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中国科学院生态环境研究中心导师教师师资介绍简介-陈保冬

本站小编 Free考研考试/2020-05-22


姓名: 陈保冬 性别: 男

职称: 研究员 学历: 博士

电话: 0086- 传真: 0086-

Email: bdchen@rcees.ac.cn 邮编: 100085

地址: 北京市海淀区双清路18号


简历:
  陈保冬研究员在土壤生物学领域有着丰富的科研经历,长期坚持特色研究方向,在菌根真菌生态生理及应用技术方面的研究系统深入。曾获日本学术振兴会(JSPS)资助在日本国立畜产草地研究所进行博士后研究,获德国洪堡基金会(Humboldt Foundation)资助以高级洪堡****身份在柏林自由大学开展合作研究。2009年入选中国科学院“****”,2015年受聘中国科学院大学岗位教授。先后主持或参加多项国家级科研项目,目前已发表学术论文150余篇(国际学术期刊收录90余篇),参编学术专著9部。担任学术杂志Pedobiologia、Mycorrhiza、Soil Ecology Letters、《生态学报》、《植物生态学报》、《生态学杂志》、《农业环境科学学报》、《土壤》、《岩矿测试》编委;中国菌物学会菌根和内生真菌专业委员会副主任、中国生态学会生态工程专业委员会委员、中国地质学会岩矿测试技术专业委员会委员。作为主要完成人分别于2009年和2014年获得国家自然科学二等奖和国家科学技术进步二等奖,2016年获中国测绘地理信息学会测绘科技进步奖特等奖,2018年获北京市科学技术一等奖。
学习经历
1993/9-1997/6,中国农业大学资源与环境学院土壤与植物营养专业本科生,1997年7月获农学学士学位,免试攻读硕士学位;
1997/9-1999/6,中国农业大学资源与环境学院植物营养系硕士生,1999年提前转博;
1999/9-2002/6,中国农业大学资源与环境学院植物营养系博士生,2002年7月获农学博士学位;
工作经历
2001/8-2002/1,香港浸会大学访问研究****;
2002/7-2004/8,中国科学院生态环境研究中心博士后;
2003/2-2003/5,丹麦Ris?国家实验室进行访问研究员;
2004/9-2006/10,在中国科学院生态环境研究中心中澳联合土壤环境研究室工作,历任助理研究员、副研究员;
2005/8-2005/10,访问澳大利亚阿德莱得大学;
2006/11-2008/10,日本学术振兴会(JSPS)外籍特别研究员(Postdoctoral Fellowship for Foreign Researchers),在日本畜产草地研究所工作;
2008/11-至今,中国科学院生态环境研究中心城市与区域生态国家重点实验室研究员,“土壤生态过程与生态重建”研究组组长;
2009/6-2009/9, 2010/4-2010/8, 2011/5-2011/8, 德国洪堡基金会(Humboldt Foundation)高级研究员(Humboldt Fellowship for Experienced Researcher),在柏林自由大学进行合作研究;
2015/8-2015/11,中国国家留学基金委高级研究****,柏林自由大学访学。
2015/5-至今,中国科学院大学岗位教授,担任《土壤-植物营养学实验》首席教师,《土壤生物学》、《高等土壤-植物营养学》、《生态系统评估与管理》主讲教师。

研究方向:
土壤生态过程与生态重建

招生方向:
欢迎土壤学、生态学、微生物学等专业学生报考
专家类别:
高级
职务:
研究组长
社会任职:
中国菌物学会菌根和内生真菌专业委员会副主任
中国生态学会生态工程专业委员会委员
中国地质学会岩矿测试技术专业委员会委员

承担科研项目情况:
(1)国家自然科学基金面上项目 “氮素对丛枝菌根真菌群落结构及共生效能的影响及作用机制研究”
(2)国家重点研发计划课题 “北方农牧交错带草地退化形成机理与驱动机制”;
(3)国家自然科学基金面上项目 “丛枝菌根对植物适应干旱胁迫的生态重要性及其生理机制研究”;
(4)国家科技支撑计划课题“城市垃圾厌氧发酵沼渣处理与资源化及沼液梯度安全利用技术及应用”子课题;
(5)国家自然科学基金面上项目“我国北方农牧交错带丛枝菌根真菌多样性及其驱动因子研究”;
(6)环保部和中国科学院全国生态环境十年变化(2000-2010年)遥感调查与评估项目专题“全国典型生态系统地下生态调查与评价”;
(7)中国科学院知识创新工程重要方向项目“我国北方典型脆弱生态系统中丛枝菌根真菌及其生态功能多样性研究”。

获奖及荣誉:
作为主要完成人分别于2009年和2014年获得国家自然科学二等奖和国家科学技术进步二等奖。

代表论著:
1) Hao Zhipeng, Xie Wei, Jiang Xuelian, Wu Zhaoxiang, Zhang Xin, Chen Baodong *,2019. Arbuscular mycorrhizal fungus improves rhizobium–Glycyrrhiza seedling symbiosis under drought stress. Agronomy 9: 572.
2) Hao Zhipeng*, Chen Baodong, Li Xiaolin, 2019. Relationship between soil chemical properties and microbial metabolic patterns in intensive greenhouse tomato production systems. Archives of Agronomy and Soil Science https://doi.org/10.1080/**.2019.**
3) Hao Zhipeng*, Xie Wei, Chen Baodong, 2019. Arbuscular mycorrhizal symbiosis affects plant immunity to viral infection and accumulation. Viruses 11(6): 534.
