Urban Flood Risk Reduction by Increasing Green Areas for Adaptation to Climate Change

As a consequence of climate change and urbanization, many cities will have to deal with more flooding and extreme heat stress. This paper presents a framework to maximize the effectiveness of Nature-Based Solutions (NBS) for flood risk reduction and thermal comfort enhancement. The framework involves an assessment of hazards with the use of models and field measurements. It also detects suitable implementation sites for NBS and quantifies their effectiveness for thermal comfort enhancement and flood risk reduction. The framework was applied in a densely urbanized study area, for which different small-scale urban NBS and their potential locations for implementation were assessed. The overall results show that the most effective performance in terms of flood mitigation and thermal comfort enhancement is likely achieved by applying a range of different measures at different locations. Therefore, the work presented here shows the potential of the framework to achieve an effective combination of measures and their locations, which was demonstrated on the case of the Sukhumvit area in Bangkok (Thailand). This can be particularly suitable for assessing and planning flood mitigation measures in combination with heat stress reduction.

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Review for "Increase in urban flood risk resulting from climate change - The role of storm temporal patterns" by Hettiarachchi et al.

10.5194/hess-2017-352-rc1 ◽

2017 ◽

Author(s):

Anonymous

Keyword(s):

Climate Change ◽

Flood Risk ◽

Temporal Patterns ◽

Urban Flood ◽

Urban Flood Risk

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Predicting Future Urban Flood Risk Using Land Change and Hydraulic Modeling in a River Watershed in the Central Province of Vietnam

Remote Sensing ◽

10.3390/rs13020262 ◽

2021 ◽

Vol 13 (2) ◽

pp. 262

Author(s):

Huu Duy Nguyen ◽

Dennis Fox ◽

Dinh Kha Dang ◽

Le Tuan Pham ◽

Quan Vu Viet Du ◽

...

Keyword(s):

Climate Change ◽

Land Cover ◽

Flood Risk ◽

Coastal Region ◽

Flood Plain ◽

Hydraulic Modeling ◽

Land Change ◽

Urban Flood ◽

The Impact ◽

Urban Flood Risk

Flood risk is a significant challenge for sustainable spatial planning, particularly concerning climate change and urbanization. Phrasing suitable land planning strategies requires assessing future flood risk and predicting the impact of urban sprawl. This study aims to develop an innovative approach combining land use change and hydraulic models to explore future urban flood risk, aiming to reduce it under different vulnerability and exposure scenarios. SPOT-3 and Sentinel-2 images were processed and classified to create land cover maps for 1995 and 2019, and these were used to predict the 2040 land cover using the Land Change Modeler Module of Terrset. Flood risk was computed by combining hazard, exposure, and vulnerability using hydrodynamic modeling and the Analytic Hierarchy Process method. We have compared flood risk in 1995, 2019, and 2040. Although flood risk increases with urbanization, population density, and the number of hospitals in the flood plain, especially in the coastal region, the area exposed to high and very high risks decreases due to a reduction in poverty rate. This study can provide a theoretical framework supporting climate change related to risk assessment in other metropolitan regions. Methodologically, it underlines the importance of using satellite imagery and the continuity of data in the planning-related decision-making process.

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