Linking different drought types in a small catchment from a statistical perspective – Case study of the Wernersbach catchment, Germany

IF 3.1 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Hydrology X Pub Date : 2022-05-01 DOI:10.1016/j.hydroa.2022.100122
Ivan Vorobevskii, Rico Kronenberg, Christian Bernhofer
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引用次数: 2

Abstract

Drought is a complex natural phenomenon, which is challenging to define and to describe quantitatively. Canonical drought propagation scheme ‘meteorological → agricultural (or soil related) → hydrological’ does not always reflect the reality in a catchment. Thus it is necessary to include compound or cascading effects of precipitation, soil moisture and discharge interactions on different time scales to get a comprehensive picture on the drought characteristics, as well as on its development and recovery.

We studied the linkage between droughts over multiply temporal scales and severity levels using various statistical methods for a case study of a small forested catchment in Germany. It was found that indeed different types of droughts are highly interconnected and their behavior can significantly differ from the classical scheme.

A simple empirical approach gives frequencies, seasonality and trends of various combinations of droughts. It showed that among all types the test site is mostly exposed to a light hydro-meteorological one especially in autumn months with an increasing trend. Multivariate distributions can be used to evaluate joint probabilities and return periods of drought components. It was revealed that the well-known European drought in 2018 was also presented as an extreme case of a joint hydro-meteo-soil drought in the examined catchment. By Markov chains one can analyze the transition and persistence between droughts. Well-established propagation pathways between different types and severity levels of droughts with high persistence for longer droughts were found for the study area.

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从统计角度将一个小流域的不同干旱类型联系起来——以德国Wernersbach流域为例
干旱是一种复杂的自然现象,难以定义和定量描述。典型的干旱传播方案“气象→农业(或土壤相关)→水文”并不总是反映集水区的现实情况。因此,有必要在不同时间尺度上考虑降水、土壤水分和流量相互作用的复合或级联效应,以全面了解干旱特征及其发展和恢复。我们研究了干旱在多个时间尺度和严重程度之间的联系,使用不同的统计方法,以德国一个小的森林流域为例进行了研究。研究发现,不同类型的干旱确实是高度相互关联的,它们的行为可能与经典方案有显著不同。一种简单的经验方法给出了各种干旱组合的频率、季节性和趋势。结果表明,试验场主要受轻度水文气象影响,特别是在秋季,且有增加趋势。多元分布可以用来评价干旱分量的联合概率和回归期。据透露,2018年欧洲著名的干旱也被认为是受调查流域水文-气象-土壤联合干旱的极端情况。通过马尔可夫链,人们可以分析干旱之间的过渡和持续。研究区在不同干旱类型和严重程度之间建立了成熟的传播途径,且干旱持续时间较长。
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来源期刊
Journal of Hydrology X
Journal of Hydrology X Environmental Science-Water Science and Technology
CiteScore
7.00
自引率
2.50%
发文量
20
审稿时长
25 weeks
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