4) Veresoglou Stavros D*, Chen Baodong, Fischer Matthias M, Helgason Thorunn, Mamolos Andreas P, Rillig Matthias C, Roldán Antonio, Johnson David,2019. Latitudinal constraints in responsiveness of plants to arbuscular mycorrhiza: The ‘sun-worshipper’ hypothesis. New Phytologist 224(2): 552-556.
5) Xie Wei, Hao Zhipeng*, Yu Meng, Wu Zhaoxiang, Zhao Aihua, Li Jinglong, Zhang Xin, Chen Baodong*, 2019. Improved phosphorus nutrition by arbuscular mycorrhizal symbiosis as a key factor facilitating glycyrrhizin and liquiritin accumulation in Glycyrrhiza uralensis. Plant and Soil 439: 243-257.
6) Hu Yajun, Veresoglou Stavros D., Tedersoo Leho, Xu Tianle, Ge Tida, Liu Lei, Chen Yongliang, Hao Zhipeng, Su Yirong, Rillig Matthias C., Chen Baodong*, 2019. Contrasting latitudinal diversity and co-occurrence patterns of soil fungi and plants in forest ecosystems. Soil Biology and Biochemistry 131: 100-110.
7) Veresoglou Stavros D#, Liu Lei#, Xu Tianle#, Rillig Matthias C, Wang Meie, Wang Juntao, Chen Yongliang, Hu Yajun, Hao Zhipeng, Chen Baodong*, 2019. Biogeographical constraints in Glomeromycotinan distribution across forest habitats in China. Journal of Ecology 107: 684–695.
8) Zhao Aihua, Xu Tianle, Liu Lei, Shi Leilei, Xie Wei, Zhang Wei, Fu Shenglei, Feng Haiyan and Chen Baodong*, 2018. Influences of canopy nitrogen and water addition on AM fungal biodiversity and community composition in a mixed deciduous forest of China. Frontiers in Plant Science 9: 1842.
9) Chen Baodong, Nayuki Keiichiro, Kuga Yukari, Zhang Xin, Wu Songlin, Ohtomo Ryo*, 2018. Uptake and intraradical immobilization of cadmium by arbuscular mycorrhizal fungi as revealed by stable isotope tracer and synchrotron radiation μX-ray fluorescence analysis. Microbes and Environments 33(3):257-263.
10) Li Jinglong#, Sun Yuqing#, Zhang Xin*, Hu Yajun, Li Tao, Zhang Xuemeng, Wang Zhi, Wu Songlin, Wu Zhaoxiang, Chen Baodong*, 2018. A methyltransferase gene from arbuscular mycorrhizal fungi involved in arsenic methylation and volatilization. Chemosphere 209: 392-400.
11) Hao Zhipeng*, van Tuinen Diederik, Fayolle Léon, Chatagnier Odile, Li Xiaolin, Chen Baodong, Gianinazzi Silvio, Gianinazzi-Pearson Vivienne, 2018. Mycorrhiza affect Grapevine fanleaf virus transmission by the nematode vector Xiphinema index. Applied Soil Ecology 129: 107-111.
12) Li Jinglong, Sun Yuqing,Jiang Xuelian, Chen Baodong, Zhang Xin*, 2018. Arbuscular mycorrhizal fungi alleviate arsenic toxicity to Medicago sativa by influencing arsenic speciation and partitioning. Ecotoxicology and Environmental Safety 157: 235-243.
13) Xie Wei, Hao Zhipeng, Zhou Xiaofu, Jiang Xuelian, Xu Lijiao, Wu Songlin, Zhao Aihua, Zhang Xin, Chen Baodong*, 2018. Arbuscular mycorrhiza facilitates the accumulation of glycyrrhizin and liquiritin in Glycyrrhiza uralensis under drought stress. Mycorrhiza 28(3): 285-300.
14) Xu Lijiao, Li Tao, Wu Zhaoxiang, Feng Haiyan, Yu Meng, Zhang Xin, Chen Baodong*, 2018. Arbuscular mycorrhiza enhances drought tolerance of tomato plants by regulating the 14-3-3 genes in the ABA signaling pathway. Applied Soil Ecology 125: 213-221.
15) Zhang Xin*, Ren Baihui, Wu Songlin, Sun Yuqing, Chen Baodong, Li Ruojuan, 2018. Rhizophagus irregularis influences As and P uptake by alfafa and the neighboring non-host pepperweed growing in an As-contaminated soil. Journal of Environmental Sciences 67: 36-44.
16) Wu Songlin#, Hu Yajun#, Zhang Xin, Sun Yuqing, Wu Zhaoxiang, Li Tao, Lv Jitao, Li Jinglong, Zhang Jing, Zheng Lirong, Huang Longbin, Chen Baodong*, 2018. Chromium detoxification in arbuscular mycorrhizal symbiosis mediated by sulfur uptake and metabolism. Environmental and Experimental Botany 147: 43-52.
17) Verbruggen Erik*, Sheldrake Merlin, Bainard Luke D, Chen Baodong, Ceulemans Tobias, De Gruyter Johan, van Geel Maarten, 2018. Mycorrhizal fungi show regular community compositions in natural ecosystems. The ISME Journal 12(2): 380-385.
