Journal article
Reactive nitrogen in and around the northeastern and mid-Atlantic US: sources, sinks, and connections with ozone
Atmospheric chemistry and physics, Vol.25(3), pp.1449-1476
02/03/2025
DOI: 10.5194/acp-25-1449-2025
Abstract
This study describes the application of a regional Earth system model with updated parameterizations for selected land–atmosphere exchange processes and multiplatform, multidisciplinary observations. We estimate reactive nitrogen (Nr = NOy+ NHx) emissions from various sources, surface and column nitrogen dioxide (NO2), and total and speciated Nr dry and wet deposition during 2018–2023 over the northeastern and mid-Atlantic US where nitrogen-oxide-limited or transitional chemical regimes dominate. The estimated Nr concentrations and deposition fluxes are related to ozone (O3) in terms of spatiotemporal variability and its key drivers as well as possible ecosystem impacts. Modeled surface O3 persistently agrees well with observations, with root mean square errors staying within 4–7 ppbv for individual years in May–June–July. Model-based surface O3–NO2 column correlation, which shows a dependency on column formaldehyde / NO2, is higher in 2020 (r=0.62) than in other years (r=0.47–0.56). Ozone vegetative uptake overall dropped by ∼10% from 2018 to 2023, displaying clearer downward temporal changes than total Nr deposition as declining NOy emission and deposition competed with increasing NHx fluxes. It is highlighted that temporal variabilities of Nr and O3 concentrations and fluxes on subregional to local scales respond to hydrological variability that can be influenced by precipitation and controllable human activities like irrigation. Deposition and biogenic emissions that are highly sensitive to interconnected environmental and plant physiological conditions, plus extra-regional sources (e.g., O3-rich stratospheric air and dense wildfire plumes from upwind regions), have been playing increasingly important roles in controlling pollutant budgets as local emissions decline owing to effective emission regulations and COVID lockdowns.
Details
- Title: Subtitle
- Reactive nitrogen in and around the northeastern and mid-Atlantic US: sources, sinks, and connections with ozone
- Creators
- Min Huang - Goddard Space Flight CenterGregory Carmichael - University of IowaKevin Bowman - California Institute of TechnologyIsabelle De Smedt - Royal Belgian Institute for Space AeronomyAndreas Colliander - California Institute of TechnologyMichael Cosh - United States Department of AgricultureSujay Kumar - Goddard Space Flight CenterAlex Guenther - University of California, IrvineScott Janz - Goddard Space Flight CenterRyan Stauffer - Goddard Space Flight CenterAnne Thompson - Goddard Space Flight CenterNiko Fedkin - Goddard Space Flight CenterRobert Swap - Goddard Space Flight CenterJohn Bolten - Goddard Space Flight CenterAlicia Joseph - Goddard Space Flight Center
- Resource Type
- Journal article
- Publication Details
- Atmospheric chemistry and physics, Vol.25(3), pp.1449-1476
- Publisher
- Copernicus GmbH; GOTTINGEN
- DOI
- 10.5194/acp-25-1449-2025
- ISSN
- 1680-7316
- eISSN
- 1680-7324
- Number of pages
- 28
- Grant note
- National Aeronautics and Space Administration
A contribution was made to this work at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with NASA. We acknowledge the excellent leadership of the TOAR-II Tropospheric Ozone Precursors and Deposition Focus Group leads. We thank Antonin Soulie and team for helping with the CAMS global anth emissions and Kyle DeLong for participating in collecting SM data in Harvard Forest during SMAPVEX22 that are used in this study. Color palettes in Crameri et al. (2020) are used in this paper.
- Language
- English
- Date published
- 02/03/2025
- Academic Unit
- Nursing; Chemical and Biochemical Engineering; Civil and Environmental Engineering
- Record Identifier
- 9984786446102771
Metrics
3 Record Views