Establishment of Flash Flood Risk Map, Reduce It is Harmful Effect

AbstractThe study of flood risk involves the knowledge of the spatial variability in the characteristics of the vegetation cover, terrain, climate and changes induced by the intervention of humans in watersheds. The increased needs of the actors in land management mean that static maps no longer meet the requirements of scientists and decision-makers. Access is needed to the data, methods and tools to produce complex maps in response to the different stages of risk evaluation and response. The availability of very high spatial resolution remote sensing data (VHSR) and digital terrain model (DTM) make it possible to detect objects close to human size and, therefore, is of interest for studying anthropogenic activities. The development of new methods and knowledge using detailed spatial data, coupled with the use of GIS, naturally becomes beneficial to the risks analysis. Indeed, the extraction of information from specific processes, such as vegetation indices, can be used as variables such as water heights, flow velocities, flow rates and submersion to predict the potential consequences of a flood. The functionalities of GIS for cartographic overlay and multi-criteria spatial analysis make it possible to identify the flood zones according to the level of risk from the flood, thus making it a useful decision-making tool.This study was carried out on the territory of watersheds in the Annaba region, East of Algeria. The choice was guided by the availability of data (satellites images, maps, hydrology, etc.) and hydrological specificities (proximity to an urban area). The adopted model is divided into two parts. The first part is to establish a methodology for the preservation of wetland biodiversity and the protection of urban areas against floods. Thanks to the multi-criteria spatial analysis and the functionalities of the GIS, we established a flood risk map for the watershed defined above. The result was satisfactory compared with the field reality. The second part of the model consisted of the integration of cadastral information with the flood risk map obtained in the first part of our research.The primary objective of this mapping is to contribute to the development of flood risk management plans (in the sense of risk reduction). The mapping stage also provides quantitative elements to more accurately assess the vulnerability of a territory.

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Assessing the Governance Context Support for Creating a Pluvial Flood Risk Map with Climate Change Scenarios: The Flemish Subnational Case

ISPRS International Journal of Geo-Information ◽

10.3390/ijgi9070460 ◽

2020 ◽

Vol 9 (7) ◽

pp. 460 ◽

Cited By ~ 1

Author(s):

Cesar Casiano Flores ◽

Joep Crompvoets

Keyword(s):

Climate Change ◽

Flood Risk ◽

Steering Committee ◽

Provincial Government ◽

Climate Change Scenarios ◽

Risk Map ◽

The Creation ◽

Risk Maps ◽

Flood Risk Map ◽

Subnational Governments

Climate change has increased pluvial flood risks in cities around the world. To mitigate floods, pluvial risk maps with climate change scenarios have been developed to help major urban areas adapt to a changing climate. In some cases, subnational governments have played a key role to develop these maps. However, governance research about the role of subnational governments in geospatial data development in urban water transitions has received little attention. To address this gap, this research applies the Governance Assessment Tool as an evaluative framework to increase our understanding of the governance factors that support the development of pluvial flood risk maps at the subnational level. For this research, we selected the region of Flanders in Belgium. This region is considered among the frontrunners when it comes to the creation of a pluvial flood risk map with climate change scenarios. Data have been collected through in-depth interviews with steering committee actors involved in the development process of the map. The research identified that the current governance context is supportive of the creation of the flood risk map. The government of Flanders plays a key role in this process. The most supportive qualities of the governance context are those related to the degree of fragmentation (extent and coherence), while the less supportive ones are those related to the “quest for control” (flexibility and intensity). Under this governance context, government actors play the primary role. The Flemish government led the maps’ creation process and it was supported by the lower governmental levels. As the provincial government was an important actor to increase local participation, collaboration with private and non-governmental actors in the steering committee was more limited. The financial resources were also limited and the process required a continuous development of trust. Yet, the Flemish Environmental Agency, with the use of technology, was able to increase such trust during the process.

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Flood risk map (case study in Kelantan)

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/244/1/012019 ◽

2019 ◽

Vol 244 ◽

pp. 012019

Author(s):

A H Salleh ◽

M S S Ahamad

Keyword(s):

Flood Risk ◽

Risk Map ◽

Flood Risk Map

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Assessment of Flood Risk Map under Climate Change RCP8.5 Scenarios in Taiwan

Water ◽

10.3390/w14020207 ◽

2022 ◽

Vol 14 (2) ◽

pp. 207

Author(s):

Yun-Ju Chen ◽

Hsuan-Ju Lin ◽

Jun-Jih Liou ◽

Chao-Tzuen Cheng ◽

Yung-Ming Chen

Keyword(s):