18) Chen Yongliang*, Xu Zhuwen, Xu Tianle, Veresoglo Stavros D, Yang Gaowen, Chen Baodong*, 2017. Nitrogen deposition and precipitation induced phylogenetic clustering of arbuscular mycorrhizal fungal communities. Soil Biology and Biochemistry 115: 233-242.
19) Nico Eisenhauer, Pedro M. Antunes, Alison E. Bennett, Klaus Birkhofer, Andrew Bissett, Matthew A. Bowker, Tancredi Caruso, Baodong Chen, David C. Coleman, Wietse de Boer,Peter de Ruiter, Thomas H. DeLuca, Francesco Frati, Bryan S. Griffiths, Miranda M. Hart, Stephan H?ttenschwiler, Jari Haimi, Michael Heethoff, Nobuhiro Kaneko, Laura C. Kelly, Hans Petter Leinaas, Zo? Lindo, Catriona Macdonald, Matthias C. Rillig, Liliane Ruess, Stefan Scheu, Olaf Schmidt, Timothy R. Seastedt, Nico M. van Straalen, Alexei V. Tiunov, Martin Zimmer, Jeff R. Powell,2017. Priorities for research in soil ecology. Pedobiologia 63: 1-7.
20) Hao Zhipeng, van Tuinen Diederik, Wipf Daniel, Fayolle Léon, Chataignier Odile, Li Xiaolin, Chen Baodong, Gianinazzi Silvio, Gianinazzi-Pearson Vivienne, Adrian Marielle*, 2017. Biocontrol of grapevine aerial and root pathogens by Paenibacillus sp. strain B2 and paenimyxin in vitro and in planta. Biological Control 109: 42-50.
21) Chen Yongliang#, Xu Tianle#, Veresoglou Stavros D., Hu Hangwei, Hao Zhipeng, Hu Yajun, Liu Lei, Deng Ye, Rillig Matthias C., Chen Baodong*, 2017. Plant diversity represents the prevalent determinant of soil fungal community structure across temperate grasslands in northern China. Soil Biology and Biochemistry 110: 12-21.
22) Li Tao, Hou Wentao, Ruan Yuan, Chen Baodong*, Yang Liguo, Zhou Congzhao, Zhu Yongguan, 2017. Structural features of the aromatic/arginine constriction in the aquaglyceroporin GintAQPF2 are responsible for glycerol impermeability in arbuscular mycorrhizal symbiosis. Fungal Biology 121(1): 95-102.
23) Xu Tianle#, Veresoglou Stavros D#, Chen Yongliang#, Rillig Matthias C, Xiang Dan, Ondrej Daniel, Hao Zhipeng, Liu Lei, Deng Ye, Hu Yajun, Chen Weiping, Wang Juntao, He Jizheng, Chen Baodong*, 2016. Plant community, geographic distance and abiotic factors play different roles in predicting AMF biogeography at the regional scale in northern China. Environmental Microbiology Reports 8(6):1048-1057.
24) Li Tao, Sun Yuqing, Ruan Yuan, Xu Lijiao, Hu Yajun, Hao Zhipeng, Zhang Xin, Li Hong, Wang Youshan, Yang Liguo and Chen Baodong*, 2016. Potential role of D-myo-inositol-3-phosphate synthase and 14-3-3 genes in the crosstalk between Zea mays and Rhizophagus intraradices under drought stress. Mycorrhiza 26(8): 879-893.
25) Wu Songlin, Zhang Xin, SunYuqing, Wu Zhaoxiang, Li Tao, Hu Yajun, Lv Jitao, Li Gang, Zhang Zhensong, Zhang Jing, Zheng Lirong, Zhen Xiangjun, Chen Baodong*, 2016. Chromium immobilization by extra- and intraradical fungal structures of arbuscular mycorrhizal symbioses. Journal of Hazardous Materials 316: 34-42.
26) Xiang Dan#, Veresoglou Stavros D#, Rillig Matthias C, Xu Tianle, Li Huan, Hao Zhipeng, Chen Baodong*, 2016. Relative importance of individual climatic drivers shaping arbuscular mycorrhizal fungal communities. Microbial Ecology 72:418–427.
27) Wu Zhaoxiang, Hao Zhipeng, Sun Yuqing, Guo Lanping, Huang Luqi, Zeng Yan, Wang Yong, Yang Li, Chen Baodong*, 2016. Comparison on the structure and function of the rhizosphere microbial community between healthy and root-rot Panax notoginseng. Applied Soil Ecology 107: 99-107.
28) Xiang Dan, Chen Baodong, Li Huan*, 2016. Specificity and selectivity of arbuscular mycorrhizal fungal polymerase chain reaction primers in soil samples by clone library analyses, Acta Agriculturae Scandinavica, Section B - Soil & Plant Science 66(4): 333-339.
29) Zhang Xin#, Wu Songlin#, Ren Baihui, Chen Baodong*, 2016. Water management, rice varieties and mycorrhizal inoculation influence arsenic concentration and speciation in rice grains. Mycorrhiza 26(4): 299-309.
30) Sun Yuqing, Zhang Xin, Wu Zhaoxiang, Hu Yajun, Wu Songlin, Chen Baodong*, 2016. The molecular diversity of arbuscular mycorrhizal fungi in the arsenic mining impacted sites in Hunan province of China. Journal of Environmental Sciences 39: 110-118.
