Simulation of overland flow in the Domica cave area flood events using the r.sim.water module

IF 0.5 Q3 GEOGRAPHY

Geographia Cassoviensis Pub Date : 2023-01-01 DOI:10.33542/gc2023-1-01

Daniela Ujlakiová, Ondrej Tokarčík

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引用次数: 0

Abstract

The flash floods are very important hydrometeorological situations affecting the Domica cave area. The flash floods depend on several factors such as the amount of precipitation, land cover, phenological phase of the vegetation, or soil infiltration rate. This paper focuses on the simulation of flood events occurring in the winter and summer seasons on the Silická plateau. The main aim of the paper is the evaluation of the effects of model parameterisation and interpretation of spatial aspects of the overland flow during the flood events. GRASS GIS software, specifically its r.sim.water module was used for hydro-logical modelling of the surface runoff. The simulation included a detailed digital eleva-tion model calculated from airborne laser scanning data and land cover derived from a detailed orthoimagery map. The infiltration rate parameter and the Manning’s roughness coefficient were estimated based on land cover classes. The simulation produced water depth maps describing flood events. The results showed that during the winter season in 2016, a smaller rainfall intensity was necessary for flood occurrence and that this phenomenon is primarily caused by frozen soil, through which no water is being infiltrated. The simulation of summer flood event in 2017 shows similar results of runoff accumulation but with higher rainfall intensity and infiltration rate. The flash flood event in 2021 turned out to be differ-ent, with such extreme rainfall intensity that even higher infiltration rate was insufficient in slowing the surface runoff. The results also proved the suitability of the chosen method for small-scale high-resolution hydrological simulations. URL: https://www.gcass.science.upjs.sk/

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利用r.sim.water模块模拟多米卡洞区洪水事件的地表水流

山洪暴发是影响多米卡溶洞地区的重要水文气象情况。山洪暴发取决于几个因素，如降水量、土地覆盖、植被物候阶段或土壤入渗率。本文主要研究了硅高原冬季和夏季洪水事件的模拟。本文的主要目的是评估模型参数化的效果，并解释洪水事件期间地表水流的空间方面。利用GRASS GIS软件，特别是其r.sim.water模块对地表径流进行水文建模。模拟包括根据机载激光扫描数据计算的详细数字高程模型和来自详细正射影像图的土地覆盖。根据不同的土地覆盖等级估算了入渗速率参数和曼宁粗糙度系数。模拟生成了描述洪水事件的水深图。结果表明，2016年冬季发生洪水所需的降雨强度较小，这一现象主要是由冻土引起的，没有水通过冻土入渗。对2017年夏季洪涝事件的模拟结果与径流累积相似，但降雨强度和入渗速率更高。2021年的山洪事件则有所不同，降雨强度如此之大，以至于再高的入渗速率也不足以减缓地表径流。结果还证明了所选方法对小尺度高分辨率水文模拟的适用性。URL: https://www.gcass.science.upjs.sk/

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来源期刊

Geographia Cassoviensis GEOGRAPHY-

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： Geographia Cassoviensis is a biannual peer-reviewed journal published by the Pavol Jozef Šafárik University in Košice since 2007. It is available both in print and open-access electronic version. The journal publishes original research articles from Geography and other closely-related research fields. Since 2016 the journal is indexed in SCOPUS and ERIH PLUS - European Reference Index for Humanities and Social Sciences, and since 2017 also in Emerging Sources Citation Index by Clarivate Analytics.