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dc.contributor.authorMurphy, Rachel M.
dc.contributor.authorSaunders, Matthew
dc.contributor.authorRichards, Karl G.
dc.contributor.authorKrol, Dominika J.
dc.contributor.authorGebremichael, Amanuel W.
dc.contributor.authorRambaud, James
dc.contributor.authorCowan, Nicholas
dc.contributor.authorLanigan, Gary J.
dc.identifier.citationRachael M. Murphy, Matthew Saunders, Karl G. Richards, Dominika J. Krol, Amanuel W. Gebremichael, James Rambaud, Nicholas Cowan, Gary J. Lanigan, Nitrous oxide emission factors from an intensively grazed temperate grassland: A comparison of cumulative emissions determined by eddy covariance and static chamber methods, Agriculture, Ecosystems & Environment, Volume 324, 2022, 107725, ISSN 0167-8809,
dc.description.abstractQuantifying nitrous oxide (N2O) emissions from grazed pastures can be problematic due to the presence of hotspots and hot moments of N2O from animal excreta and synthetic fertilisers. In this study, we quantified field scale N2O emissions from a temperate grassland under a rotational grazing management using eddy covariance (EC) and static chamber techniques. Measurements of N2O by static chambers were made for four out of nine grazing events for a control, calcium ammonium nitrate (CAN), synthetic urine (SU) + CAN and dung + CAN treatments. Static chamber N2O flux measurements were upscaled to the field scale (FCH FIELD) using site specific emission factors (EF) for CAN, SU+CAN and dung + CAN. Mean N2O EFs were greatest from the CAN treatment while dung + CAN and SU + CAN emitted similar N2O-N emissions. Cumulative N2O-N emissions over the study period measured by FCH FIELD measurements were lower than gap-filled EC measurements. Emission factors of N2O from grazing calculated by FCH FIELD and gap-filled were 0.72% and 0.96%, respectively. N2O-N emissions were derived mainly from animal excreta (dung and urine) contributing 50% while N2O-N losses from CAN and background accounted for 36% and 14%, respectively. The study highlights the advantage of using both the EC and static chamber techniques in tandem to better quantify both total N2O-N losses from grazed pastures while also constraining the contribution of individual N sources. The EC technique was most accurate in quantifying N2O emissions, showing a range of uncertainty that was seven times lower relative to that attributed to static chamber measurements, due to the small chamber sample size per treatment and highly variable N2O flux measurements over space and time.en_US
dc.relation.ispartofseriesAgriculture, Ecosystems & Environment;Vol 324
dc.rights© 2021 The Authors. Published by Elsevier B.V.
dc.rightsAttribution-NonCommercial-ShareAlike 4.0 International*
dc.subjectEddy covarianceen_US
dc.subjectNitrous oxideen_US
dc.subjectEmission factorsen_US
dc.titleNitrous oxide emission factors from an intensively grazed temperate grassland: A comparison of cumulative emissions determined by eddy covariance and static chamber methodsen_US
dc.contributor.sponsorDepartment of Agriculture, Food and the Marine, Manipulation and Integration of Nitrogen Emissions (MINE)en_US
dc.source.journaltitleAgriculture, Ecosystems & Environment

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