31) Wu Songlin, Zhang Xin, Chen Baodong*, Wu Zhaoxiang, Li Tao, Hu Yajun, Sun Yuqing, Wang Youshan, 2016. Chromium immobilization by extraradical mycelium of arbuscular mycorrhiza contributes to plant chromium tolerance. Environmental and Experimental Botany 22:10-18.
32) Wu Songlin#, Zhang Xin#, Sun Yuqing, Wu Zhaoxiang, Li Tao, Hu Yajun, Su Dan, Lv Jitao, Li Gang, Zhang Zhensong, Zheng Lirong, Zhang Jing, Chen Baodong*, 2015. Transformation and immobilization of chromium by arbuscular mycorrhizal fungi as revealed by SEM-EDS, TEM-EDS and XAFS. Environmental Science & Technology 49: 14036-14047.
33) Zhang Xin, Chen Baodong, Ohtomo Ryo*, 2015. Mycorrhizal effects on growth, P uptake and Cd tolerance of the host plant vary among different AM fungal species. Soil Science and Plant Nutrition 61: 359-368.
34) Wu Zhaoxiang, Hao Zhipeng, Zeng Yan, Guo Lanping, Huang Luqi, Chen Baodong*, 2015. Molecular characterization of microbial communities in the rhizosphere soils and roots of diseased and healthy Panax notoginseng. Antonie van Leeuwenhoek 158: 1059-1074.
35) Aguilar-Trigueros Carlos A.*, Hempel Stefan S, Powell Jeff R., Anderson Ian C., Antonovics Janis, Bergmann Joana, Cavagnaro Timothy R., Chen Baodong, Hart Miranda M., Klironomos John, Petermann Jana S., Verbruggen Erik, Veresoglou Stavros D., Rillig Matthias C., 2015. Branching out: Towards a trait-based understanding of fungal ecology. Fungal Biology Reviews 29(1): 34-41.
36) Verbruggen Erik, Xiang Dan, Chen Baodong*, Xu Tianle, Rillig Matthias C, 2015. Mycorrhizal fungi associated with high soil N: P ratios are more likely to be lost upon conversion from grasslands to arable agriculture. Soil Biology and Biochemistry 86: 1-4.
37) Zhang Xin#, Ren Baihui#, Wu Songlin, Sun Yuqing, Lin Ge, Chen Baodong*, 2015. Arbuscular mycorrhizal symbiosis influences arsenic accumulation and speciation in Medicago truncatula L. in arsenic-contaminated soil. Chemosphere 119: 224-230.
38) Hu Yajun, Wu Songlin, Sun Yuqing, Li Tao, Zhang Xin, Chen Caiyan, Lin Ge, Chen Baodong*, 2015. Arbuscular mycorrhizal symbiosis can mitigate the negative effects of night warming on physiological traits of Medicago truncatula L. Mycorrhiza 25(2): 131-142.
39) Ren Baihui, Wu Songlin, Chen Baodong, Wu Zhaoxiang, Zhang Xin*, 2015. Cr uptake by extraradical mycelium and stable Cr isotopic fractionation in arbuscular mycorrhizal dandelion. Pedosphere 25(2): 186-191.
40) Xiang Dan, Verbruggen Erik, Hu Yajun, Veresoglou Stavros D, Rillig Matthias C, Zhou Wenping, Xu Tianle, Li Huan, Hao Zhipeng, Chen Yongliang, Chen Baodong*, 2014. Land use influences arbuscular mycorrhizal fungal communities in the farming-pastoral ecotone of northern China. New Phytologist 204: 968-978.
41) Hu Yanjun, Xiang Dan, Veresoglou Stavros D, Chen Falin, Chen Yongliang, Hao Zhipeng, Zhang Xin, Chen Baodong*, 2014. Soil organic carbon and soil structure are driving microbial abundance and community composition across the arid and semi-arid grasslands in northern China. Soil Biology and Biochemistry 77: 51-57.
42) Wu Songlin#, Chen Baodong#, Sun Yuqing, Ren Baihui, Zhang Xin*, Wang Youshan, 2014. Chromium resistance of dandelion (Taraxacum platypecidum Diels.) and bermudagrass (Cynodon dactylon (Linn.) Pers.) is enhanced by arbuscular mycorrhiza in Cr (VI) contaminated soils. Environmental Toxicology and Chemistry 33(9): 2105-2113.
43) Li Tao#, Lin Ge#, Zhang Xin, Chen Yongliang, Zhang Shubin, Chen Baodong*, 2014. Relative importance of an arbuscular mycorrhizal fungus (Rhizophagus intraradices) and root hairs in plant drought tolerance. Mycorrhiza 24: 595-602.
44) Chen Yongliang, Hu Hangwei, Han Hongyan, Du Yue, Wan Shiqiang, Xu Zhuwen, Chen Baodong*, 2014. Abundance and community structure of ammonia oxidizing archaea and bacteria in response to fertilization and mowing in a temperate steppe in Inner Mongolia. FEMS Microbiology Ecology 89: 67-79.
45) Zhu Yongguan*, Duan Guilan, Chen Baodong, Peng Xinhua, Chen Zheng, Sun Guoxin*, 2014. Mineral weathering and element cycling in soil-microorganism-plant system. Science China-Earth Sciences 57(5): 888-896.
