Earthquake scenario development in conjunction with the 2023 USGS National Seismic Hazard Model

Earthquake Spectra Pub Date : 2024-06-07 DOI:10.1177/87552930241253837

Robert E Chase, K. Jaiswal, Mark D. Petersen

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Abstract

We present earthquake scenarios developed to accompany the release of the 2023 update to the US Geological Survey National Seismic Hazard Model (NSHM). Scenarios can serve a range of local and regional needs, from developing proactive-targeted mitigation strategies for minimizing impending risk to aiding emergency management planning. These deterministic scenarios can also be used to communicate seismic hazard and risk to audiences who are not well versed in methods, such as probabilistic seismic hazard analyses. Specifically, we discuss the scenarios developed, challenges, and lessons learned in the development process, and how this work aided the development of the 2023 NSHM itself. In total, 28 scenarios were developed for Hawaii, Utah, Alaska, and Virginia considering the 2023 NSHM science, past scenario efforts, and input from local experts and stakeholders. Finally, we investigate how NSHM modeling decisions can change estimated impacts to Utah and Hawaii in more detail showing, for example, that a shallower dip of the Wasatch fault under Salt Lake City can increase predicted ground-motion intensities and therefore estimated losses and deaths.

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结合 2023 年美国地质调查局国家地震灾害模型制定地震方案

我们介绍了为配合美国地质调查局国家地震危害模型（NSHM）2023 年更新版的发布而开发的地震场景。情景模拟可满足地方和区域的各种需求，包括制定有针对性的主动减灾战略，最大限度地降低即将发生的风险，以及协助制定应急管理规划。这些确定性情景还可用于向不熟悉概率地震危害分析等方法的受众传达地震危害和风险信息。具体而言，我们将讨论在开发过程中开发的情景、面临的挑战和吸取的教训，以及这项工作如何帮助开发《2023 年国家人类健康手册》本身。考虑到《2023 年国家人类健康指标》的科学依据、以往的情景分析工作以及当地专家和利益相关者的意见，我们总共为夏威夷、犹他州、阿拉斯加和弗吉尼亚州制定了 28 个情景分析方案。最后，我们更详细地研究了《国家人类安全机制》建模决策如何改变对犹他州和夏威夷州的估计影响，例如，盐湖城下瓦萨奇断层较浅的倾角会增加预测的地动强度，从而增加估计的损失和死亡人数。

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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Earthquake Spectra

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