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酸性矿山废水对成熟期水稻根区理化因子及固氮微生物的影响OA北大核心CSTPCD

Effects of Acid Mine Drainage on Physicochemical Factors and Nitrogen-fixing Microorganisms in the Root Zone of Mature Rice

中文摘要英文摘要

[目的]酸性矿山废水(acid mine drainage,AMD)是一类低pH、高硫酸盐浓度和重金属富集的废水.探究成熟期水稻根区土壤固氮菌群落的丰度和组成及其对AMD的响应,并阐明土壤固氮菌群落结构变化的主要驱动因素.[方法]对取自安徽省铜陵市矿区受AMD污染和未受污染的稻田土壤进行水稻盆栽试验,设置 3 组不同处理(A:AMD浇溉污染土、B:清洁水浇灌污染土、CK:清洁水浇灌未污染土),采用nifH基因高通量测序技术分析不同处理下的成熟期水稻根区土壤固氮菌群落特征.[结果]AMD污灌使得水稻根区土壤中SO42-、NO3-、重金属的含量显著上升,土壤酸化且固氮菌群落的多样性下降.水稻根区土壤的优势固氮菌包括Anaeromyxobacter、Geobacter等,CK处理中富集的固氮菌群数量显著高于A、B处理,且B处理中主要富集疣微菌门,CK处理中主要富集变形菌门.pH和重金属Cu、Pb、Zn是驱动水稻根区土壤固氮菌群落结构的主要因素.具有硫还原功能的Desulfovibrio和Desulfurivibrio对氮的变化贡献明显.[结论]AMD对水稻根区土壤化学性质和固氮菌产生显著影响,恢复清洁水灌溉可促进固氮菌的恢复.

[Objective]Acid mine drainage(AMD)is a kind of wastewater with low pH,high sulfate concentration and heavy metal enrichment.This study is aimed to investigate the abundance and composition of azotobacter community in the root zone of rice at mature stage and its response to AMD,and to elucidate the main driving factors of the change of soil azotobacter community structure.[Method]Rice pot experiment was carried out on paddy soil contaminated and uncontaminated by AMD from Tongling mining area of Anhui province,and three different treatments were set up(A:AMD irrigated contaminated soil;B:clean water irrigated contaminated soil;CK:clean water irrigated uncontaminated soil),nifH gene high-throughput sequencing technology was used to analyze the characteristics of azotobacter community in rice root zone soil under different treatments.[Result]The contents of SO42-,NO3-and heavy metals in rice root zone soil increased significantly,the soil acidified,and the diversity of azotobacter community decreased.The dominant nitrogen-fixing bacteria in rice root zone soil included Anaeromyxobacter,Geobacter,etc.The number of nitrogen-fixing bacteria enriched in CK treatment was significantly higher than that in A and B treatments,and Verrucomicrobia were mainly enriched in B treatment,while Proteobacteria were mainly enriched in CK treatment.pH、Cu、Pb and Zn were the main factors driving the community structure of azotobacter in rice root zone.Desulfovibrio and Desulfurivibrio with sulfur reduction function have significantly contributed to the change in nitrogen.[Conclusion]AMD had significant effects on soil chemistry and azotobacter in the root zone of rice,and restoring clean water irrigation promoted the recovery of azotobacter.The above findings provide new insights and ideas for biological remediation of AMD-contaminated soil.

田胜尼;张琴;董玉飞;丁洲;叶爱华;张明珠

安徽农业大学生命科学学院,合肥 230036

AMD水稻根区土壤根区固氮微生物重金属

AMDrice root zone soilroot zone nitrogen-fixing microorganismnitrogenheavy metal

《生物技术通报》 2024 (006)

271-280 / 10

安徽省教育厅重点项目(KJ2021A0168)

10.13560/j.cnki.biotech.bull.1985.2023-1146

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