赞比亚水、环境卫生和个人卫生系统近期和未来受气候相关灾害影响的情况

Brigadier Libanda, Emily Rand, Gloria Nyam Gyang, Charity Tuseko Sindano, Lukundo Simwanza, Mkhuzo Chongo
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However, current research in Zambia has ignored linking climate science dimensions to WASH access programs, thus limiting WASH-related climate action across the country. Here, we combine analyses of <em>in situ</em> datasets, modeling techniques, and systematic literature reviews to provide a solid climate science basis for WASH–climate action in Zambia. We find that in a warm near future climate, the stretch along the Copperbelt–Livingstone railroad from the north to the south of the country is expected to record an increase in heavy rainfall single-day events ranging between 50 and ≥150 mm. As such, bacterial diseases, such as cholera outbreaks, are expected to increase, especially in the Copperbelt, Central, Lusaka, Southern, and the Eastern Provinces. Models further predict a drier Zambia in the near and far future of up to 12 days year<sup>−1</sup>, suggesting a higher risk of increased aridity which will compound challenges to the provision of safe drinking water. The projected rapid population growth in these regions will also heighten the challenges of accessing safe drinking water. Strategic investments in enhancing WASH access in these areas should be considered a matter of urgency.</p>","PeriodicalId":510893,"journal":{"name":"Journal of Water & Climate Change","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Recent and future exposure of water, sanitation, and hygiene systems to climate-related hazards in Zambia\",\"authors\":\"Brigadier Libanda, Emily Rand, Gloria Nyam Gyang, Charity Tuseko Sindano, Lukundo Simwanza, Mkhuzo Chongo\",\"doi\":\"10.2166/wcc.2024.392\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div data- reveal-group-><div><img alt=\\\"graphic\\\" data-src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/3/10.2166_wcc.2024.392/2/m_jwc-d-23-00392gf01.png?Expires=1714805000&amp;Signature=4NL~jxKKL79LeOIznn-U2O7lfPlBskw0fB4Hhj9-y7MRpwCcY3~Hpe-WX1K2-2cIMgGtRWh0Zs4ny3FrG0sR8WUc4~NJhQZcW3s4UvNAqcU8krfmlezFF4mS~axSkbwwZBd9yuQ~0TUiJ~6cZ~30DazebMBWHoxet8ykLcow5FkvtMqRgmWWp5YcPmG1pZd1z~yE0jSz5KZGV3O~8Ab2UNnfFS3cyzTZBpBKFhYUS6ofPtnkPuNxH2tdG37Q9YqTotUAyeifzSS9x3Vq8f4ep4G1gy7PzTJLGuoFDtrQSCavjkJCsgyyhRk3mN8Y3jyc3LXwGKPQb1EIbS9ot7d2-w__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\" path-from-xml=\\\"jwc-d-23-00392gf01.tif\\\" src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/3/10.2166_wcc.2024.392/2/m_jwc-d-23-00392gf01.png?Expires=1714805000&amp;Signature=4NL~jxKKL79LeOIznn-U2O7lfPlBskw0fB4Hhj9-y7MRpwCcY3~Hpe-WX1K2-2cIMgGtRWh0Zs4ny3FrG0sR8WUc4~NJhQZcW3s4UvNAqcU8krfmlezFF4mS~axSkbwwZBd9yuQ~0TUiJ~6cZ~30DazebMBWHoxet8ykLcow5FkvtMqRgmWWp5YcPmG1pZd1z~yE0jSz5KZGV3O~8Ab2UNnfFS3cyzTZBpBKFhYUS6ofPtnkPuNxH2tdG37Q9YqTotUAyeifzSS9x3Vq8f4ep4G1gy7PzTJLGuoFDtrQSCavjkJCsgyyhRk3mN8Y3jyc3LXwGKPQb1EIbS9ot7d2-w__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\"/><div>View largeDownload slide</div></div></div><div content- data-reveal=\\\"data-reveal\\\"><div><img alt=\\\"graphic\\\" data-src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/3/10.2166_wcc.2024.392/2/m_jwc-d-23-00392gf01.png?Expires=1714805000&amp;Signature=4NL~jxKKL79LeOIznn-U2O7lfPlBskw0fB4Hhj9-y7MRpwCcY3~Hpe-WX1K2-2cIMgGtRWh0Zs4ny3FrG0sR8WUc4~NJhQZcW3s4UvNAqcU8krfmlezFF4mS~axSkbwwZBd9yuQ~0TUiJ~6cZ~30DazebMBWHoxet8ykLcow5FkvtMqRgmWWp5YcPmG1pZd1z~yE0jSz5KZGV3O~8Ab2UNnfFS3cyzTZBpBKFhYUS6ofPtnkPuNxH2tdG37Q9YqTotUAyeifzSS9x3Vq8f4ep4G1gy7PzTJLGuoFDtrQSCavjkJCsgyyhRk3mN8Y3jyc3LXwGKPQb1EIbS9ot7d2-w__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\" path-from-xml=\\\"jwc-d-23-00392gf01.tif\\\" src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/3/10.2166_wcc.2024.392/2/m_jwc-d-23-00392gf01.png?Expires=1714805000&amp;Signature=4NL~jxKKL79LeOIznn-U2O7lfPlBskw0fB4Hhj9-y7MRpwCcY3~Hpe-WX1K2-2cIMgGtRWh0Zs4ny3FrG0sR8WUc4~NJhQZcW3s4UvNAqcU8krfmlezFF4mS~axSkbwwZBd9yuQ~0TUiJ~6cZ~30DazebMBWHoxet8ykLcow5FkvtMqRgmWWp5YcPmG1pZd1z~yE0jSz5KZGV3O~8Ab2UNnfFS3cyzTZBpBKFhYUS6ofPtnkPuNxH2tdG37Q9YqTotUAyeifzSS9x3Vq8f4ep4G1gy7PzTJLGuoFDtrQSCavjkJCsgyyhRk3mN8Y3jyc3LXwGKPQb1EIbS9ot7d2-w__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\"/><div>View largeDownload slide</div></div><i> </i><span>Close modal</span></div></div><p>Climate change-driven water scarcity will lead to inequitable water, sanitation, and hygiene (WASH) access. 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摘要

