Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters

Institut for Geovidenskab og Naturforvaltning

Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

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Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters. / Ding, Shengping; Xu, Lilai; Liu, Shidong; Yang, Xue; Wang, Li; Perez-Sindin, Xaquin S.; Prishchepov, Alexander V.

I: Science of the Total Environment, Bind 919, 170831, 2024.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Ding, S, Xu, L, Liu, S, Yang, X, Wang, L, Perez-Sindin, XS & Prishchepov, AV 2024, 'Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters', Science of the Total Environment, bind 919, 170831. https://doi.org/10.1016/j.scitotenv.2024.170831

APA

Ding, S., Xu, L., Liu, S., Yang, X., Wang, L., Perez-Sindin, X. S., & Prishchepov, A. V. (2024). Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters. Science of the Total Environment, 919, [170831]. https://doi.org/10.1016/j.scitotenv.2024.170831

Vancouver

Ding S, Xu L, Liu S, Yang X, Wang L, Perez-Sindin XS o.a. Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters. Science of the Total Environment. 2024;919. 170831. https://doi.org/10.1016/j.scitotenv.2024.170831

Author

Ding, Shengping ; Xu, Lilai ; Liu, Shidong ; Yang, Xue ; Wang, Li ; Perez-Sindin, Xaquin S. ; Prishchepov, Alexander V. / Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters. I: Science of the Total Environment. 2024 ; Bind 919.

Bibtex

@article{81411bbc34554cd3b088d854688f4a12,

title = "Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters",

abstract = "The increasing risk of climate change in the Anthropocene underscores the importance and urgency of enhancing resilience to climate-related disasters. However, the assessment of resilience to disasters with traditional statistical data is spatially inexplicit and timeliness inadequate, and the determinants of resilience remain unclear. In this study, we employed spatially detailed daily nighttime light images to assess socio-economic disturbance and track near real-time recovery of coastal communities in Southeast China following super typhoon Meranti. Furthermore, we constructed a “exposure-sensitivity-adaptive capacity” framework to explore the role of key factors in shaping spatiotemporal patterns of recovery. Our case study showed a significant spatial disparity in socio-economic recovery in the post-typhoon period. Low-urbanized areas recovered relatively rapidly with the weakest socio-economic disturbance they suffered, and middle-urbanized areas experienced the slowest recovery despite the disruption being moderate. Remarkably, high-urbanized areas were the most severely impacted by the typhoon but recovered fast. The exposure to hazard, socio-economic sensitivity, and adaptive capacity in communities explained well the spatial disparity of resilience to the typhoon. Maximum wind speed, percentage of the elderly, and percentage of low-income population significantly negatively correlated with resilience, whereas commercial activity intensity, spatial accessibility of hospitals, drainage capacity, and percentage of green open space showed significantly positive relationships with resilience. Notably, the effects of key factors on resilience were spatially heterogeneous. For instance, maximum wind speed exhibited the strongest influence on resilience in middle-urbanized areas, while the effect of commercial activity intensity was most pronounced in low-urbanized areas. Conversely, spatial accessibility of hospitals and drainage capacity showed the strongest influence in high-urbanized areas. Our study highlights the necessity of linking post-disaster recovery with intensity of hazard, socio-economic sensitivity, and adaptive capacity to understand community resilience for better disaster risk reduction.",

keywords = "Community resilience, Influence factors, Nighttime light, Recovery, Spatial heterogeneity",

author = "Shengping Ding and Lilai Xu and Shidong Liu and Xue Yang and Li Wang and Perez-Sindin, {Xaquin S.} and Prishchepov, {Alexander V.}",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2024",

doi = "10.1016/j.scitotenv.2024.170831",

language = "English",

volume = "919",

journal = "Science of the Total Environment",

issn = "0048-9697",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Understanding the spatial disparity in socio-economic recovery of coastal communities following typhoon disasters

AU - Ding, Shengping

AU - Xu, Lilai

AU - Liu, Shidong

AU - Yang, Xue

AU - Wang, Li

AU - Perez-Sindin, Xaquin S.

AU - Prishchepov, Alexander V.

