Sander Tielens scite author profile

Knowledge of the geographical distribution of soils is indispensable for policy and decision makers to achieve the goal of increasing agricultural production and reduce poverty, particularly in the Global South. A study was conducted to better understand the soilscapes of the Giba catchment (900–3300 m a.s.l.; 5133 km2) in northern Ethiopia, so as to sustain soil use and management. To characterise the chemical and physical properties of the different benchmark soils and to classify them in line with the World Reference Base of Soil Resources, 141 soil profile pits and 1381 soil augerings at representative sites were analysed. The dominant soil units identified are Leptosol and bare rock (19% coverage), Vertic Cambisol (14%), Regosol and Cambisol (10%), Skeletic/Leptic Cambisol and Regosol (9%), Rendzic Leptosol (7%), Calcaric/Calcic Vertisol (6%), Chromic Luvisol (6%) and Chromic/Pellic Vertisol (5%). Together these eight soil units cover almost 75% of the catchment. Topography and parent material are the major influencing factors that explain the soil distribution. Besides these two factors, land cover that is strongly impacted by human activities, may not be overlooked. Our soil suitability study shows that currently, after thousands of years of agricultural land use, a new dynamic equilibrium has come into existence in the soilscape, in which ca. 40% of the catchment is very suitable, and 25% is moderately suitable for agricultural production. In view of such large suitable areas, the Giba catchment has a good agricultural potential if soil erosion rates can be controlled, soil fertility (particularly nitrogen) increased, available water optimally used, and henceforth crop yields increased.

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Understanding Soil Spatial Patterns for Sustainable Development

Deckers

Tielens

Geyndt

et al. 2019

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Amorphous Silica Preservation in an Anthropogenic Soil: An Explorative Study of “Plaggen” Soils

Clymans

Verbeeck

Tielens

et al. 2013

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Historical land degradation strongly influences soil geography – a case in Ethiopia’s mountains

Nyssen¹,

Tielens

Teka

et al. 2020

Preprint

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<p>Understanding the geographical distribution of soils is indispensable for policy and decision makers to achieve the goal of increasing agricultural production and reduce poverty, particularly in the Global South. The soilscapes of the Giba catchment (900-3300 m a.s.l.; 5133 km&#178;) in northern Ethiopia were studied, in support of sustainable soil use and land management. Based on their morphologic, physical and chemical properties, 141 soil profile pits and 1381 additional augered profiles were classified according to the World Reference Base for soil resources. The dominant soil units are Leptosols (19% coverage), Vertic Cambisols (14%), Regosols and Cambisols (10%), Skeletic and Leptic Cambisols and Regosols (9%), Rendzic Leptosols (7%), Calcaric and Calcic Vertisols (6%), Chromic Luvisols (6%) and Chromic and Pellic Vertisols (5%). The soilscapes are best explained by the topography and parent material that are the major factors determining the geomorphic processes in the area. Besides these two factors, land cover that is strongly impacted by human activities, may not be overlooked. Except for the Vertisols and patchy Phaeozems that are stable since the Mid-Holocene, all other soil units in the study area are the result of profile truncation on the one hand, and colluviation more downslope on the other hand. In addition, due to three millennia of soil tillage, lynchets have been formed at many places along the slope, and rock fragments concentrated on the surface, leading to armouring that locally prevents deeper erosion. Our soil suitability study shows that currently, after thousands of years of agricultural land use and concomitant land degradation, a new dynamic equilibrium has come into existence in the soilscape, in which ca. 65% of the catchment remains suitable &#160;for agricultural production.</p>

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Sander Tielens

Understanding spatial patterns of soils for sustainable agriculture in northern Ethiopia’s tropical mountains

Understanding Soil Spatial Patterns for Sustainable Development

Amorphous Silica Preservation in an Anthropogenic Soil: An Explorative Study of “Plaggen” Soils

Historical land degradation strongly influences soil geography – a case in Ethiopia’s mountains

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Sander Tielens

Understanding spatial patterns of soils for sustainable agriculture in northern Ethiopia’s tropical mountains

Understanding Soil Spatial Patterns for Sustainable Development

Amorphous Silica Preservation in an Anthropogenic Soil: An Explorative Study of “Plaggen” Soils

Historical land degradation strongly influences soil geography &#8211; a case in Ethiopia&#8217;s mountains

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Resources

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Historical land degradation strongly influences soil geography – a case in Ethiopia’s mountains