王楠楠,博士,研究员,博士生与硕士生导师。2020年博士毕业于中国科学院植物研究所,曾任中国科学院东北地理与农业生态研究所特别研究助理、助理研究员(2020-2025)。主要从事土壤微生物驱动的碳、氮循环过程、微生物宏观生态学等方面的研究。重点研究方向为基于微生物分子生物学方法,阐释土壤碳、氮循环等对全球变化(土地利用变化、气候变化等)的响应及反馈机制,并通过微生物宏观生态学的方法,将微生物对全球变化的响应规律整合进模型中,以期提高模型的预测精度。累计发表学术论文30余篇,以第一/通讯作者在Soil Biology and Biochemistry(2篇)、Geoderma、Catena、Biology and Fertility of Soils, Applied Soil Ecology,Journal of Plant Ecology等领域内主流期刊发表论文11篇。主持国家自然科学基金青年基金项目等项目2项;受邀担任Ecology Letters、Global Ecology and Biogeography、Soil Ecology Letters等期刊审稿人,累计审稿30余篇。
热忱欢迎对微生物、碳氮循环感兴趣的具有生态学、土壤学、生物学、计算机、数理统计等背景的本科生、硕士生、博士生及博士后加入团队,共同探索生态规律、揭示自然奥秘!
一、基本信息
学科专业:生态学(全球变化生态学、土壤生态学、生物地球化学)
电子邮箱:nwang@imu.edu.cn
通讯地址:内蒙古呼和浩特市玉泉区锡林郭勒南路49号内蒙古大学南校区生态与环境学院330室
个人主页:ResearchGate
二、教育与工作经历
2025至今:内蒙古大学,骏马计划B2研究员
2024-2025:中国科学院东北地理与农业生态研究所,助理研究员
2020-2024:中国科学院东北地理与农业生态研究所,特别研究助理;博士后
2015-2020:中国科学院植物研究所,生态学,理学博士
2017-2019:圣地亚哥州立大学,联合培养
2012-2015:东北林业大学,农学硕士
2008-2012:东北林业大学,理学学士
三、研究领域
微生物驱动的碳氮循环过程研究。长期从事陆地生态系统土壤微生物介导的碳、氮循环过程、微生物宏观生态学等方面的研究。重点方向为基于微生物分子生物学方法,阐释了土壤碳、氮循环代谢通量、关键过程等对土地利用变化、气候变化等的响应及反馈机制,并通过微生物宏观生态学的方法,将微生物对全球变化的响应规律整合进模型中,从而提高模型的预测精度。
四、科研项目
国家自然科学基金青年科学基金项目:三江平原沼泽湿地垦殖及恢复过程中微生物产甲烷机理研究,42303080,2024-2026,主持
吉林省自然科学基金自由探索一般项目:湿地垦殖对甲烷循环季节变异的微生物机制研究,2023-2025,主持
国家自然科学基金委员会,面上项目,42271109,冻土退化环境下湿地土壤碳释放微生物驱动机理,2023-2026,参与
国家自然科学基金委员会,国际(地区)合作与交流项目,42220104009,气候变化背景下冻土区湿地关键生态过程互作机制及碳反馈,2023-2027,参与
五、主要论文列表(*表示通讯作者)
1.Nannan Wang; Kexin Li; Fenghui Yuan; Yunjiang Zuo; Jianzhao Liu; Xinhao Zhu; Ying Sun; Ziyu Guo; Lihua Zhang; Chao Gong; Yanyu Song; Changchun Song*; Xiaofeng Xu*. Faster cycling but lower efficiency: A microbial metabolic perspective on carbon loss after wetland conversion to cropland. Soil Biology and Biochemistry. 2024, 189.
2.Nannan Wang; Xinhao Zhu; Yunjiang Zuo; Jianzhao Liu; Fenghui Yuan; Ziyu Guo; Lihua Zhang; Ying Sun; Chao Gong; Dufa Guo; Changchun Song*; Xiaofeng Xu*. Microbial mechanisms for methane source-to-sink transition after wetland conversion to cropland. Geoderma. 2023, 429.
3.Nannan Wang; Xinhao Zhu; Yunjiang Zuo; Jianzhao Liu; Fenghui Yuan; Ziyu Guo; Lihua Zhang; Ying Sun; Chao Gong; Changchun Song*; Xiaofeng Xu*. Metagenomic evidence of suppressed methanogenic pathways along soil profile after wetland conversion to cropland. Frontiers in Microbiology. 2022, 13.
