Spatial oxygen distribution and nitrous oxide emissions from soil after manure application: a novel approach using planar optodes

Research output: Contribution to journalJournal articlepeer-review

Standard

Spatial oxygen distribution and nitrous oxide emissions from soil after manure application : a novel approach using planar optodes. / Zhu, Kun; Bruun, Sander; Larsen, Morten; Glud, Ronnie N.; Jensen, Lars Stoumann.

In: Journal of Environmental Quality, Vol. 43, No. 5, 2014, p. 1809-1812.

Research output: Contribution to journalJournal articlepeer-review

Harvard

Zhu, K, Bruun, S, Larsen, M, Glud, RN & Jensen, LS 2014, 'Spatial oxygen distribution and nitrous oxide emissions from soil after manure application: a novel approach using planar optodes', Journal of Environmental Quality, vol. 43, no. 5, pp. 1809-1812. https://doi.org/10.2134/jeq2014.03.0125

APA

Zhu, K., Bruun, S., Larsen, M., Glud, R. N., & Jensen, L. S. (2014). Spatial oxygen distribution and nitrous oxide emissions from soil after manure application: a novel approach using planar optodes. Journal of Environmental Quality, 43(5), 1809-1812. https://doi.org/10.2134/jeq2014.03.0125

Vancouver

Zhu K, Bruun S, Larsen M, Glud RN, Jensen LS. Spatial oxygen distribution and nitrous oxide emissions from soil after manure application: a novel approach using planar optodes. Journal of Environmental Quality. 2014;43(5):1809-1812. https://doi.org/10.2134/jeq2014.03.0125

Author

Zhu, Kun ; Bruun, Sander ; Larsen, Morten ; Glud, Ronnie N. ; Jensen, Lars Stoumann. / Spatial oxygen distribution and nitrous oxide emissions from soil after manure application : a novel approach using planar optodes. In: Journal of Environmental Quality. 2014 ; Vol. 43, No. 5. pp. 1809-1812.

Bibtex

@article{84f7cc3b084a4a75a66e263b6026e991,
title = "Spatial oxygen distribution and nitrous oxide emissions from soil after manure application: a novel approach using planar optodes",
abstract = "The availability and spatial distribution of oxygen (O2) in agricultural soil are controlling factors in the production and emission of nitrous oxide (N2O) to the atmosphere, but most experiments investigating the effects of various factors on N2O emissions in soil have been conducted without determining the content and distribution of O2. This complicates data interpretation and leads to speculative conclusions about which nitrogen transformation processes are responsible for N2O production. Using an O2-specific planar optode, this paper shows how spatiotemporal O2 dynamics can be used to interpret data on N2O emissions following a uniform or layered amendment of manure to agricultural soil. The spatial distribution of O2 and gas emission rates were monitored for 12 h. An anoxic layer formed rapidly around the layered manure, whereas the uniformly distributed manure led to a more widespread anoxia. Nitrous oxide emissions increased immediately after depletion of O2 in the manure-amended treatments. Greater understanding and improved knowledge of the spatial distribution of O2 is clearly beneficial and can be used to devise improved application strategies for mitigating N2O emissions from manure and other fertilizers.",
author = "Kun Zhu and Sander Bruun and Morten Larsen and Glud, {Ronnie N.} and Jensen, {Lars Stoumann}",
year = "2014",
doi = "10.2134/jeq2014.03.0125",
language = "English",
volume = "43",
pages = "1809--1812",
journal = "Journal of Environmental Quality",
issn = "0047-2425",
publisher = "American Society of Agronomy",
number = "5",

}

RIS

TY - JOUR

T1 - Spatial oxygen distribution and nitrous oxide emissions from soil after manure application

T2 - a novel approach using planar optodes

AU - Zhu, Kun

AU - Bruun, Sander

AU - Larsen, Morten

AU - Glud, Ronnie N.

AU - Jensen, Lars Stoumann

PY - 2014

Y1 - 2014

N2 - The availability and spatial distribution of oxygen (O2) in agricultural soil are controlling factors in the production and emission of nitrous oxide (N2O) to the atmosphere, but most experiments investigating the effects of various factors on N2O emissions in soil have been conducted without determining the content and distribution of O2. This complicates data interpretation and leads to speculative conclusions about which nitrogen transformation processes are responsible for N2O production. Using an O2-specific planar optode, this paper shows how spatiotemporal O2 dynamics can be used to interpret data on N2O emissions following a uniform or layered amendment of manure to agricultural soil. The spatial distribution of O2 and gas emission rates were monitored for 12 h. An anoxic layer formed rapidly around the layered manure, whereas the uniformly distributed manure led to a more widespread anoxia. Nitrous oxide emissions increased immediately after depletion of O2 in the manure-amended treatments. Greater understanding and improved knowledge of the spatial distribution of O2 is clearly beneficial and can be used to devise improved application strategies for mitigating N2O emissions from manure and other fertilizers.

AB - The availability and spatial distribution of oxygen (O2) in agricultural soil are controlling factors in the production and emission of nitrous oxide (N2O) to the atmosphere, but most experiments investigating the effects of various factors on N2O emissions in soil have been conducted without determining the content and distribution of O2. This complicates data interpretation and leads to speculative conclusions about which nitrogen transformation processes are responsible for N2O production. Using an O2-specific planar optode, this paper shows how spatiotemporal O2 dynamics can be used to interpret data on N2O emissions following a uniform or layered amendment of manure to agricultural soil. The spatial distribution of O2 and gas emission rates were monitored for 12 h. An anoxic layer formed rapidly around the layered manure, whereas the uniformly distributed manure led to a more widespread anoxia. Nitrous oxide emissions increased immediately after depletion of O2 in the manure-amended treatments. Greater understanding and improved knowledge of the spatial distribution of O2 is clearly beneficial and can be used to devise improved application strategies for mitigating N2O emissions from manure and other fertilizers.

U2 - 10.2134/jeq2014.03.0125

DO - 10.2134/jeq2014.03.0125

M3 - Journal article

AN - SCOPUS:84907043787

VL - 43

SP - 1809

EP - 1812

JO - Journal of Environmental Quality

JF - Journal of Environmental Quality

SN - 0047-2425

IS - 5

ER -

ID: 130104893