46) Chen Yongliang#, Zhang Xin#, Ye Jiashu, Han Hongyan, Wan Shiqiang, Chen Baodong*, 2014. Six-year fertilization modifies the biodiversity of arbuscular mycorrhizal fungi in a temperate steppe in Inner Mongolia. Soil Biology and Biochemistry 69: 371-381.
47) Zhang Xin, Zhu Yongguan, Zhang Yuebin, Liu Yunxia, Liu Shaochun, Guo Jiawen, Li Rudan, Wu Songlin, Chen Baodong*, 2014. Potential use of energy sugarcane (Saccharum spp.) for the reclamation of different metal mine tailings. Journal of Environmental Sciences 26: 1080-1089.
48) Nayuki Keiichiro, Chen Baodong, Ohtomo Ryo, Kuga Yukari*, 2014 Cellular imaging of cadmium in resin sections of arbuscular mycorrhizas using synchrotron micro X-ray fluorescence. Microbes and Environments 29(1): 60-66.
49) Chen Yongliang, Xu Zhuwen, Hu Hangwei, Hu Yajun, Hao Zhipeng, Jiang Yong, Chen Baodong*, 2013. Responses of ammonia-oxidizing bacteria and archaea to nitrogen fertilization and precipitation increment in a temperate typical steppe. Applied Soil Ecology 68: 36-45.
50) Chen Yongliang, Chen Baodong*, Hu Yajun, Li Tao, Zhang Xin, Hao Zhipeng, Wang Youshan, 2013. Direct and indirect influence of arbuscular mycorrhizal fungi on abundance and community structure of ammonia oxidizing bacteria and ammonia oxidizing archaea in soil microcosms. Pedobiologia 56: 205-212.
51) Hu Yajun, Rillig Matthias C, Xiang Dan, Hao Zhipeng, Chen Baodong*, 2013. Changes of AM fungal abundance along environmental gradients in the arid and semi-arid grasslands of northern China. PLoS ONE 8(2): e57593.
52) Li Tao, Hu Yajun, Hao Zhipeng, Li Hong, Wang Youshan, Chen Baodong*, 2013. First cloning and characterization of two functional aquaporin genes from an arbuscular mycorrhizal fungus Glomus intraradices. New Phytologist 197: 617–630.
53) Veresoglou Stavros D, Chen Baodong, Rillig Matthias C*, 2012. Arbuscular mycorrhiza and soil nitrogen cycling. Soil Biology and Biochemistry 46: 53-62.
54) Zhang Xin, Uroic M Kalle, Xie Wanying, Zhu Yongguan, Chen Baodong, McGrath Steve P, Feldmann Jorg, Zhao Fangjie*, 2012. Phytochelatins play a key role in arsenic accumulation and tolerance in the aquatic macrophyte Wolffia globosa. Environmental Pollution 165:18-24.
55) Zhang Xin, Hu Ying, Liu Yunxia, Chen Baodong*, 2011. Arsenate uptake, accumulation and phytofiltration by duckweed (Spirodela polyrhiza L). Journal of Environmental Sciences 23(4): 601-606.
56) Chen Baodong, Zhu Yongguan*, Roos Per, Jakobsen Iver, 2008. Arbuscular mycorrhizas contribute to phytostabilization of uranium in uranium mining tailings. Journal of Environmental Radioactivity 99(5): 801-810.
57) Dong Yan, Zhu Yongguan, Smith F Andrew, Wang Youshan, Chen Baodong*, 2008. Arbuscular mycorrhiza enhanced arsenic resistance of both white clover (Trifolium repens Linn.) and ryegrass (Lolium perenne L.) plants in an arsenic-contaminated soil. Environmental Pollution 155: 174-181.
58) Chen Meimei, Chen Baodong*, Marschner Petra, 2008. Plant growth and soil microbial community structure of legumes and grasses grown in monoculture or mixture. Journal of Environmental Sciences-CHINA 20: 1231–1237.
59) Chen Baodong*, Zhu Yongguan, Duan Jing, Xiao Xueyi, Smith Sally E, 2007. Effects of the arbuscular mycorrhizal fungus Glomus mosseae on growth and metal uptake by four plant species in copper mine tailings. Environmental Pollution 147 (2): 374-380.
60) Chen Baodong, Xiao Xueyi, Zhu Yongguan*, Smith F Andrew, Smith Sally E, Xie Zhengmiao, 2007. The arbuscular mycorrhizal fungus Glomus mosseae gives contrary effects on phosphorus and arsenic acquisition by Medicago sativa Linn. Science of the Total Environment 379 (2-3): 226-234.
61) Xia Yunsheng, Chen Baodong, Christie Petre, Smith F Andrew, Li Xiaolin*, 2007. Arsenic uptake by arbuscular mycorrhizal maize (Zea mays L.) grown in an arsenic-contaminated soil with added phosphorus. Journal of Environmental Sciences -CHINA 19 (10): 1245-1251.
62) Chen Baodong, Zhu Yonguan*, Smith F Andrew, 2006. Effects of arbuscular mycorrhizal inoculation on uranium and arsenic accumulation by Chinese brake fern (Pteris vittata L.) from a uranium mining-impacted soil. Chemosphere 62: 1464-1473.
63) Zhang Xuhong, Lin Aijun, Chen Baodong*, Smith Sally E, Smith F Andrew, 2006. Effects of Glomus mosseae on the toxicity of heavy metals to Vicia faba. Journal of Environmental Sciences-CHINA 4: 721-726.
