教育经历：

2015/09-2019/06 中国科学院沈阳应用生态研究所，博士，土壤学

2018/11-2019/05Texas A&M University,访问学者

2012/09-2015/06南京农业大学，硕士，植物营养学

2008/09-2012/06云南农业大学，学士，设施农业科学与工程

科研与学术工作经历：

2024/01-至今南宁师范大学地理与海洋研究院，副研究员

2019/07-2023/12中国科学院沈阳应用生态研究所，助理研究员

研究内容与方向：

生态系统C/N/P元素循环

微生物代谢效率

生态酶化学计量理论

生态系统N2O排放

主持或参加科研项目（课题）情况：

国家重点研发计划项目(2020YFA0608103)，2020/01-2024/12，子课题负责人，结题

国家自然科学基金地区项目(4246010537)，2025/01-2028/12，主持，在研

国家自然科学基金青年项目(32001174)，2021/07-2023/12，主持，结题

广西自然基金青年项目(2025GXNSFBA069177)，2025/03-2028/02，主持，在研

北部湾教育部重点实验室基金(NO.NNNU-KLOP-X2401)，2024/01-2025/12，主持，在研

国家自然科学基金面上项目(31770531)，2018/01-2021/12，参与，结题

国家自然科学基金青年项目(4,601255)，2017/01-2019/12，参与，结题

国家自然科学基金面上项目(41371299)，2014/01-2017/12，参与，结题

代表性研究成果和学术奖励情况

第一或通讯作者：

●1.Sun, L, Li,J, Qu, L., Wang, X., Sang, C, Wang,J, Sun, M., Wanek, W, Moorhead, D.L, Bai, E, Wang, C,

2023a. Phosphorus limitation reduces microbial nitrogen use efficiency by increasing extracellular

enzyme investments. Geoderma 432,116416.

●2.Sun, L, Moorhead, D.L, Cui, Y, Wanek, W, Li, S, Wang, C.,2023b. Exogenous nitrogen input skews

estimates of microbial nitrogen use efficiency by ecoenzymatic stoichiometry. Ecological Processes

12(1)46.

●3.Sun, L, Qiao, Y., Song, L, Peng, Y., Hu, B, 2025a. Responses of N2O production and associated

functional genes to increasing temperature and moisture in surface and subsurface soils of a temperate

forest. Pedobiologia 108, 151020.

●4.Sun, L, Qiao, Y, Wanek,W, Moorhead, D.L, Cui, Y, Peng, Y, Song, L, Hu, B., Zhang, T, Li, S, 2025b

Nitrogen input decreases microbial nitrogen use efficiency in surface soils of a temperate forest in

northeast China. Geoderma 453,117159.

●5.Sun, L, Qu, L, Moorhead, D.L, Cui, Y., Wanek, W., Li, S, Sang, C., Wang, C, 2024. Interpreting the

differences in microbial carbon and nitrogen use efficiencies estimated by 18O labeling and ecoenzyme

stoichiometry. Geoderma 444,116856.

●6.Sun, L., Sang, C, Wang, C., Fan, Z., Peng, B, Jiang, P, Xia, Z., 2019a. N2O production in the organic and

mineral horizons of soil had different responses to increasing temperature. J. Soils Sediments 19(10),

3499-3511

●7.Sun, L, Wang, C, Yu, H, Liu, D, Houlton, B.Z, Wang, S, Zeng, X, Bai, E, Fang, Y, Jia, Y, 2021. Biotic and

Abiotic Controls on Dinitrogen Production in Coastal Sediments. Global Biogeochem. Cycles 35(12),

e2021GB007069

●8.Sun, L., Xia, Z., Sang, C, Wang, X., Peng, B., Wang, C, Zhang,J, Muller, C., Bai, E,2019b. Soil resource

status affects the responses of nitrogen processes to changes in temperature and moisture. Biol. Fert.

Soils 55(6),629-641

●Li, S, Cui,Y., Moorhead, D.L, Dijkstra, F.A, Sun, L,Xia, Z, Gao,Y, Ma, O, Yu, W,2025. Phosphorus

limitation regulates the responses of microbial carbon metabolism to long-term combined additions of

nitrogen and phosphorus in a cropland. Soil Biol. Biochem. 200, 109614.

● Luo, Y, Sun, L, Zhu, Z, Ran, W, Shen, Q, 2013. Identification and characterization of an anti-fungi

Fusarium oxysporum f. sp. cucumerium protease from the Bacillus subtilis strain N7. Journal of

Microbiology 51(3), 359-366.

●Sang, C, Xia, Z, Sun, L, Sun, H, Jiang, P, Wang, C, Bai, E,2021. Responses of soil microbial

communities to freeze-thaw cycles in a Chinese temperate forest. Ecological Processes 10(1), 66.

●Wang, C, Wang, X, Pei, G, Xia, Z, Peng, B, Sun, L, Wang,J, Gao, D, Chen, S, Liu, D, Dai, W, Jiang, P,

Fang, Y, Liang, C, Wu, N, Bai, E, 2020a. Stabilization of microbial residues in soil organic matter after

two years of decomposition. Soil Biol. Biochem.141,107687.

●Wang, C, Wang, X., Zhang, Y., Morrissey, E., Liu,Y, Sun, L, Qu, L, Sang, C, Zhang, H., Li, G, Zhang, L,

Fang, Y, 2023. Integrating microbial community properties, biomass and necromass to predict cropland

soil organic carbon. ISME Communications 3(1), 86.

●Wang, X., Wang, C, Cotrufo, M.F, Sun, L,Jiang, P, Liu, Z, Bai, E, 2020b. Elevated temperature increases

the accumulation of microbial necromass nitrogen in soil via increasing microbial turnover. Global

Change Biol.26(9),5277-5289.

●Wang, X., Wang, C, Fan, X., Sun, L, Sang, C., Wang, X., Jiang, P, Fang, Y, Bai, E., 2024. Mineral

composition controls the stabilization of microbially derived carbon and nitrogen in soils: Insights from

an isotope tracing model. Global Change Biol. 30(1), e17156.

●Xia,Z., Yang,J, Sang, C, Wang, X., Sun, L, Jiang, P, Wang, C, Bai, E, 2020. Phosphorus Reduces

Negative Effects of Nitrogen Addition on Soil Microbial Communities and Functions, Microorganisms.

●Zhu, Z., Gao, C., Wu,Y., Sun, L, Huang, X., Ran, W, Shen, Q, 2013. Removal of heavy metals from

aqueous solution by lipopeptides and lipopeptides modified Na-montmorillonite. Bioresour. Technol.

147,378-386.

●Zhu, Z, Sun, L., Huang, X., Ran, W., Shen, Q, 2014. Comparison of the kinetics of lipopeptide

production by Bacillus amyloliquefaciens XZ-173 in solid-state fermentation under isothermal and non-

isothermal conditions. WorldJ. Microbiol. Biotechnol.30,1615-1623.

●杨静怡,王旭,孙立飞,王超,白娥,2020.氮磷添加对长白山温带森林土壤微生物群落组成和氨基糖的影响.应用生

态学报31(06),1948-1956.

发明专利

●孙立飞，冉炜，刘红军，沈其荣:一种纳米针铁矿-氨基酸复合叶面肥、制备方法和应用.CN104446907A