仇云鹏  教授 博士生导师

南京农业大学草业学院

E-mail：yunpeng_qiu@njau.edu.cn

仇云鹏，男，1987年10月生，汉族，江苏盐城人，中国共产党党员。2017年获美国北卡罗来纳州立大学博士学位，同年，进入南京农业大学资源与环境科学学院进行博士后研究工作。2024年11月通过高层次人才引进，入职南京农业大学草业学院。主要从事气候变化对陆地生态系统土壤碳氮循环影响的研究。利用野外控制实验、碳氮同位素示踪、数据整合等方法，系统探究了二氧化碳、臭氧、大气氮沉降、温度、降水等要素如何影响植物-土壤-微生物（尤其菌根真菌）之间相互作用，进而调控农田和草地生态系统碳氮循环。主持国家自然科学基金青年科学基金项目、面上项目、江苏省优秀青年基金项目、中国博士后特别资助（站中）和国家重点研发计划青年科学家（子课题）项目。担任《植物生态学报》青年编委。在Science Advances、Nature  Communications、Global Change Biology (2篇)、Environmental Science & Technology (4篇)等国际权威刊物发表SCI学术论文20余篇，其中以第一和通讯作者发表论文11篇（Nature Index期刊论文6篇）。

一、教育经历

2013.09-2017.08, 美国北卡罗来纳州立大学，生态学，博士，导师：胡水金

2010.09-2013.07, 浙江大学，生态学，硕士，导师：王根轩

2006.10-2010.07, 河南新乡医学院，生物技术，学士

二、工作经历

2024.12-至今 南京农业大学，草业学院，教授

2020.02-2024.11, 南京农业大学，生态学系，师资博士后，导师：胡水金

2017.09-2020.01, 南京农业大学，生态学系，博士后，导师：胡水金

三、主持科研项目

1.    仇云鹏: 全球变化影响根系-菌根真菌调控土壤碳氮循环的机制研究，江苏省优秀青年基金项目（BK20240193），2024.07-2027.06，主持，50万元。

2.    仇云鹏: 增温影响黄土高原草地根系和菌根真菌调控深层土壤有机碳稳定的机制研究，国家自然科学基金面上项目（32371626），2024.01-2027.12，主持，50万元。

3.    仇云鹏: 大豆-玉米轮作模式根系-丛枝菌根真菌调控黑土有机碳固持的机理（子课题），中华人民共和国科学技术部（2023YFD1501600），2023.11-2028.10，子课题负责人，50万元。

4.    仇云鹏: 增温和氮沉降影响菌根真菌调控土壤碳稳定的微生物和地球化学机制，中国博士后科学基金特别资助（站中）（2022T150325），2022.07-2024.06，主持，18万元。

5.    仇云鹏: 黄土高原半干旱草地氧化亚氮排放及氮转化微生物对全球变化的响应及机理研究，国家自然科学基金青年科学基金项目（32001140），2021.01-2023.12，主持，24万元。

6.    仇云鹏: 黄土高原半干旱草地氧化亚氮排放及氮转化微生物及全球变化的响应及机理研究，南京农业大学（中央高校基本科研业务费）（KJQN202112），主持，2021.01-2021.12，10万元。

四、学术论文（^#共同一作；^*共同通讯）

1. Qiu Y, Zhang Y, Zhang K, Xu X, Zhao Y, Bai T, Zhao Y, Wang H, Sheng X, Bloszies S, Gillespie CJ, He T, Wang Y, Chen H, Guo L, Song H, Ye C, Wang Y, Woodley A, Guo J, Cheng L, Bai Y, Zhu Y, Hallin S, Firestone MK, Hu S. Intermediate soil acidification induces highest nitrous oxide emissions. Nature Communications, 2024, 15: 2695.

2. Qiu Y, Guo L, Xu X, Zhang L, Zhang K, Chen M, Zhao Y, Burkey KO, Shew HD, Zobel RW, Zhang Y, Hu S. Warming and elevated ozone induce tradeoffs between fine roots and mycorrhizal fungi and stimulate organic carbon decomposition. Science Advances, 2021, 7: eabe9256.

3. Qiu Y*, Jiang Y, Guo L, Zhang L, Burkey KO, Zobel RW, Reberg-Horton SC, Shew HD, Hu S*. Shifts in the composition and activities of denitrifiers dominate CO₂ stimulation of N₂O emissions. Environmental Science & Technology, 2019, 53: 11204-11213.

4. Qiu Y, Jiang Y, Guo L, Burkey KO, Zobel RW, Shew HD, Hu S. Contrasting warming and ozone effects on denitrifiers dominate soil N₂O emissions. Environmental Science & Technology, 2018, 52: 10956-10966.

5. Qiu Y, Zhang K, Zhao Y, Zhao Y, Wang B, Wang Y, He T, Xu X, Bai T, Zhang Y, Hu S. Climate warming suppresses abundant soil fungal taxa and reduces soil carbon efflux in a semi‐arid grassland. mLife, 2023, 2: 389–400.

