Spatio-temporal dynamics of flood exposure in Shenzhen from present to future

Sarica, Gizem Mestav; Zhu, Tinger; Jian, Wei; Lo, Edmond Yat-Man; Pan, Tso–Chien

doi:10.1177/2399808321991540

Cited by 16 publications

(10 citation statements)

References 44 publications

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“…However, the in uence factors involved in ood risk and the ood risk process are uncertain and ambiguous. Fuzzy comprehensive evaluation method can solve these problems very well and is suitable for risk evaluation with fuzzy and uncertain characteristics (Cai et al 2019, Lai et al 2020, Sarica et al 2021, Zadeh 1965. After collecting all factor data in Table 1 and referring to the research results of Huang andLi (2021) and Abdalla et al (2014), the fuzzy comprehensive evaluation is used to assess urban rainstorm-induced ood risk in the study area, the speci c process is shown in Fig.…”

Section: Rainstorm-induced Flood Risk Assessment Methodsmentioning

confidence: 99%

System comprehensive risk assessment of urban rainstorm–induced flood-water pollution disasters

Huang

Wang

Liu

et al. 2023

Environ Sci Pollut Res

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Urban ood disaster itself brings casualties and property losses, and may induce secondary derivative disasters that can lead to more serious damage. The rainstorm-induced ood -water pollution disasters studied in the paper is a kind of systematic risk. On the basis of determining the ood risk level by using the fuzzy comprehensive evaluation method, the conditional probability in Bayesian theory is applied to explore and calculate the possibility of ood-induced water environment pollution, then the improved grid environmental risk evaluation method is used to evaluate the ood-induced water pollution risk, and the coupled superposition relationship of ood and water pollution risk is inscribed by constructing risk level matrix, nally the system comprehensive risk of rainstorm-induced ood -water pollution disasters is obtained. Shenzhen City is selected as the study area, and the results showed that the area with high-risk of both ood and water pollution only accounts for about 1.86% of the total area, mainly distributed in the eastern junction of Longgang district and Pingshan district, where the ood risk level is high and the enterprise risk sources are dense. The method proposed in this study can be used for the system comprehensive risk analysis of rainstorm-induced ood -water pollution disasters, which can not only quantitatively reveal the formation of the induced risk, but also provide reference for early warning.

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Section: Rainstorm-induced Flood Risk Assessment Methodsmentioning

confidence: 99%

System comprehensive risk assessment of urban rainstorm–induced flood-water pollution disasters

Huang

Wang

Liu

et al. 2023

Environ Sci Pollut Res

View full text Add to dashboard Cite

show abstract

Section: Rainstorm-induced Flood Risk Assessment Methodsmentioning

confidence: 99%

System Comprehensive Risk Assessment of Urban Rainstorm-induced Flood - Water Pollution Disasters

Huang

Wang

Liu

et al. 2022

Preprint

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Urban flood disaster itself brings casualties and property losses, and may induce secondary derivative disasters that can lead to more serious damage. The rainstorm-induced flood - water pollution disasters studied in the paper is a kind of systematic risk. On the basis of determining the flood risk level by using the fuzzy comprehensive evaluation method, the conditional probability in Bayesian theory is applied to explore and calculate the possibility of flood-induced water environment pollution, then the improved grid environmental risk evaluation method is used to evaluate the flood-induced water pollution risk, and the coupled superposition relationship of flood and water pollution risk is inscribed by constructing risk level matrix, finally the system comprehensive risk of rainstorm-induced flood - water pollution disasters is obtained. Shenzhen City is selected as the study area, and the results showed that the area with high-risk of both flood and water pollution only accounts for about 1.86% of the total area, mainly distributed in the eastern junction of Longgang district and Pingshan district, where the flood risk level is high and the enterprise risk sources are dense. The method proposed in this study can be used for the system comprehensive risk analysis of rainstorm-induced flood - water pollution disasters, which can not only quantitatively reveal the formation of the induced risk, but also provide reference for early warning.

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“…This indicates the increment of people settlement on the outer city region at the cost of agriculture and fallow land (Mekonnen and Ghosh 2020). Various analysis took place regarding sensitivity and other calibration best fit values over the years (Saxena et al 2021b;Sarica et al 2021;Zhang et al 2021;Jat and Saxena 2021). The road network gravity factor was also prominent for horizontal urban growth development.…”

Section: Model Predictionmentioning

confidence: 99%

Urban modelling and forecasting of landuse using SLEUTH model

Kumar

Agrawal

2022

Int. J. Environ. Sci. Technol.

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The present study performs landcover modelling using the SLEUTH model. The urban land use changing factors are calibrated to predict the Land Use Land Cover (LULC) for a densely populated and developing smart city, Prayagraj, India. This research aims to use the SLEUTH model for simulating the future urban growth with the help of historical LULC (1990LULC ( -2020, road network and elevation data. The influence of road gravity and slope resistant coefficients is very significant in this study's outcome. The built-up area of the region increased from 40.22 km 2 (5.10% of total area) in 1990 to 85.89 km 2 (10.89%) in 2020. According to prediction results, in the next 20 years, the built-up growth rate would be 1.9% and approximated built-up area would be 118.66 km 2 (14.98%) in the year 2040. The quality of the result has been quantified in terms of best fit value of Optimal SLEUTH Metric (OSM) and validated against the existing LULC. The study utilises a spatially explicit urban growth model with 30 m resolution remote sensing data and provides future landuse of Prayagraj city.

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Spatio-temporal dynamics of flood exposure in Shenzhen from present to future

Cited by 16 publications

References 44 publications

System comprehensive risk assessment of urban rainstorm–induced flood-water pollution disasters

System comprehensive risk assessment of urban rainstorm–induced flood-water pollution disasters

System Comprehensive Risk Assessment of Urban Rainstorm-induced Flood - Water Pollution Disasters

Urban modelling and forecasting of landuse using SLEUTH model

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