Identifying landscape patterns at different scales as driving factors for urban flooding
•Fragmented and dispersed landscape patterns are more effective in reducing flood occurrences.•Landscape configuration plays a more crucial role in flood events than landscape composition.•Flood mitigation requires prioritizing certain planning factors at varying spatial scales.•We introduce a novel...
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| Published in | Ecological indicators Vol. 176; p. 113614 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.07.2025
Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | •Fragmented and dispersed landscape patterns are more effective in reducing flood occurrences.•Landscape configuration plays a more crucial role in flood events than landscape composition.•Flood mitigation requires prioritizing certain planning factors at varying spatial scales.•We introduce a novel multiscale and multifactor analysis framework to enhance urban flood mitigation planning.
Climate change and rapid urbanization have led to increasingly frequent urban flooding, causing substantial losses. While previous studies have examined the impact of land use types on flooding, few studies have explored how the spatial distribution and configuration of land use (landscape patterns) influence urban flooding across different scales. This study addresses this gap by investigating the effects of landscape patterns on urban flood events in Chengdu, China. We constructed a comprehensive dataset comprising 28 flood influencing factors, including landscape pattern, topographic, and hydrological characteristics. Using Principal Component Analysis (PCA), we classified these variables and applied stepwise Poisson regression to evaluate how landscape patterns affect urban flooding. Our findings show that key influencing factors vary by scales: at the 1 km scale, topographic factors were most important; at the 2 km scale, impervious areas had the largest impact; and at the 3 km scale, landscape configuration factors were dominant. In particular, the mean patch area and cohesion were consistently significant across all scales, indicating that more fragmented and dispersed landscapes tend to reduce flooding occurrence. We conclude that scale is an important determinant for properly understanding the contribution of landscape patterns to urban flood mitigation. |
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| AbstractList | •Fragmented and dispersed landscape patterns are more effective in reducing flood occurrences.•Landscape configuration plays a more crucial role in flood events than landscape composition.•Flood mitigation requires prioritizing certain planning factors at varying spatial scales.•We introduce a novel multiscale and multifactor analysis framework to enhance urban flood mitigation planning.
Climate change and rapid urbanization have led to increasingly frequent urban flooding, causing substantial losses. While previous studies have examined the impact of land use types on flooding, few studies have explored how the spatial distribution and configuration of land use (landscape patterns) influence urban flooding across different scales. This study addresses this gap by investigating the effects of landscape patterns on urban flood events in Chengdu, China. We constructed a comprehensive dataset comprising 28 flood influencing factors, including landscape pattern, topographic, and hydrological characteristics. Using Principal Component Analysis (PCA), we classified these variables and applied stepwise Poisson regression to evaluate how landscape patterns affect urban flooding. Our findings show that key influencing factors vary by scales: at the 1 km scale, topographic factors were most important; at the 2 km scale, impervious areas had the largest impact; and at the 3 km scale, landscape configuration factors were dominant. In particular, the mean patch area and cohesion were consistently significant across all scales, indicating that more fragmented and dispersed landscapes tend to reduce flooding occurrence. We conclude that scale is an important determinant for properly understanding the contribution of landscape patterns to urban flood mitigation. Climate change and rapid urbanization have led to increasingly frequent urban flooding, causing substantial losses. While previous studies have examined the impact of land use types on flooding, few studies have explored how the spatial distribution and configuration of land use (landscape patterns) influence urban flooding across different scales. This study addresses this gap by investigating the effects of landscape patterns on urban flood events in Chengdu, China. We constructed a comprehensive dataset comprising 28 flood influencing factors, including landscape pattern, topographic, and hydrological characteristics. Using Principal Component Analysis (PCA), we classified these variables and applied stepwise Poisson regression to evaluate how landscape patterns affect urban flooding. Our findings show that key influencing factors vary by scales: at the 1 km scale, topographic factors were most important; at the 2 km scale, impervious areas had the largest impact; and at the 3 km scale, landscape configuration factors were dominant. In particular, the mean patch area and cohesion were consistently significant across all scales, indicating that more fragmented and dispersed landscapes tend to reduce flooding occurrence. We conclude that scale is an important determinant for properly understanding the contribution of landscape patterns to urban flood mitigation. Climate change and rapid urbanization have led to increasingly frequent urban flooding, causing substantial losses. While previous studies have examined the impact of land use types on flooding, few studies have explored how the spatial distribution and configuration of land use (landscape patterns) influence urban flooding across different scales. This study addresses this gap by investigating the effects of landscape patterns on urban flood events in Chengdu, China. We constructed a comprehensive dataset comprising 28 flood influencing factors, including landscape pattern, topographic, and hydrological characteristics. Using Principal Component Analysis (PCA), we classified these variables and applied stepwise Poisson regression to evaluate how landscape patterns affect urban flooding. Our findings show that key influencing factors vary by scales: at the 1 km scale, topographic factors were most important; at the 2 km scale, impervious areas had the largest impact; and at the 3 km scale, landscape configuration factors were dominant. In particular, the mean patch area and cohesion were consistently significant across all scales, indicating that more fragmented and dispersed landscapes tend to reduce flooding occurrence. We conclude that scale is an important determinant for properly understanding the contribution of landscape patterns to urban flood mitigation. |
| ArticleNumber | 113614 |
| Author | Stein, Alfred Li, Yao Dai, Shaoqing Osei, Frank Badu Hu, Tangao |
| Author_xml | – sequence: 1 givenname: Yao orcidid: 0000-0002-5406-4494 surname: Li fullname: Li, Yao email: yao.li@utwente.nl organization: Faculty of Geo-Information Science and Earth Observation (ITC), University of Twente, 7500 AE Enschede, the Netherlands – sequence: 2 givenname: Frank Badu surname: Osei fullname: Osei, Frank Badu organization: Faculty of Geo-Information Science and Earth Observation (ITC), University of Twente, 7500 AE Enschede, the Netherlands – sequence: 3 givenname: Shaoqing surname: Dai fullname: Dai, Shaoqing organization: School of Resource and Environmental Sciences, Wuhan University, 129 Luoyu Road, Wuhan 430079, China – sequence: 4 givenname: Tangao surname: Hu fullname: Hu, Tangao organization: School of information science and technology, Hangzhou Normal University, Yuhangtang Road No. 2318, Hangzhou 311121, China – sequence: 5 givenname: Alfred surname: Stein fullname: Stein, Alfred organization: Faculty of Geo-Information Science and Earth Observation (ITC), University of Twente, 7500 AE Enschede, the Netherlands |
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| Keywords | Urban flooding Driving factor Landscape composition and configuration Scale effect |
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| Snippet | •Fragmented and dispersed landscape patterns are more effective in reducing flood occurrences.•Landscape configuration plays a more crucial role in flood... Climate change and rapid urbanization have led to increasingly frequent urban flooding, causing substantial losses. While previous studies have examined the... |
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| SubjectTerms | China climate change cohesion data collection Driving factor flood control hydrology land use Landscape composition and configuration landscapes principal component analysis Scale effect topography Urban flooding urbanization |
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| Title | Identifying landscape patterns at different scales as driving factors for urban flooding |
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