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师资队伍



 

 

 
 

姓名:张林

 

性别:男

 

职称:副教授/博士生导师

 

Email: linzhang@cau.edu.cn

 

办公电话:010-62733886

 

办公地址:资环楼二区301

 


教育背景


2005.09-2009.07 青岛农业大学 生物技术专业 理学学士


2009.09-2016.07 中国农业大学 生态科学与工程系 理学博士


2014.02-2016.01 比利时法语鲁汶大学 应用微生物系 联合培养博士


 工作履历


2016.09-2019.04 中国农业大学 农业资源与环境博士后

2019.04-      中国农业大学 资源与环境学院 副教授


 学术兼职


第十四届土壤学会植物营养专业委员会委员兼秘书

国际菌根学会会员


 研究领域


1. 菌根真菌与菌丝际生物互作

2. 植物-微生物互作与养分高效

3. 绿色智能磷肥研发


奖励与荣誉


2014年获教育部“博士生国家奖学金”

2014获国家留学基金委“国家建设高水平大学公派研究生项目”资助

2014年获第五届土壤和植物中的磷国际会议“青年科学家论坛(YSW)”项目资助

2015年获第四届国际根际会议“最佳墙报奖(Best Poster Award)”

2018年获第六届土壤和植物中的磷国际会议全额参会资助奖

2019年入选中国农业大学首批人才培育计划“青年新星”项目

2019年获第十届国际菌根学会“最佳论文奖”


主持项目

1. AM真菌与菌丝际微生物组互作影响土壤有机磷活化利用的机制 (国家自然科学基金面上项目,2023.01-2026.12,编号:42277112,主持)

2. 河北省黑龙港南部区麦玉粮田生物障碍消减技术和沃土增效技术熟化(国家重点研发项目子课题,2022.11-2027.10,编号:2022YFD1901304-02,主持)                                           

3. 丛枝菌根真菌与解磷细菌互作增强土壤植酸磷利用的机制(山东省自然科学基金面上项目,2022.01-2024.12,编号:ZR2021MC042,主持)

4.菌丝际解磷细菌群落影响土壤有机磷活化的机理(北京市自然科学基金面上项目,2021.01-2023.12,编号:6212020,主持)

5. 集约化玉米高效利用磷的根-土界面互作效应与调控机制(国家自然科学基金重点项目,2022.1-2026.12,编号:32130094,项目骨干)

6. 菌丝分泌物在不同AM真菌-细菌互作增强有机磷利用中的作用机制(国家自然科学基金青年科学基金项目, 2018-2019, 编号: 3701998, 主持)

7. 不同AM真菌与菌丝际细菌互作对土壤有机磷利用的影响(中国博士后科学基金面上项目, 2017.05-2019.03,编号: 2017M611055, 主持)

8. 提高苜蓿磷利用效率的微生物调控途径(牧草与特色作物生物技术教育部重点实验室开放课题,2021.06-2023.05,编号:FECBOF2021004,主持)

9. 作物高效利用土壤磷的微生物调控机制与途径(华北作物改良与调控国家重点实验室开放课题,2020.02-2021.09,编号:NCCIR2020KF-9,主持)

学术成果

 

一、代表性论文


  1. Lin Zhang, Jiachao Zhou, Timothy S. George, Erik Limpens, Gu Feng. 2022. Arbuscular mycorrhizal fungi conducting the hyphosphere bacterial orchestra. Trends in Plant Science, 27: 402-411. (ESI高被引论文,总结了菌丝际微生物组多样性及其影响因素)

  2. Lin Zhang, Gu Feng, Stéphane Declerck. 2018. Signal beyond nutrient, fructose, exuded by an arbuscular mycorrhizal fungus triggers phytate mineralization by a phosphate solubilizing bacterium. The ISME Journal, 12: 2339-2351. (首次发现菌丝分泌物具有信号作用)

  3. Guiwei Wang, Zexing Jin, Timothy S. George, Gu Feng, Lin Zhang. 2023. Arbuscular mycorrhizal fungi enhance plant phosphorus uptake through stimulating hyphosphere soil microbiome functional profiles for phosphorus turnover. New Phytologist,https://doi.org/10.1111/nph.18772.  (通讯作者,首次用宏基因组揭示了菌丝际微生物解磷功能特征)

  4. Letian Wang, Lin Zhang, Timothy S. George, Gu Feng. 2022. A core microbiome in the hyphosphere of arbuscular mycorrhizal fungi has functional significance in organic phosphorus mineralization. New Phytologist, https://doi.org/10.1111/nph.18642. (共同第一作者,首次报道了菌根真菌菌丝际核心微生物组)

  5. Lin Zhang, Minggang Xu, Yu Liu, Fusuo Zhang, Angela Hodge, Gu Feng. 2016. Carbon and phosphorus exchange may enable cooperation between an arbuscular mycorrhizal fungus and a phosphate-solubilizing bacterium. New Phytologist, 210: 1022-1032. (ESI高被引论文,提出碳磷互惠是维持菌根真菌和菌丝际微生物合作关系的关键)

