Investigating plant transpiration-induced soil suction affected by root morphology and root depth

H. Zhu; L. M. Zhang; A. Garg

doi:10.1016/j.compgeo.2018.06.019

Investigating plant transpiration-induced soil suction affected by root morphology and root depth

H. Zhu, L. M. Zhang^*, A. Garg

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

This study evaluates the effects of root morphology and depth on the enhancement of induced suctions in soil grounds due to transpiration. Root morphology is idealized as uniform, triangular, parabolic and exponential distributions based on observations and the transpiration process is governed by the modified Richards equation. The study reveals that the exponential and triangular root networks enhance soil suctions more remarkably than the uniform and parabolic patterns. With the same total root amount, a root network with most of root amount concentrated in the superficial zone can induce significantly higher suction values than a root system distributed deeply.

Original language	English
Pages (from-to)	26-31
Number of pages	6
Journal	Computers and Geotechnics
Volume	103
DOIs	https://doi.org/10.1016/j.compgeo.2018.06.019
Publication status	Published - Nov 2018
Externally published	Yes

Keywords

Hydrologic process
Plant roots
Root morphology
Sustainability
Transpiration
Vegetated soil

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10.1016/j.compgeo.2018.06.019

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abstract = "This study evaluates the effects of root morphology and depth on the enhancement of induced suctions in soil grounds due to transpiration. Root morphology is idealized as uniform, triangular, parabolic and exponential distributions based on observations and the transpiration process is governed by the modified Richards equation. The study reveals that the exponential and triangular root networks enhance soil suctions more remarkably than the uniform and parabolic patterns. With the same total root amount, a root network with most of root amount concentrated in the superficial zone can induce significantly higher suction values than a root system distributed deeply.",

keywords = "Hydrologic process, Plant roots, Root morphology, Sustainability, Transpiration, Vegetated soil",

author = "H. Zhu and Zhang, {L. M.} and A. Garg",

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year = "2018",

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AU - Zhu, H.

AU - Zhang, L. M.

AU - Garg, A.

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N2 - This study evaluates the effects of root morphology and depth on the enhancement of induced suctions in soil grounds due to transpiration. Root morphology is idealized as uniform, triangular, parabolic and exponential distributions based on observations and the transpiration process is governed by the modified Richards equation. The study reveals that the exponential and triangular root networks enhance soil suctions more remarkably than the uniform and parabolic patterns. With the same total root amount, a root network with most of root amount concentrated in the superficial zone can induce significantly higher suction values than a root system distributed deeply.

AB - This study evaluates the effects of root morphology and depth on the enhancement of induced suctions in soil grounds due to transpiration. Root morphology is idealized as uniform, triangular, parabolic and exponential distributions based on observations and the transpiration process is governed by the modified Richards equation. The study reveals that the exponential and triangular root networks enhance soil suctions more remarkably than the uniform and parabolic patterns. With the same total root amount, a root network with most of root amount concentrated in the superficial zone can induce significantly higher suction values than a root system distributed deeply.

KW - Hydrologic process

KW - Plant roots

KW - Root morphology

KW - Sustainability

KW - Transpiration

KW - Vegetated soil

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EP - 31

JO - Computers and Geotechnics

JF - Computers and Geotechnics

ER -

Investigating plant transpiration-induced soil suction affected by root morphology and root depth

Abstract

Keywords

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