64) Liu Yu, Zhu Yongguan, Chen Baodong, Christie Peter, Li Xiaolin*, 2005. Influence of the arbuscular mycorrhizal fungus Glomus mosseae on uptake of arsenate by the As hyperaccumulator fern Pteris vittata L. Mycorrhiza 15(3): 187-192.
65) Liu Yu, Zhu Yongguan, Chen Baodong, Christie Peter, Li Xiaolin*, 2005. Uptake of arsenate by tomato (Lycopersicon esculentum L.) in arbuscular mycorrhizal association with Glomus mosseae BEG167. Environment International 31, 867-873.
66) Chen Baodong, Roos Per, Borggaard Ole K, Zhu Yongguan, Jakobsen Iver*, 2005. Mycorrhiza and root hairs in barley enhance acquisition of phosphorus and uranium from phosphate rock but mycorrhiza decreases root to shoot uranium transfer. New Phytologist 165: 591-598.
67) Jakobsen Iver*, Chen Baodong, Munkvold Lisa, Lundsgaard Thorben, Zhu Yongguan, 2005. Contrasting phosphate acquisition of mycorrhizal fungi with that of root hairs using the root hairless barley mutant. Plant, Cell and Environment 28, 928-938.
68) Chen Baodong, Tang Xiangyu, Zhu Yongguan*, Christie Peter, 2005. Metal concentration and mycorrhizal status of plants colonizing copper mine tailings: potential for phytoremediation. Science in China (Ser. C) 48 Supp. I, 156-164.
69) Chen Baodong, Zhu Yongguan*, Zhang Xuhong, Jakobsen Iver, 2005. Uranium and phosphorus uptake from a field-contaminated soil by bald root mutant and wild type barley plants (Hordeum vulgare L.) in association with arbuscular mycorrhizal fungus Glomus caledonium. Environmental Science and Pollution Research International 12(6), 325-331.
70) Chen Baodong, Jakobsen Iver*, Roos Per, Zhu Yongguan. 2005. Effects of the mycorrhizal fungus Glomus intraradices on uranium uptake and accumulation by Medicago truncatula L. from uranium-contaminated soil. Plant and Soil 275 (1-2): 349-359.
71) Chen Baodong, Shen Hong, Li Xiaolin*, Feng Gu, Christie Peter, 2004. Effects of EDTA application and arbuscular mycorrhizal colonization on zinc uptake by maize (Zea mays L.) from soil experimentally contaminated with zinc. Plant and Soil 261: 219-229.
72) Chen Baodong, Liu Yu, Shen Hong, Li Xiaolin*, Christie Peter, 2004. Uptake of cadmium from a experimentally contaminated calcareous soil by arbuscular mycorrhizal maize (Zea mays L.). Mycorrhiza 14: 347-354.
73) Chen Baodong, Li Xiaolin*, Tao Hongqun, Christie Peter, Wong Minghong, 2003. The role of arbuscular mycorrhiza in zinc uptake by red clover growing in a calcareous soil spiked with various quantities of zinc. Chemosphere 50: 839-846.
74) Chen Baodong, Christie Peter, Li Xiaolin*, 2001. A modified glass bead compartment cultivation system for the study of nutrient uptake by arbuscular mycorrhizae. Chemosphere 42: 185-192.
非SCI收录论文:
1) 李芳, 徐丽娇, 谢伟, 郝志鹏, 陈保冬*, 2019. 菌根化育苗显著提升AM真菌促进玉米田间生长和养分吸收的效果. 植物营养与肥料学报 (接收待刊)
2) 李芳, 郝志鹏, 陈保冬*, 2019. 菌根植物适应低磷胁迫的分子机制. 植物营养与肥料学报(已接受)
3) Wu Songlin, Zhang Xin, Huang Longbin, Chen Baodong*, 2019. Arbuscular mycorrhiza and plant chromium tolerance. Soil Ecology Letters 1(3-4): 94-104.
4) 陈心桐, 徐天乐, 李雪静, 赵爱花, 冯海艳, 陈保冬*, 2019. 我国北方自然生态系统土壤有机碳含量及其影响因素. 生态学杂志 38(4): 1133-1140.
5) 陈保冬* , 于萌, 郝志鹏, 谢伟, 张莘, 2019. 丛枝菌根真菌应用技术研究进展. 应用生态学报30(3): 1035-1046.
6) 陈保冬*, 张莘, 伍松林, 李林凤, 2019. 丛枝菌根影响土壤-植物系统中重金属迁移、转化和累积过程的机制及其生态应用. 岩矿测试 38(1): 607-631.
7) Chen Baodong*, Hu Yanbo, Li Tao, Xu Lijiao, Zhang Xin and Hao Zhipeng, 2018. The role of AM symbiosis in plant adaptation to drought stress. Journal of Integrated Field Science 15: 22-25.
8) 徐丽娇, 郝志鹏, 李涛, 李芳, 李景龙, 陈保冬*, 2018. 丛枝菌根真菌异形根孢囊霉(Rhizophagus irregularis)14-3-3蛋白基因克隆及功能验证. 东北林业大学学报46(8): 63-68.
9) 徐丽娇, 郝志鹏, 谢伟, 李芳, 陈保冬*, 2018. 丛枝菌根真菌根外菌丝跨膜H+和Ca2+流对干旱胁迫的响应. 植物生态学报42 (7): 764–773.
