2002年获中国农业大学农学博士学位。日本学术振刚兴会(JSPS)外国特别研究员(2006.11-2008.10),德国洪堡来自基金会(Humboldt Foundation)研究员(2009.6-2011.12),2009年入选中国科学院"项目百人计划"。犯刘妒九学术杂志Pedobiologia和《生态学报》编效层江友委。同时,为国内外多家学术刊物特邀审国苦粉怕稿专家。
2008年起担任中国植物营养与肥料学会根际营养专业委员会委员。一直从事丛枝菌根生态爱怎块让握存生理研究,在菌根真菌促置培养方法、菌根植物适应重金属污染环境机制以及菌根真菌在污染环境生态恢复中的作用等方面进行了比较系统的研究,取得原创全轮围此克限性科研成果。近年来在Environmental Pollution360百科、New Phytologist、Mycorrhiza、Plant and Soil、纸绍、Chemosphere和生态学报等学术杂志发表学术论文近50篇,其中SCI收录近30篇。参编专著1本,撰写英文专著2章节。
来自 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,中国农掉散光左略鲁例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360百科环境学院植物营养系侵省段客宣概培博士生,2002年7月获农学博士学位;
2009.6- : 德国洪堡基金会(Humboldt Foundation)研究员,在柏林自由大学进行合作研究。
2008.11- :生态环境研究中心城市与区域生态国家重点实验室引进场述束单研究员。2009年入选中国科学院"项目百人计划"。
2006.11-2008.10月,日本学术振兴会(JSPS)外国特别研究员,在日本畜产草地研究所工作。
2005.8-10:澳大利亚阿德莱得大学访问研究学者。
干的胞部探乱盟 2004.9-2006.10:生态环境研究中心中澳联合土壤环境研究室,助理研究员、副研究员。
2003.2-5:丹麦RISØ国家实验室访问研究学者。
2002.7-2004.9:中国科学院生态环境研究中心博士后。
2001.8-2002.1:香港浸会大学生物学系访问研究学者。
土壤生态过程与生态重建
专家类别:
高级
承担科研项目情况:
自1997年以来,先后参与数项国伯难助轴并要家自然科学基金面上项目、重大项目和国家科技部973项目、863项目有关丛枝菌根生态生理的研究工作,主持国家自然科学基金面上项目"丛枝菌宗片由乡院回岩革根真菌在金属尾矿植被重来自建中的作用"(40401031,2005.1-2007.1自重容没岁绍船前衡城2)。
目前主持973项目"我国农田生态系统重要过程与调控对策"(2005CB121105,2005.12-2010.11)子课题和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"(KZCX2-YW-BR-17)。
代表雷矛点奏体完容谓必皮否论著:
国际学术杂志论文:
1) Chen Baodong, Christie Peter a360百科nd Li Xiaolin, 2001. A modified glass bead compartment cultiv联文四ition system for the study of nutrient uptake by ar宪会味行buscular mycorrhizae. Chemosphere, 42: 185-192.
2) Chen Baodong, Tao Hongqun, Li Xiaolin, Christie Peter and Wong Minghong, 2003. The role of arbuscular my样交好道硫激帝经被corrhiza in zinc uptake by red clover growing in a calcareous soil spiked with various quantities of zinc. Chemospher查每优越促的着抗e, 50: 839-846.
3) Chen Baodong, Shen Hong, Li Xiaolin, Feng Gu and Christie Peter, 2004. Effects of EDTA application and 础们站电知arbuscular mycorrhizal colonization on zinc uptake by maize (Zea mays L.) from soil experimentally contaminate另浓特均免乙希欢卷所d with zinc. Plant and Soil 261: 219-229.
4) Chen Baodong, Liu Yu, Shen H环ong, Li Xiaoli方右立约好n and Christie Peter, 2004. Uptake of 买七非袁调镇cadmium from a experimentally contaminated calcareous soil by arbuscular mycorrhizal maize (Zea mays L.). Mycorrhiza 14: 347-354.
