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Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Standard

Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods. / Ni, Kang; Köster, Jan Reent; Seidel, Achim et al.
in: European Journal of Agronomy, Jahrgang 71, 01.11.2015, S. 115-122.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Ni, K, Köster, JR, Seidel, A & Pacholski, A 2015, 'Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods', European Journal of Agronomy, Jg. 71, S. 115-122. https://doi.org/10.1016/j.eja.2015.09.004

APA

Ni, K., Köster, J. R., Seidel, A., & Pacholski, A. (2015). Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods. European Journal of Agronomy, 71, 115-122. https://doi.org/10.1016/j.eja.2015.09.004

Vancouver

Ni K, Köster JR, Seidel A, Pacholski A. Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods. European Journal of Agronomy. 2015 Nov 1;71:115-122. doi: 10.1016/j.eja.2015.09.004

Bibtex

@article{3b3561f1b27740d5917a1f7b7474f02b,
title = "Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods",
abstract = "Field application of ammonium based nitrogen (N) fertilizers can cause high ammonia (NH3) losses into the atmosphere, posing a nutrient loss and threats to the environment. Reliable NH3 flux determination is necessary for improving management practices and emission inventories. However, all deployed measurement techniques are afflicted with different inaccuracies and shortcomings. Thus, in this study different methodical approaches for field measurements of ammonia emissions were compared under varying field conditions and with different N fertilizer types. NH3 fluxes were measured in three field trials applying urea, pig slurry and anaerobic digestate. The NH3 flux was measured by 4 approaches using (a) the combination of passive flux sampler with backward Lagrangian stochastic dispersion flux model (PFSbLS), (b) passive flux sampler with flux calculation by ZINST approach (PFSZINST), (c) the open path Fourier Transform Infrared spectroscopy with backward Lagrangian stochastic dispersion flux model (FTIRbLS) and (d) a calibrated dynamic chamber method (Dr{\"a}ger tube measurement, DTM), respectively. The emission results by PFS (with both, bLS and ZINST) and FTIR were in good agreement with mean ratio of all three trials of 1.07 (range of 0.54-2.24) and 1.12 (range of 0.87-1.59) for FTIRbLS/PFSbLS and PFSZINST/PFSbLS, respectively. In urea trial, cumulative NH3 loss determined with DTM was close to that derived from PFSbLS, with a ratio of 1.18. However, in the trials of pig slurry and anaerobic digestate, in which the organic fertilizers were incorporated into the soil, the DTM yielded much lower results than PFSbLS, with the DTM/PFSbLS of 0.56 and 0.30, respectively. This underestimation was probably due to the high heterogeneity of the fluxes at different locations of the experimental site after slurry incorporation. FTIR as well as PFS integrate over large areas, making them robust against spatial heterogeneity. The DTM, in contrast, should only be deployed with surface applied and evenly distributed fertilizers. Results from bLS and ZINST calculations based on PFS raw data were in good agreement, but application of ZINST is clearly restricted by its strict prerequisites, such as deriving empirical ratio of the horizontal flux at the ZINST height to the emission rate from the plot with specific size and surface roughness as well as requiring large uniform fields. FTIRbLs provided the highest temporal resolution and highest sensitivity at low concentrations of all methods, and is thus the best choice when these are required.",
keywords = "Ammonia volatilization, Backward Lagrangian dispersion technique, Dynamic chamber, Micrometeorological method, N fertilizer, Open path Fourier transform infrared spectroscopy, Biology",
author = "Kang Ni and K{\"o}ster, {Jan Reent} and Achim Seidel and Andreas Pacholski",
year = "2015",
month = nov,
day = "1",
doi = "10.1016/j.eja.2015.09.004",
language = "English",
volume = "71",
pages = "115--122",
journal = "European Journal of Agronomy",
issn = "1161-0301",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Field measurement of ammonia emissions after nitrogen fertilization-A comparison between micrometeorological and chamber methods

