Effects of Different Tillage Practices on Slope Erosion Characteristics of Peanut Field

Under three rainfall intensities (60–90–120 mm/h) and four tillage practices (longitudinal ridge tillage, cross ridge tillage, flat tillage and hole sowing), field experiments was conducted during the podding stage of peanuts to investigate the changes in hydrodynamic parameters and the erosion resp...

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Published inAgronomy (Basel) Vol. 13; no. 10; p. 2612
Main Authors Liang, Xinlan, Song, Ke, Zhang, Youheng, Huang, Hongliang, Wang, Yong, Cao, Ying
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2023
Subjects
Agricultural land
Agricultural production
agronomy
Analysis
Average flow
China
Correlation
cropland
Environmental protection
Experiments
Farms
Field tests
Flow velocity
Fluid dynamics
Fluid flow
Froude number
Hydraulics
hydrodynamic parameters
hydrodynamics
Laminar flow
Peanuts
Precipitation
purple soil
Rain
Rain and rainfall
rain intensity
Rainfall
Rainfall intensity
Research methodology
Reynolds number
ridge tillage
Runoff
runoff characteristics and sediment yield
Sediment yield
Sediments
Shear stress
Sichuan Basin
soil
Soil conservation
Soil erosion
Soil water storage
Tillage
Water conservation
water erosion
Water storage
China
Sichuan Basin
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Abstract Under three rainfall intensities (60–90–120 mm/h) and four tillage practices (longitudinal ridge tillage, cross ridge tillage, flat tillage and hole sowing), field experiments was conducted during the podding stage of peanuts to investigate the changes in hydrodynamic parameters and the erosion response on purple soil slope cropland in order to reveal the soil and water conservation benefits of different tillage practices. The results showed that: (1) The sediment yield of the four tillage practices was ranked in descending order: longitudinal ridge tillage, flat tillage, hole sowing, and cross ridge tillage. Under the same rainfall intensity, there were no significant differences in runoff among these four tillage practices (p > 0.05), whereas sediment yield varied significantly. (2) The average flow velocity, Reynolds number, and Froude number of each treatment were positively correlated with rainfall intensity, while the resistance coefficient was negatively correlated. Flat tillage and cross ridge tillage were intermediate. The Reynolds number and Froude number of each treatment did not exceed the critical value and were generally within the laminar flow range, except for the longitudinal ridge tillage treatment at 120 mm/h rainfall intensity. (3) The sediment yield intensity on the slope was negatively correlated with the resistance coefficient, following a power function. The runoff shear stress and runoff power on each treatment were both positively correlated with sediment yield intensity in a linear manner. Compared to longitudinal ridge tillage, the other three tillage practices showed much better soil and water conservation benefits. Among them, cross ridge tillage exhibited the best water storage and soil conservation effects. In terms of hydraulics, longitudinal ridge tillage and flat tillage increased the erosive force required for sediment initiation and suppressed erosion occurrence. The research results were of great significance in revealing the characteristics of runoff erosion in purple soil areas and controlling tillage practices for soil erosion in purple soil areas.
AbstractList Under three rainfall intensities (60–90–120 mm/h) and four tillage practices (longitudinal ridge tillage, cross ridge tillage, flat tillage and hole sowing), field experiments was conducted during the podding stage of peanuts to investigate the changes in hydrodynamic parameters and the erosion response on purple soil slope cropland in order to reveal the soil and water conservation benefits of different tillage practices. The results showed that: (1) The sediment yield of the four tillage practices was ranked in descending order: longitudinal ridge tillage, flat tillage, hole sowing, and cross ridge tillage. Under the same rainfall intensity, there were no significant differences in runoff among these four tillage practices (p > 0.05), whereas sediment yield varied significantly. (2) The average flow velocity, Reynolds number, and Froude number of each treatment were positively correlated with rainfall intensity, while the resistance coefficient was negatively correlated. Flat tillage and cross ridge tillage were intermediate. The Reynolds number and Froude number of each treatment did not exceed the critical value and were generally within the laminar flow range, except for the longitudinal ridge tillage treatment at 120 mm/h rainfall intensity. (3) The sediment yield intensity on the slope was negatively correlated with the resistance coefficient, following a power function. The runoff shear stress and runoff power on each treatment were both positively correlated with sediment yield intensity in a linear manner. Compared to longitudinal ridge tillage, the other three tillage practices showed much better soil and water conservation benefits. Among them, cross ridge tillage exhibited the best water storage and soil conservation effects. In terms of hydraulics, longitudinal ridge tillage and flat tillage increased the erosive force required for sediment initiation and suppressed erosion occurrence. The research results were of great significance in revealing the characteristics of runoff erosion in purple soil areas and controlling tillage practices for soil erosion in purple soil areas.
Audience Academic
Author Song, Ke
Huang, Hongliang
Zhang, Youheng
Wang, Yong
Cao, Ying
Liang, Xinlan
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CitedBy_id crossref_primary_10_21657_soilst_1601786
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Cites_doi 10.1007/s11629-017-4714-3
10.1016/j.still.2018.11.012
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SubjectTerms Agricultural land
Agricultural production
agronomy
Analysis
Average flow
China
Correlation
cropland
Environmental protection
Experiments
Farms
Field tests
Flow velocity
Fluid dynamics
Fluid flow
Froude number
Hydraulics
hydrodynamic parameters
hydrodynamics
Laminar flow
Peanuts
Precipitation
purple soil
Rain
Rain and rainfall
rain intensity
Rainfall
Rainfall intensity
Research methodology
Reynolds number
ridge tillage
Runoff
runoff characteristics and sediment yield
Sediment yield
Sediments
Shear stress
Sichuan Basin
soil
Soil conservation
Soil erosion
Soil water storage
Tillage
Water conservation
water erosion
Water storage
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Title Effects of Different Tillage Practices on Slope Erosion Characteristics of Peanut Field
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