A Multi-Scale Climate Vulnerability and Risk Assesment (C-VRA) Methodology for Corporate Scale Investments: West Bank-Palestine Case Study

Erda Çeler, Yusuf Serengi̇l
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Abstract

Assessing climate vulnerability and risk has become a critical part of feasibility studies for infrastructure investments due to the increased frequency and severity of atmospheric disasters. However, evaluating climate parameters and disturbances can become challenging in vulnerable regions, such as the dry Mediterranean terrain. This is why climate vulnerability and risk assessment (C-VRA) should cover several parameters and factors besides climate analysis. In our case, the political stress and conflicts between Palestine and Israel settlements in the West Bank add additional risks and vulnerabilities. Our paper presents a C-VRA in the Nabi Saleh Village-West Bank of Palestine, where a dairy factory with a wastewater treatment plant will be built. The factory is estimated to use around 120 m3 of water daily and produce wastewater that will be treated and reused for agricultural irrigation. Unfortunately, the current practice in the region is to use untreated wastewater to irrigate trees and vegetables without restraint since the treatment capacity is low, and a large part of the wastewater is discharged untreated into the streams. The dairy factory is planned on a ridge at the upper watershed (headwater) of the 1795.04 km2 Yarkon Rive r basin. The local communities in the region are vulnerable to climate change impacts and related atmospheric disasters due to poverty, agriculture dependency, and political issues. To evaluate future climate projections, we used the latest Intergovernmental Panel on Climate Change Assessment Report 6 (IPCC AR6) methodology. We also used the Mann-Kendal test to analyze the historical trend of climate parameters and projections for three scenarios (optimistic, moderate, and pessimistic) of AR6 for a future period until 2080, considering the life span of the investments and water-specific physical climate risks. Results showed that the historical temperature had a statistically significant increasing trend projected to continue in the next 60 years. Additionally, according to all three scenarios, the precipitation in the region will decrease in the coming decades. As a result, we identified one high (water scarcity) and two moderate-level risks (rainfall decrease and drought) for the corporate, all related to water security. Our methodology incorporates basin-scale assessments with regional and local vulnerabilities, making it a potential tool for critical infrastructure investments elsewhere.
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企业规模投资的多尺度气候脆弱性和风险评估(C-VRA)方法:西岸-巴勒斯坦案例研究
由于大气灾害日益频繁和严重,评估气候脆弱性和风险已成为基础设施投资可行性研究的重要组成部分。然而,在脆弱地区,如干燥的地中海地形,评估气候参数和扰动可能具有挑战性。这就是为什么气候脆弱性和风险评估(C-VRA)除了气候分析之外,还应该涵盖多个参数和因素。在我们的案例中,巴勒斯坦和以色列在约旦河西岸定居点之间的政治压力和冲突增加了额外的风险和脆弱性。我们的论文介绍了巴勒斯坦约旦河西岸 Nabi Saleh 村的 C-VRA 情况,该村将建设一个带废水处理厂的乳品厂。据估计,该工厂每天用水量约为 120 立方米,产生的废水经处理后将回用于农业灌溉。遗憾的是,由于处理能力低,该地区目前的做法是无节制地使用未经处理的废水灌溉树木和蔬菜,大量废水未经处理就被排入溪流。奶制品厂计划建在面积为 1795.04 平方公里的叶尔羌河流域上游分水岭(源头)的山脊上。由于贫困、对农业的依赖和政治问题,该地区的当地社区很容易受到气候变化的影响和相关的大气灾害。为了评估未来的气候预测,我们采用了最新的政府间气候变化专门委员会第六次评估报告(IPCC AR6)方法。我们还使用 Mann-Kendal 检验法分析了 AR6 中三种情景(乐观、中度和悲观)的气候参数历史趋势和未来至 2080 年的预测,同时考虑到了投资寿命和特定水域的物理气候风险。结果表明,历史气温在统计上呈显著上升趋势,预计在未来 60 年内仍将持续。此外,根据所有三种情景,该地区的降水量在未来几十年都将减少。因此,我们为企业确定了一个高度风险(缺水)和两个中度风险(降雨量减少和干旱),这些风险都与水安全有关。我们的方法将流域范围的评估与区域和地方的脆弱性结合起来,使其成为其他地方关键基础设施投资的潜在工具。
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