Estimation of in-canopy ammonia sources and sinks in a fertilized Zea mays field.

dc.contributor.author

Bash, JO

dc.contributor.author

Walker, JT

dc.contributor.author

Katul, GG

dc.contributor.author

Jones, MR

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Nemitz, E

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Robarg, WP

dc.coverage.spatial

United States

dc.date.accessioned

2011-06-21T17:25:55Z

dc.date.issued

2010-03-01

dc.description.abstract

An analytical model was developed to describe in-canopy vertical distribution of ammonia (NH(3)) sources and sinks and vertical fluxes in a fertilized agricultural setting using measured in-canopy mean NH(3) concentration and wind speed profiles. This model was applied to quantify in-canopy air-surface exchange rates and above-canopy NH(3) fluxes in a fertilized corn (Zea mays) field. Modeled air-canopy NH(3) fluxes agreed well with independent above-canopy flux estimates. Based on the model results, the urea fertilized soil surface was a consistent source of NH(3) one month following the fertilizer application, whereas the vegetation canopy was typically a net NH(3) sink with the lower portion of the canopy being a constant sink. The model results suggested that the canopy was a sink for some 70% of the estimated soil NH(3) emissions. A logical conclusion is that parametrization of within-canopy processes in air quality models are necessary to explore the impact of agricultural field level management practices on regional air quality. Moreover, there are agronomic and environmental benefits to timing liquid fertilizer applications as close to canopy closure as possible. Finally, given the large within-canopy mean NH(3) concentration gradients in such agricultural settings, a discussion about the suitability of the proposed model is also presented.

dc.description.version

Version of Record

dc.identifier

https://www.ncbi.nlm.nih.gov/pubmed/20104891

dc.identifier.issn

0013-936X

dc.identifier.uri

https://hdl.handle.net/10161/4031

dc.language

eng

dc.language.iso

en_US

dc.publisher

American Chemical Society (ACS)

dc.relation.ispartof

Environ Sci Technol

dc.relation.isversionof

10.1021/es9037269

dc.relation.journal

Environmental science & technology

dc.subject

Agriculture

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Air

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Air Pollutants

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Ammonia

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Carbon Dioxide

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Environmental Monitoring

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Fertilizers

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Kinetics

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Models, Biological

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Soil

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Temperature

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Weather

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Wind

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Zea mays

dc.title

Estimation of in-canopy ammonia sources and sinks in a fertilized Zea mays field.

dc.title.alternative
dc.type

Journal article

duke.contributor.orcid

Katul, GG|0000-0001-9768-3693

duke.date.pubdate

2010-3-1

duke.description.issue

5

duke.description.volume

44

pubs.author-url

https://www.ncbi.nlm.nih.gov/pubmed/20104891

pubs.begin-page

1683

pubs.end-page

1689

pubs.issue

5

pubs.organisational-group

Civil and Environmental Engineering

pubs.organisational-group

Duke

pubs.organisational-group

Environmental Sciences and Policy

pubs.organisational-group

Nicholas School of the Environment

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Pratt School of Engineering

pubs.publication-status

Published

pubs.volume

44

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