李晓杰

第一作者发表的论文：(^#表示共同第一作者,^†表示通讯作者)

(1) Shi JM^#, Li XJ^#, Song G, Jin SS, Zhou LH, Lyu MK, Xie JS, Hu YL, Hu HW, He JZ, Zheng Y^†. Response of root- and soil-associated AM fungi to nitrogen addition and simulated drought in a Chinese fir plantation. Geoderma, 2025, 454, 117176.

(2) Li XJ, Lyu MK^†, Zhang QF, Feng JG, Liu XF, Zhu B, Wang XH, Yang YS, Xie JS^†. Warming reduces priming effect of soil organic carbon decomposition along a subtropical elevation gradient. Global Biogeochemical Cycles, 2024, 38, e2024GB008113.

(3) Li XJ, Feng JG, Zhang QF, Zhu B^†. Warming inhibits the priming effect of soil organic carbon: A meta-analysis. Science of The Total Environment, 2023, 904, 166170.

(4) Li XJ, Zhang QF, Feng JG, Jiang DM, Zhu B^†. Forest management causes soil carbon loss by reducing particulate organic carbon in Guangxi, Southern China. Forest Ecosystems, 2023, 10, 100092.

(5) Li XJ^#, Liu XF^#†, Xie JS^†, Zhang QF, Yang ZJ, Schindlbacher A, Yang YS. Contribution of above ground litterfall and roots to the soil CO₂ efflux of two sub-tropical Cunninghamia lanceolata and Castanopsis carlesii forests. Agricultural and Forest Meteorology, 2021, 311, 108671.

(6) Li XJ, Xie JS^†, Zhang QF, Lyu MK, Xiong XL, Liu XF, Lin T^†, Yang YS. Substrate availability and soil microbes drive temperature sensitivity of soil organic carbon mineralization to warming along an elevation gradient in subtropical Asia. Geoderma, 2020, 364, 114198.

(7) Lyu MK^#, Li XJ^#, Xie JS^†, Homyak PM, Ukonmaanaho L, Yang ZJ, Liu XF, Ruan CY, Yang YS. Root-microbial interaction accelerates soil nitrogen depletion but not soil carbon after increasing litter inputs to a coniferous forest. Plant and Soil, 2019, 444, 153-164.

(8) 李晓杰, 刘小飞^†, 林成芳, 陈仕东, 熊德成, 林伟盛, 胥超, 谢锦升, 杨玉盛. 土壤增温调节中亚热带森林更新初期植物生物量分配格局. 生态学报, 2017, 37: 25-34.

(9) 李晓杰, 刘小飞^†, 熊德成, 林伟盛, 林廷武, 施友文, 谢锦升, 杨玉盛. 中亚热带杉木人工林和米槠次生林凋落物添加与去除对土壤呼吸的影响. 植物生态学报, 2016, 40: 447-457.

合作发表的部分论文：

(1) Zhang QF, Feng JG, Li XJ, Chen YM, Schimel JP, Zhu B^†. Effect of field warming on soil microbial carbon use efficiency: A meta-analysis. Soil Biology and Biochemistry, 2024, 197, 109531.

(2) Deng W^#, Lu YM^#, Lyu MK^†, Deng C, Li XJ, Jiang YM, Zhu HR, Yang YS, Xie JS^†, 2024. Chemical composition of soil carbon is governed by microbial diversity during understory fern removal in subtropical pine forests. Science of The Total Environment, 2024, 914, 169904.

(3) Zhang QF, Qin WK, Feng JG, Li XJ, Zhang ZH, He JS, Schimel JP, Zhu B^†. Whole-soil-profile warming does not change microbial carbon use efficiency in surface and deep soils. Proceedings of the National Academy of Sciences of the United States of America, 2023, 120, e2302190120. 

(4) Deng C, Lyu MK^†, Xiong XL, Peñuelas J, Sardans J, Li XJ, Lin WS, Yang YS, Xie JS^†. Understory ferns removal downregulates microbial carbon use efficiency and carbon accrual in previously degraded lands. Agricultural and Forest Meteorology, 2023, 340, 109631.

(5) Dong J^#, Jiang YM^#, Lyu MK^†, Cao C, Li XJ, Xiong XL, Lin WS, Yang ZJ, Chen GS, Yang YS, Xie JS. Drought changes the trade-off strategy of root and arbuscular mycorrhizal fungi growth in a subtropical chinese fir plantation. Forests, 2023, 14, 114. 

(6) Jia SX^#, Liu XF^#†, Lin WS, Li XJ, Yang LM, Sun SY, Hui DF, Guo JF^†, Zou XM, Yang YS. Tree roots exert greater influence on soil microbial necromass carbon than above-ground litter in subtropical natural and plantation forests. Soil Biology and Biochemistry, 2022, 173, 108811. 

(7) Liu XF^#†, Chen SD^#, Li XJ, Yang ZJ, Xiong DC, Xu C, Wanek W, Yang YS. Soil warming delays leaf litter decomposition but exerts no effect on litter nutrient release in a subtropical natural forest over 450 days. Geoderma, 2022, 427, 116139.

(8) Zhang QF, Zhou JC, Li XJ, Zheng Y, Xie L, Yang ZJ, Liu XF, Xu C, Lin HY, Yuan XC, Liu CC, Zhu B, Chen YM^†, Yang YS. Contrasting effects of warming and N deposition on soil microbial functional genes in a subtropical forest. Geoderma, 2022, 408, 115588. 

(9) Yang LM^#, Lyu MK^#†, Li XJ, Xiong XL, Lin WS, Yang YS, Xie JS^†. Decline in the contribution of microbial residues to soil organic carbon along a subtropical elevation gradient. Science of the Total Environment, 2020, 749: 141583.

(10) Zhang QF, Zhou JC, Li XJ, Yang ZJ, Zheng Y, Wang J, Lin WS, Xie JS, Chen YM^†, Yang YS^†. Are the combined effects of warming and drought on foliar C:N:P:K stoichiometry in a subtropical forest greater than their individual effects? Forest Ecology and Management, 2019, 448, 256-266.