Effect of Cd Contamination on Soil Microbial Community Structure in Flue-cured Tobacco Rhizosphere

文献类型: 外文期刊

第一作者: Gao, Lin

作者: Gao, Lin;Shen, Guo-Ming;Zhang, Ji-Guang

作者机构:

关键词: Cd contamination;Flue-cured tobacco;Microbial community structure;Rhizosphere soil

期刊名称:INTERNATIONAL CONFERENCE ON ENVIRONMENTAL PROTECTION AND HUMAN HEALTH (EPHH 2014)

ISSN:

年卷期: 2015 年

页码:

收录情况: SCI

摘要: Soil microorganisms play an important role in rhizosphere soil ecosystems. The bacteria and fungi community structure of flue-cured tobacco rhizosphere by adding different content of Cd (2, 4, 8 and 16 mg.kg(-1)) were studied based on the PCR-DGGE analysis. The results were as follows:(1) The bacteria bands of Cd at 4 mg.kg(-1) level were significantly less than other treatments. Some bacteria disappeared with the Cd concentration increasing. Some special bacteria had a stronger restoration capability at higher Cd contamination level (16mg.kg(-1)). The sequencing results showed the bacteria community was divided into 8 clusters. The Bacterium ellin, Acidobacteria bacterium ellin and Mycobacterium had strong resistance and adaptability to Cd contamination of different concentration. The Leptolyngbya had strong adaptability to Cd contamination of moderate concentration, which could become dominant population at this level. (2) The fungi community diversity in rhizosphere with different concentration of Cd had a significant difference compared with the bacteria. Some fungi appeared with the increase of Cd concentration, but some fungi disappeared at the moderate level of 8 mg.kg(-1). Sequencing results showed the fungi community was divided into 4 clusters. The Fusarium and unknown species were the dominant fungi community, which existed in all treatments and had strong adaptability to different Cd concentration. The Acremonium sclerotigenum was sensitive to Cd contamination, but the Rhizopus appeared at Cd concentration of more than 8 mg.kg(-1), which showed its addiction to higher Cd concentration.

分类号:

  • 相关文献

[1]Accumulation and Distribution of Cadmium in Flue-Cured Tobacco and Its Impact on Rhizosphere Microbial Community. Gao, Lin,Shen, Guoming,Zhang, Jiguang. 2015

[2]Effects of Tobacco Planting Systems on Rates of Soil N Transformation and Soil Microbial Community. Zhang, Jiguang,Zhang, Yizhi,Zheng, Linlin,Shi, Yi,Kong, Fanyu,Ma, Xinghua,Zhang, Zhongfeng,Tian, Lei. 2017

[3]ESTIMATION OF NICOTINE CONTENT IN TOBACCO LEAVES BASED ON HYPERSPECTRAL IMAGING. Dou, Y. Q.,Yuan, X. L.,Dou, Y. Q.,Li, X. J.,Cheng, S.,Liu, Y.. 2017

[4]Effect of two-stage dehydration on retention of characteristic flavor components of flue-cured tobacco in rotary dryer. Zhu, W. K.,Wang, Y.,Chen, L. Y.,Li, B.,Wang, B.,Wang, Z. G..

[5]Tobacco Growth Responses and Soil Properties to Rice-straw Biochar Applied on Yellow-brown Soil in Central China. Zhang, Jixu,Zhang, Zhong-Feng,Shen, Guo-Ming,Gao, Lin,Dai, Yan-Chen,Zha, Ting,Zhang, Ji-Guang,Zhang, Jixu,Wang, Rui. 2016

[6]Isolation, Identification, and Autotoxicity Effect of Allelochemicals from Rhizosphere Soils of Flue-Cured Tobacco. Ren, Xia,Ren, Xia,He, Xiaofeng,Yan, Zhiqiang,Jin, Hui,Li, Xiuzhuang,Qin, Bo,Ren, Xia,He, Xiaofeng,Yan, Zhiqiang,Jin, Hui,Li, Xiuzhuang,Qin, Bo,Zhang, Zhongfeng,Jin, Hui.

