【 摘 要 】

The atmospheric component is described by rapid fluctuations in typical state variables, such as temperature and water vapor, on timescales of hours to days and the land component evolves on daily to yearly timescales.This dissertation examines the connection between soil moisture and atmospheric tracers under varying degrees of soil moisture-atmosphere coupling.Land-atmosphere coupling is defined over the United States using a regional climate model.A newly examined soil moisture-precipitation feedback is identified for winter months extending the previous summer feedback to colder temperature climates.This feedback is driven by the freezing and thawing of soil moisture, leading to coupled land-atmosphere conditions near the freezing line.Soil moisture can also affect the composition of the troposphere through modifying biogenic emissions of isoprene (C5H8).A novel first-order Taylor series decomposition indicates that isoprene emissions are jointly driven by temperature and soil moisture in models.These compounds are important precursors for ozone formation, an air pollutant and a short-lived forcing agent for climate.A mechanistic description of commonly observed relationships between ground-level ozone and meteorology is presented using the concept of soil moisture-temperature coupling regimes.The extent of surface drying was found to be a better predictor of ozone concentrations than temperature or humidity for the Eastern U.S.This relationship is evaluated in a coupled regional chemistry-climate model under several land-atmosphere coupling and isoprene emissions cases.The coupled chemistry-climate model can reproduce the observed soil moisture-temperature coupling pattern, yet modeled ozone is insensitive to changes in meteorology due to the balance between isoprene and the primary atmospheric oxidant, the hydroxyl radical (OH).Overall, this work highlights the importance of soil moisture-atmosphere coupling for previously neglected cold climate regimes, controlling isoprene emissions variability, and providing a processed-based description of observed ozone-meteorology relationships.From the perspective of ozone air quality, the lack of sensitivity of ozone to meteorology suggests a systematic deficiency in chemistry models in high isoprene emission regions.This shortcoming must be addressed to better estimate tropospheric ozone radiative forcing and to understanding how ozone air quality may respond to future warming.

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Soil Moisture-Atmosphere Feedbacks on Atmospheric Tracers: The Effects of Soil Moisture on Precipitation and Near-Surface Chemistry.	21271KB	PDF	download