Rainfall intensification amplifies exposure of American Southwest to conditions that trigger postfire debris flows

npj Natural Hazards Pub Date : 2024-06-07 DOI:10.1038/s44304-024-00017-8

Matthew A. Thomas, Allison C. Michaelis, Nina S. Oakley, Jason W. Kean, Victor A. Gensini, Walker S. Ashley

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Abstract

Short-duration, high-intensity rainfall can initiate deadly and destructive debris flows after wildfire. Methods to estimate the conditions that can trigger debris flows exist and guidance to determine how often those thresholds will be exceeded under the present climate are available. However, the limited spatiotemporal resolution of climate models has hampered efforts to characterize how rainfall intensification driven by global warming may affect debris-flow hazards. We use novel, dynamically downscaled (3.75-km), convection-permitting simulations of short-duration (15-min) rainfall to evaluate threshold exceedance for late 21st-century climate scenarios in the American Southwest. We observe significant increases in the frequency and magnitude of exceedances for regions dominated by cool- and warm-season rainfall. We also observe an increased frequency of exceedance in regions where postfire debris flows have not been documented, and communities are unaccustomed to the hazard. Our findings can inform planning efforts to increase resiliency to debris flows under a changing climate.

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降雨加剧使美国西南部更容易受到引发火后泥石流的条件的影响

野火过后，短时间、高强度的降雨会引发致命的破坏性泥石流。目前已经有了估算可能引发泥石流的条件的方法，也有了确定在目前气候条件下超过这些阈值的频率的指南。然而，由于气候模型的时空分辨率有限，因此无法确定全球变暖导致的降雨加剧会如何影响泥石流灾害。我们利用新颖、动态降尺度（3.75 千米）、允许对流的短时（15 分钟）降雨模拟来评估美国西南部 21 世纪晚期气候情景下的阈值超标情况。我们观察到，在冷季和暖季降雨占主导地位的地区，超标频率和超标幅度都明显增加。我们还观察到，在一些尚未记录过火后泥石流的地区，超标频率会增加，而这些地区的社区也不习惯这种灾害。我们的研究结果可为规划工作提供参考，以提高在不断变化的气候条件下抵御泥石流的能力。

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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npj Natural Hazards

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