Abstract
The Himalayas, especially the Everest region, are highly sensitive to climate change. Although there are research works on this region related to cryospheric work, the ecological understandings of the alpine zone and climate impacts are limited. This study aimed to assess the changes in surface water including glacier lake and streamflow and the spatial and temporal changes in alpine vegetation and examine their relationships with climatic factors (temperature and precipitation) during 1995–2019 in the Everest region and the Dudh Koshi river basin. In this study, Landsat time-series data, European Commission’s Joint Research Center (JRC) surface water data, ECMWF Reanalysis 5th Generation (ERA5) reanalysis temperature data, and meteorological station data were used. It was found that the glacial lake area and volume are expanding at the rates of 0.0676 and 0.0198 km3/year, respectively; the average annual streamflow is decreasing at the rate of 2.73 m3/s/year. Similarly, the alpine vegetation greening as indicated by normalized difference vegetation index (NDVI) is increasing at the rate of 0.00352 units/year. On the other hand, the annual mean temperature shows an increasing trend of 0.0329 °C/year, and the annual precipitation also shows a significant negative monotonic trend. It was also found that annual NDVI is significantly correlated with annual temperature. Likewise, the glacial lake area expansion is strongly correlated with annual minimum temperature and annual precipitation. Overall, we found a significant alteration in the alpine ecosystem of the Everest region that could impact on the water–energy–food nexus of the Dudh Koshi river basin.
Highlights
Climate is a major driving factor for the distribution of the global forest ecosystem [1].Climate, especially temperature and precipitation, varies along latitude and continental position [2]
To understand the relationships between climate variables and their potential impacts on the Everest region of Nepal, this study aimed to answer three research questions: (i) What are the trends of temperature and precipitation in the Everest region? (ii) What are the trends of glacial lake and streamflow changes in the Everest region? (iii) What are the normalized difference vegetation index (NDVI) trends and areal changes of alpine vegetation in the Everest region?
This study demonstrates the changes in climate variables and their relationships with the change extents in surface water and alpine vegetation of the Everest region from 1995 to 2019
Summary
Climate is a major driving factor for the distribution of the global forest ecosystem [1]. Especially temperature and precipitation, varies along latitude and continental position [2]. Based on temperature and precipitation, the Köppen–Trewartha classification has divided global climate into six groups: tropical, dry climate, sub-tropical, temperate, boreal, and polar climate [3]. The mountain system contains distinct thermal belts, which are distinguished into a mountain (>15 ◦ C), montane (6.4–10 ◦ C), alpine (3.5–6.4 ◦ C), and Nival belts (
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