Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes

Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes

A 50-day field study was carried out in a semi-natural, non-fertilized grassland in south-western Ontario, Canada during the late summer and early autumn of 2012. The purpose was to explore surface–atmosphere exchange processes of ammonia (NH<sub>3</sub>) with a focus on bi-directional f...

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Main Authors: G. R. Wentworth, J. G. Murphy, P. K. Gregoire, C. A. L. Cheyne, A. G. Tevlin, R. Hems
Format: Article
Language:English
Published: Copernicus Publications 2014-10-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/11/5675/2014/bg-11-5675-2014.pdf
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spelling doaj-6f039ffbb1b84701a4bc7d7d23c8a9f22020-11-24T22:13:38ZengCopernicus PublicationsBiogeosciences1726-41701726-41892014-10-0111205675568610.5194/bg-11-5675-2014Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxesG. R. Wentworth0J. G. Murphy1P. K. Gregoire2C. A. L. Cheyne3A. G. Tevlin4R. Hems5Department of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaDepartment of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaDepartment of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaDepartment of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaDepartment of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaDepartment of Chemistry, University of Toronto, 80 St. George Street, M5S 3H6, Toronto, CanadaA 50-day field study was carried out in a semi-natural, non-fertilized grassland in south-western Ontario, Canada during the late summer and early autumn of 2012. The purpose was to explore surface–atmosphere exchange processes of ammonia (NH<sub>3</sub>) with a focus on bi-directional fluxes between the soil and atmosphere. Measurements of soil pH and ammonium concentration ([NH<sub>4</sub><sup>+</sup>]) yielded the first direct quantification of soil emission potential (&Gamma;<sub>soil</sub> = [NH<sub>4</sub><sup>+</sup>]/[H<sup>+</sup>]) for this land type, with values ranging from 35 to 1850 (an average of 290). The soil compensation point, the atmospheric NH<sub>3</sub> mixing ratio below which net emission from the soil will occur, exhibited both a seasonal trend and diurnal trend. Higher daytime and August compensation points were attributed to higher soil temperature. Soil–atmosphere fluxes were estimated using NH<sub>3</sub> measurements from the Ambient Ion Monitor Ion Chromatograph (AIM-IC) and a simple resistance model. Vegetative effects were ignored due to the short canopy height and significant &Gamma;<sub>soil</sub>. Inferred fluxes were, on average, 2.6 ± 4.5 ng m<sup>−2</sup> s<sup>−1</sup> in August (i.e. net emission) and −5.8 ± 3.0 ng m<sup>−2</sup> s<sup>−1</sup> in September (i.e. net deposition). These results are in good agreement with the only other bi-directional exchange study in a semi-natural, non-fertilized grassland. A Lagrangian dispersion model (Hybrid Single-Particle Lagrangian Integrated Trajectory – HYSPLIT) was used to calculate air parcel back-trajectories throughout the campaign and revealed that NH<sub>3</sub> mixing ratios had no directional bias throughout the campaign, unlike the other atmospheric constituents measured. This implies that soil–atmosphere exchange over a non-fertilized grassland can significantly moderate near-surface NH<sub>3</sub> concentrations. In addition, we provide indirect evidence that dew and fog evaporation can cause a morning increase of [NH<sub>3</sub>]<sub>g</sub>. Implications of our findings on current NH<sub>3</sub> bi-directional exchange modelling efforts are also discussed.http://www.biogeosciences.net/11/5675/2014/bg-11-5675-2014.pdf
collection DOAJ
language English
format Article
sources DOAJ
author G. R. Wentworth
J. G. Murphy
P. K. Gregoire
C. A. L. Cheyne
A. G. Tevlin
R. Hems
spellingShingle G. R. Wentworth
J. G. Murphy
P. K. Gregoire
C. A. L. Cheyne
A. G. Tevlin
R. Hems
Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
Biogeosciences
author_facet G. R. Wentworth
J. G. Murphy
P. K. Gregoire
C. A. L. Cheyne
A. G. Tevlin
R. Hems
author_sort G. R. Wentworth
title Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
title_short Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
title_full Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
title_fullStr Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
title_full_unstemmed Soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
title_sort soil–atmosphere exchange of ammonia in a non-fertilized grassland: measured emission potentials and inferred fluxes
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2014-10-01
description A 50-day field study was carried out in a semi-natural, non-fertilized grassland in south-western Ontario, Canada during the late summer and early autumn of 2012. The purpose was to explore surface–atmosphere exchange processes of ammonia (NH<sub>3</sub>) with a focus on bi-directional fluxes between the soil and atmosphere. Measurements of soil pH and ammonium concentration ([NH<sub>4</sub><sup>+</sup>]) yielded the first direct quantification of soil emission potential (&Gamma;<sub>soil</sub> = [NH<sub>4</sub><sup>+</sup>]/[H<sup>+</sup>]) for this land type, with values ranging from 35 to 1850 (an average of 290). The soil compensation point, the atmospheric NH<sub>3</sub> mixing ratio below which net emission from the soil will occur, exhibited both a seasonal trend and diurnal trend. Higher daytime and August compensation points were attributed to higher soil temperature. Soil–atmosphere fluxes were estimated using NH<sub>3</sub> measurements from the Ambient Ion Monitor Ion Chromatograph (AIM-IC) and a simple resistance model. Vegetative effects were ignored due to the short canopy height and significant &Gamma;<sub>soil</sub>. Inferred fluxes were, on average, 2.6 ± 4.5 ng m<sup>−2</sup> s<sup>−1</sup> in August (i.e. net emission) and −5.8 ± 3.0 ng m<sup>−2</sup> s<sup>−1</sup> in September (i.e. net deposition). These results are in good agreement with the only other bi-directional exchange study in a semi-natural, non-fertilized grassland. A Lagrangian dispersion model (Hybrid Single-Particle Lagrangian Integrated Trajectory – HYSPLIT) was used to calculate air parcel back-trajectories throughout the campaign and revealed that NH<sub>3</sub> mixing ratios had no directional bias throughout the campaign, unlike the other atmospheric constituents measured. This implies that soil–atmosphere exchange over a non-fertilized grassland can significantly moderate near-surface NH<sub>3</sub> concentrations. In addition, we provide indirect evidence that dew and fog evaporation can cause a morning increase of [NH<sub>3</sub>]<sub>g</sub>. Implications of our findings on current NH<sub>3</sub> bi-directional exchange modelling efforts are also discussed.
url http://www.biogeosciences.net/11/5675/2014/bg-11-5675-2014.pdf
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