Abstract
In recent years, Taiwan has established a sound flood control foundation in terms of river management. Due to climate change and land development, surface runoff has increased. In addition, the functions of flood control engineering facilities have their limits. Surface runoff cannot be fully absorbed by rivers, and frequent floods still occur in some areas. According to the characteristics of water flowing along the terrain to low-lying land, the terrain features can be used to find out the hot areas prone to flooding and the appropriate location of flood storage space for improving flooding. On the basis of the natural terrain environment, the disaster risk framework is used to manage environmental complexity, and to carry out research on flood warning and governance decision-making systems, so that human beings can coexist with the uncertainty of flood risk. In this study, the Zhuoshuixi Basin was used as the sample area, the SCS-CN method was used to analyze the excess runoff, and the risk concept was used to establish a flood evaluation model. In addition, through the changes in land use, the SCS-CN method estimates the difference of potential maximum retention, quantifies the variation of excess rainfall in each watershed division, and uses the digital elevation model to calculate the depression site to analyze the relationship between the difference of potential maximum retention and the depression space of the watershed. The results show that the adaptation strategy for high-risk flooded areas should be strengthened, and areas with large water storage space and a small potential maximum retention difference can be the best location for offsite compensation.
Highlights
Taiwan is located on the northwest side of East Asia and the Pacific, between tropical and subtropical
Clarifying the distribution of land runoff can meet the demands of different stakeholders, reduce the pressure on flood management, and promote the fair and sustainable development of the river basin [43]
We considered the provision of Ecosystem Flood Regulation Services (EFRS), which means that the ability to store water and reduce runoff in a specific area depends on the local soil, land use, and topography [44,45]
Summary
Taiwan is located on the northwest side of East Asia and the Pacific, between tropical and subtropical. Under the influence of climate change and urbanization trends, waterway governance has reached the once-in-100-year protection standard in the past, but inland water urban areas still suffer from flooding. IPCC AR5 takes climate change assessment as the core, and considers the possibility of causing valuable things to be in an uncertain hazard as a risk. It is usually expressed as the probability of hazardous events or trends multiplied by the consequences of these events or trends [3,4], as shown in the following formula: Risk = hazard × vulnerability × exposure (1)
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