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不同灌溉量对华北平原菜地N2O排放及其来源的影响
引用本文:丁军军,张薇,李玉中,林 伟,徐春英,李巧珍.不同灌溉量对华北平原菜地N2O排放及其来源的影响[J].生态学杂志,2017,28(7):2269-2276.
作者姓名:丁军军  张薇  李玉中  林 伟  徐春英  李巧珍
作者单位:1.中国农业科学院农业环境与可持续发展研究所, 农业部旱地节水农业重点实验室, 北京 100081;2.中国农业科学院环境稳定同位素实验室, 北京 100081
基金项目:本文由国家自然科学基金项目(41473004,41501318,41301553)资助
摘    要:以华北平原菜地为研究对象,通过控制灌溉量设置不同的土壤水分对照,利用稳定同位素15N自然丰度法,结合传统的乙炔抑制试验,对不同土壤水分条件下的N2O排放、N2O同位素特征值以及同位素异位体位嗜值(SP值)变化规律进行分析,以阐明不同水分条件下N2O的排放规律及其来源.结果表明:水分条件显著影响N2O排放,相比于50%土壤孔隙含水率(WFPS),70%WFPS的水分条件下N2O的排放较高.N2O的排放集中在施肥前期,在施肥中后期迅速减弱.50%WFPS条件下,N2O的排放最初以硝化作用为主,占比约为90%,随后硝化作用迅速下降,反硝化变成主导作用,施肥7 d后即达到80%以上;而70%WFPS条件下初期则以反硝化为主,占比约为70%,随后下降至40%左右,施肥10 d后逐渐升高至80%.整体上,N2O的排放主要以反硝化作用为主,不同水分处理对土壤硝化、反硝化作用的影响主要体现在施肥前期,后期均以反硝化为主.综上,建议华北地区的菜地生产应适当降低灌溉量,以减少N2O排放.

关 键 词:N2O  稳定同位素  SP值  硝化作用  反硝化作用  灌溉
收稿时间:2017-02-28

Effects of soil water condition on N2O emission and its sources in vegetable farmland of North China Plain
DING Jun-jun,ZHANG Wei,LI Yu-zhong,LIN Wei,XU Chun-ying,LI Qiao-zhen.Effects of soil water condition on N2O emission and its sources in vegetable farmland of North China Plain[J].Chinese Journal of Ecology,2017,28(7):2269-2276.
Authors:DING Jun-jun  ZHANG Wei  LI Yu-zhong  LIN Wei  XU Chun-ying  LI Qiao-zhen
Institution:1.Ministry of Agriculture Key Laboratory of Dryland Agriculture, Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing 100081, China;2.Environmental Stable Isotope Laboratory, Chinese Academy of Agricultural Sciences, Beijing 100081, China
Abstract:To understand the mechanisms of agricultural N2O emission, we investigated the N2O emission dynamics, the N2O isotope signatures, and the site preference value under different soil water conditions in the vegetable farmland of North China, by using the stable isotope technique and the acetylene inhibition method. The results demonstrated that N2O emission was significantly affec-ted by the water condition, and N2O emissions from soil with water-filled pore space (WFPS) of 70% were significantly higher than that with 50% WFPS. N2O emission occurred mostly in the early stage of fertilization, and decreased rapidly in the later stage of fertilization. At 50% WFPS, nitrification was the major process generating N2O during the early fertilization stage, accounting for approximately 90% of the N2O emission. However, the contribution of nitrification decreased sharply, whereas denitrification became the dominant process, accounting for 80% of the N2O emission 7 days after the fertilization. On the other hand, at 70% WFPS, denitrification was the main process releasing N2O during the early fertilization stage, decreasing from 70% to 40% and then gradually increasing to 80% 10 days after the fertilization. Overall, N2O emission was mainly dominated by the denitrification. The effect of different water treatments on soil nitrification and denitrification took place mainly in the early stage of fertilization, and N2O emission was gradually dominated by the denitrification at the later stage. These results suggested we could reduce N2O emission by approp-riately reducing the amount of irrigation in the vegetable farmland of North China.
Keywords:N2O  stable isotope  site preference value  nitrification  denitrification  irrigation
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