李永春,博士,教授,博士生导师。2011年7月毕业于南京大学生命科学学院获生物学博士学位,2018年1月至2019年1月获加拿大阿尔伯塔大学可再生资源系资助任访问教授(合作研究)。2019年12月起任bwin必赢(中国)唯一官方网站-(中国)/亚热带森林培育国家重点实验室教授,兼任中国农业生物技术学会理事、国际微生物学期刊Frontiers in Microbiology副编审(Associate Editor)、农业生物技术学报编委。主要从事植物-土壤系统中微生物功能生态研究,包括森林土壤真菌与降解功能、功能细菌与碳氮转化过程、根际微生态与植物健康。主持国家自然科学基金3项、浙江省自然科学基金重点项目等2项、国家野外科学观测站开放课题1项,与国家级自然保护区管理局合作主持中央林业改革发展资金等科研项目2项。在学术期刊上发表SCI收录论文48篇,其中4篇入选ESI全球TOP 1%高被引论文;以第一或通讯作者在Soil Biology & Biochemistry、Biology and Fertility of Soils和Plant and Soil等SCI主流期刊发表论文22篇,其中2篇同时入选ESI热点(1‰)或高被引(1%)论文,在CSCD收录期刊上发表论文26篇。完成的科研成果获国家林草局梁希林业科技进步二等奖和浙江省科技进步三等奖,及中国林学会梁希青年论文奖二等奖。领衔主讲的研究生课程《高级植物营养学》入选省优秀研究生课程。热忱欢迎有志于从事根际生态与植物健康研究的同仁加盟!
一、近年主持和参与的科研项目
1.毛竹入侵生境植物碳输入对土壤功能菌群与氮转化的调控及其反馈(32071742),国家自然科学基金面上项目,2021-2024,主持;
2.毛竹入侵阔叶林对土壤异养硝化作用的影响及其微生物机理(31670618),国家自然科学基金面上项目,2017-2020,主持;
3.集约经营雷竹林土壤真菌群落生态特征及其响应机制(31200473),国家自然科学基金青年基金,2013-2015,主持;
4.毛竹入侵生境凋落物分解调控土壤有机碳矿化的微生物驱动机制(LZ22C160005),浙江省自然科学基金重点项目,2022-2024,主持;
5.毛竹入侵阔叶林对土壤真菌群落与氮素矿化的影响及其机理(LY15C160006),浙江省自然科学基金一般项目,2015-2017,主持;
6.不同生长策略树种倒木分解真菌群落结构与功能(TTK201906),国家野外科学观测研究站开放课题(华东师范大学),2020-2021,主持;
7.大盘山榧根际微生态特征与保护技术研究,浙江省大盘山国家级自然保护区管理局课题(中央财政林改资金项目),2022-2023,主持;
8.天目铁木枯梢病研究,浙江省天目山国家级自然保护区管理局课题(中央财政林改资金项目),2023-2023,主持;
9.大盘山延胡索种群野外回归技术研究,金华市暨磐安县科技计划重点项目,2021-2024,主持;
10.毛竹根际固氮菌资源与多样性(FX2013057),浙江省高等学校访问学者教师专业发展项目,2013-2015,主持;
11.集约经营雷竹林土壤真菌种群及其多样性的演变特征(Y201225759),浙江省教育厅科研项目,2012-2014,主持;
12.集约经营雷竹林土壤真菌种群及其多样性的演变特征(2012FR10),浙江农林大学科研发展基金,2012-2015,主持;
13.毛竹林生态系统碳-氮耦合循环过程的土壤微生物调控机制(31570602),国家自然科学基金面上项目,2016-2019,第二;
14.浙江典型森林植被土壤固碳功能菌群落特征及其固碳潜力研究(LZ16C160002),浙江省自然科学基金重点项目,2016-2019,第二。
二、近年发表的主要科研论文(#为共同一作,∗为通讯作者)
1. Fang L., Wang Y., Sardar M.F., Tang C.X., Fang T., Du J.H., Yan E.R.∗, Zhang Q.Q.,Li Y.C.∗Soil fungal composition under decomposing deadwood is largely affected by tree bark density rather than soil properties. Applied Soil Ecology, 2024, 198, 105373. (SCI)
2.Teng Q.M., Lu X.N., Zhang Q.Q., Cai L.L., Sardar M. F., Li Y.F., Abbas T., Li Y., Chang S. X.,Li Y.C.∗Litterfall quality modulates soil ammonium and nitrate supply through altering microbial function in bamboo encroachment of broadleaf forests. Geoderma, 2023, 437, 116592.(SCI)
3. Sardar M. F., Chen Z.H., Tang C.X., Zhang S.K., Fang L., Miao D.N., Li Y.F., Zhang Q.Q.,Li Y.C.∗Seasonal linkages between soil nitrogen mineralization and the microbial community in broadleaf forests with Moso bamboo (Phyllostachys edulis) invasion.Science of the Total Environment, 2023, 899, 165557. (SCI)
4. Li Q., Song Z.L.∗,Xia S.P., Kuzyakov Y., Yu C.X., Fang Y.Y., Chen J., Wang Y.D., Shi Y., Luo Y.,Li Y.C., Chen J.H., Wang W., Zhang J.C., Fu X.L., Vancov T., Zwieten L.V., Liu C.Q., Wang H.L. Microbial necromass, lignin, and glycoproteins for determining and optimizing blue carbon formation. Environmental Science & Technology, 2023, 58, 468-479.(SCI)
5. Miao D.N., Peng X.Y., Teng Q.M. Sardar M.F., Zhang Q.Q., Zhu X.T.,Li Y.C.∗Different contributions of bacterial and fungal communities to nitrogen mineralization in Moso bamboo‑invaded subtropical forests. Journal of Soils and Sediments, 2022, 23(3), 1123-1134.(SCI)