10) 陈保冬*, 李雪静,徐天乐,谢伟,2018. 丛枝菌根真菌生物地理学研究进展.生态学报38(4): 1167-1175.
11) 李景龙,孙玉青,陈保冬,李涛,胡亚军,张莘*, 2018. 丛枝菌根真菌砷酸盐还原酶基因RiarsC的克隆和功能分析. 生态毒理学报 13(3): 71-77.
12) 张莘, 陈保冬, 孙玉青, 伍松林, 李景龙, 2017. 丛枝菌根真菌与砷的相互作用研究进展. 菌物研究15(1): 53-57.
13) 徐丽娇, 姜雪莲, 郝志鹏, 李涛, 吴照祥, 陈保冬, 2017. 丛枝菌根(AM)通过调节碳磷代谢相关基因的表达增强植物对低磷胁迫的适应性. 植物生态学报41(8): 815-825.
14) 李雪静, 徐天乐, 陈保冬, 徐丽娇, 赵爱花,2017. 荒漠和草原生态系统丛枝菌根真菌多样性和群落结构. 生态学杂志36(10): 2734-2743.
15) 李景龙, 孙玉青, 陈心桐, 冯海艳, 陈保冬, 张莘*, 2017. 接种AM真菌和施加铁可协同降低水稻砷累积. 菌物学报 36(7): 1037-1047.
16) 向丹,徐天乐,李欢,陈保冬*,2017.丛枝菌根真菌的生态分布及其影响因子研究进展.生态学报,37(11): 3597-3606.
17) 侯时季,李涛,蔺阁,伍松林,陈保冬*,2016. 施用沼渣和接种丛枝菌根真菌对甘草生长及矿质营养的影响. 环境科学学报 36(12): 4453-4460.
18) 侯时季, 陈保冬, 张莘*, 2016. 丛枝菌根共生建成的信号识别机制. 微生物学通报 43(12): 2693?2699.
19) 侯时季,李涛,蔺阁,陈保冬*,2016. 施用沼液和接种丛枝菌根真菌对甘草生长及重金属累积的影响. 农业环境科学学报 35(8): 1465-1472.
20) 孙玉青,张莘,吴照祥,伍松林,胡亚军,邢颖,陈保冬*, 2015. 雄黄矿区不同砷污染土壤中微生物群落结构及碳源利用特征. 环境科学学报 35(11): 3669-3678.
21) 陈保冬,赵方杰,张莘,伍松林,乔敏,欧阳纬莹,朱永官*,2015. 土壤生物与土壤污染研究前沿与展望. 生态学报 35(20):6604-6613.
22) 吴照祥, 郝志鹏, 陈永亮, 曾燕, 郭兰萍, 黄璐琦, 王勇, 陈保冬*, 2015. 三七根腐病株根际土壤真菌群落组成与碳源利用特征研究.菌物学报42(3): 598-607
23) 吴照祥, 郝志鹏, 曾燕, 郭兰萍, 黄璐琦, 王勇, 陈保冬*, 2015. 三七根腐病原菌毁坏柱孢霉分子定量检测方法及其应用. 微生物学通报 34(1): 65-74
24) 邢颖, 张莘, 郝志鹏, 赵正雄, 于有志, 陈保冬*, 2015. 烟草内生菌资源及其应用研究进展. 微生物学通报42(2): 411-419.
25) 向丹, 陈保冬, 李欢, 张莘*, 2015. 入侵植物光梗蒺藜草对土著丛枝菌根真菌群落的影响. 作物研究 29(5): 287-294.
26) 陈保冬*, 孙玉青, 张莘, 伍松林, 2015. 菌根真菌重金属抗性机理研究进展. 环境科学 36(3) : 1123-1132.
27) 陈永亮, 陈保冬, 刘蕾, 胡亚军, 徐天乐, 张莘*, 2014. 丛枝菌根真菌在土壤氮素循环中的作用. 生态学报 34(17): 4807-4815.
28) Li Tao, Hu Yajun, Hao Zhipeng, Li Hong, Chen Baodong*, 2013. Aquaporin genes GintAQPF1 and GintAQPF2 from Glomus intraradices contribute to plant drought tolerance. Plant Signaling & Behavior 8(5): e24030
29) Li Tao, Chen Baodong*, 2013. Measurement of extracellular Ca2+ influx and intracellular H+ efflux in response to glycerol and PEG6000 treatments. Bio-protocol 3(18): e911. DOI: 10.21769/BioProtoc.911
30) 雷垚, 郝志鹏, 陈保冬*, 2013. 土著菌根真菌和混生植物对羊草生长和磷营养的影响. 生态学报 33(4): 1071-1079.
31) 雷垚, 伍松林, 郝志鹏, 陈保冬*, 2013. 丛枝菌根根外菌丝网络形成过程中的时间效应及植物介导作用. 西北植物学报 33(1): 154-161.
32) 叶佳舒, 李涛, 胡亚军, 郝志鹏, 高彦征, 王幼珊, 陈保冬*, 2013. 干旱条件下AM真菌对植物生长和土壤水稳定性团聚体的影响. 生态学报 33(4): 1080-1090.
33) 周文萍, 向丹, 胡亚军, 李志芳, 陈保冬*, 2013. 长期围封对不同放牧强度下草地植物和AM真菌群落恢复的影响. 生态学报 33(11): 1-11.
34) 伍松林, 张莘*, 陈保冬, 2013. 丛枝菌根对土壤-植物系统中重金属迁移转化的影响. 生态毒理学报 8(6): 847-856.
