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Three Western Pacific Typhoons Strengthened Fire Weather in the Recent Northwest U.S. Conflagration

Jacob Stuivenvolt‐Allen, Shih‐Yu Wang, Matthew LaPlante, Jin‐Ho Yoon

2020Geophysical Research Letters28 citationsDOIOpen Access PDF

Abstract

Abstract Strong winds that accentuated a fire outbreak in the western United States in early September of 2020 resulted from an atmospheric wave train that spanned the Pacific Ocean. Days before the atmospheric waves developed in the United States, three western Pacific tropical cyclones (typhoons) underwent an extratropical transition over Korea within an unprecedentedly short span of 12 days. Using a climate diagnostic approach and historical forecast data, it was found that the amplitude of the atmospheric waves accompanying the western U.S. fire weather would not have been so profound if not for the influence of these typhoons. Together, the recurving typhoons provided a significant source of wave activity flux directed toward North America – amplifying the ridge over the U.S. west coast while deepening the trough in central Canada. This anomalous circulation produced the severe frontal system that caused extreme winds in western Oregon, Washington and California – rapidly spreading fire.

Topics & Concepts

TyphoonExtratropical cycloneClimatologyTrough (economics)RidgeAtmospheric circulationPacific oceanTropical cycloneEnvironmental scienceGeologyOceanographyGeographyMeteorologyEconomicsMacroeconomicsPaleontologyTropical and Extratropical Cyclones ResearchClimate variability and modelsMeteorological Phenomena and Simulations
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