中文摘要：

羟胺（NH_2OH）和亚硝态氮（NO2^--N）均可以通过非生物过程产生N_2O,但是同一土壤中其对N_2O排放的相对贡献尚不明确。本文采用高压灭菌和室内培养方法,测定了采自6个不同地点的农业利用土壤在灭菌和非灭菌条件下添加NH_2OH或NO2^--N后N_2O的排放量,以研究土壤中NH_2OH和NO2^--N非生物过程对N_2O排放的相对贡献及其关键因子。结果表明,供试土壤中,NH_2OH非生物过程产生的N_2O贡献介于6%～73%,NO2^--N非生物过程产生N_2O占的比例为3%～236%;在pH〈7的衢州茶园、鹰潭旱地、常熟菜地和海伦旱地土壤中,添加NO2^--N后非生物过程产生N_2O比例大于添加NH_2OH的处理,但是在pH〉7的常熟果园和封丘旱地土壤中则相反;pH是影响NH_2OH和NO2^--N非生物过程产生N_2O的关键因子,添加NH_2OH处理中非生物过程产生N_2O占N_2O总排放量的比例与土壤pH呈正相关（p〈0.05）,而在添加NO2^--N处理中呈负相关（p〈0.01）。上述结果说明,NO2^--N在偏酸性土壤中可能主要通过非生物过程产生N_2O,而在偏碱性土壤中主要通过生物过程;NH_2OH则与之相反。

英文摘要：

[Objective]Nitrous oxide（N_2O） is an important greenhouse gas contributing to global warming and depleting stratospheric ozone.Agricultural soils are the major sources of anthropogenic N_2O emissions.N_2O emitted from natural and cultivated soils is mainly generated through nitrification and denitrification,accounting for about 70%of the global total,but contributions of other processes（such as chemodenitrification） are poorly understood.Hydroxylamine（NH_2OH） and nitrite（NO2^--N） are two main intermediate products of nitrification,and the latter is also an intermediate product of denitrification,both of which can produce N_2O through abiotic processes.However,relative contributions of these two products to N_2O emission in the same soil remain unclear.[Method]To determine contributions of the two products,NH_2OH and NO2^--N,through abiotic processes in soil to emission of N_2O and to identify related affecting factors,an indoor incubation experiment was designed and carried out,using soil samples collected from a tea garden in Quzhou,an upland field in Yingtan,a vegetable garden in Changshu,an upland field in Hailun,an orchard in Changshu and an upland field in Fengqiu,representing four types of land use.The soil samples,sterilized（autoclaved three times at 121 ℃ for 1 h before nitrogen fertilization） and unsterilized,were spiked with NH_2OH or NO2^--N,separately,and incubated.Emissions of N_2O from the soil samples were monitored after 2 hours of incubation.[Result]Addition of NH_2OH or NO2^--N increased N_2O emission from each tested soil,with N_2O flux peaking 2 h after the addition of NH_2OH during the observed period,and the highest peak was observed from the soil samples collected from the orchard in Changshu Orchard（1 585 μg kg^（-1） h^（-1））.N_2O emissions from the soils spiked with NO2^--N varied in the range of 6.42～61.28μg kg^（-1） h^（-1） in flux.In unsterilized or natural soil samples spiked with NH_2OH,N_2O emission coefficients varied from 18.63%to 35.95%,w