Abstract
Water and nitrogen availability limit crop productivity globally more than most other environmental factors. Plant availability of macronutrients such as nitrate is, to a large extent, regulated by the amount of water available in the soil, and, during drought episodes, crops can become simultaneously water and nitrogen limited. In this review, we explore the intricate relationship between water and nitrogen transport in plants, from transpiration-driven mass flow in the soil to uptake by roots via membrane transporters and channels and transport to aerial organs. We discuss the roles of root architecture and of suberized hydrophobic root barriers governing apoplastic water and nitrogen movement into the vascular system. We also highlight the need to identify the signalling cascades regulating water and nitrogen transport, as well as the need for targeted physiological analyses of plant traits influencing water and nitrogen uptake. We further advocate for incorporation of new phenotyping technologies, breeding strategies, and agronomic practices to improve crop yield in water- and nitrogen-limited production systems.
Highlights
The two resources with the greatest influence on crop productivity are water and nitrogen (N)
It is clear that N-use efficiency (NUE) or crops must be improved for sustainable agricultural production; as for water-use efficiency (WUE), efforts to improve NUE have been stymied by the complexity of the trait in plants
It is interesting to consider that abscisic acid (ABA), which is produced under drought stress, could restrict NO3– sensing via ABI2 and NPF6.3 and thereby result in reduced NO3– uptake (Léran et al, 2015)
Summary
The intersection of nitrogen nutrition and water use in plants: new paths toward improved crop productivity. Received 29 October 2019; Editorial decision 16 January 2020; Accepted 5 February 2020
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