6. Bai T, Qiu Y*, Hu S. (2024) Nitrogen availability mediates the impact of roots and mycorrhizal fungi on soil organic carbon decomposition: A meta-analysis. Pedosphere, 2024, 34: 289-296.

7. Zhang K^#, Qiu Y^#,*, Zhao Y, Wang S, Deng J, Chen M, Xu X, Wang H, Bai T, He T, Zhang Y, Chen H, Wang Y, Hu S^*. Moderate precipitation reduction enhances nitrogen cycling and soil nitrous oxide emissions in a semi-arid grassland. Global Change Biology, 2023, 29: 3114-3129.

8. Xu X^#, Qiu Y^#,*, Zhang K, Yang F, Chen M, Luo X, Yan X, Wang P, Zhang Y, Chen H, Guo H, Jiang L, Hu S^*. Climate warming promotes deterministic assembly of arbuscular mycorrhizal fungal communities. Global Change Biology, 2022, 28: 1147-1161.

9. Zhang X^#,*, Qiu Y^#, Gilliam FS, Gillespie CJ, Tu C, Reberg-Horton SC, Hu S^*. Arbuscular mycorrhizae shift community composition of N-cycling microbes and suppress soil N₂O emission. Environmental Science & Technology, 2022, 56: 13461–13472.

10. Zhang L^#, Qiu Y^#, Cheng L, Wang Y, Liu L, Tu C, Bowman DC, Burkey KO, Bian X,Zhang W, Hu, S. Atmospheric CO₂ enrichment and reactive nitrogen inputs interactively stimulate soil cation losses and acidification. Environmental Science & Technology, 2018, 52: 6895–6902.

11. Xiao R^#, Qiu Y^#, Tao J, Zhang X, Chen H, Reberg-Horton SC, Shi W, Shew HD, Zhang Y, Hu, S. Biological controls over the abundances of terrestrial ammonia oxidizers. Global Ecology and Biogeography, 2020, 29: 384–399.

12. Li S, Wang F, Chen M, Liu Z, Zhou L, Deng J, Dong C, Bao G, Bai T, Li Z, Wang Y, Qiu Y*, Hu S*. Mowing alters nitrogen effects on the community-level plant stoichiometry through shifting plant functional groups in a semi-arid grassland. Environmental Research Letters, 2020, 15: 074031.

13.  Fu Q, Qiu Y, Zhao J, Li J, Xie S, Liao Q, Fu X, Huang Y, Yao Z, Dai Z, Qiu Y, Yang Y, Li F, Chen H. Monotonic trends of soil microbiomes, metagenomic and metabolomic functioning across ecosystems along water gradients in the Altai region, northwestern China. Science of The Total Environment, 2024, 912: 169351.

14.  Zhao J, Xie X, Jiang Y, Li J, Fu Q, Qiu Y, Fu X, Yao Z, Dai Z, Qiu Y, Chen H. Effects of simulated warming on soil microbial community diversity and composition across diverse ecosystems. Science of The Total Environment, 2024, 911: 168793.

15. Li H, Yu G-H, Hao L, Qiu Y, Hu S. Mycorrhizae enhance reactive minerals but reduce mineral-associated carbon. Global Change Biology, 2023, 29: 10.1111/gcb.16886.

16.  Huang Y, Shi W, Fu Q, Qiu Y, Zhao J, Li J, Lyu Q, Yang X, Xiong J, Wang W, Chang R, Yao Z, Dai Z, Qiu Y, Chen H. Soil development following glacier retreat shapes metagenomic and metabolomic functioning associated with asynchronous C and N accumulation. Science of The Total Environment, 2023, 892: 164405.

17. Bai T, Wang P, Qiu Y, Zhang Y, Hu S. Nitrogen availability mediates soil carbon cycling response to climate warming: A meta-analysis. Global Change Biology, 2023, 29: 2608–2626.

18. Wang H, Qiu Y, Zhang K, Zhao Y, Li Y, Wang Y, Bai Y, Zhang Y, Hu S. Alterations in substrate stoichiometry control the responses of soil diazotrophs to nutrient enrichment. Soil Biology and Biochemistry, 2023, 179: 108975.

19. Sun J, Zhao J, Huo J, Wang S, Xu L, Chen X, Qiu Y, Liu, M. The balance between arbuscular mycorrhizal fungal diversity and plant growth benefits from optimizing nitrogen inputs in agroecosystems. Applied Soil Ecology, 2023, 187: 104834.

20. Pan S^#, Wang Y^#, Qiu Y, Chen D, Zhang L, Ye C, Guo H, Zhu W, Chen A, Xu G, Zhang Y*, Bai Y*, Hu S*. Nitrogen-induced acidification, not N-nutrient, dominates suppressive N effects on arbuscular mycorrhizal fungi. Global Change Biology, 2020, 26: 6568–6580.

