and Phoenix dactylifera [7,8,9]
The root system width and shoots size are not according to scale; date palm roots can reach deeper than 5 m [4,7,17,18,19]
To cope with the dry soil, species like cactus are dedicated to developing a root system in surface soil to tap water from rainfall events
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. (2) perennial, their survival relies on dormancy during the dry season; and (3) succulents, characterized by a complex and shallow root system that can contain water in the stem [2] These categories have unique morphological and physiological adaptive traits, the above-ground organs like stem and leaves, which are the most studied organs because they are accessible. We address root adaptations in desert plants at multiscale with a particular focus on two desert plant representatives: Opuntia ficus indica (prickly pear) and Phoenix dactylifera (date palm) [7,8,9] Both have developed different strategies to cope with desert conditions and are of high economic importance. Molecular tools for both species are available: a strategy to stably transform prickly pear was developed, and the date palm genome is publicly accessible [10,11]
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