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Perennial to Ephemeral Transformation of a Lesser Himalayan Watershed


Affiliations
1 Department of Geography, Kumaun University, SSJ Campus, Almora 263 601, India
2 Department of Geology, University of Kerala, Thiruvananthapuram 695 581, India
3 Department of Geology, Banaras Hindu University, Varanasi 221 005, India
4 National Institute of Hydrology, Roorkee 247 667, India
 

Under a changing climate, the Sub-Himalayan ecosystems are likely to experience marked transformations in hydrological, biogeochemical and biophysical processes. To explore this, we have been observing various hydrometeorological parameters in a completely rain-fed sub-Himalayan watershed (Salla Rauetella Watershed) since 1991. We noted a changing trend for some of the hydrometeorological parameters over the 22-yr period. While the annual air temperature has increased significantly, the annual rainfall also shows an increasing trend with a higher probability of increased rainfall intensity. The run-off data show a peculiar trend that the watershed has been transforming itself from a perennial to an ephemeral system, despite an increasing trend of rainfall magnitudes. This is primarily attributed to the increasing trends of rainfall intensities exceeding the infiltration capacities of the soil which trigger large but high-intensity run-off events with dry spells in other periods, which makes the river ephemeral. We infer a likely dynamic change in the run-off-generation mechanism which warrants the need for a more precise and rigorous observation-cum-measurement strategy of ecohydrological processes in Himalayan ecosystems, supported with modelling and remote sensing approaches. This will help identify the optimal headwater treatment measures for augmenting groundwater to sustain the rainfed streams of the Himalaya under a changing climate.

Keywords

Climate Change, Ecosystem Transformation, Precipitation Trends, Run-Off Generation, Watersheds.
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  • Perennial to Ephemeral Transformation of a Lesser Himalayan Watershed

Abstract Views: 334  |  PDF Views: 111

Authors

Jiwan Singh Rawat
Department of Geography, Kumaun University, SSJ Campus, Almora 263 601, India
Ajit Govind
Department of Geology, University of Kerala, Thiruvananthapuram 695 581, India
Geeta Rawat
Department of Geography, Kumaun University, SSJ Campus, Almora 263 601, India
Mallickarjun Joshi
Department of Geology, Banaras Hindu University, Varanasi 221 005, India
Shive Prakash Rai
National Institute of Hydrology, Roorkee 247 667, India
Navneet Gahlot
Department of Geography, Kumaun University, SSJ Campus, Almora 263 601, India

Abstract


Under a changing climate, the Sub-Himalayan ecosystems are likely to experience marked transformations in hydrological, biogeochemical and biophysical processes. To explore this, we have been observing various hydrometeorological parameters in a completely rain-fed sub-Himalayan watershed (Salla Rauetella Watershed) since 1991. We noted a changing trend for some of the hydrometeorological parameters over the 22-yr period. While the annual air temperature has increased significantly, the annual rainfall also shows an increasing trend with a higher probability of increased rainfall intensity. The run-off data show a peculiar trend that the watershed has been transforming itself from a perennial to an ephemeral system, despite an increasing trend of rainfall magnitudes. This is primarily attributed to the increasing trends of rainfall intensities exceeding the infiltration capacities of the soil which trigger large but high-intensity run-off events with dry spells in other periods, which makes the river ephemeral. We infer a likely dynamic change in the run-off-generation mechanism which warrants the need for a more precise and rigorous observation-cum-measurement strategy of ecohydrological processes in Himalayan ecosystems, supported with modelling and remote sensing approaches. This will help identify the optimal headwater treatment measures for augmenting groundwater to sustain the rainfed streams of the Himalaya under a changing climate.

Keywords


Climate Change, Ecosystem Transformation, Precipitation Trends, Run-Off Generation, Watersheds.



DOI: https://doi.org/10.18520/cs%2Fv111%2Fi4%2F686-693