山区流域的等级曲线开发和不确定性分析,以促进知情水文和资源管理

IF 2.6 Q2 WATER RESOURCES
Vikram Kumar, Sumit Sen
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引用次数: 0

摘要

精确测量连续溪流的排水量对水文学家和水资源规划者来说既是挑战也是机遇,尤其是在山区流域。本研究的中心内容是在小喜马拉雅山的三个源头--阿格拉尔、帕利加德和巴尔干加,通过安装水位记录仪进行阶段测量和安装盐稀释仪进行排泄测量,利用幂律发展等级曲线。在山区流域,溪流的流量-排水量关系,即所谓的等级曲线,容易受到众多因素的影响,而这些因素往往难以理解或量化。尽管在等级曲线绘制过程中会出现重大误差,如观测、建模和参数化等,但这些误差经常被忽视。在本研究中,考虑到固有的不确定性,我们采用了最大似然法来评估所绘制的等级曲线的不确定性。我们的研究结果表明,阶段-排泄关系存在很大的不一致性,尤其是在大流量期间。本研究的一个新贡献是引入了权重因子概念,将不确定性与流域的形态参数联系起来。与 Balganga(0.35)相比,Paligaad(0.37)的权重因子值较高,而 Aglar(0.27)的权重因子值较低,因此不确定性较大。作者认为,精确的评级曲线和全面的不确定性分析可以降低建设成本,促进稳健的决策,提高水文和水资源管理决策的可信度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rating curve development and uncertainty analysis in mountainous watersheds for informed hydrology and resource management
Accurate measurement of continuous stream discharge poses both excitement and challenges for hydrologists and water resource planners, particularly in mountainous watersheds. This study centers on the development of rating curves utilizing the power law at three headwaters of the lesser Himalayas—Aglar, Paligaad, and Balganga—through the installation of water level recorders for stage measurement and salt dilution for discharge measurement from 2014 to 2016. The stream stage–discharge relationship, crucially known as the rating curve, is susceptible to numerous factors in mountainous watersheds that are often challenging to comprehend or quantify. Despite significant errors introduced during the rating curve development, such as stemming from observations, modeling, and parameterization, they are frequently overlooked. In this study, acknowledging the inherent uncertainty, we employ the maximum-likelihood method to assess uncertainty in the developed rating curve. Our findings reveal substantial inconsistency in the stage–discharge relationship, particularly during high flows. A novel contribution of this study is introducing a weighing factor concept that correlates uncertainty with the morphological parameters of the watershed. The higher value of the weighting factor in Paligaad (0.37) as compared to Balganga (0.35) and less in the case of Aglar (0.27) will have more uncertainty. The authors contend that precise rating curves and comprehensive uncertainty analyses can mitigate construction costs, foster robust decision-making, and enhance the perceived credibility of decisions in hydrology and water resource management.
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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