Climate Change ◽

High Risk ◽

Flood Risk ◽

Spatial Scales ◽

Disaster Risk ◽

Decision Makers ◽

Risk Map ◽

Climate Data ◽

Risk Areas ◽

Flood Risk Map

Climate change has exerted a significant global impact in recent years, and extreme weather-related hazards and incidents have become the new normal. For Taiwan in particular, the corresponding increase in disaster risk threatens not only the environment but also the lives, safety, and property of people. This highlights the need to develop a methodology for mapping disaster risk under climate change and delineating those regions that are potentially high-risk areas requiring adaptation to a changing climate in the future. This study provides a framework of flood risk map assessment under the RCP8.5 scenario by using different spatial scales to integrate the projection climate data of high resolution, inundation potential maps, and indicator-based approach at the end of the 21st century in Taiwan. The reference period was 1979–2003, and the future projection period was 2075–2099. High-resolution climate data developed by dynamic downscaling of the MRI-JMA-AGCM model was used to assess extreme rainfall events. The flood risk maps were constructed using two different spatial scales: the township level and the 5 km × 5 km grid. As to hazard-vulnerability(H-V) maps, users can overlay maps of their choice—such as those for land use distribution, district planning, agricultural crop distribution, or industrial distribution. Mapping flood risk under climate change can support better informed decision-making and policy-making processes in planning and preparing to intervene and control flood risks. The elderly population distribution is applied as an exposure indicator in order to guide advance preparation of evacuation plans for high-risk areas. This study found that higher risk areas are distributed mainly in northern and southern parts of Taiwan and the hazard indicators significantly increase in the northern, north-eastern, and southern regions under the RCP8.5 scenario. Moreover, the near-riparian and coastal townships of central and southern Taiwan have higher vulnerability levels. Approximately 14% of townships have a higher risk level of flooding disaster and another 3% of townships will become higher risk. For higher-risk townships, adaptation measures or strategies are suggested to prioritize improving flood preparation and protecting people and property. Such a flood risk map can be a communication tool to effectively inform decision- makers, citizens, and stakeholders about the variability of flood risk under climate change. Such maps enable decision-makers and national spatial planners to compare the relative flood risk of individual townships countrywide in order to determine and prioritize risk adaptation areas for planning spatial development policies.

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River Modelling for Flood Risk Map Prediction: A Case Study of Kayu Ara River Basin, Malaysia

International Academy of Engineers (IA-E) Dec. 30-31, 2014 Bangkok, Thailand ◽

10.15242/iae.iae1214510 ◽

2014 ◽

Keyword(s):

River Basin ◽

Flood Risk ◽

Risk Map ◽

River Modelling ◽

Flood Risk Map

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Flood Risk Map Analysis Based on Dam-Break Simulation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.594-597.1983 ◽

2012 ◽

Vol 594-597 ◽

pp. 1983-1987

Author(s):

Xiao Ling Wang ◽

Long Zhou ◽

Rui Rui Sun

Keyword(s):

Flood Risk ◽

Three Dimensional ◽

Dam Break ◽

Risk Map ◽

Emergency Plan ◽

Complex Boundary Condition ◽

Complex Boundary ◽

Volume Method ◽

Map Analysis ◽

Flood Risk Map

The flood risk map is useful to make a regional flood emergency plan and analyze the dam-break flood risk. A three-dimensional mathematical model is applied to simulate the floods evolution with consideration of the dam-break process and the complex boundary condition synthetically, and the finite volume method is used to get a discrete solution. The flood evolution process of Dongwushi reservoir in the instantaneous collapse conditions is taken as a case, and the flood risk map is obtained based on the results of calculation.

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Topography- and nightlight-based national flood risk assessment in Canada

10.5194/hess-2016-524 ◽

2016 ◽

Author(s):

Amin Elshorbagy ◽

Anchit Lakhanpal ◽

Bharath Raja ◽

Serena Ceola ◽

Alberto Montanari ◽

...

Keyword(s):

Flood Risk ◽

Flood Hazard ◽

Hazard Mapping ◽

Hazard Map ◽

Flood Risk Assessment ◽

Risk Map ◽

National Scale ◽

Digital Elevation ◽

The City ◽

Flood Risk Map

Abstract. In Canada, flood analysis and water resource management, in general, are tasks conducted at the provincial level; therefore, unified national-scale approaches to water-related problems are uncommon. In this study, a national-scale flood risk assessment approach is proposed and developed. The study focuses on using global and national datasets available at reasonably fine resolutions to create flood risk maps. First, a flood hazard map of Canada is developed using topography-based parameters derived from digital elevation models namely Elevation Above Nearest Drainage (EAND) and Distance From Nearest Drainage (DFND). This flood hazard mapping method is tested on a smaller area around the city of Calgary, Alberta, against a flood inundation map produced by the City using hydraulic modeling. Second, a flood exposure map of Canada is developed using a land-use map and the satellite-based nightlight luminosity data as two exposure parameters. Third, an economic flood risk map is produced, and subsequently overlaid with population density information to produce a socioeconomic flood risk map for Canada. All three maps of hazard, exposure, and risk are classified into five classes, ranging from very low to severe. A simple way to include flood protection measures in hazard estimation is also demonstrated using the example of the city of Winnipeg, Manitoba. This could be done for the entire country if information on flood protection across Canada were available. The evaluation of the flood hazard map shows that the topography-based method adopted in this study is both practical and reliable for large-scale analysis. Sensitivity analysis regarding the resolution of the digital elevation model is needed to identify the resolution that is fine enough for reliable hazard mapping, but coarse enough for computational tractability. The nightlight data are found to be useful for exposure and risk mapping in Canada; however, uncertainty analysis should be conducted to investigate the effect of the overglow phenomenon on flood risk mapping.

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