1Environment and Social Studies Department, Nepal Electricity Authority, Kharipati, Bhaktapur, Nepal
2Kathmandu Centre for Research and Education Chinese Academy of Sciences-Tribhuvan University, Kirtipur, Kathmandu
3Central Department of Hydrology and Meteorology Tribhuvan University, Kirtipur, Kathmandu
Climate change is a real occurring phenomenon worldwide which has first order impacts on water resources because of its direct connectedness with the components of hydrological cycle. This study attempts to assess the extent of climate change impacts at catchment scale which lies at the southern slope of Himalayas i.e. Mt. Everest Region primarily through the vision and experiences of local people residing in that area for years and directly witnessing the changes. Impact assessment was performed through analysis of meteorological data and assessment of people’s perception on changes. People’s perception was studied through generalized questionnaire survey of 90 households and key informants interview. The study was carried out in May 2013. The results depicted rise in temperature in the study area in the recent years in comparison to the past years, with highest temperature increase in winter season. Precipitation showed increasing trend. Winter precipitation had the declining trend but total annual precipitation showed increasing trend. In contrast, total number of rainy days was decreasing. Most of the households in the catchment area were dependent upon spring sources of water, which was mostly affected by the consequences of climate change in terms of decrease in quantity of supply, early drying up as well as late emergence. Other perceived impacts were increased intensity of natural hazards (agreed by 83% of the respondents), decreased intensity, frequency and duration of snowfall (perceived by 87% in Salleri), decrease in flow of Solu Khola (perceived by 49% of the respondents) etc. Apart from all these, the impacts were non uniform in distribution. The VDCs lying in the downstream stretch of Solu Khola were much affected than those in the upstream section. The results from this research can be used to raise awareness on extent of climatic changes in the area as well as support for local decision making.
| [1] | IPCC, 2014: Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, R.K. Pachauri and L.A. Meyer (eds.)]. IPCC, Geneva, Switzerland, 151 pp. |
| [2] | Baidya, S.K., Shrestha, M.L., and Sheikh, M.M. (2008) Trends in daily climatic extremes of temperature and precipitation in Nepal. Journal of Hydrology and Meteorology. 5 (1), 38-51. |
| [3] | Kulkarni, A.V., Bahuguna, I.M., Rathore, B.P., Singh, S.K., Randhawa, S.S., Sood, R.K., et al. (2007) Glacial retreat in Himalaya using Indian remote sensing satellite data. Current Science. 69-74.View Article |
| [4] | Yao, T., Thompson, L., Yang, W., Yu, W., Gao, Y., Guo, X., et al. (2012) Different glacier status with atmospheric circulations in Tibetan Plateau and surroundings. Nature Climate Change. 2 (9), 663.View Article |
| [5] | Piya, L., Maharjan, K.L., and Joshi, N.P. (2012) Perceptions and realities of climate change among the Chepang communities in rural mid-hills of Nepal. Journal of Contemporary India Studies: Space and Society, Hiroshima University. 2 35-50. |
| [6] | Leiserowitz, A. (2006) Climate change risk perception and policy preferences: The role of affect, imagery, and values. Climatic Change. 77 (1-2), 45-72.View Article |
| [7] | Shrestha, A.B., Wake, C.P., Mayewski, P.A., and Dibb, J.E. (1999) Maximum temperature trends in the Himalaya and its vicinity: an analysis based on temperature records from Nepal for the period 1971-94. Journal of Climate. 12 (9), 2775-2786.View Article |
| [8] | Dhar, O.N. and Nandargi, S. (2000) An appraisal of precipitation distribution around the Everest and Kanchenjunga peaks in the Himalayas. Weather. 55 (7), 223-234.View Article |
| [9] | Kansakar, S.R., Hannah, D.M., Gerrard, J., and Rees, G. (2004) Spatial pattern in the precipitation regime of Nepal. International Journal of Climatology: A Journal of the Royal Meteorological Society. 24 (13), 1645-1659.View Article |
| [10] | Dhar, O.N. and Nandargi, S. (2005) Areas of heavy precipitation in the Nepalese Himalayas. Weather. 60 (12), 354-356.View Article |
| [11] | Ichiyanagi, K., Yamanaka, M.D., Muraji, Y., and Vaidya, B.K. (2007) Precipitation in Nepal between 1987 and 1996. International Journal of Climatology: A Journal of the Royal Meteorological Society. 27 (13), 1753-1762.View Article |
| [12] | Barry, R.G. (2008) Mountain weather and climate, - Cambridge University Press. New York.View Article |
| [13] | Sharma, E., Chettri, N., Tse-Ring, K., Shrestha, A.B., Jing, F., Mool, P., et al. (2009) Climate change impacts and vulnerability in the Eastern Himalayas. |
| [14] | Shrestha, A.B. and Aryal, R. (2011) Climate change in Nepal and its impact on Himalayan glaciers. Regional Environmental Change. 11 (1), 65-77.View Article |
