Abstract
The Himalayas constitute one of the richest and most diverse ecosystems in the Indian sub-continent. Vegetation greenness driven by climate in the Himalayan region is often overlooked as field-based studies are challenging due to high altitude and complex topography. Although the basic information about vegetation cover and its interactions with different hydroclimatic factors is vital, limited attention has been given to understanding the response of vegetation to different climatic factors. The main aim of the present study is to analyse the relationship between the spatiotemporal variability of vegetation greenness and associated climatic and hydrological drivers within the Upper Khoh River (UKR) Basin of the Himalayas at annual and seasonal scales. We analysed two vegetation indices, namely, normalised difference vegetation index (NDVI) and enhanced vegetation index (EVI) time-series data, for the last 20 years (2001–2020) using Google Earth Engine. We found that both the NDVI and EVI showed increasing trends in the vegetation greening during the period under consideration, with the NDVI being consistently higher than the EVI. The mean NDVI and EVI increased from 0.54 and 0.31 (2001), respectively, to 0.65 and 0.36 (2020). Further, the EVI tends to correlate better with the different hydroclimatic factors in comparison to the NDVI. The EVI is strongly correlated with ET with r2 = 0.73 whereas the NDVI showed satisfactory performance with r2 = 0.45. On the other hand, the relationship between the EVI and precipitation yielded r2 = 0.34, whereas there was no relationship was observed between the NDVI and precipitation. These findings show that there exists a strong correlation between the EVI and hydroclimatic factors, which shows that changes in vegetation phenology can be better captured using the EVI than the NDVI.
Highlights
The Himalayan mountain system is one of the most ecologically fragile environments of the natural habitats of the Indian sub-continent [1,2,3]
These findings show that there exists a strong correlation between the enhanced vegetation index (EVI) and hydroclimatic factors, which shows that changes in vegetation phenology can be better captured using the EVI than the normalised difference vegetation index (NDVI)
In order to analyse the variability of the NDVI and EVI over time, we computed a mean value of the NDVI and EVI from all pixels in the Upper Khoh River (UKR) Basin, and we obtained a value for each month for the last twenty years
Summary
The Himalayan mountain system is one of the most ecologically fragile environments of the natural habitats of the Indian sub-continent [1,2,3]. In the Indian context, there has been limited research illustrating the relation between vegetation phenology and hydroclimatic factors, especially in Himalayan mountainous regions due to data scarcity. This needs a higher degree of attention, as the Himalayan regions in India have huge contrasts, with multiple classes of vegetation types, soil, climate, and altitude from the top of high mountains to the tropical forests in the lowlands [9,17,27]. There has been a tremendous shift in the vegetation pattern which in turn has affected the eco-hydro-geomorphic features in the Himalayan region that is the source of water supply for many regions in its downstream regions [3,10]
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