6. Yang M.K., Luo F.H., Song Y.C., Ma S.L., Ma Y.D., Fazal A., Yin T.M., Lu G.H., Sun S.C., Qi J.L., Wen Z.L.∗,Li Y.C.∗, Yang Y.H.∗The host niches of soybean rather than genetic modification or glyphosate application drive the assembly of root-associated microbial communities. Microbial Biotechnology, 2022, 15(12), 2942-2957.(SCI)
7. Hu X.Y., Wang X.M., Abbas T., Fang T., Miao D.N., Li, Y.F., Chang S.X.∗,Li Y.C.∗Higher ammonium-to-nitrate ratio shapes distinct soil nitrifying community and favors the growth of Moso bamboo in contrast to broadleaf tree species. Biology and Fertility of Soils, 2021, 57, 1171-1182. (SCI)
8. Chen Z.H.,Li Y.C.∗, Chang S.X., Xu Q.F., Li Y.F., Ma Z.L. Qin H., Cai Y.J. Linking enhanced soil nitrogen mineralization to increased fungal decomposition capacity with Moso bamboo invasion of broadleaf forests. Science of the Total Environment, 2021, 771, 144779. (SCI)
9. Yang M.K., Liu Y.H., Liao Y.H., Tang C.X., Wen Z.L., Fazal A, Yang R.W., Qi J.L., Hong Z.∗,Li Y.C.∗, Yang Y.H.∗Excess copper promotes catabolic activity of gram-positive bacteria and resistance of gram-negative bacteria but inhibits fungal community in soil. Environmental Science and Pollution Research, 2021, 29, 22602–22612. (SCI)
10. Ling L., Fu Y.Y., Jeewani P.H., Tang C.X., Pan S.T., Reid B.J., Gunina A., Li Y.F.,Li Y.C., Cai Y.J., Kuzyakov Y., Li Y., Su W.Q., Singh B.P., Luo Y.∗, Xu J.M. Organic matter chemistry and bacterial community structure regulate decomposition processes in post-fire forest soils. Soil Biology and Biochemistry, 2021, 160, 108311. (SCI)
11. Wei Q.Y., Yi R., Huang J.H.∗, Vogler A.P.,Li Y.C., Miao X.Q., Kardolg P. The diversity of soil mesofauna decline after bamboo invasion in subtropical China. Science of the Total Environment, 2021, 789, 147982. (SCI)
12.Li Y.C., Li Y.F., Yang M.K., Chang S.X., Qi J.L., Tang C.X., Wen Z.L., Hong Z., Yang T.Y., Ma Z.L., Gao Q., Zhou J.Z., Yang Y.F.∗, Yang Y.H.∗Changes of microbial functional capacities in the rhizosphere contribute to aluminum tolerance by genotype specific soybeans in acid soils. Biology and Fertility of Soils, 2020, 56, 771–783. (SCI)
13. Ma Z.L., Chen H.Y.H.,Li Y.C., Chang S.X.∗Interactive effects of global change factors on terrestrial net primary productivity are treatment length and intensity dependent. Journal of Ecology, 2020, 108, 2083-2094. (SCI)
14. Song Y.Z., Li Y.F.∗, Cai Y.J., Fu S.L., Luo Y., Wang H.L., Liang C.F., Lin Z.W., Hu S.D.,Li Y.C., Chang S.X. Biochar decreases soil N2O emissions in Moso bamboo plantations through decreasing labile N concentrations, N-cycling enzyme activities and nitrification/denitrification rates. Geoderma, 2019, 348, 135-145. (SCI)
15. Lu X.H., Li Y.F.∗, Wang H.L., Singh B.P., Hu S.D., Luo Y., Li J.W., Xiao Y.H., Cai X.Q.,Li Y.C.Responses of soil greenhouse gas emissions to different application rates of biochar in a subtropical Chinese chestnut plantation. Agricultural and Forest Meteorology, 2019, 271, 168-179. (SCI)
