沿海河流三角洲全球变化情景及其对可持续发展的影响

IF 8.6 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Murray W. Scown , Frances E. Dunn , Stefan C. Dekker , Detlef P. van Vuuren , Sitar Karabil , Edwin H. Sutanudjaja , Maria J. Santos , Philip S.J. Minderhoud , Ahjond S. Garmestani , Hans Middelkoop
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引用次数: 0

摘要

三角洲在实现全球可持续发展的雄心中发挥着关键作用,因为它们在人口和生产性农田中所占的比例相对较大,而且它们处于上游河流流域开发和海平面上升之间的危险低洼位置。这些系统面临的巨大压力有可能破坏三角洲社会、经济和生态系统的持久性。我们分析了全球49个三角洲在共享社会经济和代表性集中路径下到2100年可能的未来发展。平均而言,这些三角洲的人口密度、城市比例、总灌溉农田比例是世界其他地区的3到12倍。根据不同的情景,预计最大河流水量将平均增加11 - 33%,河流泥沙排放量将平均减少26 - 37%。在最坏的情况下,到2100年,某些三角洲的区域海平面上升将接近1.0 m,考虑到地面沉降,相对上升将接近2.0 m。在被分析的49个三角洲中,有6个的极端海平面可能会更高,到2100年将超过4.0米。在压力最大的三角洲地区,支持适应的社会经济条件最弱,这加剧了可持续发展的挑战。亚洲和非洲三角洲突出地面临着严峻的社会经济挑战——大多数亚洲三角洲和尼罗河三角洲面临着巨大的人口和土地使用压力;大多数非洲三角洲和伊洛瓦底江三角洲的适应能力较低。不过,世界其他地区的三角洲也不能幸免于这些和其他压力。由于三角洲地区与小岛屿、山区和半干旱地区等其他“热点”地区一样存在独特的压力和过程,我们建议在全球可持续发展议程和用于指导全球政策的综合评估模型中更多地考虑和概念化环境过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global change scenarios in coastal river deltas and their sustainable development implications

Deltas play a critical role in the ambition to achieve global sustainable development given their relatively large shares in population and productive croplands, as well as their precarious low-lying position between upstream river basin development and rising seas. The large pressures on these systems risk undermining the persistence of delta societies, economies, and ecosystems. We analyse possible future development in 49 deltas around the globe under the Shared Socio-economic and Representative Concentration Pathways until 2100. Population density, urban fraction, and total and irrigated cropland fraction are three to twelve times greater in these deltas, on average, than in the rest of the world. Maximum river water discharges are projected to increase by 11–33 % and river sediment discharges are projected to decrease 26–37 % on average, depending on the scenario. Regional sea-level rise reaches almost 1.0 m by 2100 for certain deltas in the worst-case scenario, increasing to almost 2.0 m of relative rise considering land subsidence. Extreme sea levels could be much higher still—reaching over 4.0 m by 2100 for six of the 49 deltas analysed. Socio-economic conditions to support adaptation are the weakest among deltas with the greatest pressures, compounding the challenge of sustainable development. Asian and African deltas stand out as having heightened socio-economic challenges—huge population and land use pressures in most Asian deltas and the Nile delta; low capacity for adaptation in most African deltas and the Irrawaddy delta. Although, deltas in other parts of the world are not immune from these and other pressures, either. Because of unique pressures and processes operating in deltas, as in other “hotspots” such as small islands, mountains, and semi-arid areas, we recommend greater consideration and conceptualisation of environmental processes in global sustainable development agendas and in the Integrated Assessment Models used to guide global policy.

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来源期刊
Global Environmental Change
Global Environmental Change 环境科学-环境科学
CiteScore
18.20
自引率
2.20%
发文量
146
审稿时长
12 months
期刊介绍: Global Environmental Change is a prestigious international journal that publishes articles of high quality, both theoretically and empirically rigorous. The journal aims to contribute to the understanding of global environmental change from the perspectives of human and policy dimensions. Specifically, it considers global environmental change as the result of processes occurring at the local level, but with wide-ranging impacts on various spatial, temporal, and socio-political scales. In terms of content, the journal seeks articles with a strong social science component. This includes research that examines the societal drivers and consequences of environmental change, as well as social and policy processes that aim to address these challenges. While the journal covers a broad range of topics, including biodiversity and ecosystem services, climate, coasts, food systems, land use and land cover, oceans, urban areas, and water resources, it also welcomes contributions that investigate the drivers, consequences, and management of other areas affected by environmental change. Overall, Global Environmental Change encourages research that deepens our understanding of the complex interactions between human activities and the environment, with the goal of informing policy and decision-making.
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