Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles

Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles

This study explored the effect of soil water repellency (SWR) on soil hydrophysical properties with depth. Soils were sampled from two distinctly wettable and water repellent soil profiles at depth increments from 0-60 cm. The soils were selected because they appeared to either wet readily (wettable...

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Main Authors: Sepehrnia Nasrollah, Hajabbasi Mohammad Ali, Afyuni Majid, Lichner Ľubomír
Format: Article
Language:English
Published: Sciendo 2017-03-01
Series:Journal of Hydrology and Hydromechanics
Subjects:
soil property
soil organic matter
aggregate
bulk density
mean weight diameter
infiltration
water repellency
Online Access:https://doi.org/10.1515/johh-2016-0055
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spelling doaj-d19a6e4f5f1f47e5b21d3b51ce1b9bf22021-09-06T19:40:47ZengSciendoJournal of Hydrology and Hydromechanics0042-790X2017-03-016519910410.1515/johh-2016-0055johh-2016-0055Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profilesSepehrnia Nasrollah0Hajabbasi Mohammad Ali1Afyuni Majid2Lichner Ľubomír3Department of Soil Science, College of Agriculture, Isfahan University of Technology, Isfahan, 84156-83111, Iran (Islamic Republic of)Department of Soil Science, College of Agriculture, Isfahan University of Technology, Isfahan, 84156-83111, Iran (Islamic Republic of)Department of Soil Science, College of Agriculture, Isfahan University of Technology, Isfahan, 84156-83111, Iran (Islamic Republic of)Institute of Hydrology, Slovak Academy of Sciences, Dúbravská cesta 9, 841 04 Bratislava, SlovakiaThis study explored the effect of soil water repellency (SWR) on soil hydrophysical properties with depth. Soils were sampled from two distinctly wettable and water repellent soil profiles at depth increments from 0-60 cm. The soils were selected because they appeared to either wet readily (wettable) or remain dry (water repellent) under field conditions. Basic soil properties (MWD, SOM, θv) were compared to hydrophysical properties (Ks, Sw, Se, Sww, Swh, WDPT, RIc, RIm and WRCT) that characterise or are affected by water repellency. Our results showed both soil and depth affected basic and hydrophysical properties of the soils (p <0.001). Soil organic matter (SOM) was the major property responsible for water repellency at the selected depths (0-60). Water repellency changes affected moisture distribution and resulted in the upper layer (0-40 cm) of the repellent soil to be considerably drier compared to the wettable soil. The water repellent soil also had greater MWDdry and Ks over the entire 0-60 cm depth compared to the wettable soil. Various measures of sorptivity, Sw, Se, Sww, Swh, were greater through the wettable than water repellent soil profile, which was also reflected in field and dry WDPT measurements. However, the wettable soil had subcritical water repellency, so the range of data was used to compare indices of water repellency. WRCT and RIm had less variation compared to WDPT and RIc. Estimating water repellency using WRCT and RIm indicated that these indices can detect the degree of SWR and are able to better classify SWR degree of the subcritical-repellent soil from the wettable soil.https://doi.org/10.1515/johh-2016-0055soil propertysoil organic matteraggregatebulk densitymean weight diameterinfiltrationwater repellency
collection DOAJ
language English
format Article
sources DOAJ
author Sepehrnia Nasrollah
Hajabbasi Mohammad Ali
Afyuni Majid
Lichner Ľubomír
spellingShingle Sepehrnia Nasrollah
Hajabbasi Mohammad Ali
Afyuni Majid
Lichner Ľubomír
Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
Journal of Hydrology and Hydromechanics
soil property
soil organic matter
aggregate
bulk density
mean weight diameter
infiltration
water repellency
author_facet Sepehrnia Nasrollah
Hajabbasi Mohammad Ali
Afyuni Majid
Lichner Ľubomír
author_sort Sepehrnia Nasrollah
title Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
title_short Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
title_full Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
title_fullStr Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
title_full_unstemmed Soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
title_sort soil water repellency changes with depth and relationship to physical properties within wettable and repellent soil profiles
publisher Sciendo
series Journal of Hydrology and Hydromechanics
issn 0042-790X
publishDate 2017-03-01
description This study explored the effect of soil water repellency (SWR) on soil hydrophysical properties with depth. Soils were sampled from two distinctly wettable and water repellent soil profiles at depth increments from 0-60 cm. The soils were selected because they appeared to either wet readily (wettable) or remain dry (water repellent) under field conditions. Basic soil properties (MWD, SOM, θv) were compared to hydrophysical properties (Ks, Sw, Se, Sww, Swh, WDPT, RIc, RIm and WRCT) that characterise or are affected by water repellency. Our results showed both soil and depth affected basic and hydrophysical properties of the soils (p <0.001). Soil organic matter (SOM) was the major property responsible for water repellency at the selected depths (0-60). Water repellency changes affected moisture distribution and resulted in the upper layer (0-40 cm) of the repellent soil to be considerably drier compared to the wettable soil. The water repellent soil also had greater MWDdry and Ks over the entire 0-60 cm depth compared to the wettable soil. Various measures of sorptivity, Sw, Se, Sww, Swh, were greater through the wettable than water repellent soil profile, which was also reflected in field and dry WDPT measurements. However, the wettable soil had subcritical water repellency, so the range of data was used to compare indices of water repellency. WRCT and RIm had less variation compared to WDPT and RIc. Estimating water repellency using WRCT and RIm indicated that these indices can detect the degree of SWR and are able to better classify SWR degree of the subcritical-repellent soil from the wettable soil.
topic soil property
soil organic matter
aggregate
bulk density
mean weight diameter
infiltration
water repellency
url https://doi.org/10.1515/johh-2016-0055
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AT hajabbasimohammadali soilwaterrepellencychangeswithdepthandrelationshiptophysicalpropertieswithinwettableandrepellentsoilprofiles
AT afyunimajid soilwaterrepellencychangeswithdepthandrelationshiptophysicalpropertieswithinwettableandrepellentsoilprofiles
AT lichnerlubomir soilwaterrepellencychangeswithdepthandrelationshiptophysicalpropertieswithinwettableandrepellentsoilprofiles
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