16.Li Y.C., Li Y.F.∗, Chang S.X., Yang Y.F., Fu S.L., Jiang P.K., Luo Y., Yang M. Chen Z.H., Hu S.D., Zhao M.X., Liang X., Xu Q.F., Zhou G.M., Zhou J.Z. Biochar reduces soil heterotrophic respiration in a subtropical plantation through increasing soil organic carbon recalcitrancy and decreasing carbon-degrading microbial activity. Soil Biology and Biochemistry, 2018, 122, 173-185. (SCI)
17.Li Y.C.∗, Liang X., Tang C.X., Li Y.F., Chen Z.H., Chang S.X., Guo Z.Y., Shen Y., Xu Q.F.∗Moso bamboo invasion into broadleaf forests is associated with greater abundance and activity of soil autotrophic bacteria. Plant and Soil, 2018, 428, 163-177. (SCI)
18. Liu Y.H.,Li Y.C.#, Hua X.M., Müller K., Wang H.L., Yang T.Y., Wang Q., Peng X., Wang M.C., Pang Y.J., Qi J.L.∗, Yang Y.H.∗Glyphosate application increased catabolic activity of gram-negative bacteria but impaired soil fungal community. Environmental Science and Pollution Research, 2018, 25, 14762-14772. (SCI)
19. Li P.,Li Y.C.#, Zheng X.Q., Ding L.N., Ming F., Pan A.H., Lv W.G., Tang X.M.∗Rice straw decomposition affects diversity and dynamics of soil fungal community, but not bacteria. Journal of Soils and Sediments. 2018, 18, 248-258. (SCI)
20.Li Y.C., Li Y.F.∗, Chang S.X., Liang X., Qin H., Chen J.H., Xu Q.F.∗Linking soil fungal community structure and function to soil organic carbon chemical composition in intensively managed subtropical bamboo forests. Soil Biology and Biochemistry, 2017, 107, 19-31. (SCI)
21.Li Y.C., Li Y.F.∗, Chang S.X., Xu Q.F., Guo Z.Y., Gao Q., Qin Z.Y., Yang Y.F.∗, Chen J.H., Liang X. Bamboo invasion of broadleaf forests altered soil fungal community closely linked to changes in soil organic C chemical composition and mineral N production. Plant and Soil, 2017, 418, 507-521. (SCI)
22.Li Y.C., Guo N., Zhao J.M., Zhou B., Xu R., Ding H., Zhao W.G., Gai J.Y., Xing H∗. Different responses of soybean cyst nematode resistance between two RIL populations derived from Peking×7605 under two ecological sites. Journal of Genetics, 2016, 95, 975-982. (SCI)
23.Li Y.C., Liu B.R., Li S.H., Qin H., Fu W.J., Xu Q.F.∗Shift in abundance and structure of soil ammonia-oxidizing bacteria and archaea communities associated with four typical forest vegetations in subtropical region. Journal of Soils and Sediments, 2014, 14, 1577-1586. (SCI)
24. Qin H., Wang H.L.∗, Strong P.J.,Li Y.C., Xu Q.F., Wu Q.F. Rapid soil fungal community response to intensive management in a bamboo forest developed from rice paddies. Soil Biology and Biochemistry, 2014, 68, 177-184. (SCI)
25.Li Y.C., Yang T.Y., Zhang P.P., Zou A.L., Peng X., Wang L.L., Yang R.W., Qi J.L.∗, Yang, Y.H.∗Differential responses of the diazotrophic community to aluminum-tolerant and aluminum-sensitive soybean genotypes in acidic soil. European Journal of Soil Biology, 2012, 53, 76-85. (SCI)
26. Yang T.Y., Liu G.L.,Li Y.C., Zhu S.M., Zou A.L., Qi J.L., Yang Y.H.∗Rhizosphere microbial communities and organic acids secreted by aluminum-tolerant and aluminum-sensitive soybean in acid soil. Biology and Fertility of Soils, 2012, 48, 97-108. (SCI)
27.张文卓,张前前,俞叶飞,迟晓立,何安国,王雨齐,吕强锋,李永春∗.森林郁闭度和凋落物对延胡索生长和土壤酶化学计量的影响.农业生物技术学报,2024,32(2): 322-333.
28.许雄钞,张前前,滕秋梅,赵明水,李永春∗.毛竹和次生阔叶林优势树种根际效应对土壤有机碳矿化的影响.应用生态学报,2023,34(9): 2374-2382.
