Impact of root hairs on microscale soil physical properties in the field
Impact of root hairs on microscale soil physical properties in the field
Aims: recent laboratory studies revealed that root hairs may alter soil physical behaviour, influencing soil porosity and water retention on the small scale. However, the results are not consistent, and it is not known if structural changes at the small-scale have impacts at larger scales. Therefore, we evaluated the potential effects of root hairs on soil hydro-mechanical properties in the field using rhizosphere-scale physical measurements.
Methods: changes in soil water retention properties as well as mechanical and hydraulic characteristics were monitored in both silt loam and sandy loam soils. Measurements were taken from plant establishment to harvesting in field trials, comparing three barley genotypes representing distinct phenotypic categories in relation to root hair length. Soil hardness and elasticity were measured using a 3-mm-diameter spherical indenter, while water sorptivity and repellency were measured using a miniaturized infiltrometer with a 0.4-mm tip radius.
Results: over the growing season, plants induced changes in the soil water retention properties, with the plant available water increasing by 21%. Both soil hardness (P = 0.031) and elasticity (P = 0.048) decreased significantly in the presence of root hairs in silt loam soil, by 50% and 36%, respectively. Root hairs also led to significantly smaller water repellency (P = 0.007) in sandy loam soil vegetated with the hairy genotype (-49%) compared to the hairless mutant.
Conclusions: breeding of cash crops for improved soil conditions could be achieved by selecting root phenotypes that ameliorate soil physical properties and therefore contribute to increased soil health.
barley, root hairs, soil health, soil hydromechanical properties, soil structure, soil water retention
491–509
Marin, M.
083b514a-a2d6-49da-86ae-5bc2350d1942
Hallett, P.D.
b027edfe-728c-4d09-bbbd-4061e6373ef6
Feeney, D.S.
22bac2d3-8b34-41ec-8582-03b63b6132d4
Brown, L.K.
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Naveed, M.
ffa04925-7d0a-42fa-b95b-548fe3e4e2db
Koebernick, N.
118c4e45-02d8-42da-84c8-8ee4fac140ad
Ruiz, S.
d79b3b82-7c0d-47cc-9616-11d29e6a41bd
Bengough, A.G.
ac1f754e-002c-44f6-8907-8771a4cd1fd3
Roose, T.
3581ab5b-71e1-4897-8d88-59f13f3bccfe
George, T.S.
a506ae83-5218-40c6-b582-7243465df9fa
Marin, M.
083b514a-a2d6-49da-86ae-5bc2350d1942
Hallett, P.D.
b027edfe-728c-4d09-bbbd-4061e6373ef6
Feeney, D.S.
22bac2d3-8b34-41ec-8582-03b63b6132d4
Brown, L.K.
16a9fa3b-730a-4546-a9fd-a2c0a9267a40
Naveed, M.
ffa04925-7d0a-42fa-b95b-548fe3e4e2db
Koebernick, N.
118c4e45-02d8-42da-84c8-8ee4fac140ad
Ruiz, S.
d79b3b82-7c0d-47cc-9616-11d29e6a41bd
Bengough, A.G.
ac1f754e-002c-44f6-8907-8771a4cd1fd3
Roose, T.
3581ab5b-71e1-4897-8d88-59f13f3bccfe
George, T.S.
a506ae83-5218-40c6-b582-7243465df9fa
Marin, M., Hallett, P.D., Feeney, D.S., Brown, L.K., Naveed, M., Koebernick, N., Ruiz, S., Bengough, A.G., Roose, T. and George, T.S.
(2022)
Impact of root hairs on microscale soil physical properties in the field.
Plant and Soil, 476, .
(doi:10.1007/s11104-022-05530-1).
Abstract
Aims: recent laboratory studies revealed that root hairs may alter soil physical behaviour, influencing soil porosity and water retention on the small scale. However, the results are not consistent, and it is not known if structural changes at the small-scale have impacts at larger scales. Therefore, we evaluated the potential effects of root hairs on soil hydro-mechanical properties in the field using rhizosphere-scale physical measurements.
Methods: changes in soil water retention properties as well as mechanical and hydraulic characteristics were monitored in both silt loam and sandy loam soils. Measurements were taken from plant establishment to harvesting in field trials, comparing three barley genotypes representing distinct phenotypic categories in relation to root hair length. Soil hardness and elasticity were measured using a 3-mm-diameter spherical indenter, while water sorptivity and repellency were measured using a miniaturized infiltrometer with a 0.4-mm tip radius.
Results: over the growing season, plants induced changes in the soil water retention properties, with the plant available water increasing by 21%. Both soil hardness (P = 0.031) and elasticity (P = 0.048) decreased significantly in the presence of root hairs in silt loam soil, by 50% and 36%, respectively. Root hairs also led to significantly smaller water repellency (P = 0.007) in sandy loam soil vegetated with the hairy genotype (-49%) compared to the hairless mutant.
Conclusions: breeding of cash crops for improved soil conditions could be achieved by selecting root phenotypes that ameliorate soil physical properties and therefore contribute to increased soil health.
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s11104-022-05530-1
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Accepted/In Press date: 31 May 2022
e-pub ahead of print date: 11 June 2022
Keywords:
barley, root hairs, soil health, soil hydromechanical properties, soil structure, soil water retention
Identifiers
Local EPrints ID: 484590
URI: http://eprints.soton.ac.uk/id/eprint/484590
ISSN: 0032-079X
PURE UUID: 580a6918-7c00-45f1-8b19-725c9501efe1
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Date deposited: 17 Nov 2023 17:55
Last modified: 17 Mar 2024 03:14
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Contributors
Author:
M. Marin
Author:
P.D. Hallett
Author:
D.S. Feeney
Author:
L.K. Brown
Author:
M. Naveed
Author:
N. Koebernick
Author:
A.G. Bengough
Author:
T.S. George
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