Abstract
Ethiopia has decades of experience in implementing land and water management interventions. The overarching objectives of this review were to synthesize evidences on the impact of implementation of land and water management practices on agricultural landscapes in Ethiopia and to evaluate the use of adaptive management (AM) approaches as a tool to manage uncertainties. We explored how elements of the structures and functions of landscapes have been transformed, and how the components of AM, such as structured decision-making and learning processes, have been applied. Despite numerous environmental and economic benefits of land and water management interventions in Ethiopia, this review revealed gaps in AM approaches. These include: (i) inadequate evidence-based contextualization of interventions, (ii) lack of monitoring of bio-physical and socioeconomic processes and changes post implementation, (iii) lack of trade-off analyses, and (iv) inadequacy of local community engagement and provision of feedback. Given the many uncertainties we must deal with, future investment in AM approaches tailored to the needs and context would help to achieve the goals of sustainable agricultural landscape transformation. The success depends, among other things, on the ability to learn from the knowledge generated and apply the learning as implementation evolves
Highlights
Geological weathering and erosion are constructive natural processes that maintain the functioning of agricultural landscapes and ecosystem services [1,2,3]
We argue that the principles of adaptive management (AM) can be applied to the concept of landscape transformation because of agricultural landscape intensification
Changes in land-use and land-cover (LULC) globally are driven by multiple factors including population increase, poverty, economic activities, and other socioeconomic factors [30]
Summary
Geological weathering and erosion are constructive natural processes that maintain the functioning of agricultural landscapes and ecosystem services [1,2,3]. Anthropogenic drivers often accelerate some of these natural processes and can negatively affect the structure and functions of agricultural landscapes and ecosystem services [1,3,4]. A recent study by Nkonya et al [5] demonstrated that about 30% of the global land area, home to about three billion people, suffers from land degradation. This is translated to an annual cost of about USD $300 billion. Gebreselassie et al [12] estimated the net cost of land degradation in Ethiopia due to land use and land cover changes to be about USD $4.3 billion annually and this value is 44 times higher than the 1994 estimate
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