Rocky Mountain National Park reduced nitrogen source apportionment

Excess wet and dry deposition of nitrogen‐containing compounds are a concern at a number of national parks. The Rocky Mountain Atmospheric Nitrogen and Sulfur Study Part II (RoMANS II) campaign was conducted from November 2008 to November 2009 to characterize the composition of reactive nitrogen and...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2015-05, Vol.120 (9), p.4370-4384
Main Authors: Thompson, Tammy M., Rodriguez, Marco A., Barna, Michael G., Gebhart, Kristi A., Hand, Jennifer L., Day, Derek E., Malm, William C., Benedict, Katherine B., Collett Jr, Jeffrey L., Schichtel, Bret A.
Format: Article
Language:English
Subjects:
Air flow
Air quality
Airborne particulates
Ammonia
Apportionment
CAMx
Deposition
Dry deposition
Freshwater
Geophysics
Mountains
National parks
Nitrogen
Parks
Pollution sources
reduced nitrogen
regional modeling
Roman
source apportionment
Sulfur
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Summary:Excess wet and dry deposition of nitrogen‐containing compounds are a concern at a number of national parks. The Rocky Mountain Atmospheric Nitrogen and Sulfur Study Part II (RoMANS II) campaign was conducted from November 2008 to November 2009 to characterize the composition of reactive nitrogen and sulfur deposited in Rocky Mountain National Park (RMNP). RoMANS II identified reduced nitrogen as the major contributor to reactive nitrogen deposition in RMNP, making up over 50% of the total. Motivated by this finding, the particulate source apportionment technology within the Comprehensive Air Quality Model with extensions was used here to estimate source apportionment of reduced nitrogen concentrations at RMNP. Source apportionment results suggest that approximately 40% of reduced nitrogen deposition to RMNP comes from ammonia sources within Colorado. However, the model evaluation also suggests that this number could be underrepresenting ammonia sources in eastern Colorado due to the difficulty of capturing upslope airflow on the eastern side of the Continental Divide with meteorological models. Emissions from California, the western model boundary, and the Snake River Valley in Idaho, the next three most influential sources, contribute approximately 15%, 8%, and 7%, respectively, to total reduced nitrogen measured in RMNP. Within Colorado, about 61%, 26%, and 13% of the total Colorado contribution comes from sources to the east of the Continental Divide, sources to the west of the Continental Divide, and from the park itself. Key Points Source apportionment of reduced nitrogen at Rocky Mountain National Park Sources within Colorado make up the largest contribution to nitrogen in the park Evidence suggests that sources east of park are underrepresented by the model
ISSN:2169-897X
2169-8996
DOI:10.1002/2014JD022675