Flood risk assessment under the shared socioeconomic pathways: a case of electricity bulk supply points in Greater Accra, Ghana.

Discover Water Pub Date : 2024-01-01 Epub Date: 2024-10-07 DOI:10.1007/s43832-024-00140-7
Ebenezer K Siabi, Akwasi Adu-Poku, Nathaniel Oppong Otchere, Edward A Awafo, Amos T Kabo-Bah, Nana S A Derkyi, Komlavi Akpoti, Geophrey K Anornu, Eunice Akyereko Adjei, Francis Kemausuor, Mashael Yazdanie
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Abstract

This study evaluates flood susceptibility and risk on Bulk Supply Points in the Greater Accra region (GAR) using a Frequency Ratio model based on 15 flood conditioning factors. The model explores the influence of natural, meteorological and anthropogenic factors on flooding occurrences under the Shared Socioeconomic Pathway (SSP) scenarios and assesses flood risks at Bulk Supply Points (BSPs). Flood susceptibility mapping was conducted for both current and future periods under various SSP scenarios. Results reveal that elevation, slope, soil type, distance from urban areas, and SPI are the most influential factors contributing to flooding susceptibility in the region. The current flood map, about 37% of the total area of GAR categorized under the moderate flood-susceptible zone category followed by about 30% categorized under the low flood-vulnerable zone. However, about 16% was categorized under the very high flood-vulnerable zone. The study projects increasing flood susceptibility under the SSP scenarios with intensification under SSP2 and SSP3 scenarios. For instance, the areas categorized as high and very high flood susceptibility zones are projected to expand to approximately 32% and 26% each by 2055 under SSP3. The study also assesses flood risks at Bulk Supply Points (BSPs), highlighting the escalating susceptibility of power assets to flooding under different scenarios. For instance, in the very high scenario, flooding is estimated to reach 640 h in 2045 and exceed 800 h in 2055-more than double the 2020 baseline. The analysis shows the bulk supply points face increasing flood susceptibility, with risks escalating most sharply under the severe climate change SSP3 and SSP5 scenarios. Over 75% of BSPs are expected to fall in the low- to medium-risk categories across SSPs while more than 50% of BSPs are within medium- to high-risk categories in all scenarios except SSP1, reflecting the impact of climate change. SSP3 and SSP5 stand out with over 60% of BSPs facing high or very high flooding risks by 2055. It indicates moderate resilience with proper adaptation but highlights potential disruptions in critical infrastructure, such as BSPs, during persistent flooding. The findings of the study are expected to inform Ghana's contributions towards addressing Sustainable Development Goals (SDGs) 7, 11 and 13 in Ghana.

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共享社会经济路径下的洪水风险评估:以加纳大阿克拉地区的电力大宗供应点为例。
本研究利用基于 15 个洪水影响因素的频率比模型,评估了大阿克拉地区(GAR)大宗商品供应点的洪水易感性和风险。该模型探讨了共同社会经济路径 (SSP) 情景下自然、气象和人为因素对洪水发生的影响,并评估了大宗货物供应点 (BSP) 的洪水风险。在各种 SSP 情景下,对当前和未来时期的洪水易发性进行了测绘。结果显示,海拔、坡度、土壤类型、与城市地区的距离和 SPI 是造成该地区洪水易发性的最大影响因素。在当前的洪水地图上,GAR 总面积的约 37% 被归类为中度易受洪水影响区域,约 30% 被归类为低度易受洪水影响区域。然而,约有 16% 的地区被归类为极易受洪水影响地区。研究预测,在可持续发展战略计划情景下,洪水易受影响程度将不断增加,在可持续发展战略计划 2 和可持续发展战略计划 3 情景下,洪水易受影响程度将进一步加剧。例如,根据 SSP3,预计到 2055 年,被归类为高洪水易发区和极高洪水易发区的地区将分别扩大到约 32% 和 26%。该研究还评估了大宗供应点 (BSP) 的洪水风险,强调了在不同情景下电力资产易受洪水影响的程度不断上升。例如,在极高情景下,预计 2045 年洪水将达到 640 小时,2055 年将超过 800 小时--是 2020 年基线的两倍多。分析表明,大宗供应点面临的洪水风险越来越大,在严重气候变化 SSP3 和 SSP5 情景下,风险升级最为剧烈。在所有 SSP 中,预计超过 75% 的散装物料供应点属于中低风险类别,而在除 SSP1 以外的所有情景中,超过 50% 的散装物料供应点属于中高危类别,这反映了气候变化的影响。中级战略计划 3 和中级战略计划 5 尤为突出,到 2055 年,超过 60% 的基准点面临较高或极高的洪水风险。这表明,在适当适应的情况下,会有一定的抗灾能力,但在持续洪灾期间,关键基础设施(如基础服务设施)可能会受到破坏。研究结果有望为加纳实现可持续发展目标(SDGs)7、11 和 13 做出贡献。
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来源期刊
Discover Water
Discover Water water research-
自引率
0.00%
发文量
13
审稿时长
23 days
期刊介绍: Discover Water is part of the Discover journal series committed to providing a streamlined submission process, rapid review and publication, and a high level of author service at every stage. It is an open access, community-focussed journal publishing research from across all fields relevant to water research. Discover Water is a broad, open access journal publishing research from across all fields relevant to the science and technology of water research and management. Discover Water covers not only research on water as a resource, for example for drinking, agriculture and sanitation, but also the impact of society on water, such as the effect of human activities on water availability and pollution. As such it looks at the overall role of water at a global level, including physical, chemical, biological, and ecological processes, and social, policy, and public health implications. It is also intended that articles published in Discover Water may help to support and accelerate United Nations Sustainable Development Goal 6: ‘Clean water and sanitation’.
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