毛庆功

岗  位: 陈焕镛副研究员
邮政编码: 510650
邮箱地址: maoqinggong@scbg.ac.cn
通讯地址: 广州市天河区兴科路723号
简历:
教育经历:

2015.10--2016.04  University of Copenhagen,联合培养

2011.09--2016.12 中国科学院华南植物园,理学博士

2007.09--2011.06 青岛农业大学,理学学士

工作经历:

2023.11--至今 中国科学院华南植物园陈焕镛副研究员

2019.01--2023.11 中国科学院华南植物园助理研究员

2017.01--2018.12 中国科学院华南植物园,博士后

研究领域:
研究领域:生态学与生物地球化学
研究方向:通过控制试验、长期监测和数据分析挖掘等方法,研究全球变化因素(氮沉降等)对自然生态系统结构和功能的影响和机理。

1) 植物对氮、磷可用性变化的响应和适应机理;

2) 植物养分利用策略及其环境适应性

承担科研项目情况:
12022.01--2025.12国家基金面上项目,长期氮添加对南亚热带森林昆虫植食作用的影响及其机理,58.0万元,主持;

22018.01--2020.12国家基金青年项目,高氮沉降背景下磷添加对南亚热带森林植物多样性的影响和机理,25.0万元,主持;

32023.01--2025.12国家重点研发项目,淡水优化与促进(课题5子任务),30.0万元,主持;

42022.03--2025.04 广东省自然科学基金面上项目,磷添加如何影响热带森林生态系统氮循环——以豆科和非豆科人工林为模式, 10.0万元,主持;

52019.9--2022.9 广东省自然科学基金面上项目,氮沉降如何影响南亚热带两种食虫植物,10.0万元,主持;

62021.04--2023.03广州市基础与应用基础研究项目,匙叶茅膏菜(Drosera spathulata)对大气氮沉降增加的响应与指示潜力,5.0万元,主持;

72017.08--2019.01中国博士后基金面上项目,高氮沉降背景下磷添加影响南亚热带森林土壤酸化的机制,5.0万元,主持。

社会任职:
 担任Journal of EcologyEnvironmental PollutionForest Ecology and ManagementScience of the Total EnvironmentPlant and SoilEcological Indicators、《生态学报》、《热带亚热带植物学报》等期刊审稿人;广州科技大脑-广州市基金评审专家。

代表论著:

a. 第一作者论文

1. Mao, Q., Chen, H., Gurmesa, G.A., Gundersen, P., Ellsworth, D.S., Gilliam, F.S., Wang, C., Zhu, F., Ye, Q., Mo, J., Lu, X. Negative effects of long-term phosphorus additions on understory plants in a primary tropical forest. Science of the Total Environment, 2021, 798, 149306. (IF5=9.6)

2. Mao, Q., Lu, X., Mo, H., Gundersen, P., Mo, J. Effects of simulated N deposition on foliar nutrient status, N metabolism and photosynthetic capacity of three dominant understory plant species in a mature tropical forest. Science of the Total Environment, 2018, 610, 555-562. (IF5=9.6)

3. Mao, Q., Lu, X., Wang, C., Zhou, K., Mo, J. Responses of understory plant physiological traits to a decade of nitrogen addition in a tropical reforested ecosystem. Forest Ecology and Management, 2017, 401, 65-74. (IF5=3.8)

4. Mao, Q., Chen, H., Wang, C., Pang, Z., Mo, J., Lu, X. Effect of long-term nitrogen and phosphorus additions on understory plant nutrients in a primary tropical forest. Forests, 2021, 12, 803 (IF5=3.0)

5. Mao, Q., Lu, X., Zhou, K., Chen, H., Zhu, X., Mori, T., Mo, J. Effects of long-term nitrogen and phosphorus additions on soil acidification in an N-rich tropical forest. Geoderma, 2017, 285, 57-63. (IF5=6.1)

6. Zhao, W.#, Mao, Q.#, Liu, G., Li, Y., Xia, J., Zhang, Y. Patterns of compound-leaf form and deciduous-leaf habit across forests in China: Their association and key climatic factors. Science of the Total Environment, 2022, 158108. (共同一作,IF5=9.6)

