Evaporation from dams governing the water cycle dynamics of a regulated river basin from the Western Ghats: Sharavati, India
Sharavati River, Karnataka, India. A small mountainous river system, Sharavati, was selected to study the impact of river damming on the hydrological cycle. Sharavati river flow is regulated by two dams, Linganamakki and Gersoppa. Despite the Western Ghats' global significance in controlling lo...
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Veröffentlicht in: | Journal of hydrology. Regional studies 2024-08, Vol.54, p.101896, Article 101896 |
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Sprache: | eng |
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Zusammenfassung: | Sharavati River, Karnataka, India.
A small mountainous river system, Sharavati, was selected to study the impact of river damming on the hydrological cycle. Sharavati river flow is regulated by two dams, Linganamakki and Gersoppa. Despite the Western Ghats' global significance in controlling local and regional climates, the effects of damming on its hydrological cycles have received limited attention. A stable water isotopic approach was employed in the study.
The line-conditioned excess (lc-excess) was primarily negative across all seasons. Notably, the pre-monsoon season exhibited comparatively higher evaporation with high negative lc-excess, while the postmonsoon lc-excess values approached zero, indicating minimal evaporation. The sampling points from the dams exhibited very high evaporation signals, the evaporative loss during the pre-monsoon season from the Linganamakki reservoir was estimated as 10 %, and from the Gersoppa dam was 6 %. Consequently, groundwater sampled near the dams, plotted along the local evaporation line indicating recharge from the evaporated reservoir water. Damming has affected the hydrological cycle of the heavily regulated Sharavati River, transforming the entire catchment into a connected, narrow lake-like structure, especially during the pre-monsoon season. Since the Western Ghat river systems are regulated by many large and small dams, it is pertinent to study the impact of damming on the hydrological cycles of the entire system.
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•The evaporation signals in the catchment were high in pre-monsoon seasons.•The evaporative loss from the midstream reservoir was estimated as 10 % and from the downstream dam was 6 %.•River damming altered the groundwater recharge process.•The elevation effect was absent in the river catchment. |
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ISSN: | 2214-5818 2214-5818 |
DOI: | 10.1016/j.ejrh.2024.101896 |