上风向水分供应增加了水安全风险

José Posada-Marín, Juan Salazar, Maria Cristina Rulli, Lan Wang-Erlandsson, Fernando Jaramillo
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引用次数: 0

摘要

对水安全的跨境评估通常采用 "上游 "视角,重点关注特定水文流域内发生的危害和脆弱性。然而,由于为水文流域提供降水的水汽可能来自 "上风",可能改变水汽供应的危害和脆弱性可能会被忽视。在此,我们对 379 个水文流域的水安全风险进行了全球评估,考虑到了上风方向的脆弱性以及有限的治理和环境绩效所带来的危害。我们将这种上风向评估与关注上游的传统方法进行了比较。我们发现,考虑上风向的水分供应会增加水安全的评估风险。从上风角度看,极高风险下的需水量(即植被发展的特定需水量)为每年 32,900 千立方米,而从上游角度看,需水量为每年 20,500 千立方米。这项研究指出,在全球与水有关的风险评估中,需要考虑上风方向的水分依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Upwind moisture supply increases risk to water security

Upwind moisture supply increases risk to water security

Upwind moisture supply increases risk to water security
Transboundary assessments of water security typically adopt an ‘upstream’ perspective, focusing on hazards and vulnerabilities occurring within a given hydrological basin. However, as the moisture that provides precipitation in the hydrological basin probably originates ‘upwind’, hazards and vulnerabilities potentially altering the moisture supply can be overlooked. Here we perform a global assessment of risk to water security in 379 hydrological basins accounting for upwind vulnerabilities and hazards from limited governance and environmental performance. We compare this upwind assessment with the more conventional approach focusing upstream. We find that accounting for upwind moisture supply increases the assessed risk to water security. The upwind perspective results in 32,900 km3 yr−1 of water requirements (that is, the specific water needs of vegetation for their development) under very high risk, compared with 20,500 km3 yr−1 under the upstream perspective. This study pinpoints the need to account for upwind moisture dependencies in global water-related risk assessments. A global assessment of water security in 379 hydrological basins reveals that accounting for upwind moisture supply increases the assessed risk to water security.
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