7. Guan, H. #, Zhang, Y. #, Mao, Q. #, Zhong, B., Chen, W., Mo, J.,Wang, F., Lu, X. Consistent effects of nitrogen addition on soil microbial communities across three successional stages in tropical forest ecosystems. CATENA, 2023, 227, 107116. (共同一作,IF5= 6.4)

8. 毛庆功, 鲁显楷, 陈浩, 莫江明. 陆地生态系统植物多样性对矿质元素输入的响应. 生态学报. 201535(17): 5884-5897.

b. 其他共同作者SCI论文

1. Lu, X., Vitousek, P.M., Mao, Q., Gilliam, F.S., Luo, Y., Zhou, G., Zou, X., Bai, E., Scanlon, T.M., Hou, E. Mo, J. Plant acclimation to long-term high nitrogen deposition in an N-rich tropical forest. Proceedings of the National Academy of Sciences, 2018, 115(20), 5187-5192.

2. Lu, X., Vitousek, P. M., Mao, Q., Gilliam, F. S., Luo, Y., Turner, B. L., Zhou G., Mo, J. Nitrogen deposition accelerates soil carbon sequestration in tropical forests. Proceedings of the National Academy of Sciences, 2021, 118(16). 

3. Lu, X., Mao, Q., Mo, J., Gilliam, F.S., Zhou, G., Luo, Y., Zhang, W., Huang, J. Divergent responses of soil buffering capacity to long-term n deposition in three typical tropical forests with different land-use history. Environmental Science & Technology, 2015, 49(7), 4072-4080.

4. Lu, X., Mao, Q., Gilliam, F.S., Luo, Y., Mo, J. Nitrogen deposition contributes to soil acidification in tropical ecosystems. Global Change Biology, 2014, 20(12), 3790-3801.

5. Lu, X., Gilliam, F.S., Yu, G., Li, L., Mao, Q., Chen, H., Mo, J. Long-term nitrogen addition decreases carbon leaching in a nitrogen-rich forest ecosystem. Biogeosciences, 2013, 10(6), 3931-3941.

6. Zheng, M., Zhang, T., Luo, Y., Liu, J., Lu, X., Ye, Q., Wang, S., Huang, J., Mao, Q., Mo, J. and Zhang, W. Temporal patterns of soil carbon emission in tropical forests under long-term nitrogen deposition. Nature Geoscience, 2022, 15, 1002-1010.

7. Zheng, M., Zhang, W., Luo, Y., Mori, T., Mao, Q., Wang, S., Huang, J., Lu, X., Mo, J. Different responses of asymbiotic nitrogen fixation to nitrogen addition between disturbed and rehabilitated subtropical forests. Science of the Total Environment, 2017 (601), 1505-1512. 

8. Chen, H., Gurmesa, G.A., Zhang, W., Zhu, X., Zheng, M., Mao, Q., Zhang, T., Mo, J. Nitrogen saturation in humid tropical forests after 6-years of nitrogen and phosphorus addition: hypothesis testing. Functional Ecology, 2015, 30(2), 305-313.

9. Chen, H., Chen, M., Li, D., Mao, Q., Zhang, W., Mo, J. Responses of soil phosphorus availability to nitrogen addition in a legume and a non-legume plantation. Geoderma, 2018, 322, 12-18.

10. Chen, H., Zheng, M., Mao, Q., Xiao, K., Wang, K., Li, D. Cropland conversion changes the status of microbial resource limitation in degraded karst soil, Geoderma. 2019, 352, 197-203. 

11. Chen, H., Li, D., Mao, Q., Xiao, K., Wang, K. Resource limitation of soil microbes in karst ecosystems. Science of the Total Environment, 2019, 650, 241-248. 

12. Gurmesa, G.A., Lu, X., Gundersen, P., Mao, Q., Zhou, K., Fang, Y. and Mo, J. High retention of 15N-labeled nitrogen deposition in a nitrogen saturated old-growth tropical forest. Global Change Biology. 2016, 22, 3608-3620.

13. Gurmesa, G.A., Lu, X., Gundersen, P., Fang, Y., Mao, Q., Chen, H., Mo, J. Nitrogen input 15N signatures are reflected in plant 15N natural abundances in subtropical forests in China. Biogeosciences. 2017, 14(9), 2359. 

