GC24A-06
Climate change and livestock system in mountain: Understanding from Gandaki River basin of Nepal Himalaya.

Tuesday, 15 December 2015: 17:25
3003 (Moscone West)
Piyush Dahal1, Nicky Shree Shrestha2, Nir Krakauer3, Tarendra Lakhankar4, Jeeban Panthi Sr1, Soni Pradhanang5, Ajay K Jha6, Madan Shrestha7 and Mohan Sharma8, (1)The Small Earth Nepal, Kathmandu, Nepal, (2)Kathmandu University, Dhulikhel, Nepal, (3)City College, CUNY, New York, NY, United States, (4)NOAA-CREST/City College, CUNY, New York, NY, United States, (5)University of Rhode Island, Department of Geosciences, Woodward Hall, RI, United States, (6)Colorado State University, Department of Horticulture and Landscape Architecture, Fort Collins, CO, United States, (7)Nepal Academy of Science and Technology, Kathmandu, Nepal, (8)Agriculture and Forestry University, Directorate of Continuing Education Center, Rampur, Nepal
Abstract:
In recent years climate change has emerged as a source of vulnerability for agro-livestock smallholders in Nepal where people are mostly dependent on rain-fed agriculture and livestock farming for their livelihoods. There is a need to understand and predict the potential impacts of climate change on agro-livestock farmer to develop effective mitigation and adaptation strategies. To understand dynamics of this vulnerability, we assess the farmers’ perceptions of climate change, analysis of historical and future projections of climatic parameters and try to understand impact of climate change on livestock system in Gandaki River Basin of Central Nepal.

During the period of 1981-2012, as reported by the mountain communities, the most serious hazards for livestock system and agriculture are the increasing trend of temperature, erratic rainfall patterns and increase in drought. Poor households without irrigated land are facing greater risks and stresses than well-off people. Analysis of historical climate data also supports the farmer perception. Result shows that there is increasing trend of temperature but no consistent trend in precipitation but a notable finding is that wet areas are getting wetter and dry areas getting drier. Besides that, there is increase in percentage of warm days and nights with decrease in the cool nights and days. The magnitude of the trend is found to be higher in high altitude. Trend of wet days has found to be increasing with decreasing in rainy days. Most areas are characterized by increases in both severity and frequency of drought and are more evident in recent years. The summers of 2004/05/06/09 and winters of 2006/08/09 were the worst widespread droughts and have a serious impact on livestock since 1981. Future projected change in temperature and precipitation obtained from downscaling the data global model by regional climate model shows that precipitation in central Nepal will change by -8% to 12% and temperature will change by 1.9 0C to 3 0C in 2031-2060 compared to the baseline period 1970-2000. Since there will be an increase in temperature and most of the area will experience decreasing rainfall we can predict that there will be increasing vulnerability on livestock system in central Nepal in future which is already facing a serious impact.

<< Previous Abstract | Next Abstract >>