Analysis of Crop Production Constraints Through Participatory Rural Appraisal in Harari Region, Eastern Ethiopia; Implications for Research and Development

Participatory rural appraisals (PRA) were conducted in July 14 to 30, 2016 in AGP-II project target districts: Erar waldiya and Dire Teyara in Harari region of Ethiopia. PRA exercises were conducted using various PRA tools which included review of secondary data, focus group discussions, field observations (Transact walk) and pair-wise ranking. The tools were used to identify the biophysical and socio-economic constraints, opportunities and developments within the kebeles. Agricultural and animal productions are common in the surveyed Kebeles of the AGP-II target districts. Mixed farming is widely practiced in the kebeles of both districts. Staple food crops like maize and sorghum, and cash crops like vegetables and khat (Catha edulis Forsk) are commonly produced across all targets of AGP-II districts and also as region as well. Growing maize and sorghum in khat alleys is another cropping system practiced in both districts. The PRA work has also identified various categories of constraints to increasing crop production in the areas. The major bottlenecks include lack of improved crop varieties, low soil fertility, deforestation, moisture stress, disease and insect pests, and lack of awareness on soil fertility crop management. In most of the PRA Kebeles, it was found that continuous cropping, complete removal of crop residues from farm lands, soil erosion, deforestation, absence of fallowing, and inadequate soil fertility management practices are the major causes for low soil fertility and crop yields. In most cases, farmers apply Di-ammonium phosphate (DAP), urea and farmyard manure to improve soil fertility and crop yield. However, very few farmers use integrated application of chemical fertilizers and farmyard manure for crop production. In addition, no scientifically formulated and recommended fertilizer rates are available for the specific soils and environments. Thus, due to the lack of scientifically recommended rates of fertilizers and high costs of mineral fertilizers, farmers often use smaller rates of mineral N and P fertilizers based on haphazard estimations.