35) 李 涛,陈保冬*,2012. 丛枝菌根真菌通过上调根系及自身水孔蛋白基因表达提高玉米抗旱性. 植物生态学报 36 (9): 973–981.
36) 李涛, 杜娟, 郝志鹏, 张莘, 陈保冬*, 2012. 丛枝菌根提高宿主植物抗旱性分子机制研究进展. 生态学报 32(22) 7169-7176.
37) 陈保冬*,陈梅梅,白刃,2011. 丛枝菌根在治理铀污染环境中的潜在作用. 环境科学 32(3): 809-816.
38) 王晓英,王冬梅*,陈保冬,黄益宗,王幼珊,2010. 丛枝菌根真菌群落对白三叶草生长的影响. 生态学报 30(6):1456-1462.
39) 张莘*,黄青,陈保冬,罗磊,朱永官,2010.无根萍 Wolffia globosa 中砷及其它元素的分布特点。核技术 33(6):434-438.
40) 陈梅梅*,陈保冬,许毓,田慧颖,邓皓,2009. 菌根真菌对石油污染土壤修复作用的研究进展. 生态学杂志 28(6): 1171-1177.
41) 陈梅梅,陈保冬,王新军,朱永官*,王幼珊,2009. 不同磷水平土壤接种丛枝菌根真菌对植物生长和养分吸收的影响. 生态学报 29(4): 1980-1986.
42) 夏运生,陈保冬*,朱永官,吴亚洵,王幼珊,李晓林, 2008. 外加不同铁源和丛枝菌根对砷污染土壤上玉米生长及磷、砷吸收的影响. 环境科学学报 28(3): 516-524,.
43) 杨秀梅,陈保冬,朱永官,王冬梅*,王幼珊, 2008. 丛枝菌根真菌(Glomus intraradices)对铜污染土壤上玉米生长的影响. 生态学报28(3): 1052-1058.
44) 肖雪毅,陈保冬,朱永官*,2006. 丛枝菌根真菌对铜尾矿上植物生长和矿质营养的影响. 环境科学学报 26(2): 312-317.
45) 刘翠花, 陈保冬*, 朱永官, 张澈, 2006. 丛枝菌根真菌对青生长发育及磷营养的影响研究. 土壤学报 43(6): 1052-1055.
46) 陈保冬*, 李晓林, 朱永官, 2005. 丛枝菌根真菌菌丝体吸附重金属的潜力及特征. 菌物学报24(2): 283-291.
47) 朱永官*,陈保冬,林爱军,叶志鸿,黄铭洪, 2005. 珠江三角洲地区土壤重金属污染控制与修复研究的若干思考. 环境科学学报 25(12): 1575-1579.
48) Chen Baodong, Li Xiaolin*, Christie Peter, 2002. Studies on two arbuscular mycorrhizal fungi colonizing maize under different phosphorus regimes in a compartment cultivation system. Pedosphere 12(2): 121-130.
49) 陈保东, 冯固, 李晓林*, 崔建宇, 2000. 玻璃珠分室培养AM真菌方法的建立. 菌物系统 19(2): 212-216.
专著章节:
1) Zhu Yongguan, Kong Weidong, Chen Baodong, Nan Zhibiao, Christie Peter, 2005. Soil microbial community: understanding the belowground network for sustainable grassland management. Grassland: A Global Resource. Pages 209-217. Netherlands: Wagningen publishers, 2005.
2) Zhu Yongguan and Chen Baodong,2009. Principles and Technologies for Remediation of Uranium-Contaminated Environments. In: M.S. Baxter, editor: Radioactivity in the Environment, Vol 14, Remediation of Contaminated Environments, G. Voigt and S. Fesenko. The Netherlands: Elsevier, 2009, pp. 357 – 374.
3) 陈保冬,菌根真菌与植物生长姚槐应 黄昌勇 等 编著《土壤微生物生态学及其实验技术》,科学出版社,2006年8月。84-97
4) 赵方杰,陈保冬,朱永官,土壤重金属的微生物转化与污染修复. 贺纪正、陆雅海、傅伯杰主编《土壤生物学前沿》,科学出版社,2015年1月。208-233.
5) 施卫明,韦革宏,陈保冬,张瑞福,陆玉芳,植物-微生物根际互作. 贺纪正、陆雅海、傅伯杰主编《土壤生物学前沿》,科学出版社,2015年1月。291-326
6) 沈仁芳,张旭东,施卫明,韦革宏,胡水金,陈保冬,土壤生物与土壤肥力 国家自然科学基金委员会、中国科学院 中国学科发展战略《土壤生物学》 科学出版社2016年4月 56-66
7) 朱永官,赵方杰,陈保冬,徐建明,李芳柏,韦革宏,土壤生物与土壤污染国家自然科学基金委员会、中国科学院中国学科发展战略《土壤生物学》 科学出版社2016年4月 83-99
8) 陈保冬,郝志鹏,微生物与植物的关系《生态学的现状与发展趋势》高等教育出版社 2016年 604-617
9) 张乃明,夏运生,陈保冬 等 编著《砷污染土壤的菌根与铁化学修复》北京:科学出版社 2019年4月
专利:
陈保冬,郝志鹏,张莘,吴照祥,于萌,谢伟. 一株丛枝菌根真菌及其应用. ZL 2016 1 **.0


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