High water availability in drought tolerant crops is driven by root engineering of the soil micro-habitat

Rabbi, Sheikh M F; Tighe, Matthew K; Warren, Charles R; Zhou, Yi; Denton, Matthew D; Barbour, Margaret M; Young, Iain

doi:10.1016/j.geoderma.2020.114738

Author(s)

Rabbi, Sheikh M F

Tighe, Matthew K

Warren, Charles R

Zhou, Yi

Denton, Matthew D

Barbour, Margaret M

Young, Iain

Publication Date

2021-02-01

Abstract

Improving our understanding of drought tolerance of crops is essential in light of future predicted changes in rainfall, decreased groundwater availability, and increasing temperatures. With a focus on above ground traits, significant improvements in drought tolerance of plants has occurred. With such gains plateauing, we have sought to quantify the belowground functional interactions between plant roots and soil in relation to drought tolerance. Using physical, chemical and biological approaches, we compared drought tolerant and sensitive model plants to demonstrate that a tolerant plant alters both the surrounding pore geometry and the relative abundance of bacteria and upregulates the development of a slow wetting rhizosheath, which increases water uptake under drought conditions. We propose that such rhizosheath traits can be targeted to modify the biophysical properties of the rhizosheath to access water in drought conditions.

Citation

Geoderma, v.383, p. 1-10

ISSN

1872-6259

0016-7061

Link

https://hdl.handle.net/1959.11/30466

Language

en

Publisher

Elsevier BV

Title

High water availability in drought tolerant crops is driven by root engineering of the soil micro-habitat

Type of document

Journal Article

Entity Type

Publication

Author(s)	Rabbi, Sheikh M F Tighe, Matthew K Warren, Charles R Zhou, Yi Denton, Matthew D Barbour, Margaret M Young, Iain
Publication Date	2021-02-01
Abstract	Improving our understanding of drought tolerance of crops is essential in light of future predicted changes in rainfall, decreased groundwater availability, and increasing temperatures. With a focus on above ground traits, significant improvements in drought tolerance of plants has occurred. With such gains plateauing, we have sought to quantify the belowground functional interactions between plant roots and soil in relation to drought tolerance. Using physical, chemical and biological approaches, we compared drought tolerant and sensitive model plants to demonstrate that a tolerant plant alters both the surrounding pore geometry and the relative abundance of bacteria and upregulates the development of a slow wetting rhizosheath, which increases water uptake under drought conditions. We propose that such rhizosheath traits can be targeted to modify the biophysical properties of the rhizosheath to access water in drought conditions.
Citation	Geoderma, v.383, p. 1-10
ISSN	1872-6259 0016-7061
Link	https://hdl.handle.net/1959.11/30466
Language	en
Publisher	Elsevier BV
Title	High water availability in drought tolerant crops is driven by root engineering of the soil micro-habitat
Type of document	Journal Article
Entity Type	Publication

High water availability in drought tolerant crops is driven by root engineering of the soil micro-habitat

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