Ecohydrologie urbaine et changement climatique

Q3 Earth and Planetary Sciences

Proceedings of the International Association of Hydrological Sciences Pub Date : 2021-11-16 DOI:10.5194/piahs-384-331-2021

P. Breil, A. Faty, Didier Orange

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Abstract

Abstract. Due to global change, cities of the future will have to deal with more intense runoff and longer drought sequences, in addition to a growing urban and peri-urban population. French Mediterranean cities, such as Toulon, are already densely urbanised and exposed to the effects of global warming. The adaptation of their infrastructures is problematic. Cities with high development potential, such as Dakar, offer the opportunity to imagine other solutions for the management of water resources and its extremes in the context of global change. In particular, it is a question of managing the flows of water and substances linked to intense runoff events according to an ecohydrological logic that makes it possible to reduce environmental risks and increase social and economic benefits. To do this, we use a hydrologically-based geomatics model (IRIP) that produces predictive maps of areas of generation, transfer and accumulation of intense runoff and associated nutrients. This allows us to target effective intervention areas to reduce risks and increase water resources, for example by simulating land use change in appropriate locations and at the same time stimulating specific biological processes. The fundamental principle of ecohydrology is to balance energy flows with biological metabolic flows at the sub-catchment scale. The mapping of intense runoff processes is a first step illustrated in this article for the cities of Toulon and Dakar. This first step is part of the Dakar'2030 project, which aims to rethink urban development and adapt it to climate change.

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城市生态水文与气候变化

摘要由于全球变化，未来的城市将不得不应对更强烈的径流和更长的干旱序列，以及不断增长的城市和城郊人口。法国的地中海城市，如土伦，已经密集城市化，并受到全球变暖的影响。他们的基础设施的适应是有问题的。达喀尔等具有高发展潜力的城市为在全球变化背景下管理水资源及其极端问题提供了设想其他解决方案的机会。特别是，这是一个根据生态水文逻辑管理与强烈径流事件相关的水和物质流动的问题，这使得减少环境风险和增加社会和经济效益成为可能。为此，我们使用了一种基于水文的地理信息模型(IRIP)，该模型可以生成密集土壤和相关营养物质产生、转移和积累区域的预测图。这使我们能够瞄准有效的干预区域，以减少风险和增加水资源，例如，通过在适当的地点模拟土地利用变化，同时刺激特定的生物过程。生态水文学的基本原理是在小流域尺度上平衡能量流和生物代谢流。绘制强烈径流过程的地图是土伦和达喀尔这两个城市在这篇文章中所阐述的第一步。第一步是达喀尔2030项目的一部分，该项目旨在重新思考城市发展并使其适应气候变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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0.00%

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审稿时长

12 weeks