PY - 2024

Y1 - 2024

N2 - The increasing risk of climate change in the Anthropocene underscores the importance and urgency of enhancing resilience to climate-related disasters. However, the assessment of resilience to disasters with traditional statistical data is spatially inexplicit and timeliness inadequate, and the determinants of resilience remain unclear. In this study, we employed spatially detailed daily nighttime light images to assess socio-economic disturbance and track near real-time recovery of coastal communities in Southeast China following super typhoon Meranti. Furthermore, we constructed a “exposure-sensitivity-adaptive capacity” framework to explore the role of key factors in shaping spatiotemporal patterns of recovery. Our case study showed a significant spatial disparity in socio-economic recovery in the post-typhoon period. Low-urbanized areas recovered relatively rapidly with the weakest socio-economic disturbance they suffered, and middle-urbanized areas experienced the slowest recovery despite the disruption being moderate. Remarkably, high-urbanized areas were the most severely impacted by the typhoon but recovered fast. The exposure to hazard, socio-economic sensitivity, and adaptive capacity in communities explained well the spatial disparity of resilience to the typhoon. Maximum wind speed, percentage of the elderly, and percentage of low-income population significantly negatively correlated with resilience, whereas commercial activity intensity, spatial accessibility of hospitals, drainage capacity, and percentage of green open space showed significantly positive relationships with resilience. Notably, the effects of key factors on resilience were spatially heterogeneous. For instance, maximum wind speed exhibited the strongest influence on resilience in middle-urbanized areas, while the effect of commercial activity intensity was most pronounced in low-urbanized areas. Conversely, spatial accessibility of hospitals and drainage capacity showed the strongest influence in high-urbanized areas. Our study highlights the necessity of linking post-disaster recovery with intensity of hazard, socio-economic sensitivity, and adaptive capacity to understand community resilience for better disaster risk reduction.

AB - The increasing risk of climate change in the Anthropocene underscores the importance and urgency of enhancing resilience to climate-related disasters. However, the assessment of resilience to disasters with traditional statistical data is spatially inexplicit and timeliness inadequate, and the determinants of resilience remain unclear. In this study, we employed spatially detailed daily nighttime light images to assess socio-economic disturbance and track near real-time recovery of coastal communities in Southeast China following super typhoon Meranti. Furthermore, we constructed a “exposure-sensitivity-adaptive capacity” framework to explore the role of key factors in shaping spatiotemporal patterns of recovery. Our case study showed a significant spatial disparity in socio-economic recovery in the post-typhoon period. Low-urbanized areas recovered relatively rapidly with the weakest socio-economic disturbance they suffered, and middle-urbanized areas experienced the slowest recovery despite the disruption being moderate. Remarkably, high-urbanized areas were the most severely impacted by the typhoon but recovered fast. The exposure to hazard, socio-economic sensitivity, and adaptive capacity in communities explained well the spatial disparity of resilience to the typhoon. Maximum wind speed, percentage of the elderly, and percentage of low-income population significantly negatively correlated with resilience, whereas commercial activity intensity, spatial accessibility of hospitals, drainage capacity, and percentage of green open space showed significantly positive relationships with resilience. Notably, the effects of key factors on resilience were spatially heterogeneous. For instance, maximum wind speed exhibited the strongest influence on resilience in middle-urbanized areas, while the effect of commercial activity intensity was most pronounced in low-urbanized areas. Conversely, spatial accessibility of hospitals and drainage capacity showed the strongest influence in high-urbanized areas. Our study highlights the necessity of linking post-disaster recovery with intensity of hazard, socio-economic sensitivity, and adaptive capacity to understand community resilience for better disaster risk reduction.

KW - Community resilience

KW - Influence factors

KW - Nighttime light

KW - Recovery

KW - Spatial heterogeneity

U2 - 10.1016/j.scitotenv.2024.170831

DO - 10.1016/j.scitotenv.2024.170831

M3 - Journal article

C2 - 38340859

AN - SCOPUS:85185194781

VL - 919

JO - Science of the Total Environment

JF - Science of the Total Environment

SN - 0048-9697

M1 - 170831

ER -

ID: 385268870