AU - Ni, Kang

AU - Köster, Jan Reent

AU - Seidel, Achim

AU - Pacholski, Andreas

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Field application of ammonium based nitrogen (N) fertilizers can cause high ammonia (NH3) losses into the atmosphere, posing a nutrient loss and threats to the environment. Reliable NH3 flux determination is necessary for improving management practices and emission inventories. However, all deployed measurement techniques are afflicted with different inaccuracies and shortcomings. Thus, in this study different methodical approaches for field measurements of ammonia emissions were compared under varying field conditions and with different N fertilizer types. NH3 fluxes were measured in three field trials applying urea, pig slurry and anaerobic digestate. The NH3 flux was measured by 4 approaches using (a) the combination of passive flux sampler with backward Lagrangian stochastic dispersion flux model (PFSbLS), (b) passive flux sampler with flux calculation by ZINST approach (PFSZINST), (c) the open path Fourier Transform Infrared spectroscopy with backward Lagrangian stochastic dispersion flux model (FTIRbLS) and (d) a calibrated dynamic chamber method (Dräger tube measurement, DTM), respectively. The emission results by PFS (with both, bLS and ZINST) and FTIR were in good agreement with mean ratio of all three trials of 1.07 (range of 0.54-2.24) and 1.12 (range of 0.87-1.59) for FTIRbLS/PFSbLS and PFSZINST/PFSbLS, respectively. In urea trial, cumulative NH3 loss determined with DTM was close to that derived from PFSbLS, with a ratio of 1.18. However, in the trials of pig slurry and anaerobic digestate, in which the organic fertilizers were incorporated into the soil, the DTM yielded much lower results than PFSbLS, with the DTM/PFSbLS of 0.56 and 0.30, respectively. This underestimation was probably due to the high heterogeneity of the fluxes at different locations of the experimental site after slurry incorporation. FTIR as well as PFS integrate over large areas, making them robust against spatial heterogeneity. The DTM, in contrast, should only be deployed with surface applied and evenly distributed fertilizers. Results from bLS and ZINST calculations based on PFS raw data were in good agreement, but application of ZINST is clearly restricted by its strict prerequisites, such as deriving empirical ratio of the horizontal flux at the ZINST height to the emission rate from the plot with specific size and surface roughness as well as requiring large uniform fields. FTIRbLs provided the highest temporal resolution and highest sensitivity at low concentrations of all methods, and is thus the best choice when these are required.

AB - Field application of ammonium based nitrogen (N) fertilizers can cause high ammonia (NH3) losses into the atmosphere, posing a nutrient loss and threats to the environment. Reliable NH3 flux determination is necessary for improving management practices and emission inventories. However, all deployed measurement techniques are afflicted with different inaccuracies and shortcomings. Thus, in this study different methodical approaches for field measurements of ammonia emissions were compared under varying field conditions and with different N fertilizer types. NH3 fluxes were measured in three field trials applying urea, pig slurry and anaerobic digestate. The NH3 flux was measured by 4 approaches using (a) the combination of passive flux sampler with backward Lagrangian stochastic dispersion flux model (PFSbLS), (b) passive flux sampler with flux calculation by ZINST approach (PFSZINST), (c) the open path Fourier Transform Infrared spectroscopy with backward Lagrangian stochastic dispersion flux model (FTIRbLS) and (d) a calibrated dynamic chamber method (Dräger tube measurement, DTM), respectively. The emission results by PFS (with both, bLS and ZINST) and FTIR were in good agreement with mean ratio of all three trials of 1.07 (range of 0.54-2.24) and 1.12 (range of 0.87-1.59) for FTIRbLS/PFSbLS and PFSZINST/PFSbLS, respectively. In urea trial, cumulative NH3 loss determined with DTM was close to that derived from PFSbLS, with a ratio of 1.18. However, in the trials of pig slurry and anaerobic digestate, in which the organic fertilizers were incorporated into the soil, the DTM yielded much lower results than PFSbLS, with the DTM/PFSbLS of 0.56 and 0.30, respectively. This underestimation was probably due to the high heterogeneity of the fluxes at different locations of the experimental site after slurry incorporation. FTIR as well as PFS integrate over large areas, making them robust against spatial heterogeneity. The DTM, in contrast, should only be deployed with surface applied and evenly distributed fertilizers. Results from bLS and ZINST calculations based on PFS raw data were in good agreement, but application of ZINST is clearly restricted by its strict prerequisites, such as deriving empirical ratio of the horizontal flux at the ZINST height to the emission rate from the plot with specific size and surface roughness as well as requiring large uniform fields. FTIRbLs provided the highest temporal resolution and highest sensitivity at low concentrations of all methods, and is thus the best choice when these are required.

KW - Ammonia volatilization

KW - Backward Lagrangian dispersion technique

KW - Dynamic chamber

KW - Micrometeorological method

KW - N fertilizer

KW - Open path Fourier transform infrared spectroscopy

KW - Biology

UR - http://www.scopus.com/inward/record.url?scp=84941949057&partnerID=8YFLogxK

U2 - 10.1016/j.eja.2015.09.004

DO - 10.1016/j.eja.2015.09.004

M3 - Journal articles

AN - SCOPUS:84941949057

VL - 71

SP - 115

EP - 122

JO - European Journal of Agronomy

JF - European Journal of Agronomy

SN - 1161-0301

ER -

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