查看大尺寸下载幻灯片查看大尺寸下载幻灯片 关闭模版气候变化导致的水资源短缺将导致不公平的水、环境卫生和个人卫生(WASH)获取。然而,赞比亚目前的研究忽略了将气候科学与水、环境卫生和个人卫生(WASH)获取计划联系起来,从而限制了全国各地与水、环境卫生和个人卫生相关的气候行动。在此,我们将现场数据集分析、建模技术和系统文献综述结合起来,为赞比亚的 "讲卫生运动-气候行动 "提供坚实的气候科学基础。我们发现,在温暖的近未来气候中,从该国北部到南部的铜带-活石铁路沿线的单日降雨量预计将增加,降雨量在 50 毫米到 150 毫米之间。因此,细菌性疾病(如霍乱爆发)预计会增加,尤其是在铜带省、中部省、卢萨卡省、南部省和东部省。模型进一步预测,在近期和远期,赞比亚将更加干旱,每年干旱天数可达 12 天,这表明干旱加剧的风险更高,这将加剧安全饮用水供应方面的挑战。预计这些地区人口的快速增长也将加剧获取安全饮用水的挑战。在这些地区进行战略投资,提高饮水、环卫和讲卫生运动的普及率,应被视为当务之急。
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Recent and future exposure of water, sanitation, and hygiene systems to climate-related hazards in Zambia
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Climate change-driven water scarcity will lead to inequitable water, sanitation, and hygiene (WASH) access. However, current research in Zambia has ignored linking climate science dimensions to WASH access programs, thus limiting WASH-related climate action across the country. Here, we combine analyses of in situ datasets, modeling techniques, and systematic literature reviews to provide a solid climate science basis for WASH–climate action in Zambia. We find that in a warm near future climate, the stretch along the Copperbelt–Livingstone railroad from the north to the south of the country is expected to record an increase in heavy rainfall single-day events ranging between 50 and ≥150 mm. As such, bacterial diseases, such as cholera outbreaks, are expected to increase, especially in the Copperbelt, Central, Lusaka, Southern, and the Eastern Provinces. Models further predict a drier Zambia in the near and far future of up to 12 days year−1, suggesting a higher risk of increased aridity which will compound challenges to the provision of safe drinking water. The projected rapid population growth in these regions will also heighten the challenges of accessing safe drinking water. Strategic investments in enhancing WASH access in these areas should be considered a matter of urgency.

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