Journal article

Publication year: 2017

Pages: 23-24

Journal: Soil Biology and Biochemistry

Volume number: 109

ISSN: 0038-0717

Open access status: Bronze

DOI Link: https://doi.org/10.1016/j.soilbio.2017.01.025

Publisher: Elsevier

Abstract: 

A laboratory and a field study were conducted on a permanent grassland soil in Northern Ireland to investigate the effects of urea in combination with N process inhibitors such as the urease inhibitor N (butyl) thiophosphoric triamide (NBPT) and/or the nitrification inhibitor dicyandiamide (DCD) on soil N dynamics. Urea enriched with n-butyl N-15 to 60 atom % was applied to soil at a rate of 100 mu g N g(-1) dry soil in the laboratory and 100 kg N ha(-1) in the field. A numerical N-15 tracing model was used to quantify several simultaneously occurring gross N transformation rates in both studies. The changes in soil nitrate (NOT) and ammonium (NE4+) concentrations and N-15 enrichment over a 25-day period as well as the concentration and N-15 enrichment of plant N at harvest were used to model soil gross N transformations. The results showed that the effect of N process inhibitors varied firstly between laboratory and field studies and secondly whether the inhibitors were applied individually or in combination. Overall DCD had a greater effect on the major soil N transformations than NBPT; reducing oxidation of NHS4+, total nitrification, net NOT produced, total mineralisation and the net adsorption of NH4+ at both laboratory and field scale. The effect of DCD was similar for these transformations whether applied alone or co-applied with NBPT. In contrast NBPT had no significant effect on oxidation of NH4+, total nitrification, total mineralisation or total immobilisation compared to urea in the field, while the effect on these transformations in the laboratory was significant. The contrasting effects of inhibitors on gross N transformations between laboratory and field may relate to the differences in experimental conditions, e.g. soil preparation, environmental conditions and the contribution of plant biomass. To obtain a more realistic assessment of gross soil N transformations in situ, it is essential that laboratory experiments are supplemented with field studies.

Harvard Citation style: Harty, M., McGeough, K., Carolan, R., Müller, C., Laughlin, R., Lanigan, G., et al. (2017) Gross nitrogen transformations in grassland soil react differently to urea stabilisers under laboratory and field conditions, Soil Biology and Biochemistry, 109, pp. 23-24. https://doi.org/10.1016/j.soilbio.2017.01.025

APA Citation style: Harty, M., McGeough, K., Carolan, R., Müller, C., Laughlin, R., Lanigan, G., Richards, K., & Watson, C. (2017). Gross nitrogen transformations in grassland soil react differently to urea stabilisers under laboratory and field conditions. Soil Biology and Biochemistry. 109, 23-24. https://doi.org/10.1016/j.soilbio.2017.01.025