江苏农业学报2026,Vol.42Issue(3):563-573,11.DOI:10.3969/j.issn.1000-4440.2026.03.014
稻田土壤N2O还原潜力的影响因素
Influencing factors of N2O reduction potential in paddy soils
摘要
Abstract
The ecosystem of paddy fields is a primary contributor to N2O emissions within agricultural land,and studying the N2O reduction potential in paddy fields is of great significance for reducing N2O emissions and mitigating the atmospheric greenhouse effect.In this experiment,six typical paddy field soils from Jiangsu Changshu,Helongjiang Jiansanjiang,Jiangxi Yingtan,Sichuan Ziyang,Hainan Sanya and Guizhou Guiyang were selected for anaerobic cultivation to study the differences in N2O reduction rates and copy numbers of N2O reductase genes nosZ Ⅰ and nosZ Ⅱ in the plough layer of paddy fields,as well as their key influencing factors.The results showed that dissolved organic carbon(DOC)con-tent in the tested paddy soils ranged from 9.52 mg/kg to 61.21 mg/kg,which had a higher coefficient of variation than the total organic carbon content.The soil N2O reduction rate in paddy fields showed significant regional variation,and the aver-aged N2O reduction rate in Changshu paddy fields was 28.55 μg/(g·d),which was 5.9 times higher than that in the Yingtan paddy fields.Correlation analysis found that there was a significant positive correlation between the N2O reduction rate in paddy fields and soil DOC content.Quantitative PCR results showed that the copy numbers of N2O reductase genes nosZ Ⅰ and nosZ Ⅱ in the six paddy soils were 0.90× 107-9.09× 107copies/g and 1.01×107-6.53× 107copies/g,respectively.The copy number of gene nosZ Ⅰ was significantly and positively correlated with the N2O reduction rate in paddy fields,while the copy number of gene nosZ Ⅱ did not reach a significant level.Moreover,N2O net emission rate during the denitrification process was sig-nificantly positively correlated with the N2O reduction rate in paddy fields.This results suggested that the active carbon con-tent was an important factor in the process of N2O reduction in paddy fields,and N2O reduction process in the tested paddy fields might be mainly driven by nosZ Ⅰ type microorganisms.关键词
稻田土壤/N2O还原/可溶性有机碳/nosZ基因Key words
paddy soil/N2O reduction/soluble organic carbon/nosZ gene分类
农业科技引用本文复制引用
赵坤,周聪,陈汉,滕钊军,张耀鸿..稻田土壤N2O还原潜力的影响因素[J].江苏农业学报,2026,42(3):563-573,11.基金项目
国家自然科学基金面上项目(42175138、42377295) (42175138、42377295)
