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Spatial patterns and particle size distributions of atmospheric amines in northern Colorado

Date

2020

Authors

Bangs, Evelyn J., author
Collett, Jeffrey L., Jr., advisor
Kreidenweis, Sonia, committee member
Carter, Ellison, committee member
Benedict, Katherine B., committee member

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Abstract

Emissions of reactive nitrogen along the Front Range in Northern Colorado have implications for sensitive and protected environments such as those in Rocky Mountain National Park (RMNP). Nitrogen-containing pollutants exert a variety of adverse effects on the environment, including visibility impairment and excessive nitrogen input to sensitive alpine ecosystems. Northern Colorado has many urban, agricultural, and oil and natural gas production activities that emit various forms of reactive nitrogen to the atmosphere. Model simulations and past measurements demonstrate that these emissions are capable of being transported long distances in gaseous and particulate forms. RMNP is particularly exposed to increased concentrations of reactive nitrogen pollutants during periods of easterly, upslope flow when emissions along the Front Range and sources from even farther away (e.g. the Western United States coast) are transported into the mountains. A detailed understanding of the composition of transported reactive nitrogen pollution is needed to predict environmental impacts within RMNP. While emissions of ammonia and nitrogen oxides have received significant attention in previous studies, relatively little is known about organic nitrogen pollution, despite its ability to contribute to excess N deposition and to formation of particulate matter (PM). Amines are organic analogs of ammonia, where one or more hydrogen atoms are replaced by organic functional groups. The animal agriculture industry is known to be a major source of some amines, while the beer and wine industry, sugar beet industry, leather manufacturing, and chemical manufacturing are also potentially important sources. Many of these industries are located along Colorado's Front Range, providing a good opportunity to study amine atmospheric chemistry. While the chemical lifetime of many gas phase amines is relatively short (hours), they are strong bases that can compete with ammonia to form longer-lived particles that are transported over substantial distances. The work carried out in this study focused on assessing a spatial gradient of particulate amines between RMNP, Fort Collins, and Greeley. Greater concentrations of many amines were typically observed near source emissions in Greeley and/or Fort Collins, but significant concentrations of amines such as dimethylamine, were also observed in the more remote environment at RMNP. To better understand amines, their chemistry and their contribution to PM, size distributions of 16 different amines were analyzed from measurements with a Micro-Orifice Uniform Deposit Impactor (MOUDI). Of 16 analyzed amines, nine were found above the detection limits in summertime Fort Collins and five during the winter. Several organic acids and inorganic acid anions particle size distributions were also assessed to understand contributions from potential anion species involved in salt formation with amine cations. Organic acid particle size distributions, particularly oxalate, overlap with fine particle mode size distributions of both ammonia and amine cations. The size distribution measurements also reveal important reactions between gaseous nitric acid and coarse soil particles to generate coarse mode nitrate particles. Continued measurements of amines and other species size distributions and spatial gradients at more locations would help improve understanding of amine PM chemistry. This understanding would allow necessary changes to be made to better protect the health of living beings and the sensitive ecosystems like those found in Rocky Mountain National Park.

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ion balance
Rocky Mountain National Park
spatial distributions
organic acids
atmospheric amines
size distributions

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