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Multi‐Decadal Change in Western US Nighttime Vapor Pressure Deficit

A. M. Chiodi, Brian E. Potter, Narasimhan K. Larkin

2021Geophysical Research Letters46 citationsDOIOpen Access PDF

Abstract

Abstract Amid reports from western US wildland fire managers that, compared to when many started their careers, fires are burning longer throughout the day before reducing in intensity overnight, we examined decadal changes in nighttime vapor pressure deficits over the western United States with a focus on the summer fire season. We calculated changes using a recently updated observation‐assimilating reanalysis (ERA5) available at hourly resolution over the 1980–2019 period. Analysis identifies the proximate cause (atmospheric temperature vs. moisture content) of the observed changes and the extent to which they have been captured in climate model simulations. Increases in nighttime vapor pressure deficits of >50% in 40 years are evident over foothills of mountains ranges adjacent to arid plateaus. The largest observed increases greatly exceed the forced climate‐model response. Correlation analysis reveals a broad link between the variability of western US summer‐nighttime vapor pressure deficit and the Pacific Decadal Oscillation.

Topics & Concepts

ClimatologyEnvironmental scienceFoothillsVapour Pressure DeficitPacific decadal oscillationLow-pressure areaClimate changeAtmospheric sciencesEl Niño Southern OscillationAtmospheric pressureMeteorologyGeographyGeologyOceanographyCartographyTranspirationBiologyPhotosynthesisBotanyFire effects on ecosystemsClimate variability and modelsMeteorological Phenomena and Simulations
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