21. Zhang Y, Zhang N, Yin J, Zhao Y, Yang F, Jiang Z, Tao J, Yan X, Qiu Y, Guo H, Hu S. Simulated warming enhances the responses of microbial N transformations to reactive N input in a Tibetan alpine meadow. Environmental International, 2020, 141: 105795.

22. Wang P^#, Guo J^#, Xu X, Yan X, Zhang K, Qiu Y, Zhao Q, Huang K, Luo X, Yang F, Guo H, Hu S. Soil acidification alters root morphology, increases root biomass but reduces root decomposition in an alpine grassland. Environmental Pollution, 2020, 265: 115016. 

23. Bai T, Wang P, Hall S, Wang F, Ye C, Li Z, Li S, Zhou L, Qiu Y, Guo J, Wang Y, Hu S. Interactive global change factors mitigate soil carbon change in a semi-arid grassland. Global Change Biology, 2020, 26: 5320–5332.

24. Zhang Y*, Zhang N, Yin J, Jiang Z, Yang F, Tao J, Yan X, Zhao Y, Qiu Y, Guo H, Hu S*. Combination of warming and N inputs increases the temperature sensitivity of soil N₂O emission in a Tibetan alpine meadow. Science of the Total Environment, 2020, 704: 135450.

25. Wu K, Chen D, Tu C, Qiu Y, Burkey KO, Reberg-Horton SC, Peng S*, Hu S*. 2017. CO₂-induced alterations in plant nitrate utilization and root exudation stimulate N₂O emissions. Soil Biology and Biochemistry, 2017, 106: 9–17.

26.  Claver S, Jia X, Qiu Y, Wang G. Self-thinning in a space-limited rocky intertidal barnacle system. Annales Zoologici Fennici, 2013, 50: 64–70.

27. Wang N, Xu S, Jia X, Gao J, Zhang W, Qiu Y, Wang G. Variations in foliar stable carbon isotopes among functional groups and along environmental gradients in China – a meta-analysis. Plant Biology, 2013, 15: 144–151.

28. 仇云鹏，张炜平，王根轩. 富食悖论研究进展. 生命科学 2012, 24: 593-597.

五、待发表学术论文

1.   Qiu et al. (2024) Shifts in root traits and mycorrhizal fungal community control reactive N and warming effects on soil organic carbon. Submitted to Nature Communications. (Under Review)

2.   Qiu et al. (2024) Warming reduces subsoil organic carbon formation and stability via stimulating root length and reducing network complexity of arbuscular mycorrhizal fungi. Ready to submit to Nature Climate Change.

六、获奖情况

2021年中华海外生态学者协会最佳论文奖

七、教学情况

本科生课程：《普通生态学》

研究生课程：《生态学研究前沿（双语教学）》

八、期刊审稿

应邀为Nature Ecology and Evolution, Ecology Letters, New Phytologist, Global Ecology and Biogeography, Water Research, Journal of Cleaner Production, Journal of Soils and Sediments, Agriculture, Ecosystems & Environment, Journal of Plant Ecology, Fungal Ecology, PloS ONE, Applied Soil Ecology, Environmental Science and Pollution Research等期刊审稿

九、国际与国内会议学术报告

1.   Qiu Y, Wu K, Zhang X, Tu C, Burkey KO, Zobel RW, Shew HD, Hu S. Effects of arbuscular mycorrhizal fungi on N₂O emission under elevated CO₂. 2015. 100^th Ecological Society of America Annual Meeting. Baltimore, MD (口头汇报).

2.   Qiu Y, Jiang Y, Burkey KO, Zobel RW, Shew HD, Hu S. Effects of arbuscular mycorrhizal fungi on organic carbon decomposition under elevated temperature and ozone conditions. 2016. 101^st Ecological Society of America Annual Meeting. Fort Lauderdale, FL (口头汇报).

3. 仇云鹏：第十届全国青年生态学工作者学术研讨会，北京，2024.6.14-16，口头汇报

4. 仇云鹏：植物-土壤微生物互作与全球变化学术研讨会，中国科学院东北地理与农业生态研究所，长春，2024.7.10，口头汇报

5. 仇云鹏：生态系统固碳和氮转化过程及其对全球变化的响应学术研讨会，中国科学院沈阳应用生态研究所，2024.7.11，沈阳，口头汇报

6. 仇云鹏：2024全国土壤科学与植物营养及肥料创新发展交流研讨会，兰州，2024.7-12-14，口头汇报

7. 仇云鹏：第五届氮素生物地球化学循环学术论坛，武汉，2024.8-16-18，口头汇报

8. 仇云鹏：Root traits and mycorrhizal fungal community control climate change impacts on soil organic carbon, 全球变化生态学前沿论坛, 北京, 2024-9-19至2024-9-22，口头汇报