[7]Selenium uptake, speciation and stressed response of Nicotiana tabacum L.. Han, Dan,Xiong, Shuanglian,Tu, Shuxin,Xie, Zhijian,Han, Dan,Xiong, Shuanglian,Tu, Shuxin,Li, Xihong,Chen, Zhenguo,Li, Jinping,Xie, Zhijian.

[8]Effects of selenium on the growth and photosynthetic characteristics of flue-cured tobacco (Nicotiana tabacum L.). Jiang, Chaoqiang,Zu, Chaolong,Shen, Jia,Shao, Fuwen,Li, Tian.

[9]Pontibacter brevis sp nov., isolated from rhizosphere soil of Tamarix ramosissima. Osman, Ghenijan,Gao, Yan,Wang, Ning,Mahmud, Otkur,Zhang, Tao,Zhan, Faqiang,Zhang, Zhidong,Lou, Kai,Osman, Ghenijan,Gao, Yan,Wang, Ning,Mahmud, Otkur,Zhang, Tao,Zhan, Faqiang,Zhang, Zhidong,Lou, Kai. 2018

[10]Isolation, identification, and environmental adaptability of heavy-metal-resistant bacteria from ramie rhizosphere soil around mine refinery. Jiang, Jie,Pan, Chaohu,Zhang, Guimin,Xiao, Aiping,Yang, Xiai. 2017

[11]Comparison of rhizosphere impacts of two wheat genotypes differing in phosphorus utilization efficiency. Yan, Haili,Liu, Xuan,Li, Guihua,Zhang, Shuxiang,Liu, Wenke.

[12]Influence of the number of pathogen causing banana fusarium wilt and soil factors on the infection degree of banana plants. Deng, Xiao,Li, Qinfen,Wu, Chunyuan,Liu, Jingkun. 2013

[13]Bacterial community dynamics in the rhizosphere of a long-lived, leguminous shrub across a 40-year age sequence. Na, Xiaofan,Li, Xiaoran,Xu, Ting Ting,Zhang, Zeyong,Li, Ming,Ma, Fei,Kardol, Paul,Wang, Miao,Cao, Xiaoning. 2018

[14]Bacillus populi sp nov isolated from Populus euphratica rhizosphere soil of the Taklamakan desert. Liu, Bo,Liu, Guo-Hong,Wang, Xiao-Ying,Wang, Jie-Ping,Zhu, Yu-Jing,Zhang, Hai-Feng,Wang, Xiao-Ying,Sengonca, Cetin. 2018

[15]Soil Microbial Functional Diversity from Different Infection Grades of Banana Fusarium Wilt (Fusarium oxysporum f. sp cubense). Deng, Xiao,Li, Qinfen,Hou, Xianwen,Wu, Chunyuan. 2013

[16]The potential of foxtail millet as a trap crop for sunflower broomrape. Ye, Xiaoxin,Yu, Rui,Ma, Yongqing,Chen, Jie,McErlean, Christopher S. P.,Zhang, Meng,Ma, Yongqing.

[17]Effects of avocado (Persea americana Mill.) scion on arbuscular mycorrhizal and root hair development in rootstock. Shu, Bo,Liu, Liqin,Jue, Dengwei,Wang, Yicheng,Wei, Yongzan,Shi, Shengyou.

[18]Change of Zinc Forms in Rhizosphere and Nonrhizosphere Soils of Maize (Zea mays L.) Plants as Influenced by Soil Drought Condition. Wang, Hong,Gao, Xiang,Cheng, Mingfang,Jin, Jiyun.

[19]In vitro Inhibition of Fungal Root-Rot Pathogens of Panax notoginseng by Rhizobacteria. Li, Shidong,Miao, Zuoqing,Liu, Xingzhong.

[20]Phyllosphere bacterial communities associated with the degradation of acetamiprid in Phaseolus vulgaris. Zhou, Yu,Xu, Junfeng,Wang, Wei,Chen, Xiaoyun,Qiao, Xiongwu,Zhou, Yu,Li, Wenjun,Zhou, Yu,Li, Wenjun. 2011

作者其他论文 更多>>

微信小程序