关键基础设施、社区恢复力和国家安全的永久冻土脆弱性指数研究

Q3 Social Sciences
L. Alessa, James Valentine, Sean K Moon, Christopher McComb, Sierra Hicks, V. Romanovsky, Ming Xiao, A. Kliskey
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引用次数: 0

摘要

用于评估社区风险、脆弱性和复原力、协助研究和政策规划的综合指标工具数量有所增加。然而,现有的研究表明,这些综合指标在方法、选择变量、汇总方法和样本量等方面存在很大差异。结果是有大量的定性和定量的综合指数可供选择。尽管每一项研究都提供了关于特定社区及其质量的有价值的基于位置的信息,但考虑到不同的指数属性和研究地点,每一项研究的结果都使用了不同的方法,不能轻易地整合在一起用于决策。与世界上许多地区一样,由于全球气候变化的直接后果,北极正在经历越来越多的温度变化。多年冻土变化的级联效应特征不明显,因此限制了在多个尺度上的响应。通过考虑多年冻土、基础设施和不同群落特征模式之间的空间相互作用,现有的研究可以使用不同的复合指数和框架进行扩展。我们使用了系统科学和基于地点的知识方法,通过空间相互作用的接近模型来解释子系统和级联影响。利用两个现有指数:相关基础设施和永久冻土范围,计算了整个阿拉斯加的“永久冻土脆弱性面”。提取了186个社区和30个军事设施的地表价值,并下令与德纳里委员会在评估永久冻土威胁时的数字排名相匹配,从而可以准确地比较永久冻土威胁排名和PVI排名。PVI背后的方法提供了一种工具,可以结合多种风险、恢复力和脆弱性指数来帮助适应规划,特别是在没有使用相同标准和方法进行地理样本分布良好的大规模研究的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Toward a Permafrost Vulnerability Index for Critical Infrastructure, Community Resilience and National Security
There has been a growth in the number of composite indicator tools used to assess community risk, vulnerability, and resilience, to assist study and policy planning. However, existing research shows that these composite indicators vary extensively in method, selected variables, aggregation methods, and sample size. The result is a plethora of qualitative and quantitative composite indices to choose from. Despite each providing valuable location-based information about specific communities and their qualities, the results of studies, each using disparate methods, cannot easily be integrated for use in decision making, given the different index attributes and study locations. Like many regions in the world, the Arctic is experiencing increased variability in temperatures as a direct consequence of a changing planetary climate. Cascading effects of changes in permafrost are poorly characterized, thus limiting response at multiple scales. We offer that by considering the spatial interaction between the effects of permafrost, infrastructure, and diverse patterns of community characteristics, existing research using different composite indices and frameworks can be augmented. We used a system-science and place-based knowledge approach that accounts for sub-system and cascade impacts through a proximity model of spatial interaction. An estimated ‘permafrost vulnerability surface’ was calculated across Alaska using two existing indices: relevant infrastructure and permafrost extent. The value of this surface in 186 communities and 30 military facilities was extracted and ordered to match the numerical rankings of the Denali Commission in their assessment of permafrost threat, allowing accurate comparison between the permafrost threat ranks and the PVI rankings. The methods behind the PVI provide a tool that can incorporate multiple risk, resilience, and vulnerability indices to aid adaptation planning, especially where large-scale studies with good geographic sample distribution using the same criteria and methods do not exist.
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来源期刊
Human Geographies
Human Geographies Social Sciences-Geography, Planning and Development
CiteScore
1.10
自引率
0.00%
发文量
7
审稿时长
8 weeks
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