4.Nannan Wang; Lei Li; Michael Dannenmann; Yukun Luo; Xiaohui Xu; Bingwei Zhang; Shiping Chen; Kuanhu Dong; Jianhui Huang; Xiaofeng Xu; Changhui Wang*. Seasonality of gross ammonification and nitrification altered by precipitation in a semi-arid grassland of Northern China. Soil Biology and Biochemistry. 2021,154.
5.Nannan Wang; Changhui Wang*; Michael Dannenmann; Klaus Butterbach-Bahl; Jianhui Huang. Response of microbial community and net nitrogen turnover to modify climate change in Alpine meadow. Applied Soil Ecology. 2020, 152: 103553.
6.Kexin Li; Nannan Wang*; Fenghui Yuan; Xinhao Zhu; Yunjiang Zuo; Jianzhao Liu; Ziyu Guo; Ying Sun; Rui Su; Lihua Zhang; Sergei Lupakov; Yanyu Song; Changchun Song; Xiaofeng Xu*. Metagenomic data highlight shifted nitrogen regime induced by wetland reclamation. Biology and Fertility of Soils. 2024, 60: 649-666.
7.Kexin Li; Nannan Wang*; Rui Su; Yunjiang Zuo; Jianzhao Liu; Ying Sun; Xinhao Zhu; Ziyu Guo; Lihua Zhang; Changchun Song; Ning Chen; Sergei Lupakov; Fenghui Yuan; Xiaofeng Xu*. Shifting soil N regimes over a 70-year chronosequence of wetland reclamation and restoration. Catena. 2025, 250: 108727.
8.Nannan Wang; Lei Li; Bingwei Zhang; Shiping Chen; Wei Sun; Yukun Luo; Kuanhu Dong; Xingguo Han; Jianhui Huang*; Xiaofeng Xu; Changhui Wang*. Population turnover promotes fungal stability in a semi-arid grassland under precipitation shifts. Journal of Plant Ecology. 2020, 13: 499-509.
9.Xiaofeng Xu*; Nannan Wang; David Lipson; Robert Sinsabaugh; Josh Schimel; Liyuan He; Nadejda A. Soudzilovskaia; Leho Tedersoo, Microbial macroecology: in search of mechanisms governing microbial biogeographic patterns. Global Ecology and Biography. 2020, 29:1870-1886.
10.Changhui Wang; Nannan Wang; Jianxing Zhu; Yuan Liu; Xiaofeng Xu; Shuli Niu; Guirui Yu; Xingguo Han; Nianpeng He*. Soil gross N ammonification and nitrification from tropical to temperate forests in eastern China. Functional Ecology. 2018, 32: 83-94.
11.Nannan Wang; Meiju Wang; Shilan Li; Xin Sui; Shijie Han; Fujuan Feng*. Effects of variation in precipitation on the distribution of soil bacterial diversity in the primitive Korean pine and broadleaved forests. World J Microbiology and Biotechnology. 2014, 30: 2975-2984.
12.王楠楠; 韩冬雪; 孙雪; 国微; 马宏宇; 冯富娟. 降水变化对红松阔叶林土壤微生物功能多样性的影响.生态学报. 2017, 37.
13.王楠楠; 杨 雪; 李世兰; 隋心; 韩士杰; 冯富娟. 降水变化驱动下红松阔叶林土壤真菌多样性的分布格局. 应用生态学报. 2013, 24: 1985-1990.
14.Ning Chen; Xianwei Wang; Fenghui Yuan; Yanyu Song; Li Sun; Yunjiang Zuo; Nannan Wang; Dapao Yu; Li Zhou; Xiaofeng Xu*; Changchun Song*; Qingwei Wang*. Warming-independent shortened snow cover duration enhances vegetation greening across northern permafrost region. Communications Earth & Environment. 2025. 6.
15.Ziyu Guo; Jianzhao Liu; Liyuan He; Jorge L. Mazza Rodrigues; Ning Chen; Yunjiang Zuo; Nannan Wang; Xinhao Zhu; Ying Sun; Lihua Zhang; Yanyu Song; Dengjun Zhang; Fenghui Yuan; Changchun Song; Xiaofeng Xu. Dominant Edaphic Controls on Particulate Organic Carbon in Global Soils. Global Change Biology. 2024. 30: e17619.
16.Lihua Zhang; Ivan A. Janssens; Xinhao Zhu; David Lipson; Donatella Zona; Fenghui Yuan; Nannan Wang; Yanyu Song; Changchun Song; Yowhan Son; Walter Oechel; Xiaofeng Xu. N-induced soil acidification triggers metal stimulation of soil methane oxidation in a temperate steppe ecosystem. Soil Biology and Biochemistry. 2023. 184: 109098,
六、获奖情况
内蒙古自治区高层次人才“英才兴蒙”工程(五类),2025.10
