机构地区:[1]青岛农业大学资源与环境学院,青岛266109 [2]中南林业科技大学生命科学与技术学院,长沙410018 [3]中国科学院亚热带农业生态研究所,亚热带农业生态过程重点实验室,长沙410125
出 处:《环境科学》2016年第10期3987-3995,共9页Environmental Science
基 金:国家自然科学基金项目(41503081,41430860)
摘 要:自养微生物可同化大气中的CO2并将其转化为土壤有机碳,对提高农田土壤的碳吸收和碳储存有重要意义,然而土壤质地对自养固碳微生物功能种群及其同化碳的影响机制还不清楚.本研究选取亚热带地区同一母质发育而成的两种质地水稻土壤(壤质黏土和砂质黏壤土),通过^(14)C-CO2连续标记技术结合室内模拟培养实验,探讨土壤质地对自养微生物同化碳(^(14)C-SOC)、自养微生物截留碳(^(14)C-MBC)和自养微生物可溶性碳(^(14)C-DOC)的影响.以固碳功能基因(cbb L基因)作为指示基因,结合PCR和克隆测序技术,分析不同质地土壤自养固碳微生物群落结构和多样性的差异.结果表明,壤质黏土^(14)C-SOC、^(14)C-MBC和^(14)C-DOC平均含量分别为133.81、40.16和8.10 mg·kg-1,均显著高于砂质黏壤土^(14)C-SOC(104.95 mg·kg-1)、^(14)C-MBC(33.26 mg·kg-1)和^(14)C-DOC(4.18 mg·kg-1)平均含量(P<0.05),说明土壤质地显著影响了土壤自养微生物碳同化量以及自养微生物同化碳在土壤中的转化.稀疏曲线、细菌cbb L基因文库覆盖度以及多样性指数分析结果显示壤质黏土固碳细菌群落多样性高于砂质黏壤土.系统发育分析表明,壤质黏土细菌cbb L基因序列与Rhodoblastus acidophilus、Blastochloris viridis、Thauera humireducens、Mehylibium sp.、Variovorax sp.等具有一定的同源性,而砂质黏壤土cbb L基因序列主要与根瘤菌和放线菌同源.可见,土壤质地对自养固碳微生物群落结构和多样性产生了深刻的影响,壤质黏土中较高的黏粒含量、土壤养分含量和阳离子交换量可能有利于维持更高的自养固碳微生物多样性和活性,从而导致不同质地土壤自养微生物碳同化量及其转化存在显著差异.Autotrophic bacteria can assimilate atmospheric carbon dioxide( CO2) and convert CO2 into organic carbon. The CO2 fixation by autotrophic bacteria is important for the improvement of carbon sequestration in agricultural soils. However,the effect of soil texture on autotrophic CO2 fixation bacteria and their CO2 fixation capacity is still unknown. Here,two paddy soils with different textures( loamy clay soil and sand clay loam soil) were incubated with continuous14C-CO2 in a glass chamber. The two soils were developed from the same parent. At the end of 110 days incubation,the14C-CO2 incorporated in soil organic carbon(14C-SOC),microbial biomass carbon(14C-MBC) and dissolved organic carbon(14C-DOC) were measured to explore the effects of soil texture on the autotrophic bacterial CO2 fixation rates. The effect of soil texture on the composition and diversity of autotrophic CO2 fixation bacterial community was investigated using cloning and sequencing of the cbb L gene,which encodes ribulose-1,5-biphosphate carboxylase / oxygenase( Rubis CO) in the Calvin cycle. The results showed that the average contents of14C-SOC,14C-MBC and14C-DOC were 133. 81,40. 16 and 8. 10 mg·kg-1 1in loamy clay soil,respectively,which were significantly higher than their corresponding contents in sand clay loam soil( P 〈0. 05). This suggested that soil texture not only affected the amounts of autotrophic bacteria CO2 fixation but also had an effect on the transformation of microbial assimilated14 C in soil. The cbb L gene libraries of two soils were significantly different as revealed by libshuff analyses( P 〈0. 05). Phylogenetic analysis showed that cbb L sequences from the loamy clay soil were closely affiliated with known cultures such as Rhodoblastus acidophilus, Blastochloris viridis, Thauera humireducens,Mehylibium sp. and Variovorax sp.,whereas these sequences belonging to the sand clay loam soil were related to branching lineages originating from Rhizobiales and Actinomycetales. Rarefaction curve
关 键 词:土壤质地 固碳自养微生物 CO2同化 cbbL基因 多样性 群落结构
分 类 号:X144[环境科学与工程—环境科学] X172
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