Contour furrowing reduces erosion and enhances soil moisture on semiarid hillslopes

Water scarcity and soil erosion are global problems with socioeconomic consequences for small-scale farmers, especially in semiarid areas. Small-scale farmers scarcely consider techniques for reversing this situation due to uncertain outcomes and high costs. In this study, we hypothesized that conto...

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Published inGeoderma Regional Vol. 38; p. e00826
Main Authors Mondaca, Pedro, Lebuy, Roxana, Rojas, Sergio, Aguas, Javier, Celis-Diez, Juan L., Díaz-Siefer, Pablo
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2024
Subjects
Chile
Desertification
dry season
erosion control
field experimentation
Land conservation
rain
semiarid zones
shrubs
Soil conservation
Soil erosion
soil profiles
soil water
soil water content
topographic slope
vegetation
water shortages
Chile
Soil erosion
Desertification
erosion control
Soil conservation
Land conservation
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Abstract Water scarcity and soil erosion are global problems with socioeconomic consequences for small-scale farmers, especially in semiarid areas. Small-scale farmers scarcely consider techniques for reversing this situation due to uncertain outcomes and high costs. In this study, we hypothesized that contour furrowing, a simple and accessible technique, would effectively increase soil moisture and mitigate soil erosion. In addition, we hypothesized that vegetation is also a contributing factor. We performed a field experiment to evaluate the effect of four treatments on soil moisture (until 1 m depth) and soil loss: bare and unmanaged soils (CON); bare soils managed with contour furrowing (CF); soils with shrub cover (VEG); and CF + VEG. Each treatment was monitored on six hillslopes of agricultural communities in a semiarid area of central Chile for one year. We found that the minimal soil water content recorded in the soil profiles of the CF, VEG, and CF + VEG plots was significantly greater than in the CON plots (with increases of 16%, 22%, and 13%, respectively, compared to CON). The CF and VEG treatments conserved soil moisture during the dry season and demonstrated more effective soil–water recharge after the first rain. However, the combined CF + VEG treatment retained less water in the soil profile than the single treatments. On the other hand, all treated plots showed lower soil loss than the CON treatment (mean of 0.68 t ha−1 year−1). We concluded that contour furrowing effectively enhances soil and soil-water conservation on bare hillslopes. Moreover, it is a low-cost technique that engaged those farmers looking to enhance sustainability and productivity on their lands. [Display omitted] •Keylines, with a geomorphological approach, increased water availability and mitigated runoff.•The geomorphological technique in sites with vegetation can decrease soil moisture but mitigate soil erosion.•The geomorphological technique with vegetation can conserve soil moisture during the dry season.•Techniques were validated in the field and taught to farmers.
AbstractList Water scarcity and soil erosion are global problems with socioeconomic consequences for small-scale farmers, especially in semiarid areas. Small-scale farmers scarcely consider techniques for reversing this situation due to uncertain outcomes and high costs. In this study, we hypothesized that contour furrowing, a simple and accessible technique, would effectively increase soil moisture and mitigate soil erosion. In addition, we hypothesized that vegetation is also a contributing factor. We performed a field experiment to evaluate the effect of four treatments on soil moisture (until 1 m depth) and soil loss: bare and unmanaged soils (CON); bare soils managed with contour furrowing (CF); soils with shrub cover (VEG); and CF + VEG. Each treatment was monitored on six hillslopes of agricultural communities in a semiarid area of central Chile for one year. We found that the minimal soil water content recorded in the soil profiles of the CF, VEG, and CF + VEG plots was significantly greater than in the CON plots (with increases of 16%, 22%, and 13%, respectively, compared to CON). The CF and VEG treatments conserved soil moisture during the dry season and demonstrated more effective soil–water recharge after the first rain. However, the combined CF + VEG treatment retained less water in the soil profile than the single treatments. On the other hand, all treated plots showed lower soil loss than the CON treatment (mean of 0.68 t ha−1 year−1). We concluded that contour furrowing effectively enhances soil and soil-water conservation on bare hillslopes. Moreover, it is a low-cost technique that engaged those farmers looking to enhance sustainability and productivity on their lands. [Display omitted] •Keylines, with a geomorphological approach, increased water availability and mitigated runoff.•The geomorphological technique in sites with vegetation can decrease soil moisture but mitigate soil erosion.•The geomorphological technique with vegetation can conserve soil moisture during the dry season.•Techniques were validated in the field and taught to farmers.
Water scarcity and soil erosion are global problems with socioeconomic consequences for small-scale farmers, especially in semiarid areas. Small-scale farmers scarcely consider techniques for reversing this situation due to uncertain outcomes and high costs. In this study, we hypothesized that contour furrowing, a simple and accessible technique, would effectively increase soil moisture and mitigate soil erosion. In addition, we hypothesized that vegetation is also a contributing factor. We performed a field experiment to evaluate the effect of four treatments on soil moisture (until 1 m depth) and soil loss: bare and unmanaged soils (CON); bare soils managed with contour furrowing (CF); soils with shrub cover (VEG); and CF + VEG. Each treatment was monitored on six hillslopes of agricultural communities in a semiarid area of central Chile for one year. We found that the minimal soil water content recorded in the soil profiles of the CF, VEG, and CF + VEG plots was significantly greater than in the CON plots (with increases of 16%, 22%, and 13%, respectively, compared to CON). The CF and VEG treatments conserved soil moisture during the dry season and demonstrated more effective soil–water recharge after the first rain. However, the combined CF + VEG treatment retained less water in the soil profile than the single treatments. On the other hand, all treated plots showed lower soil loss than the CON treatment (mean of 0.68 t ha⁻¹ year⁻¹). We concluded that contour furrowing effectively enhances soil and soil-water conservation on bare hillslopes. Moreover, it is a low-cost technique that engaged those farmers looking to enhance sustainability and productivity on their lands.
ArticleNumber e00826
Author Mondaca, Pedro
Celis-Diez, Juan L.
Aguas, Javier
Díaz-Siefer, Pablo
Lebuy, Roxana
Rojas, Sergio
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  fullname: Mondaca, Pedro
  organization: Center of Biotechnology “Dr. Daniel Alkalay Lowitt”, Universidad Técnica Federico Santa María, Valparaíso, Chile
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  givenname: Roxana
  surname: Lebuy
  fullname: Lebuy, Roxana
  organization: Centro Regional de Investigación e Innovación Para la Sostenibilidad de la Agricultura y los Territorios Rurales, CERES, Quillota, Chile
– sequence: 3
  givenname: Sergio
  surname: Rojas
  fullname: Rojas, Sergio
  organization: Centro Regional de Investigación e Innovación Para la Sostenibilidad de la Agricultura y los Territorios Rurales, CERES, Quillota, Chile
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  givenname: Javier
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  givenname: Pablo
  surname: Díaz-Siefer
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  email: pablo.diaz@pucv.cl
  organization: Centro Regional de Investigación e Innovación Para la Sostenibilidad de la Agricultura y los Territorios Rurales, CERES, Quillota, Chile
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Snippet Water scarcity and soil erosion are global problems with socioeconomic consequences for small-scale farmers, especially in semiarid areas. Small-scale farmers...
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SubjectTerms Chile
Desertification
dry season
erosion control
field experimentation
Land conservation
rain
semiarid zones
shrubs
Soil conservation
Soil erosion
soil profiles
soil water
soil water content
topographic slope
vegetation
water shortages
Title Contour furrowing reduces erosion and enhances soil moisture on semiarid hillslopes
URI https://dx.doi.org/10.1016/j.geodrs.2024.e00826
https://www.proquest.com/docview/3154167942
Volume 38
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