| [15] | Shrestha, U.B., Gautam, S., and Bawa, K.S. (2012). Widespread climate change in the Himalayas and associated changes in local ecosystems. PloS One. 7 (5), e36741.View Article |
| [16] | Qi, W., Zhang, Y., Gao, J., Yang, X., Liu, L., and Khanal, N.R. (2013). Climate change on the southern slope of Mt. Qomolangma (Everest) Region in Nepal since 1971. Journal of Geographical Sciences. 23 (4), 595-611.View Article |
| [17] | Dawadi, B. (2017). Climatic records and linkage along an altitudinal gradient in the southern slope of Nepal Himalaya. Journal of Nepal Geological Society. 53 47-56.View Article |
| [18] | Devkota, R.P. (2014). Climate change: trends and people’s perception in Nepal. Journal of Environmental Protection. 5 (04), 255.View Article |
| [19] | Salerno, F., Guyennon, N., Thakuri, S., Viviano, G., Romano, E., Vuillermoz, E., et al. (2015). Weak precipitation, warm winters and springs impact glaciers of south slopes of Mt. Everest (central Himalaya) in the last 2 decades (1994-2013). The Cryosphere. 9 (3), 1229-1247.View Article |
| [20] | Acharya, D. and Panda, G. (2013). People’s perception on climate change in coastal odisha. International Journal of Scientific & Engineering Research. 4 (8, August-2013). |
| [21] | MoE (2010) National Adaptation Programme of Action (NAPA). Ministry of Environment, Kathmandu, Nepal. |
| [22] | CBS. (2011) Statistical Year Book of Nepal. Government of Nepal, National Planning Commission Secretariat Kathmandu, Nepal. |
| [23] | Kattel, D.B. and Yao, T. (2013). Recent temperature trends at mountain stations on the southern slope of the central Himalayas. Journal of Earth System Science. 122 (1), 215-227.View Article |
| [24] | Mann, H.B. (1945). Nonparametric tests against trend. Econometrica: Journal of the Econometric Society. 245-259.View Article |
| [25] | Kendall, M.G. (1975). Rank correlation measures. Charles Griffin, London. 202 15. |
| [26] | Fu, G., Chen, S., Liu, C., and Shepard, D. (2004). Hydro-climatic trends of the Yellow River basin for the last 50 years. Climatic Change. 65 (1-2), 149-178.View Article |
| [27] | Modarres, R. and da Silva, V. de P.R. (2007). Rainfall trends in arid and semi-arid regions of Iran. Journal of Arid Environments. 70 (2), 344-355.View Article |
| [28] | Karki, S., Shrestha, A., Bhattarai, M., and Thapa, S. (2011). GIS based flood hazard mapping and vulnerability assessement of people due to climate change: a case study from Kankai watershed, East Nepal. Final Report National Adaptation Programme of Action (NAPA). |
| [29] | Tiwari, K.R., Awasthi, K.D., Balla, M.K., and Sitaula, B.K. (2010). Local people’s perception on climate change, its impact and adaptation practices in Himalaya to Terai regions of Nepal. |
| [30] | DHM (2017) Observed climate trend analysis in the districts and physiographic regions of Nepal (1971-2014). Department of Hydrology and Meteorology (DHM) Kathmandu, . |
| [31] | Sharma, C.S., Panda, S.N., Pradhan, R.P., Singh, A., and Kawamura, A. (2016). Precipitation and temperature changes in eastern India by multiple trend detection methods. Atmospheric Research. 180 211-225.View Article |
| [32] | Shrestha, M.K., Chaudhary, S., Maskey, R.K., and Rajkarnikar, G. (2010). Comparison of the anomaly of hydrological analysis tools used in Nepal. Journal of Hydrology and Meteorology. 7 (1), 30-39.View Article |
| [33] | Xu, Z.X., Gong, T.L., and Li, J.Y. (2008). Decadal trend of climate in the Tibetan Plateau—regional temperature and precipitation. Hydrological Processes: An International Journal. 22 (16), 3056-3065.View Article |
| [34] | IPCC, 2007 (2007). Intergovernmental panel on climate change. World Meteorological Organization.View Article |
| [35] | Siddiqui, S., Bharati, L., Panta, M., Gurung, P., Rakhal, B., and Maharjan, L.D. (2012). Climate change and vulnerability mapping in watersheds in middle and high Mountains of Nepal. Nepal: Building Climate Resilience in Watersheds in Mountain Eco-Regions. Kathmandu: International Water Management Institute (IWMI). |
| [36] | Sharma, K.P., Moore, B., and Vorosmarty, C.J. (2000). Anthropogenic, climatic, and hydrologic trends in the Kosi Basin, Himalaya. Climatic Change. 47 (1-2), 141-165.View Article |
| [37] | Dhakal, K., Silwal, S., and Khanal, G. (2010) Assessment of Climate Change Impacts on Water Resources and Vulnerability in Hills of Nepal. A Case Study on Dhare Khola Watershed of Dhading District Submitted to National Adaptation Program of Action (NAPA) to Climate Change Ministry of Environment, Government of Nepal. |
| [38] | Bartlett, R., Bharati, L., Pant, D., Hosterman, H., and McCornick, P.G. (2010). Climate change impacts and adaptation in Nepal. IWMI. |
| [39] | Regmi, B.R., Thapa, L., Suwal, R., Khadka, S., Sharma, G.B., and Tamang, B.B. (2009). Agro-biodiversity management: an opportunity for mainstreaming community-based adaptation to climate change. Journal of Forest and Livelihood. 8 (1), 113-121. |
