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.
Highlights
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We calculated three indicators: (1) the annual rainfall intensity (ARFI) calculated as annual precipitation divided by the number of rainy days in a given year; (2) the annual runoff intensity (AROI) calculated as annual run-off divided by the number of days when the average run-off is more than 0.02 l sec–1, and (3) the number of zero discharge days (ZDD) for a given year by cumulating the number of days in a year when the river discharge is 0 or not measurable (i.e.
Any intense rainfall event such as a cloudburst has high probability of triggering a run-off mechanism, as these rainfall intensities are much larger than the infiltration capacity of the soil. Similar to this Himalayan region, climate change-induced alteration of the watershed hydrological processes has been studied in other mountainous ecosystems of the world such as the Alps[42], Rockies[43] and Andes[44], all of which unanimously confirm the dominant role of rainfall intensities on the landscape hydrological processes
Summary
Jiwan Singh Rawat, Ajit Govind, Geeta Rawat, Mallickarjun Joshi, Shive Prakash Rai, Navneet Gahlot. To cite this version: Jiwan Singh Rawat, Ajit Govind, Geeta Rawat, Mallickarjun Joshi, Shive Prakash Rai, et al. Perennial to ephemeral transformation of a Lesser Himalayan watershed. HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés
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