Effects of tillage practices on runoff and soil losses in response to different crop growth stages in the red soil region of southern China

Purpose Tillage practices and crop growth play important roles in the soil erosion of sloping farmland. This study aims to investigate the effects of tillage practices on soil erosion in response to different crop growth stages and to determine the primary factors that affected the runoff reduction...

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Published inJournal of soils and sediments Vol. 24; no. 5; pp. 2199 - 2212
Main Authors Liu, Zhao, Deng, Kenan, Zheng, Haijin, Zhu, Yan, Shi, Zhihua
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.05.2024
Springer Nature B.V
Subjects
Agricultural land
Agricultural practices
Alley cropping
Crop growth
Crops
Depth
Earth and Environmental Science
Environment
Environmental Physics
Growth curves
Growth stage
Intercropping
Legumes
Mercury
Moisture content
Nuts
Peanuts
Planting
Precipitation
Rainfall
Ridges
Roots
Runoff
Sec 3 • Sediment Management at the River Basic Scale • Research Article
Sediment
Sediment yield
Sediments
Seedlings
Soil erosion
Soil moisture
Soil Science & Conservation
Surface runoff
Tillage
Water erosion
Soil erosion
Tillage practices
Crop growth
Sloping farmland
Red soil region
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Summary:Purpose Tillage practices and crop growth play important roles in the soil erosion of sloping farmland. This study aims to investigate the effects of tillage practices on soil erosion in response to different crop growth stages and to determine the primary factors that affected the runoff reduction benefit of tillage practices among different growth stages. Methods A field study was carried out under natural rainfall conditions, and 12 runoff plots (20 m × 5 m) were established, including four treatments, i.e., flat planting (FP), flat planting with hedgerow intercropping (HG), longitudinal ridge (LR) and bare land (CK). Runoff and soil losses after each rainfall event were monitored during the peanut seasons of 2021 and 2022 and the effects of tillage practices and peanut growth stages on runoff and sediment yields were evaluated. Results The total surface runoff depth and sediment yield decreased in the following order: CK > LR > FP > HG. As peanuts grew, the seedling, needling, podding, and full fruit stages contributed approximately 71.5%, 20.4%, 6.4%, and 1.7% of the total runoff depth, respectively, which could be attributed to the synergistic impact of rainfall, crop growth, and antecedent soil moisture. During the seedling stage of peanuts, which did not provide sufficient surface cover, concentrated rainfall in large amounts resulted in high soil moisture and consequently high runoff losses. As peanuts grew, the S-shaped growth curve for peanut aboveground parts and root systems and reduced rainfall depth and frequency resulted in less runoff loss and increased runoff reduction benefits of tillage practices. Conclusions The early growth stage of peanuts, generally accompanied by high antecedent soil moisture and heavy rainfall, should attract more attention to improving water erosion conditions on sloping farmland with only longitudinal ridges.
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-024-03790-1