Impact of urease inhibitor on ammonia and nitrous oxide emissions from temperate pasture soil cores receiving urea fertilizer and cattle urine

New Zealand's intensively grazed pastures receive the majority of nitrogen (N) input in the form of urea, which is the major constituent of animal urine and the most common form of mineral N in inorganic N fertilizers. In soil, urea is rapidly hydrolyzed to ammonium (NH4+) ions, a part of which...

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Bibliographic Details
Published in:The Science of the total environment 2013-11, Vol.465, p.56-63
Main Authors: Singh, Jagrati, Kunhikrishnan, A., Bolan, N.S., Saggar, S.
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Ammonia
Biological and medical sciences
Cattle urine
Fundamental and applied biological sciences. Psychology
Nitrogen
Nitrous oxide
Pasture
Physical properties
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Soil science
Structure, texture, density, mechanical behavior. Heat and gas exchanges
Urea
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Summary:New Zealand's intensively grazed pastures receive the majority of nitrogen (N) input in the form of urea, which is the major constituent of animal urine and the most common form of mineral N in inorganic N fertilizers. In soil, urea is rapidly hydrolyzed to ammonium (NH4+) ions, a part of which may be lost as ammonia (NH3) and subsequently as nitrous oxide (N2O), which is a greenhouse gas. Two glasshouse experiments were conducted to study the effect of a urease inhibitor (UI), N-(n-butyl) thiophosphoric triamide (NBPT), commercially named Agrotain, applied with urine and urea on urea hydrolysis and NH3 and N2O emissions. Treatments included the commercially available products Sustain Yellow (urea+Agrotain+4% sulfur coating), Sustain Green (urea+Agrotain) and urea, and cattle urine (476kgNha−1) with and without Agrotain applied to intact soil cores of a fine sandy loam soil. The addition of Agrotain to urine and urea (i.e. Sustain Green) reduced NH3 emission by 22% to 47%, respectively. Agrotain was also effective in reducing N2O emissions from urine and Sustain Green by 62% and 48%, respectively. The reduction in N2O emissions varied with the type and amount of N applied and plant N uptake. Plant N uptake was significantly higher in the soil cores receiving Agrotain with urea than urea alone, but the slight increase in dry matter yield was non-significant. Hence, urease inhibitor reduced N losses through NH3 and N2O emissions, thereby increasing plant uptake of N. Urease inhibitor reduces ammonia volatilization and nitrous oxide emission by decreasing both ammonium and nitrate concentrations in soil and hence increase plant N uptake. [Display omitted] ► Quantify the reduction of N lost as NH3 and N2O from urea and urine with urease inhibitor application ► Comparison of three different commercially available urea products (with UI and sulfur coating) ► Urease inhibitor significantly reduced NH3 emissions from both urea and urine with variable effect on N2O emissions. ► Application of UI also tends to increase N uptake by plants when applied with urea.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2013.02.018