How Effective Is Inter-Basin Transfer to Manage Temporal Variation Of “Too Much” And “Too Little” Water Conditions for Irrigation in a Himalayan Basin?

SCITECH Nepal Pub Date : 2023-12-13 DOI:10.3126/scitech.v17i1.60466

U. Bhattarai, L. Devkota, T. Maraseni

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Abstract

Better irrigation facilities leading to “more crop per drop” are today’s needs. This study examines how the overall water balance of Sunkoshi, Marin, and Bagmati Basins will be altered by implementing the Sunkoshi-Marin Diversion Project (SMDP) to fulfill the unmet demands of the Bagmati Irrigation Project (BIP) in the Bagmati Basin via the Marin Basin in Nepal. The specific objectives are to: i) quantify “too much” and “too little” water peculiar to the study basin based on historical data; ii) evaluate water availability, irrigation water requirement, and deficits with and without SMDP; and iii) provide evidence-based recommendations on the effectiveness of the SMDP considering hydropower generation, irrigation and low- and high-flow conditions. Thirty years of historical daily flow data (two gauging stations) and precipitation data (15 stations) were obtained from the Department of Hydrology and Meteorology. Other spatial input data were acquired from relevant authorized sources. Water availability has been estimated using flow at the diversion sites while the irrigation requirements have been calculated based on secondary information. Results show that additional water is not at all required for Marin and Bagmati Basins in the monsoon season. Rather, the diverted water increases the flood hazard. Moreover, the contribution of hydropower from SMDP to the national energy demand is insignificant in the monsoon. However, the SMDP was found to play an important role in meeting the irrigation deficits during the dry season. Its contribution to hydropower production in the lean period is also commendable. However, the proposed irrigation requirement of the BIP cannot be met even after the implementation of the SMDP. More importantly, there is a high probability of the intended diversion flow not being available in the Sunkoshi River (donor) which could have severe consequences downstream. Therefore, additional options for conjunctive use need to be explored.

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跨流域调水对管理喜马拉雅山流域灌溉用水 "过多 "和 "过少 "的时空变化有多大作用？

改善灌溉设施，实现 "一滴水多收 "是当今的需求。本研究探讨了为满足巴格马蒂流域巴格马蒂灌溉工程（BIP）通过尼泊尔马林流域未满足的需求而实施的孙可希-马林引水工程（SMDP）将如何改变孙可希、马林和巴格马蒂流域的总体水量平衡。具体目标是：i) 根据历史数据量化研究流域特有的 "过多 "和 "过少 "水量；ii) 评估在有 SMDP 和没有 SMDP 的情况下的可用水量、灌溉需水量和缺水量；iii) 考虑水力发电、灌溉以及低流量和高流量条件，就 SMDP 的有效性提出有据可依的建议。从水文和气象局获得了三十年的历史日流量数据（两个测量站）和降水量数据（15 个测量站）。其他空间输入数据来自相关授权来源。利用引水点的流量估算了可用水量，并根据二手资料计算了灌溉需求。结果表明，马林流域和巴格马蒂流域在季风季节根本不需要额外的水量。相反，引水增加了洪水灾害。此外，在季风季节，SMDP 的水力发电对全国能源需求的贡献微乎其微。但在旱季，SMDP 在弥补灌溉赤字方面发挥了重要作用。它在枯水期对水电生产的贡献也值得称赞。然而，即使实施了 SMDP，也无法满足 BIP 提议的灌溉需求。更重要的是，逊戈希河（捐赠者）很有可能无法提供预期的引水流量，这可能会对下游造成严重后果。因此，需要探索更多的联合使用方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SCITECH Nepal

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