An economic valuation of sustainable land management through agroforestry in eastern Sudan_Assessing the socio-economic and environmental dimensions of land degradation


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Elias Hodel, Vanja Westerberg, Moe Myint. (31/12/2015). An economic valuation of sustainable land management through agroforestry in eastern Sudan_Assessing the socio-economic and environmental dimensions of land degradation. Bonn, Germany: The ELD Initiative and the Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH.
Gedaref State was previously known as the food basket of Sudan. Over several decades unsustainable agricultural practices that combined near-monocropping with low nutrient replenishment have led to significant degradation of soils, which are no longer able to sustain farmer livelihoods. This study found that adopting an integrated sustainable land use and forest restoration scenario could reverse the current land degradation trend. The integration of Acacia senegal with sorghum, Sudan’s primary staple crop, was evaluated as a potential sustainable land management practice. A. senegal is a high quality gum arabic producing tree species, traditionally integrated into a crop and fallow system. It has soil nitrogen enhancing properties and international demand for its gum, make it a promising species to integrate in agricultural systems for both environmental and economic health. In parallel, consideration was also given to reforesting hills that have bare and exposed soil, with Luban gum trees such as Boswellia catering, Boswellia frererana, and Boswellia papyrifera. Currently these hills are not used for productive gains and have no competing land use, thus their reforestation would incur little to no opportunity costs. The valuation of both proposed integrated sustainable land management and forest restoration scenarios were undertaken using an ex-ante cost benefit analysis. An assessment of the ecosystem services and economic impact of restoration scenarios was carried out Executive summary using valuation techniques which included a productivity change approach, and replacement and avoided damage cost approaches. The analysis built on high-resolution remote sensing, GIS, and biophysical soil and water assessment tools, allowing for rigourous estimates of the impact of land use change on agricultural yields, groundwater infiltration, water runoff, and carbon sequestration. The results showed that the net present value returns to society as well as to the individual farmer of intercropping A. senegal trees with sorghum crops is significantly higher than that of continuing pure sorghum cultivation over a 25 year time horizon – the length of the productive life of A. senegal. At the farmer level, benefits of using an intercropping system outweigh the investment and management costs between three to four years after their establishment. However, favourable estimates of the financial returns from gum arabic offer no guarantee that the farmer will undertake gum production (Barbier 2000). This decision will depend on what returns can be obtained from other crops and the time profile of these returns, as argued in Barbier (1992). Thus, there are a number of fundamental policy initiatives necessary to encourage farmers to transition towards integrating A. senegal as part of a sustainable land management system, including security of tenure and access to credit, as well as maintenance of the actual producer price for gum arabic in the long term.