5) 盐认析德群Liu Yu, Zhu Yong-Guan, Chen Baodong, Christi死树顶搞棉减九十e Peter and Li Xiaolin, 2005. Influence of the arbuscular mycorrhizal fungus Glomus mosseae on uptake of arsenate by t问露临失财今he As hyperaccumulator fern Pteris vitt械为预督曾鱼装助口争实ata L. Mycorr听渐更足钢仍亮供终牛hiza 15(3): 187-192.
6) Chen Baodong, Roos Per, Borggaard Ole K., Zhu Yong-Guan and 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.
7) Jakobsen Iver, Chen Baodong, Munkvold Lisa, Lundsgaard Thorben and Zhu Yong-Guan, 2005. Contrasting phosphate acquisition of mycorrhizal fungi with that of root hairs using the root hairless barley mutant. Plant, Cell and Envrionment 28, 928-938.
8) Chen Baodong, Tang Xiangyu, Zhu Yongguan and 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.
9) Chen Baodong, Zhu Yong-Guan, Zhang Xuhong and 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.
10) Chen Baodong, Jakobsen Iver, Roos Per and Zhu Yong-Guan. 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.
11) Chen Baodong, Zhu Yong-Guan and 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.
12) 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 4: 721-726
13) Zhang Xuhong, Zhu Yong-Guan, Lin Ai-Jun, Chen Baodong, Smith Sally E. and Smith F. Andrew, 2006. Arbuscular mycorrhizal fungi can alleviate the adverse effects of chlorothalonil on Oryza sativa L. Chemosphere 64 (10): 1627-1632.
14) Huang Honglin, Zhang Suzhen, Chen Baodong, Wu Naiying, Shan Xiaoquan and Christie Peter, 2006. Uptake of atrazine and cadmium from soil by maize (Zea mays L.) in association with the arbuscular mycorrhizal fungus Glomus etunicatum. Journal of Agricultura; and Food Chemistry 54 (25): 9377-9382.
15) Chen Baodong, Zhu Yong-Guan, 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.
16) Chen Baodong, Xiao Xueyi, Zhu Yong-Guan, Smith F Andrew, Smith Sally E and 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.
17) Chen Meimei, Zhu Yong-Guan, Su Yuhong, Chen Baodong, Fu Bojie and Marschner Petra, 2007. Effects of soil moisture and plant interactions on the soil microbial community structure. European Journal of Soil Biology 43 (1): 31-38.
18) Xia Yunsheng, Chen Baodong, Christie Peter, Smith F. Andrew and 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.
19) Chen Baodong, Zhu Yong-Guan, Roos Per and Jakoben Iver 2007 Arbuscular mycorrhizas contribute to phytostabilization of uranium in uranium mining tailings. Journal of Environmental Radioactivity 99(5): 801-810.
20) Boulois H. Dupré de, Joner EJ, Leyval C, Jakobsen I, Chen BD, Roos P, Thiry I, Rufyikiri G, Delvaux B and Declerck S, 2008. Impact of arbuscular mycorrhizal fungi on uranium accumulation by plants. Journal of Environmental Radioactivity 99(5): 775-784.
21) Dong Yan, Zhu Yong-Guan, Smith F. Andrew, Wang Youshan and 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
22) Chen Meimei, Chen Baodong and Marschner Petra, 2008. Plant growth and soil microbial community structure of legumes and grasses grown in monoculture or mixture. Journal of Environmental Sciences 20: 1231-1237.
国内学术刊物论文:
23) Chen Baodong, Li Xiaolin and 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.
24) 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.
25) 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.
26) 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.
27) 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.
28) 夏运生,陈保冬,朱永官,吴亚洵,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.
29) 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.
30) 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.
31) 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.
学术专著:
32) 参编 《土壤微生物生态学及其实验技术》 (姚槐应 黄昌勇 等 主编)科学出版社 北京 2006.8
33) Zhu Yong-Guan, Kong Weidong, Chen Baodong, Nan Zhibiao and Christie Peter. Soil microbial community: understanding the belowground network for sustainable grassland management. In: McGilloway David A (Ed.). Grassland: A Global Resource. Wageningen Academic Publishers, The Netherlands, 209-217, 2005.
34) Zhu Yong-Guan and Chen Baodong,2009. Principles and Technologies for Remediation of Uranium-Contaminated Environments. In: Radioactivity in the Environment, 14: 357-374. (Book chapter)
关注微信