  6. Lin Zhang, Jiequn Fan, Xiaodong Ding, Xinhua He, Fusuo Zhang, Gu Feng. 2014. Hyphosphere interactions between an arbuscular mycorrhizal fungus and a phosphate solubilizing bacterium promote phytate mineralization in soil. Soil Biology and Biochemistry, 74: 177-183. (发现菌丝际微生物在菌根真菌利用有机磷过程中发挥关键作用)


二、其它发表论文


2023年:

  1. Shilong Duan, Stéphane Declerck, Gu Feng, Lin Zhang. 2023. Hyphosphere interactions between Rhizophagus irregularis and Rahnella aquatilis promote carbon-phosphorus exchange at the peri-arbuscular space in Medicago truncatula. Environmental Microbiology, https://doi.org/10.1111/1462-2920.16333.(通讯作者)


2022年:

  1. Shilong Duan, Stéphane Declerck, Lin Zhang, Gu Feng. 2022. Two-component system in Rahnella aquatilis is impacted by the hyphosphere of the arbuscular mycorrhizal fungus Rhizophagus irregularis. Environmental Microbiology Reports, 14: 119-129 (通讯作者)

  2. Guiwei Wang, Zexing Jin, Xinxin Wang, Timothy S. George, Gu Feng, Lin Zhang. 2022. Simulated root exudates stimulate the abundance of Saccharimonadales to improve the alkaline phosphatase activity in maize rhizosphere. Applied Soil Ecology, 170: 104274. (通讯作者)

  3. Guiwei Wang, Timothy S. George, Qingchun Pan, Gu Feng, Lin Zhang. 2022. Two isolates of Rhizophagus irregularisselect different strategies for improving plants phosphorus uptake at moderate soil P availability. Geoderma, 421: 115910. (通讯作者)

  4. Zihang Yang, Wenli Zhou, Baoru Sun, Zed Rengel, Gu Feng, Lin Zhang. 2022. Combined Application of Calcium-Magnesium Phosphate Fertilizer with Soluble Phosphorus Improves Maize Growth in a Calcareous Soil. Journal of Soil Science and Plant Nutrition, https://doi.org/10.1007/s42729-022-01081-7. (通讯作者)

  5. Minghao Zhuang, Dario Caro, Wei Qin, Chun Wang, Xiaolin Yang, Rui Liu, Lin Zhang. 2022. Spatial heterogeneity of greenhouse gas emissions from cereal crop production in China.Environmental Chemistry Letters, 20: 3371-3376. (通讯作者)

  6. Fei Wang, Lin Zhang, Jiachao Zhou, Zed Rengel, Timothy S. George, Gu Feng . 2022. Exploring the secrets of hyphosphere of arbuscular mycorrhizal fungi: processes and ecological functions. Plant and Soil, 481 (1-2): 1-22. (共同第一作者)

  7. Liyang Wang, Zed Rengel, Kai Zhang, Kemo Jin, Yang Lyu, Lin Zhang, Lingyun Cheng, Fusuo Zhang, Jianbo Shen, 2022. Ensuring future food security and resource sustainability: insights into the rhizosphere. iScience, 104168.

  8. Rui Zhong, Lin Zhang, Xingxu Zhang. 2022. Allelopathic Effects of Foliar Epichloë Endophytes on Belowground Arbuscular Mycorrhizal Fungi: A Meta-Analysis. Agriculture, 12 (11): 1768.

  9. Jiachao Zhou, Lin Zhang, Gu Feng, Timothy S. George. 2022. Arbuscular mycorrhizal fungi have a greater role than root hairs of maize for priming the rhizosphere microbial community and enhancing rhizosphere organic P mineralization. Soil Biology and Biochemistry, 171: 108713.

  10. Chao Fei, Shirong Zhang, Jifeng Li, Lin Zhang, Bin Liang, Junliang Li, Xiaodong Ding. 2022. Substituting Manure with Rice Husk to Improve Phosphorus Adsorption and Immobilization in High Phosphorus Accumulated Greenhouse Vegetable Soil. Journal of Soil Science and Plant Nutrition, 22 (2): 1665-1675.

  11. 杨紫杭, 张林, 冯固. 2022. 土壤微生物在枸溶性和聚合态磷肥活化利用中的作用. 植物营养与肥料学报, 28(4): 654-663.(通讯作者)


2021年:

  1. Lin Zhang, Qun Chu, Jianwei Zhou, Zed Rengel, Gu Feng. 2021. Soil phosphorus availability determines the preference for direct or mycorrhizal phosphorus uptake pathway in maize. Geoderma, 403: 115261.

  2. Feiyan Jiang, Lin Zhang, Jiachao Zhou, Timothy S George, Gung Feng. 2021. Arbuscular mycorrhizal fungi enhance mineralization of organic phosphorus (P) by carrying bacteria along their extraradical hyphae. New Phytologist, 230: 304-315. (ESI高被引论文)

  3. 申建波, 白洋, 韦中, 储成才, 袁力行, 张林, 崔振岭, 丛汶峰, 张福锁. 2021.根际生命共同体: 协调资源, 环境和粮食安全的学术思路与交叉创新. 土壤学报, 58 (4): 805-813.

