Research advancements for impact chain based climate risk and vulnerability assessments

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
L. Petutschnig, Erich Rome, Daniel Lückerath, Katharina Milde, Åsa Gerger Swartling, C. Aall, M. Meyer, G. Jordà, J. Gobert, Mathilda Englund, Karin André, Muriel Bour, Emmanuel M. N. A. N. Attoh, B. Dale, K. Renner, Adeline Cauchy, Saskia Reuschel, Florence Rudolf, M. Agulles, C. Melo-Aguilar, M. Zebisch, S. Kienberger
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引用次数: 2

Abstract

As the climate crisis continues to worsen, there is an increasing demand for scientific evidence from Climate Risk and Vulnerability Assessments (CRVA). We present 12 methodological advancements to the Impact Chain-based CRVA (IC-based CRVA) framework, which combines participatory and data-driven approaches to identify and measure climate risks in complex socio-ecological systems. The advancements improve the framework along five axes, including the existing workflow, stakeholder engagement, uncertainty management, socio-economic scenario modeling, and transboundary climate risk examination. Eleven case studies were conducted and evaluated to produce these advancements. Our paper addresses two key research questions: (a) How can the IC-based CRVA framework be methodologically advanced to produce more accurate and insightful results? and (b) How effectively can the framework be applied in research and policy domains that it was not initially designed for? We propose methodological advancements to capture dynamics between risk factors, to resolve contradictory worldviews, and to maintain consistency between Impact Chains across policy scales. We suggest using scenario-planning techniques and integrating uncertainties via Probability Density Functions and Reverse Geometric Aggregation. Our research examines the applicability of IC-based CRVAs to address transboundary climate risks and integrating macro-economic models to reflect possible future socio-economic exposure. Our findings demonstrate that the modular structure of IC-based CRVA allows for the integration of various methodological advancements, and further advancements are possible to better assess complex climate risks and improve adaptation decision-making.
基于影响链的气候风险与脆弱性评估研究进展
随着气候危机的持续恶化,对气候风险和脆弱性评估(CRVA)的科学证据的需求越来越大。我们介绍了基于影响链的CRVA(基于IC的CRVA)框架的12个方法进步,该框架结合了参与性和数据驱动的方法,以识别和测量复杂社会生态系统中的气候风险。这些进步沿着五个轴改进了框架,包括现有的工作流程、利益相关者参与、不确定性管理、社会经济情景建模和跨界气候风险检查。为了取得这些进展,进行了11项案例研究并进行了评估。我们的论文解决了两个关键的研究问题:(a)如何在方法上推进基于IC的CRVA框架,以产生更准确、更有洞察力的结果?以及(b)该框架在最初没有设计用于研究和政策领域的情况下,如何有效地应用?我们建议在方法上取得进展,以捕捉风险因素之间的动态,解决相互矛盾的世界观,并保持政策范围内影响链之间的一致性。我们建议使用场景规划技术,并通过概率密度函数和反向几何聚合来整合不确定性。我们的研究考察了基于IC的CRVA在应对跨界气候风险和整合宏观经济模型以反映未来可能的社会经济风险方面的适用性。我们的研究结果表明,基于IC的CRVA的模块化结构允许整合各种方法学进步,进一步的进步有可能更好地评估复杂的气候风险并改进适应决策。
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
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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