| 黄河三角洲滨海湿地生态修复区春季土壤古菌和细菌群落结构探究 |
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| 作者姓名: | 王炳臣 匡少平 郑阳 史大磊 赵海涛 于贞贞 赵常兵 程飞 |
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| 作者单位: | 青岛科技大学环境与安全工程学院;中国石油化工股份有限公司胜利油田分公司海洋采油厂;东营市海洋发展研究院;东营市投资促进局;潍坊市市政公用事业服务中心 |
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| 基金项目: | 青岛市人社局博后应用研究项目(生物碳、磁铁矿在滨海土壤油泥微生物降解中的作用与应用研究);山东省典型海岸带滨海湿地植被恢复环境种群质量及生境演变研究项目。 |
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| 摘 要: | 盐地碱蓬是黄河三角洲滨海湿地生态功能的起点和核心,其原生修复在土壤改良和微生物功能恢复方面的作用仍未可知.因此,本研究开展了盐地碱蓬修复土壤的细菌和古菌群落结构分析,借助理化性质检测和高通量手段进行了样品实验室检测.结果发现,滨海湿地土壤均呈碱性(pH=7.92~8.45),盐度含量较高(>30.98‰)且非植被区土壤...
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| 关 键 词: | 滨海湿地 春季萌发 盐地碱蓬 植被根植 微生物多样性 |
Study on the soil archaea and bacterial community structure in ecological restoration area of Yellow River Delta coastal wetland in spring |
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| Authors: | WANG Bingchen KUANG Shaoping ZHENG Yang SHI Dalei ZHAO Haitao YU Zhenzhen ZHAO Changbing CHENG Fei |
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| Institution: | (College of Environment and Safety Engineering,Qingdao University of Science and Technology,Qingdao 266042,China;Gudao Oil Production Factory,Sinopec Shengli Oilfield Company,Dongying 257237,China;Dongying Ocean Development Research Institute,Dongying 257091,China;Dongying Investment Promotion Bureau,Dongying 257000,China;Municipal Public Utilities Service Center of Weifang city,Weifang 261071,China) |
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| Abstract: | The Suaeda salsa is the starting point and core for ecological function of coastal wetland in Yellow River Delta,while the role of their in-situ remediation in soil reclamation and microbial function recovery is still unknown.Therefore,the analysis for bacterial and archaea community structure of soil restored by Suaeda salsa were carried out in this study,among which the samples were tested in laboratory by physical and chemical properties detection and high throughput methods.The results showed that all the coastal wetland soil samples were alkaline with pH of 7.92-8.45and high salinity(>30.98‰),and the soil in unvegetated area possessed obvious crystalline salts(>45.26‰).In terms of bacteria,Muribaculaceae(14.81%)and Helicobacter(8.00%)were the main species of shoreside suaeda.Marinobacter(20.19%)and Halomonas(7.15%)were the main species of Suaeda salsa,among which Muribaculaceae(9.37%),Inhella(8.61%)and Halanaerobium(8.25%)dominated in the riverside vegetation zone(RG).The Marinobacter(5.75%-17.91%),Halomonas(9.01%-10.92%)and Muribaculaceae(5.91%-10.26%)were the main bacteria in high saline soil zone,riverside and transition zone without vegetation.There was a significant difference in the Shannon index(P=0.05)between vegetation and non-vegetation areas in bacteria.In terms of archaea,Salinigranum(10.00%-34.17%),Halorubrum(12.1%-29.33%)and Halogranum(1.42%-7.70%)were the predominant species in vegetation areas.And Halolamina(6.97%-20.25%),Halogranum(2.06%-26.86%)and Halorubrum(12.54%-21.54%)were widespread in non-vegetation areas.Based on CCA,PCoA,Venn diagram and functional prediction,it was found that the composition of bacteria(22.6%)and archaea(29.5%)were different between the rooted and unrooted soils caused by Suaeda salsa plantation.Besides,salinity also gave rise to this difference.After vegetation plantation,the flora was more diverse and element cycling appeared.The composition of microorganisms in non-vegetation areas was similar while there was potential competition.As a result,vegetation recultivation could effectively restore soil ecological functions,while the microorganisms in soil before restoration provided germplasm resources for pollutant degradation and antibiotic development. |
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| Keywords: | coastal wetland spring germination suaeda salsa vegetation rooted microbial diversity |
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