  4. 孙宁康, 江飞焰, 张林, 冯固. 2021. 丛枝菌根真菌 Rhizophagus irregularis 菌丝分泌物可诱导解磷细菌 Rahnella aquatilis 向菌丝移动. 科学通报, 66 (32): 4157-4168.


2020年:

  1. Lin Zhang, Yi Peng, Jiachao Zhou, Timothy S George, Gu Feng. 2020. Addition of fructose to the maize hyphosphere increases phosphatase activity by changing bacterial community structure. Soil Biology and Biochemistry, 142: 107724.

  2. Qun Chu, Lin Zhang, Jianwei Zhou, Lixing Yuan, Fanjun Chen, Fusuo Zhang, Gu Feng, Zed Rengel. 2020. Soil plant-available phosphorus levels and maize genotypes determine the phosphorus acquisition efficiency and contribution of mycorrhizal pathway. Plant and Soil, 449: 357-371. (共同第一作者)

  3. Jiachao Zhou, Xiaofen Chai, Lin Zhang, Timothy S George, Fei Wang, Gu Feng. 2020. Different arbuscular mycorrhizal fungi co-colonizing on a single plant root system recruit distinct microbiomes. mSystems, 5: e00929-20.

  4. Zhen Xu, Mingshan Qu, Shenglin Liu, Yisheng Duan, Xiao Wang, Lawrie K. Brown, Timonthy S. George,Lin Zhang, Gu Feng. 2020. Carbon addition reduces labile soil phosphorus by increasing microbial biomass phosphorus in intensive agricultural systems. Soil Use and Management, 36 (3): 536-546.

  5. 石晶晶, 张林, 江飞焰, 王晓, 冯固. 2020. AM 真菌菌丝际细菌具有固氮解磷双重功能. 土壤学报, 58 (5): 1289-1298.


2019-2012年:

  1. Lin Zhang, Jiequn Fan, Gu Feng, Stéphane Declerck. 2019. The arbuscular mycorrhizal fungus Rhizophagus irregularis MUCL 43194 induces the gene expression of citrate synthase in the tricarboxylic acid cycle of the phosphate-solubilizing bacterium Rahnella aquatilis HX2. Mycorrhiza, 29: 69-75.

  2. Gu Feng, Jingping Gai, Xionghan Feng, Haigang Li, Lin Zhang, Keke Yi, Jialong Lv, Yiyong Zhu, Li Tang, Li Yilin. 2019. Strategies for improving fertilizer phosphorus use efficiency in Chinese cropping systems. Frontiers of Agricultural Science and Engineering, 6 (4): 341-347.

  3. Jianbo Shen, Liyang Wang, Xiaoqiang Jiao, Fanlei Meng, Lin Zhang, Gu Feng, Junling Zhang, Lixing Yuan, Lin Ma, Yong Hou, Tao Zhang, Weifeng Zhang, Guohua Li, Kai Zhang, Fusuo Zhang. 2019. Innovations of phosphorus sustainability: implications for the whole chain. Frontiers of Agricultural Science and Engineering, 6 (4): 321-331.

  4. Lin Zhang, Ning Shi, Jiequn Fan, Fei Wang, Timothy George, Gu Feng. 2018. Arbuscular mycorrhizal fungi stimulate organic phosphate mobilization associated with changing bacterial community structure under field conditions. Environmental Microbiology, 20: 2639-2651.

  5. Lin Zhang, Xiaodong Ding, Yi Peng, Timothy George, Gu Feng. 2018. Closing the loop on phosphorus loss from intensive agricultural soil: a microbial immobilization solution? Frontiers in Microbiology, 9: 104.

  6. Lin Zhang, Caiyun Jiang, Jiachao Zhou, Stéphane Declerck, Changyan Tian, Gu Feng. 2016. Increasing phosphorus concentration in the extraradical hyphae of Rhizophagus irregularis DAOM 197198 leads to a concomitant increase in metal minerals. Mycorrhiza, 26: 909-918.

  7. Lin Zhang, Xiao Ding, Sanfeng Chen, Xinhua He, Fusuo Zhang, Gu Feng. 2014. Reducing carbon: phosphorus ratio can enhance microbial phytin mineralization and lessen competition with maize for phosphorus. Journal of Plant Interactions, 9 (1): 850-856.

  8. Shirong Zhang, Rongping Wang, Lin Zhang, Shuyi Li, Gu Feng, Xiaodong Ding. 2013. Ironreducing bacteria can enhance the activation and turnover of the Fe (III)fixed phosphorus for mycorrhizal plants. Journal of Plant Nutrition and Soil Science, 177 (2): 208-215.

  9. 张林, 丁效东, 王菲, 田芷源, 冯固. 2012. 菌丝室接种解磷细菌Bacillus megaterium C4 对土壤有机磷矿化和植物吸收的影响. 生态学报, 32 (13): 4079-4086.