29.王兰鸽,张前前,赵明水,苗丹妮,李永夫,滕秋梅,李永春∗.毛竹和阔叶林凋落物浸提液对土壤微生物及氮矿化的影响.农业生物技术学报,2023,31(5): 1053-1063.
30.卢小妮,陈露雨,李永春∗,方韬,胡晓嫣,李永夫,俞叶飞.毛竹林和阔叶林凋落物互置对土壤氮矿化的影响及微生物贡献.生态学报,2022,42(12):4988-4997.
31.瞿瑜婷,张前前,俞叶飞,沙衣哈力·对先阿力,蔡琳琳,张苏炯,李永夫,李永春∗.根际微生态视角下药用植物连作障碍机制和缓解措施研究进展.浙江大学学报(农业与生命科学版),2022,48(4):403-414.
32.方韬,李永春∗,姚泽秀,李永夫,王兴萌,王越,俞叶飞.种植阔叶树种和毛竹对土壤有机碳矿化与微生物群落结构的影响.应用生态学报,2021,32(1): 82-92.
33.姚泽秀,李永春∗,李永夫,陈志豪.植茶年限对土壤微生物群落结构及多样性的影响.应用生态学报,2020,31(8): 2749-2758.
34.王越,罗雪媛,李永春∗,陈志豪,姚泽秀,方韬,张宝刚.毛竹与阔叶林凋落物添加对土壤细菌群落的影响.农业生物技术学报,2020,28(6): 951-962.
35.王兴萌,陈志豪,李永春∗,吴家森,李永夫,钟斌,梁辰飞,徐秋芳.氮素形态及配比对毛竹和青冈实生苗生长特性的影响.生态学杂志,2019,38(9): 2655-2661.
36.彭鑫怡,李永春∗,王秀玲,李永夫,陈志豪,徐秋芳.植物入侵对土壤微生物的影响.浙江农林大学学报,2019,36(5): 1019-1027.
37.陈志豪,梁雪,李永春∗,李永夫,徐秋芳,邬奇峰,李松昊,沈振明.不同施肥模式对雷竹林土壤真菌群落特征的影响.应用生态学报,2017, 28(4): 1168-1176.
38.梁雪,李永春∗,陈相君,李永夫,陈俊辉,徐秋芳.新疆木垒胡杨林区三种林分土壤真菌群落特征.生态学杂志,2017, 36(3): 623-630.
39.任安静,吴林飞,李永春∗,谭振宇,姚泽秀,徐秋芳,时浩杰.基于竹屑降解的腐生真菌筛选、酶活测定与基因表达分析.农业生物技术学报,2016, 24(11): 1664-1675.
40.李永春,梁雪,李永夫,王祈,陈俊辉,徐秋芳.毛竹入侵阔叶林对土壤真菌群落的影响.应用生态学报,2016, 27 (2): 585-592.
41.陈梦扬,姚泽秀,李永春∗,吴涵韬,徐秋芳,魏健,秦华.雷竹林土壤染料降解真菌筛选与脱色效果初步研究.浙江农林大学学报,2016, 33 (3), 418-426.
42.李永春,刘卜榕,郭帅,邬奇峰,秦华,吴家森,徐秋芳.亚热带不同林分土壤氨氧化菌群落特征.应用生态学报,2014, 25(1): 125-131.
43.陈梦扬,魏健,葛高波,孙铭,冯秀智,吴可人,李永春∗,徐秋芳.喷施Bt杀虫剂对土壤微生物生物量和多样性的影响.浙江农林大学学报,2013, 30(5): 662-668.
44.李永春,孔令如,王焱,孔文尧,杨统一,邹爱兰,戚金亮,杨永华∗.酸性土壤中大豆优势根瘤菌的分离、鉴定及其生物学特性.中国油料作物学报,2011,33(4):384-390.
三、近年来获得的奖励
1.李永夫,李永春,宋成芳,张令,张小平,宋绪忠,刘娟.亚热带特色经济林土壤有机碳库演变特征与增汇减排调控技术.浙江省人民政府,浙江省科学技术进步奖,三等奖,2023.
2.李永夫,李永春,姜培坤,宋绪忠,潘春霞,刘娟,张小平,刘恩斌,吴柏林,王翔.亚热带特色经济林土壤有机碳库演变特征与增汇减排调控技术.国家林业和草原局/中国林学会,梁希林业科学技术奖,二等奖,2019.
3.李永春. Linking soil fungal community structure and function to soil organic carbon chemical composition in intensively managed subtropical bamboo forests.中国林学会,梁希青年论文奖,二等奖,2018.
联系方式
E-mail: ycli@zafu.edu.cn;yongchun101@hotmail.com
ResearchGate: https://www.researchgate.net/profile/Yongchun-Li