J.P. Lesschen scite author profile

Agricultural land abandonment is currently widely spread in Mediterranean countries and a further increase is expected. Previous research has shown that abandoned fields in semi-arid areas are more vulnerable to gully erosion. The absence of ploughing and slow vegetation recovery cause the formation of soil crusts with low infiltration rates, resulting in increased runoff and gully erosion risk. The objective of our study was to assess the extent and causes of erosion and terrace failure on abandoned fields and to discuss options for mitigation. The study was carried out in the Carcavo basin, a semi-arid catchment in southeast Spain. At catchment scale all abandoned fields were surveyed and characteristics of each field were described. Additionally we surveyed abandoned and cultivated terraces and used statistical analyses to determine the factors that induce terrace failure. At field scale we constructed a detailed digital elevation model (DEM) for an abandoned terrace field in order to calculate sediment losses since time of abandonment. The results revealed that more than half the abandoned fields had moderate to severe erosion and the statistical analysis showed that these fields had significantly steeper slopes, were terraced and had cereals as previous land use. Factors that increase the risk of terrace failure were land abandonment, steeper terrace slope, loam texture, valley-bottom position and shrubs on the terrace wall. The reconstructed erosion rate (87 ton ha − − − − −1 year − − − − −1 ) confirmed the importance of gully erosion on these abandoned terrace fields. Potential soil and water conservation practices to mitigate soil erosion after abandonment are: (1) maintenance of terrace walls, as a result more water is retained, which increases vegetation cover and consequently decreases erosion. (2) Revegetation with indigenous grass species on spots with concentrated flow, especially near terrace walls. ConclusionAbandonment of agricultural land is widespread and increasing in Mediterranean countries and can potentially lead to a considerable increase in erosion in semi-arid environments. Abandoned terrace fields are especially vulnerable because of gully erosion through the terrace walls. In the Carcavo basin more than half the abandoned fields have moderate to severe erosion and the calculated erosion rate is high. Land abandonment, steeper terrace slope, loam texture, valley bottom position, and shrubs on the terrace wall are factors that increase the risk of terrace failure. This and several other studies show that terracing, although intended as a conservation practice, actually enhances erosion, especially after abandonment. Construction of new terraces should therefore be carefully planned and be built according to sustainable design criteria and not in soils that are vulnerable to piping. To mitigate erosion on these abandoned fields the following soil and water conservation practices are possible: (1) maintenance of terrace walls in combination with increasing vegetation cover on the terrace,...

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Nutrient flows and balances at the field and farm scale: Exploring effects of land-use strategies and access to resources

Haileslassie¹,

Priess

Veldkamp

et al. 2007

Agricultural Systems

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Smallholders’ Soil Fertility Management in the Central Highlands of Ethiopia: Implications for Nutrient Stocks, Balances and Sustainability of Agroecosystems

Haileslassie

Priess

Veldkamp

et al. 2006

Nutr Cycl Agroecosyst

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Low agricultural productivity caused by soil degradation is a serious problem in the Ethiopian Highlands. Here, we report how differences in soil fertility management between farming systems, based either on enset (Ensete ventricosum) or on teff (Eragrostis tef) as the major crops, affect the extent of nutrient stocks, balances and ecosystem sustainability. We collected information on farmers' resources and nutrient management practices from stratified randomly selected households in two watersheds in the Central Highlands of Ethiopia. In addition, we collected soil samples from each land use and calculated nutrient stocks, partial and full nutrient balances (N, P and K) for one cropping season. Our results show that farmers in the two farming systems manage their soils differently and that nutrient inputs were positively related to farmers' wealth status. The watershed with the enset-based system had higher soil N and K stocks than the watershed with the teff-based system, while P stocks were not different. Management related N and K fluxes were more negative in the teff-based system ()28 kg N ha )1 yr )1 and )34 kg K ha )1 yr )1 ) than in the enset-based system ()6 kg N ha )1 yr )1 and )14 kg K ha )1 yr )1 ) while P fluxes were almost neutral or slightly positive. Within the enset-based system, a strong redistribution of N, P and K took place from the meadows and cereals (negative balance) to enset (positive balances). Although in the teff-based system, N, P and K were redistributed from meadows, small cereals and pulses to maize, the latter still showed a negative nutrient balance. In contrast to nutrient balances at land use level, nutrient balances at the watershed scale masked contrasting areas within the system where nutrient oversupply and deficiencies occurred.

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Halving nitrogen waste in the European Union food systems requires both dietary shifts and farm level actions

Leip

Caldeira

Corrado

et al. 2022

Global Food Security

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Mechanisms of Degradation and Identification of Connectivity and Erosion Hotspots

Hooke

Sandercock²,

Cammeraat

et al. 2017

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The context of processes and characteristics of soil erosion and land degradation in Mediterranean lands is outlined. The concept of connectivity is explained. The remainder of the chapter demonstrates development of methods of mapping, analysis and modelling of connectivity to produce a spatial framework for development of strategies of use of vegetation to reduce soil erosion and land degradation. The approach is applied in a range of typical land use types and at a hierarchy of scale from land unit to catchment. Patterns of connectivity and factors influencing the location and intensity of processes are identified, including the influence of topography, structures such as agricultural terraces and check dams, and past land uses. Functioning of connectivity pathways in various rainstorms is assessed. Modes of terrace construction and extent of maintenance, as well as presence of tracks and steep gradients are found to be of importance. A method of connectivity modelling that incorporates effects of structure and vegetation was developed and has been widely applied subsequently.

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J.P. Lesschen

Erosion and terrace failure due to agricultural land abandonment in a semi‐arid environment

Nutrient flows and balances at the field and farm scale: Exploring effects of land-use strategies and access to resources

Smallholders’ Soil Fertility Management in the Central Highlands of Ethiopia: Implications for Nutrient Stocks, Balances and Sustainability of Agroecosystems

Halving nitrogen waste in the European Union food systems requires both dietary shifts and farm level actions

Mechanisms of Degradation and Identification of Connectivity and Erosion Hotspots

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