利用 SWAT 和 SWAT-CUP 对干旱和半干旱流域进行水文模拟和不确定性分析(案例研究:伊朗 Shandiz 的 Zoshk 流域)

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Mohammad Reza Khaleghi, Seyed Hashem Hosseini
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引用次数: 0

摘要

本研究的目的是评估 SWAT 模型和 SWAT-CUP 软件在水文模拟方面的能力,以及评估 SWAT 模型在估算径流方面的不确定性。在建模过程中,流域被划分为 12 个子流域和 294 个水文单元 (HRU)。采用序列不确定性拟合(SUFI2)算法分别对 2000-2006 年和 2007-2010 年的模型进行了校核和不确定性分析。根据敏感性分析结果,USLE_P 土壤保护因子、湿土密度 (SOL_BD) 和 CN 是决定输出径流量最重要的参数。其中,SCS-CN 被认为是最敏感的参数。结果表明,校准期的 R2、bR2 和 Nash-Sutcliffe 指数(NS)分别为 0.75、0.59 和 0.67,验证期的 R2、bR2 和 Nash-Sutcliffe 指数(NS)分别为 0.46、0.24 和 0.42。模型结果表明,模型在校准阶段的性能较弱。这是由于该地区现有统计数据缺乏准确性和精确性,缺乏从该地区上游花园取水量的统计数据,以及缺乏现有泉水的统计数据。因此,建议将该模型应用于伊朗境内具有类似数据的干旱和半干旱集水区。由于伊朗的水文数据有限,本研究未对 SWAT 模型未来径流的不确定性进行评估和比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using SWAT and SWAT-CUP for hydrological simulation and uncertainty analysis of the arid and semiarid watersheds (Case study: Zoshk Watershed, Shandiz, Iran)

The aims of this study are capability assessment of the SWAT model and SWAT-CUP software in hydrological simulation and evaluation of uncertainty of SWAT model in estimating runoff. In the modeling process, the basin was divided into 12 sub-basins and 294 hydrological units (HRUs). Model calibration and uncertainty analysis were performed using the sequential uncertainty fitting (SUFI2) algorithm for 2000–2006 and 2007–2010, respectively. Based on the sensitivity analysis results, the parameters are the USLE_P soil protection factor, wet soil density (SOL_BD), and CN among the most important parameters in determining the amount of output runoff. Among these factors, SCS-CN was recognized as the most sensitive parameter. Based on the results, the coefficients R2, bR2, and Nash–Sutcliffe index (NS) were 0.75, 0.59, and 0.67 for calibration period and 0.46, 0.24, and 0.42 for validation period. The results of the model showed the model performance is weak in the stage of calibration. This is due to the lack of accuracy and precision in the statistics available in the region, the lack of statistics on the amount of water collected from the upstream gardens of the area, as well as the lack of statistics on the existing springs. The model is therefore recommended for applications in arid and semiarid catchments within Iran with similar data. Due to the limited availability of hydrological data in Iran, this study has not assessed and compared the uncertainty related to the SWAT model of future runoff.

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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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