14. Gurmesa, G. A., Mo, J., Gundersen, P., Mao, Q., Fang, Y., Zhu, F., Lu, X. Retention and partitioning of 15N-labeled deposited N in a tropical plantation forest. Biogeochemistry, 2021, 1-15. 

15. Wang, C., Lu, X., Mori, T., Mao, Q., Zhou, K., Zhou, G., Nie, Y., Mo, J. Responses of soil microbial community to continuous experimental nitrogen additions for 13 years in a nitrogen-rich tropical forest. Soil Biology and Biochemistry, 2018, 121, 103-112. 

16. Wang, C., Mori, T., Mao, Q., Zhou, K., Wang, Z., Zhang, Y., Mo, H., Lu, X., Mo, J. Long-term phosphorus addition down regulate microbial investments on enzyme productions in a mature tropical forest. Journal of soils and sediments, 2019, 1-10. 

17. Wang, C., Mao, Q., Mori, T., Huang, J., Mo, H., Mo, J., Lu, X. Resource allocation theory reveals sulfur shortage for microbes under phosphorus amendment in tropical forests with divergent land use history. Soil Biology and Biochemistry, 2023, 109126.

18. Mao, J., Mao, Q., Gundersen, P., Gurmesa, G.A., Zhang, W., Huang, J., Wang, S., Li, A., Wang, Y., Guo, Y., Liu, R., Mo, J., Zheng, M. Unexpected high retention of 15N-labeled nitrogen in a tropical legume forest under long-term nitrogen enrichment. Global Change Biology. 2022, 28, 1354-1013.

19. Mao, J., Mao, Q., Zheng, M., Mo, J. Responses of foliar nutrient status and stoichiometry to nitrogen addition in different ecosystems: a meta-analysis. Journal of Geophysical Research: Biogeosciences, 2020, e2019JG005347. 

20. Zhou, K., Lu, X., Mori, T., Mao, Q., Wang, C., Zheng, M., Mo, H., Hou, E., Mo, J. Effects of long-term nitrogen deposition on phosphorus leaching dynamics in a mature tropical forest. Biogeochemistry, 2018, 138(2), 215-224.

21. Wang, H., Liu, S., Zhang, X., Mao, Q., Li, X., You, Y., Wang, J., Zheng, M., Zhang, W., Lu, X., Mo, J. Nitrogen addition reduces soil bacterial richness, while phosphorus addition alters community composition in an old-growth N-rich tropical forest in southern China, Soil Biology and Biochemistry. 2018, 127, 22-30. 

22. Zheng, L., Chen, H., Wang, Y., Mao, Q., Zheng, M., Su, Y., Xiao, K., Wang, K., Li, D. Responses of soil microbial resource limitation to multiple fertilization strategies. Soil and Tillage Research. 2020, 196, 104474.

23. Niu, G., Yin, G., Mo, X., Mao, Q., Mo, J., Wang, J., Lu, X. Do long-term high nitrogen inputs change the composition of soil dissolved organic matter in a primary tropical forest? Environmental Research Letters, 2022, 17(9): 095015

24. Chen, W., Su, F., Pang, Z., Mao, Q., Zhong, B., Xiong, Y., Mo, J., Lu, X. The removal of understory vegetation can rapidly alter the soil microbial community structure without altering the community assembly in a primary tropical forest. Geoderma, 2023, 429, 116180.

25. Hu, N., Mao, Q., Zhong, X., Sun, X., Xu, Q., Li, M., Chen, H. Factors driving the positive resorption of aluminum and iron from old leaves. Plant and Soil, 2023, 1-8.

26. Mori, T., Lu, X., Wang, C., Mao, Q., Wang, S., Zhang, W., Mo, J. Microbial P limitation in tropical forest soils could be overestimated: insight from a sorption experiment and a meta-analysis. Pedobiologia, 2023,150887.

27. Zhao, W. L., FU, P. L., Mao, Q., Liu, G., Li, Y., Xia, J. B., Zhao, P. Effect of leaf phenology and morphology on the coordination between stomatal and minor vein densities. Frontiers in  Plant Science, 2023, 14, 1051692.