Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China

Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China

Purple soil is widely distributed in the hilly areas of the Sichuan basin, southwest China, and is highly susceptible to water erosion. The triggering of this process is related to slope, rainfall intensity and surface cover. Therefore, this study assesses the effects of different simulated rainfall...

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Main Authors: Muhammad Naeem Khan, Yuanbo Gong, Tingxing Hu, Rattan Lal, Jiangkun Zheng, Meta Francis Justine, Muhammad Azhar, Mingxuan Che, Haitao Zhang
Format: Article
Language:English
Published: MDPI AG 2016-11-01
Series:Water
Subjects:
slope
rainfall intensity
water erosion
infiltration rate
recharge coefficient
simulated rainfall
Online Access:http://www.mdpi.com/2073-4441/8/11/528
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spelling doaj-143a7a6c449d462488f42d566a99dcef2020-11-24T22:02:18ZengMDPI AGWater2073-44412016-11-0181152810.3390/w8110528w8110528Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, ChinaMuhammad Naeem Khan0Yuanbo Gong1Tingxing Hu2Rattan Lal3Jiangkun Zheng4Meta Francis Justine5Muhammad Azhar6Mingxuan Che7Haitao Zhang8College of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaCollege of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaCollege of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaSchool of Environment and Natural Resources and Carbon Management and Sequestration Centre, The Ohio State University, 2021 Coffey Road, Columbus, OH 43210, USACollege of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaInstitute of Ecology and Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaSchool of Environment and Natural Resources and Carbon Management and Sequestration Centre, The Ohio State University, 2021 Coffey Road, Columbus, OH 43210, USACollege of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaCollege of Forestry, Sichuan Agricultural University, Huimin Road 211, Chengdu 611130, ChinaPurple soil is widely distributed in the hilly areas of the Sichuan basin, southwest China, and is highly susceptible to water erosion. The triggering of this process is related to slope, rainfall intensity and surface cover. Therefore, this study assesses the effects of different simulated rainfall intensities with different slopes on hydrological and erosional processes in un-mulched and mulched purple soils. Results show that the sediment and water losses increased with an increase of rainfall intensity and slope steepness. Generally, the slope contribution (Sc) on water and sediment losses decreased with increasing rainfall intensity and slope steepness under both un-mulched and mulched soil. In un-mulched conditions, water losses were independent of slope steepness (Sc < 50%) during the highest rainfall intensity. However, in mulched soil, the higher contributions of slope (Sc) and rainfall (Rc) were found for water and sediment losses, respectively, i.e., >50%, except during the increase in slope steepness from 15° to 25° under the highest rainfall intensity (120 mm·h−1). The effectiveness of mulch was more pronounced in reducing sediment losses (81%–100%) compared with water losses (14%–100%). The conservation effectiveness of mulch both decreased and increased with slope steepness for water and sediment losses, respectively, under higher rainfall intensities. Water infiltration and recharge coefficient (RC) decreased with an increase of slope steepness, while with an increase in rainfall intensity, the water infiltration and RC were increased and decreased, respectively, in both un-mulched and mulched soil. On the other hand, mulched soil maintained a significantly (α = 0.05) higher infiltration capacity and RC compared to that of the un-mulched soil.http://www.mdpi.com/2073-4441/8/11/528sloperainfall intensitywater erosioninfiltration raterecharge coefficientsimulated rainfall
collection DOAJ
language English
format Article
sources DOAJ
author Muhammad Naeem Khan
Yuanbo Gong
Tingxing Hu
Rattan Lal
Jiangkun Zheng
Meta Francis Justine
Muhammad Azhar
Mingxuan Che
Haitao Zhang
spellingShingle Muhammad Naeem Khan
Yuanbo Gong
Tingxing Hu
Rattan Lal
Jiangkun Zheng
Meta Francis Justine
Muhammad Azhar
Mingxuan Che
Haitao Zhang
Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
Water
slope
rainfall intensity
water erosion
infiltration rate
recharge coefficient
simulated rainfall
author_facet Muhammad Naeem Khan
Yuanbo Gong
Tingxing Hu
Rattan Lal
Jiangkun Zheng
Meta Francis Justine
Muhammad Azhar
Mingxuan Che
Haitao Zhang
author_sort Muhammad Naeem Khan
title Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
title_short Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
title_full Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
title_fullStr Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
title_full_unstemmed Effect of Slope, Rainfall Intensity and Mulch on Erosion and Infiltration under Simulated Rain on Purple Soil of South-Western Sichuan Province, China
title_sort effect of slope, rainfall intensity and mulch on erosion and infiltration under simulated rain on purple soil of south-western sichuan province, china
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2016-11-01
description Purple soil is widely distributed in the hilly areas of the Sichuan basin, southwest China, and is highly susceptible to water erosion. The triggering of this process is related to slope, rainfall intensity and surface cover. Therefore, this study assesses the effects of different simulated rainfall intensities with different slopes on hydrological and erosional processes in un-mulched and mulched purple soils. Results show that the sediment and water losses increased with an increase of rainfall intensity and slope steepness. Generally, the slope contribution (Sc) on water and sediment losses decreased with increasing rainfall intensity and slope steepness under both un-mulched and mulched soil. In un-mulched conditions, water losses were independent of slope steepness (Sc < 50%) during the highest rainfall intensity. However, in mulched soil, the higher contributions of slope (Sc) and rainfall (Rc) were found for water and sediment losses, respectively, i.e., >50%, except during the increase in slope steepness from 15° to 25° under the highest rainfall intensity (120 mm·h−1). The effectiveness of mulch was more pronounced in reducing sediment losses (81%–100%) compared with water losses (14%–100%). The conservation effectiveness of mulch both decreased and increased with slope steepness for water and sediment losses, respectively, under higher rainfall intensities. Water infiltration and recharge coefficient (RC) decreased with an increase of slope steepness, while with an increase in rainfall intensity, the water infiltration and RC were increased and decreased, respectively, in both un-mulched and mulched soil. On the other hand, mulched soil maintained a significantly (α = 0.05) higher infiltration capacity and RC compared to that of the un-mulched soil.
topic slope
rainfall intensity
water erosion
infiltration rate
recharge coefficient
simulated rainfall
url http://www.mdpi.com/2073-4441/8/11/528
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