Minimizing soil ammonia(NH_3) and nitrous oxide(N_2O) emission factors(EFs) has significant implications in regional air quality and greenhouse gas(GHG) emissions besides nitrogen(N) nutrient loss.The aim of...Minimizing soil ammonia(NH_3) and nitrous oxide(N_2O) emission factors(EFs) has significant implications in regional air quality and greenhouse gas(GHG) emissions besides nitrogen(N) nutrient loss.The aim of this study was to investigate the impacts of different N fertilizer treatments of conventional urea,polymer-coated urea,ammonia sulfate,urease inhibitor(NBPT,N-(n-butyl) thiophosphoric triamide)-treated urea,and nitrification inhibitor(DCD,dicyandiamide)-treated urea on emissions of NH_3 and GHGs from subtropical wheat cultivation.A field study was established in a Cancienne silt loam soil.During growth season,NH_3 emission following N fertilization was characterized using active chamber method whereas GHG emissions of N_2O,carbon dioxide(CO_2),and methane(CH_4) were by passive chamber method.The results showed that coated urea exhibited the largest reduction(49%) in the EF of NH_3-N followed by NBPT-treated urea(39%) and DCD-treated urea(24%) over conventional urea,whereas DCD-treated urea had the greatest suppression on N_2O-N(87%) followed by coated urea(76%) and NBPT-treated urea(69%).Split fertilization of ammonium sulfate-urea significantly lowered both NH_3-N and N_2O-N EF values but split urea treatment had no impact over one-time application of urea.Both NBPT and DCD-treated urea treatments lowered CO_2-C flux but had no effect on CH_4-C flux.Overall,application of coated urea or urea with NPBT or DCD could be used as a mitigation strategy for reducing NH_3 and N_2O emissions in subtropical wheat production in Southern USA.展开更多
基金supported,in part,by a scholarship from the China Scholarship Council(CSC)
文摘Minimizing soil ammonia(NH_3) and nitrous oxide(N_2O) emission factors(EFs) has significant implications in regional air quality and greenhouse gas(GHG) emissions besides nitrogen(N) nutrient loss.The aim of this study was to investigate the impacts of different N fertilizer treatments of conventional urea,polymer-coated urea,ammonia sulfate,urease inhibitor(NBPT,N-(n-butyl) thiophosphoric triamide)-treated urea,and nitrification inhibitor(DCD,dicyandiamide)-treated urea on emissions of NH_3 and GHGs from subtropical wheat cultivation.A field study was established in a Cancienne silt loam soil.During growth season,NH_3 emission following N fertilization was characterized using active chamber method whereas GHG emissions of N_2O,carbon dioxide(CO_2),and methane(CH_4) were by passive chamber method.The results showed that coated urea exhibited the largest reduction(49%) in the EF of NH_3-N followed by NBPT-treated urea(39%) and DCD-treated urea(24%) over conventional urea,whereas DCD-treated urea had the greatest suppression on N_2O-N(87%) followed by coated urea(76%) and NBPT-treated urea(69%).Split fertilization of ammonium sulfate-urea significantly lowered both NH_3-N and N_2O-N EF values but split urea treatment had no impact over one-time application of urea.Both NBPT and DCD-treated urea treatments lowered CO_2-C flux but had no effect on CH_4-C flux.Overall,application of coated urea or urea with NPBT or DCD could be used as a mitigation strategy for reducing NH_3 and N_2O emissions in subtropical wheat production in Southern USA.
