Assessing the impact of long-term soil phosphorus on N-transformation pathways using 15N tracing
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O'Neill, R.M.Krol, D.J.
Wall, D.
Lanigan, G.J.
Renou-Wilson, F.
Richards, K.G.
Jansen-Willems, A.B.
Müller, C.
Date
2021-01
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R.M. O'Neill, D.J. Krol, D. Wall, G.J. Lanigan, F. Renou-Wilson, K.G. Richards, A.B. Jansen-Willems, C. Müller, Assessing the impact of long-term soil phosphorus on N-transformation pathways using 15N tracing, Soil Biology and Biochemistry, Volume 152, 2021, 108066, ISSN 0038-0717, https://doi.org/10.1016/j.soilbio.2020.108066.Abstract
A laboratory incubation study was conducted on a temperate grassland soil to quantify the main mineral nitrogen (N) transformation rates and pathways via a15N tracing approach. Soil samples were taken from a long-term phosphorus (P) trial to investigate the effects on gross N-transformations under high and low phosphorus amendment. The soils were incubated over a 2-week period and treated with ammonium-nitrate (NH4NO3) which was applied to the soil both with and without a glucose amendment and labelled with 15N either on the ammonium (NH4+) or nitrate (NO3−) moiety at 50% atom enrichment. The results showed immobilisation to greatly outweigh mineralisation and that NO3− was predominantly produced via heterotrophic nitrification. Individual pathways for NO3− production were quantified including oxidation of NH4+, recalcitrant and labile organic N. Oxidation of labile organic N to NO3−, a newly considered pathway, accounted for between 63 and 83% of total NO3− production across the various treatments and P levels. This process was significantly higher in the low-P rather than the high-P soils (p < 0.05), highlighting the effect of soil P on the microbial community.Funder
Department of Agriculture, Food, and the Marine; Teagasc Walsh Scholarship Scheme; German Science foundation research unit DASIMGrant Number
15S655; FOR2337ae974a485f413a2113503eed53cd6c53
https://doi.org/10.1016/j.soilbio.2020.108066
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