Institute of Resource Assessment
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Item Farmers’ preferences and effectiveness of climate smart agricultural practices in Tehuledere district, Northeastern Ethiopia(University of Dar es Salaam, 2016) Wassie, Adera SisayThe objective of this study was to assess farmers’ preference and effectiveness of climate smart agricultural (CSA) practices. Both primary and secondary sources of data were collected and analyzed using both qualitative and quantitative methods. Conjoint experiment method was employed to identify most important attributes of CSA practices. The study has revealed that majority of participants are aware of climate change and variability. The indicators of climate change include drought, off-season rainfall, too little and/or too much rainfall, and high temperature. The impact of climate variability observed by participants include, decreasing crop yield and livestock production, increasing pest and disease, decreasing water quantity and quality. Changing crop varieties, integrating livestock and crop production, soil and water conservation practices were some of the adaptation measures in response to climate change. Findings from the conjoint experiment showed that high and moderate climate resilience, and high crop yield agricultural practices had a positive utility. Contrary, high greenhouse gas emission, low climate resilience and low crop yield had a negative utility. The study found that crop yield and resilience are the most important factors influencing farmers’ preferences of CSA practices. The main barriers limiting wide adoption and practicing of climate smart agriculture include inadequate law enforcement, lack of incentives, inadequate and unreliable extension and weather information. The study established that climate smart agricultural practices were viable and effective response measures, and hence it recommended increased support through adoption of innovative polices and strategies to address the barriers and widen the adoption scopeItem Socio-economic and environmental implication of valley bottoms farming as an adaptation strategy to climate change: A Case of Muflndi District in Iringa Region(University of Dar es Salaam,, 2012) Kassian, LucyThis study investigated socio-economic and environmental implication of valley bottoms farming as an adaptation strategy to climate change and variability in Iringa Region. The purpose of this study was to establish if valley bottom farming that utilizes residual soil moisture and accumulated soil fertility is an effective adaptation for small holder farmers in the region. Data were collected through documentary review, field observation, interview, focus group discussion and resource mapping through defined transects in two villages namely, Kimilinzowo and Kinegembasi. Satellite images of 1990 and 2010 for both villages were used in analyzing the historical landuse change for agriculture in both upland and valley bottoms. Findings show that there are changes in rainfall patterns in recent years as compared to the last 30 years in which case the two rainfall peaks within a season were identified. Temperature has also been increasing based on local communities reported by 82% and 87% of respondents in Kimilinzowo and Kinegembasi respectively. As an adaptation strategy to climate change in Kimilinzowo village, land-use change showed an increased valley bottoms farming which reduced previously wetland areas with few vinyungu by 09% (from 535ha to 146ha) since 1990 to 2010 in contrary to upland farming. This is due to the notable soil fertility loss, change of rainfall patterns such as disapperance of 1nyahengi rains which were used by farmers in upland fields for planting different crops that utilize low moisture. However, in Kinegembasi areas used for vinyungu farming which are seasonally indudated have increased in size by 02% from 1990 to 2010 due to the decrease of water in the streams causing those areas to be dry lands and no longer suitable for valley bottoms farming due to CC and V. The majority of the people are now extensively cultivating crops such as vegetables including tomatoes, onions, garlic onions, Chinese, carrots and green pepper in valley bottoms. Green maize is also cultivated in such areas during dry season making the system effective in CC impacts adaptation. Despite its effectiveness in CC adaptation to local communities, valley bottom farming practices needs to be well managed taking into account other water demands to support ecosystems rather than abolishing such a farming practice