A Multiyear Constraint on Ammonia Emissions and Deposition Within the US Corn Belt

Cheng Hu; Timothy J. Griffis; Alexander Frie; John M. Baker; Jeffrey D Wood; Dylan B. Millet; Zhongjie Yu; Xueying Yu; Alan C. Czarnetzki

doi:10.1029/2020GL090865

A Multiyear Constraint on Ammonia Emissions and Deposition Within the US Corn Belt

Cheng Hu, Timothy J. Griffis, Alexander Frie, John M. Baker, Jeffrey D Wood, Dylan B. Millet, Zhongjie Yu, Xueying Yu, Alan C. Czarnetzki

Soil, Water, and Climate

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4 Scopus citations

Abstract

The US Corn Belt is a global hotspot of atmospheric ammonia (NH₃), a gas known to adversely impact the environment and human health. We combine hourly tall tower (100 m) measurements and bi-weekly, spatially distributed, ground-based observations from the Ammonia Monitoring Network with the US National Emissions Inventory (NEI) and WRF-Chem simulations to constrain NH₃ emissions from April to September 2017–2019. We show that: (1) NH₃ emissions peaked from May to July and were 1.6–1.7 times the annual NEI average; (2) average growing season NH₃ emissions from agricultural lands were remarkably similar across years (3.27–3.64 nmol m⁻² s⁻¹), yet showed substantial episodic variability driven by meteorology and land management; (3) dry deposition was 40% of gross emissions from agricultural lands and exceeded 100% of gross emissions in natural lands. Our findings provide an important benchmark for evaluating future NH₃ emissions and mitigation efforts.

Original language	English (US)
Article number	e2020GL090865
Journal	Geophysical Research Letters
Volume	48
Issue number	6
DOIs	https://doi.org/10.1029/2020GL090865
State	Published - Mar 28 2021

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© 2021. American Geophysical Union. All Rights Reserved.

Keywords

US Corn Belt
WRF-Chem modeling
agriculture
ammonia emissions
deposition
forests
mitigation
reactive nitrogen
tall tower

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title = "A Multiyear Constraint on Ammonia Emissions and Deposition Within the US Corn Belt",

abstract = "The US Corn Belt is a global hotspot of atmospheric ammonia (NH3), a gas known to adversely impact the environment and human health. We combine hourly tall tower (100 m) measurements and bi-weekly, spatially distributed, ground-based observations from the Ammonia Monitoring Network with the US National Emissions Inventory (NEI) and WRF-Chem simulations to constrain NH3 emissions from April to September 2017–2019. We show that: (1) NH3 emissions peaked from May to July and were 1.6–1.7 times the annual NEI average; (2) average growing season NH3 emissions from agricultural lands were remarkably similar across years (3.27–3.64 nmol m−2 s−1), yet showed substantial episodic variability driven by meteorology and land management; (3) dry deposition was 40% of gross emissions from agricultural lands and exceeded 100% of gross emissions in natural lands. Our findings provide an important benchmark for evaluating future NH3 emissions and mitigation efforts.",

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AU - Frie, Alexander

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AU - Wood, Jeffrey D

AU - Millet, Dylan B.

AU - Yu, Zhongjie

AU - Yu, Xueying

AU - Czarnetzki, Alan C.

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AB - The US Corn Belt is a global hotspot of atmospheric ammonia (NH3), a gas known to adversely impact the environment and human health. We combine hourly tall tower (100 m) measurements and bi-weekly, spatially distributed, ground-based observations from the Ammonia Monitoring Network with the US National Emissions Inventory (NEI) and WRF-Chem simulations to constrain NH3 emissions from April to September 2017–2019. We show that: (1) NH3 emissions peaked from May to July and were 1.6–1.7 times the annual NEI average; (2) average growing season NH3 emissions from agricultural lands were remarkably similar across years (3.27–3.64 nmol m−2 s−1), yet showed substantial episodic variability driven by meteorology and land management; (3) dry deposition was 40% of gross emissions from agricultural lands and exceeded 100% of gross emissions in natural lands. Our findings provide an important benchmark for evaluating future NH3 emissions and mitigation efforts.

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KW - mitigation

KW - reactive nitrogen

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A Multiyear Constraint on Ammonia Emissions and Deposition Within the US Corn Belt

Abstract

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