Direct observations of NOx emissions over the San Joaquin Valley using airborne flux measurements during RECAP-CA 2021 field campaign

Direct observations of NOx emissions over the San Joaquin Valley using airborne flux measurements during RECAP-CA 2021 field campaign

Nitrogen oxides (NOx) are principle components of air pollution and serve as important ozone precursors. As the San Joaquin Valley (SJV) experiences some of the worst air quality in the United States, reducing NOx emissions is a pressing need, yet quantifying current emissions is complicated due to...

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Bibliographic Details
Published in:Atmospheric chemistry and physics Vol. 23; no. 17; pp. 9669 - 9683
Main Authors: Zhu, Qindan, Place, Bryan, Pfannerstill, Eva Y, Tong, Sha, Zhang, Huanxin, Wang, Jun, Nussbaumer, Clara M, Wooldridge, Paul, Schulze, Benjamin C, Arata, Caleb, Bucholtz, Anthony, Seinfeld, John H, Goldstein, Allen H, Cohen, Ronald C
Format: Journal Article
Language:English
Published: Katlenburg-Lindau Copernicus GmbH 31-08-2023
Copernicus Publications
Subjects:
Aerosols
Agricultural land
Agriculture
Air pollution
Air quality
Air quality models
Aircraft
Anthropogenic factors
Atmospheric chemistry
Biogenic emissions
Eddy covariance
Emission inventories
Emission measurements
Emissions
Emissions control
Fluctuations
Fluxes
Gases
Highways
Industrial plant emissions
Inventory management
Land cover
Lasers
Nitrates
Nitrogen
Nitrogen compounds
Nitrogen oxides
Nitrogen oxides emissions
Outdoor air quality
Ozone
Parameterization
Photochemicals
Soil
Soil temperature
Soils
Statistical methods
Temperature dependence
Urban areas
Valleys
Vehicle emissions
VOCs
Volatile organic compounds
Los Angeles California
San Joaquin Valley
California
United States > US
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Summary:Nitrogen oxides (NOx) are principle components of air pollution and serve as important ozone precursors. As the San Joaquin Valley (SJV) experiences some of the worst air quality in the United States, reducing NOx emissions is a pressing need, yet quantifying current emissions is complicated due to a mixture of mobile and agriculture sources. We performed airborne eddy covariance flux measurements during the Re-Evaluating the Chemistry of Air Pollutants in California (RECAP-CA) field campaign in June 2021. Combining footprint calculations and land cover statistics, we disaggregate the observed fluxes into component fluxes characterized by three different land cover types. On average, we find emissions of 0.95 mg N m-2 h-1 over highways, 0.43 mg N m-2 h-1 over urban areas, and 0.30 mg N m-2 h-1 over croplands. The calculated NOx emissions using flux observations are utilized to evaluate anthropogenic emissions inventories and soil NOx emissions schemes. We show that two anthropogenic inventories for mobile sources, EMFAC (EMission FACtors) and FIVE (Fuel-based Inventory for Vehicle Emissions), yield strong agreement with emissions derived from measured fluxes over urban regions. Three soil NOx schemes, including the MEGAN v3 (Model of Emissions of Gases and Aerosols from Nature), BEIS v3.14 (Biogenic Emission Inventory System), and BDISNP (Berkeley–Dalhousie–Iowa Soil NO Parameterization), show substantial underestimates over the study domain. Compared to the cultivated soil NOx emissions derived from measured fluxes, MEGAN and BEIS are lower by more than 1 order of magnitude, and BDISNP is lower by a factor of 2.2. Despite the low bias, observed soil NOx emissions and BDISNP present a similar spatial pattern and temperature dependence. We conclude that soil NOx is a key feature of the NOx emissions in the SJV and that a biogeochemical-process-based model of these emissions is needed to simulate emissions for modeling air quality in the region.
ISSN:1680-7316
1680-7324
DOI:10.5194/acp-23-9669-2023