Soil Erosion across Scales: Assessing Its Sources of Variation in Sahelian Landscapes under Semi-Arid Climate

Lawani Adjadi Mounirou; Roland Yonaba; Fowé Tazen; Gebiaw T. Ayele; Zaher Mundher Yaseen; Harouna Karambiri; Hamma Yacouba

doi:10.3390/land11122302

Soil Erosion across Scales: Assessing Its Sources of Variation in Sahelian Landscapes under Semi-Arid Climate

Lawani Adjadi Mounirou
, Roland Yonaba
, Fowé Tazen
, Gebiaw T. Ayele^*
, Zaher Mundher Yaseen
, Harouna Karambiri
, Hamma Yacouba

^*Corresponding author for this work

Department of Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Soil erosion varies in space and time. As the contributing surface area increases, heterogeneity effects are amplified, inducing scale effects. In the present study, soil erosion processes as affected by the observation scale and the soil surface conditions are assessed. An experimental field scale setup of 18 plots (1–150 m²) with different soil surface conditions (bare and degraded, cultivated) and slopes (0.75–4.2%) are used to monitor soil losses between 2010 to 2018 under natural rainfall. The results showed that soil loss rates range between 2.5 and 19.5 t.ha⁻¹ under cultivated plots and increase to 12–45 t.ha⁻¹ on bare and degraded soils, which outlines the control of soil surface conditions on soil erosion. At a larger scale (38 km²), soil losses are estimated at 2.2–4.5 t.ha⁻¹, highlighting the major contribution of scale. The scale effect is likely caused by the redistribution of sediments in the drainage network. These findings outline the nature and contribution of the emerging and dominant soil erosion processes at larger scales. At the plot scale, however, diffuse erosion remains dominant, since surface runoff is laminar and sediment transport capacity is limited, resulting in lower soil erosion rates.

Original language	English
Article number	2302
Journal	Land
Volume	11
Issue number	12
DOIs	https://doi.org/10.3390/land11122302
State	Published - Dec 2022

Bibliographical note

Publisher Copyright:
© 2022 by the authors.

Keywords

Sahel
scale effect
soil erosion
soil surface conditions
surface runoff

ASJC Scopus subject areas

Global and Planetary Change
Ecology
Nature and Landscape Conservation

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10.3390/land11122302

Cite this

@article{43d51b2af06f4ca794e653bc0b487212,

title = "Soil Erosion across Scales: Assessing Its Sources of Variation in Sahelian Landscapes under Semi-Arid Climate",

abstract = "Soil erosion varies in space and time. As the contributing surface area increases, heterogeneity effects are amplified, inducing scale effects. In the present study, soil erosion processes as affected by the observation scale and the soil surface conditions are assessed. An experimental field scale setup of 18 plots (1–150 m2) with different soil surface conditions (bare and degraded, cultivated) and slopes (0.75–4.2\%) are used to monitor soil losses between 2010 to 2018 under natural rainfall. The results showed that soil loss rates range between 2.5 and 19.5 t.ha−1 under cultivated plots and increase to 12–45 t.ha−1 on bare and degraded soils, which outlines the control of soil surface conditions on soil erosion. At a larger scale (38 km2), soil losses are estimated at 2.2–4.5 t.ha−1, highlighting the major contribution of scale. The scale effect is likely caused by the redistribution of sediments in the drainage network. These findings outline the nature and contribution of the emerging and dominant soil erosion processes at larger scales. At the plot scale, however, diffuse erosion remains dominant, since surface runoff is laminar and sediment transport capacity is limited, resulting in lower soil erosion rates.",

keywords = "Sahel, scale effect, soil erosion, soil surface conditions, surface runoff",

author = "Mounirou, \{Lawani Adjadi\} and Roland Yonaba and Fow{\'e} Tazen and Ayele, \{Gebiaw T.\} and Yaseen, \{Zaher Mundher\} and Harouna Karambiri and Hamma Yacouba",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = dec,

doi = "10.3390/land11122302",

language = "English",

volume = "11",

journal = "Land",

issn = "2073-445X",

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TY - JOUR

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T2 - Assessing Its Sources of Variation in Sahelian Landscapes under Semi-Arid Climate

AU - Mounirou, Lawani Adjadi

AU - Yonaba, Roland

AU - Tazen, Fowé

AU - Ayele, Gebiaw T.

AU - Yaseen, Zaher Mundher

AU - Karambiri, Harouna

AU - Yacouba, Hamma

PY - 2022/12

Y1 - 2022/12

N2 - Soil erosion varies in space and time. As the contributing surface area increases, heterogeneity effects are amplified, inducing scale effects. In the present study, soil erosion processes as affected by the observation scale and the soil surface conditions are assessed. An experimental field scale setup of 18 plots (1–150 m2) with different soil surface conditions (bare and degraded, cultivated) and slopes (0.75–4.2%) are used to monitor soil losses between 2010 to 2018 under natural rainfall. The results showed that soil loss rates range between 2.5 and 19.5 t.ha−1 under cultivated plots and increase to 12–45 t.ha−1 on bare and degraded soils, which outlines the control of soil surface conditions on soil erosion. At a larger scale (38 km2), soil losses are estimated at 2.2–4.5 t.ha−1, highlighting the major contribution of scale. The scale effect is likely caused by the redistribution of sediments in the drainage network. These findings outline the nature and contribution of the emerging and dominant soil erosion processes at larger scales. At the plot scale, however, diffuse erosion remains dominant, since surface runoff is laminar and sediment transport capacity is limited, resulting in lower soil erosion rates.

AB - Soil erosion varies in space and time. As the contributing surface area increases, heterogeneity effects are amplified, inducing scale effects. In the present study, soil erosion processes as affected by the observation scale and the soil surface conditions are assessed. An experimental field scale setup of 18 plots (1–150 m2) with different soil surface conditions (bare and degraded, cultivated) and slopes (0.75–4.2%) are used to monitor soil losses between 2010 to 2018 under natural rainfall. The results showed that soil loss rates range between 2.5 and 19.5 t.ha−1 under cultivated plots and increase to 12–45 t.ha−1 on bare and degraded soils, which outlines the control of soil surface conditions on soil erosion. At a larger scale (38 km2), soil losses are estimated at 2.2–4.5 t.ha−1, highlighting the major contribution of scale. The scale effect is likely caused by the redistribution of sediments in the drainage network. These findings outline the nature and contribution of the emerging and dominant soil erosion processes at larger scales. At the plot scale, however, diffuse erosion remains dominant, since surface runoff is laminar and sediment transport capacity is limited, resulting in lower soil erosion rates.

KW - Sahel

KW - scale effect

KW - soil erosion

KW - soil surface conditions

KW - surface runoff

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U2 - 10.3390/land11122302

DO - 10.3390/land11122302

M3 - Article

AN - SCOPUS:85144907529

SN - 2073-445X

VL - 11

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M1 - 2302

ER -

Soil Erosion across Scales: Assessing Its Sources of Variation in Sahelian Landscapes under Semi-Arid Climate

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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