Abstract
Nepal has experienced recent changes in two crucial climatic variables: temperature and precipitation. Therefore, climate-induced water security concerns have now become more pronounced in Nepal as changes in temperature and precipitation have already altered some hydrological processes such as the river runoff in some river systems. However, the linkage between precipitation patterns and streamflow characteristics are poorly understood, especially in small rivers. We analysed the temporal trends of temperature, precipitation, and extreme indices of wet and dry spells in the Rosi watershed in Central Nepal, and observed the temporal patterns of the streamflow of the Rosi river. We also examined the linkages between the average and extreme climate indices and streamflow. We found that the area has warmed up by an average of 0.03 °C/year, and has seen a significant decline in precipitation. The dry spell as represented by the maximum length of the dry spell (CDD) and the magnitude of dryness (AII) has become more pronounced, while the wet spell as represented by the number of heavy rainfall days (R5D) and the precipitation intensity on wet days (SDII) has diminished significantly. Our analysis shows that recent changes in precipitation patterns have affected the streamflow of the Rosi river, as manifested in the observed decline in annual and seasonal streamflows. The decrease in the availability of water in the river is likely to have severe consequences for water security in the area.
Highlights
The impact of climate change on water availability is a major concern worldwide, and the question of how water systems remain resilient under changing climate conditions has dominated the world’s science and policy agenda recently [1,2]
The melting of snow and glaciers is a significant hydrological process in this region that sustains the flows of rivers during the dry season [3], and this crucial hydrological process is being affected by climate change, regarding changes in temperature and precipitation [5]
This paper presents the findings of a study conducted in a small watershed with the goal of understanding the changes in hydroclimatic dynamics, including the analysis of the potential association between streamflow and climatic parameters
Summary
The impact of climate change on water availability is a major concern worldwide, and the question of how water systems remain resilient under changing climate conditions has dominated the world’s science and policy agenda recently [1,2] Such a climate-induced water security concern is nowhere more visible than in the Himalayan region. Rising temperature and changes in precipitation alter some components of hydrological systems such as precipitation extremes, increasing evaporation, and changes in river runoff [6,7] Due to these climate-induced changes, two major impacts on hydrological systems are expected to escalate. The availability of water and related hydrological services are likely to decrease due to the recession of glaciers in the Himalaya [8] Climate hazards such as flood and drought due to precipitation extremes are expected to increase with climate change [7]. Such fundamental alterations in the hydrological regime, which are attributed primarily to climate change, will have a cascading impact on the irrigated agriculture and installed hydropower capacity, as well as the biodiversity and natural resources [9], and will eventually intensify the regional conflicts in this region [10]
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