Drought intensity–duration–frequency curves based on deficit in precipitation and streamflow for water resources management

IF 5.7 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Yonca Cavus, Kerstin Stahl, Hafzullah Aksoy
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引用次数: 1

Abstract

Abstract. Drought estimates in terms of physically measurable variables such as precipitation deficit or streamflow deficit are key knowledge for an effective water management. How these deficits vary with the drought event severity indicated by commonly used standardized indices is often unclear. Drought severity calculated from the drought index does not necessarily correspond to the same amount of deficit in precipitation or streamflow at different regions, and it is different for each month in the same region. We investigate drought to remove this disadvantage of the index-based drought intensity–duration–frequency (IDF) curves and develop IDF curves in terms of the associated deficit. In order to study the variation of deficits, we use the link between precipitation and streamflow and the associated indices, the Standardized Precipitation Index (SPI) and the Standardized Streamflow Index (SSI). More specifically, the analysis relies on frequency analysis combined with the total probability theorem applied to the critical drought severity. The critical drought has varying durations, and it is extracted from dry periods. IDF curves in terms of precipitation and streamflow deficits for the most severe drought of each drought duration in each year are then subject to comparison of statistical characteristics of droughts for different return periods. Precipitation and streamflow data from two catchments, the Seyhan River (Türkiye) and the Kocher River (Germany), provide examples for two climatically and hydrologically different cases. A comparison of the two cases allows a similar method to be tested in different hydrological conditions. We found that precipitation and streamflow deficits vary systematically, reflecting seasonality and the magnitude of precipitation and streamflow characteristics of the catchments. Deficits change from one month to another at a given station. Higher precipitation deficits were observed in winter months compared to summer months. Additionally, we assessed observed past major droughts experienced in both catchments on the IDF curves, which show that the major droughts have return periods at the order of 100 years at short durations. This coincides with the observation in the catchments and shows the applicability of the IDF curves. The IDF curves can be considered a tool for using in a range of specific activities of agriculture, ecology, industry, energy and water supply, etc. This is particularly important to end users and decision-makers to act against the drought quickly and precisely in a more physically understandable manner.
水资源管理中基于降水和流量亏缺的干旱强度-持续时间-频率曲线
摘要根据降水亏缺或流量亏缺等物理可测量变量进行干旱估计是有效水资源管理的关键知识。这些赤字如何随常用的标准化指数所显示的干旱事件严重程度而变化,往往是不清楚的。根据干旱指数计算的干旱严重程度在不同地区并不一定对应相同的降水或流量亏缺量,在同一地区,每个月的亏缺量也不同。我们对干旱进行了研究,以消除基于指数的干旱强度-持续时间-频率(IDF)曲线的这一缺点,并根据相关赤字开发了IDF曲线。为了研究降水和流量之间的联系以及相关的指标,即标准化降水指数(SPI)和标准化流量指数(SSI)。更具体地说,分析依赖于频率分析与应用于临界干旱严重程度的总概率定理相结合。临界干旱有不同的持续时间,它是从干旱时期提取的。然后,根据每年每一干旱期间最严重干旱的降水和流量亏缺的IDF曲线,对不同回归期干旱的统计特征进行比较。来自两个集水区的降水和流量数据,即塞汉河(t rkiye)和Kocher河(德国),为两种气候和水文不同的情况提供了例子。对这两种情况进行比较,可以在不同的水文条件下测试类似的方法。研究发现,流域降水和流量亏缺具有系统的变化特征,反映了流域降水和流量的季节性特征。在一个给定的站点,每个月的赤字都在变化。与夏季相比,冬季降水亏缺较高。此外,我们在IDF曲线上评估了两个流域过去观测到的重大干旱,结果表明,重大干旱在短时间内具有100年左右的重现期。这与在集水区的观察结果相吻合,显示了IDF曲线的适用性。IDF曲线可被视为用于农业、生态、工业、能源和供水等一系列具体活动的工具。这对于最终用户和决策者以一种更容易理解的方式迅速和准确地采取抗旱行动尤为重要。
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来源期刊
Hydrology and Earth System Sciences
Hydrology and Earth System Sciences 地学-地球科学综合
CiteScore
10.10
自引率
7.90%
发文量
273
审稿时长
15 months
期刊介绍: Hydrology and Earth System Sciences (HESS) is a not-for-profit international two-stage open-access journal for the publication of original research in hydrology. HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries.
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