Disentangling the mechanism of temperature and water vapor modulation on ozone under a warming climate
Zhang J, Gao Y, Leung L, Luo K, Wang M, Zhang Y, Bell M, Fan J. Disentangling the mechanism of temperature and water vapor modulation on ozone under a warming climate. Environmental Research Letters 2022, 17: 124032. DOI: 10.1088/1748-9326/aca3bc.Peer-Reviewed Original ResearchAnthropogenic emission reductionsWater vaporWarming climateHeat wavesLarge anthropogenic emission reductionOzone precursor emissionsVariation of ozoneLow ozone daysTemperature increaseClimate penaltyWetter climateAnthropogenic emissionsDominant regimeAnnual ozoneWestern U.S.Precursor emissionsLarge emission reductionsContiguous U.S.Ozone daysOzone pollutionOzone concentrationsClimateSoutheastern U.S.OzoneAir qualityIsolating the modulation of mean warming and higher-order temperature changes on ozone in a changing climate over the contiguous United States
Zhang J, Gao Y, Leung L, Luo K, Wang M, Zhang Y, Bell M, Fan J. Isolating the modulation of mean warming and higher-order temperature changes on ozone in a changing climate over the contiguous United States. Environmental Research Letters 2022, 17: 094005. DOI: 10.1088/1748-9326/ac8695.Peer-Reviewed Original ResearchMean warmingOzone exceedancesWestern U.S.Southeastern U.S.Climate changeTemperature changesKey meteorological parametersOzone concentration changesRegional modeling frameworkContiguous United StatesB2 scenarioSurface ozoneAir quality policiesFuture changesMeteorological parametersHeat wavesOzone concentrationsWarmingOzoneExceedanceModeling frameworkOpposite impactQuality policyConcentration changesA1B.