Differing effects of increasing calcium ammonium nitrate, urea and urea + NBPT fertiliser rates on nitrous oxide emission factors at six temperate grassland sites in Ireland
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Rahman, NiharikaRichards, Karl G.
Harty, Mary A.
Watson, Catherine J.
Carolan, Rachael
Krol, Dominika
Lanigan, Gary J.
Forrestal, Patrick J.
Keyword
Climate changeGreenhouse gas emissions
Urease inhibitor
Nitrogen fertiliser
Grassland
N2O emissions
Date
2021-06
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Niharika Rahman, Karl G. Richards, Mary A. Harty, Catherine J. Watson, Rachael Carolan, Dominika Krol, Gary J. Lanigan, Patrick J. Forrestal, Differing effects of increasing calcium ammonium nitrate, urea and urea + NBPT fertiliser rates on nitrous oxide emission factors at six temperate grassland sites in Ireland, Agriculture, Ecosystems & Environment, Volume 313, 2021, 107382, ISSN 0167-8809, https://doi.org/10.1016/j.agee.2021.107382.Abstract
The present study evaluated the impact of three nitrogen (N) fertiliser formulations, applied at five N rates, on nitrous oxide (N2O) fluxes and annual direct N2O-N emission factors (EF) in temperate grassland. Closed static chambers were used to measure direct N2O fluxes at three geographically dispersed locations in Ireland over a two-year period, generating a total of 90 EFs across the six site-years and treatments. The three fertiliser formulations tested were calcium ammonium nitrate (CAN), urea, and urea amended with the urease inhibitor N-(n-butyl) thiophosphoric triamide (NBPT) at 100, 200, 300, 400 and 500 kg N ha−1 yr−1. All treatments were applied in five equal split applications ranging from 20 to 100 kg N ha−1 split-1 over the growing season. The N2O-N EFs for CAN ranged from 0.39 − 4.68 with a mean of 1.62 (cv. 81 %), for urea from 0.04 – 1.7 with a mean of 0.46 (cv. 77 %) and for urea + NBPT from 0.18 – 1.7 with a mean of 0.60 (cv. 59 %). A significant positive relationship was found between the N rate and the annual N2O-N EFs in three (CAN), five (urea) and two (urea + NBPT) of six the site-years. For the remainder of the site-years EF was unaffected by N rate. These results indicate that fertiliser N choice and rate can be management factors that enable farmers to alter N2O losses in temperate grassland. Notably, the response of EF to increasing N rate was not consistent across the fertilisers, with the EF from urea being the most sensitive to the increasing N rate, urea + NBPT the least sensitive and CAN being intermediate. The accuracy of national greenhouse gas accounting could be improved by including N fertiliser formulation and its rate of application. Further research is also needed to understand the inconsistency in EF response to N rate across sites.Funder
Department of Agriculture, Food and the Marine; Department of Agriculture, Environment and Rural AffairsGrant Number
RSF10-/RD/SC/716; RSF11S138ae974a485f413a2113503eed53cd6c53
https://doi.org/10.1016/j.agee.2021.107382
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