摘要
作为土壤氮素转化的驱动者,微生物群落结构关系着稻田氮素利用及温室气体N_2O排放等问题。本研究分别基于高通量测序和荧光定量PCR技术,分析了不同氮肥水平[CK(不施氮)、N(施N 180 kg·hm-2)、2/3N(施N 120 kg·hm-2)、1/3N(施N 60 kg·hm-2)]下稻田细菌群落及硝化反硝化关键微生物功能基因丰度的变化。结果显示:氮肥水平提高增加了稻田细菌物种丰富度Chao1指数和群落多样性Shannon指数,改变了细菌群落组成,其中与硝化作用相关的硝化螺菌门Nitrospirae和嗜酸的醋杆菌门Acidobacteria的相对丰度随氮肥水平提高而增加,但甲烷氧化菌Methylosinus的相对丰度随氮肥水平提高而降低。氮肥水平对稻田硝化作用关键微生物氨氧化细菌amo A基因丰度的影响较大,0~5 cm和10~20 cm深度土层中的amo A基因丰度均随氮肥用量增加而提高;反硝化作用关键微生物功能基因nir S、qno B和nos Z的丰度在不施肥处理(CK)中显著低于施肥处理(1/3N、2/3N和N)(P<0.05),但1/3N、2/3N和N处理的稻田nir S基因丰度没有明显差异;0~5 cm土层中qno B和nos Z基因丰度存在随氮肥水平提高而增加的趋势,10~20 cm土层中nos Z基因丰度在2/3N和N处理下显著高于1/3N处理(P<0.05)。N处理的稻田N_2O排放通量显著高于2/3N及1/3N处理(P<0.05),后者又显著高于CK处理(P<0.05)。相关分析结果表明稻田N_2O排放通量与0~5 cm土层中硝化螺菌门Nitrospirae相对丰度及10~20 cm土层中amo A基因丰度存在显著相关性(P<0.05,n=10)。综上所述,氮肥水平提高增加了稻田细菌群落多样性,促进了稻田N_2O排放,且本研究稻田中硝化作用微生物群落及丰度变化与稻田N_2O排放的关系更为密切。
Microbial community structures are relevant for the utilization of nitrogen(N)and the emission of nitrous oxide(N2O)in paddy soils.Nitrification and denitrification are the main ways to produce N2O in soils and nitrification bacteria and denitrifying bacteria respectively drive the processes of nitrification and denitrification.In this study,changes in bacterial communities and the abundance of nitrification bacteria or denitrifying bacteria under different nitrogen fertilizer levels[CK(no N fertilization),1/3N(N application of60kg·hm?2),2/3N(N application of120kg·hm?2)and N(N application of180kg·hm?2]in paddy soils were analyzed respectively by high-throughput sequencing and real-time PCR.The analysis in abundance of nitrification bacteria or denitrifying bacteria was based on ammonia-oxidizing bacterial amoA gene and denitrifying bacterialnirS gene or qnoB gene or nosZ gene.The results showed that increase in application of nitrogen fertilizer enhanced Chao1index and Shannon diversity index of bacterial communities and changed the composition of bacterial communities in paddy soil.The relative abundance of Nitrospirae and Acidobacteria increased with improvement of nitrogen fertilizers,while that of Methylosinus decreased with improvement of nitrogen fertilizers in paddy soils.There was greater impact of increased use of nitrogen fertilizer on the abundance of amoA gene in paddy soils.The abundance of amoA gene increased with increasing nitrogen application in the0?5cm or10?20cm depths of soil.The abundances of nirS gene,qnoB gene and nosZ gene in no-fertilizer soil(CK)were significantly lower than those in fertilizer soils(1/3N,2/3N and N)(P<0.05).There was no significant difference in the abundance of nirS gene among1/3N,2/3N and N treatments.However,there was an increasing tendency in the abundance of qnoB gene and nosZ gene with increasing application of nitrogen fertilizer in the0?5cm depth of soil.The abundance of nosZ gene in the10?20cm depth of soil under both2/3N and N treatments were significantly
作者
宋亚娜
林艳
陈子强
SONG Yana;LIN Yan;CHEN Ziqiang(Institute of Biological Technology, Fujian Academy of Agricultural Sciences, Fuzhou 350003, China)
出处
《中国生态农业学报》
CSCD
北大核心
2017年第9期1266-1275,共10页
Chinese Journal of Eco-Agriculture
基金
福建省公益类科研院所专项(2015R1019-12)
福建省自然科学基金项目(2015J01105)
福建省科技重点项目(2015N0037)
福建省农业科学院PI项目(2016PI-26)资助~~
关键词
氮肥水平
稻田土壤
微生物群落
氨氧化细菌基因
反硝化细菌基因
N2O排放
高通量测序
荧光定量PCR
Nitrogen fertilizer level
Paddy soil
Microbial community
Ammonia-oxidizing bacterial gene
Denitrifying bacterial gene
Nitrous oxide emission
High-throughput sequencing
Real-time PCR
