基本信息
李彦生  男    中国科学院东北地理与农业生态研究所
电子邮件: liyansheng@iga.ac.cn
通信地址: 哈尔滨市哈平路138号
邮政编码:

研究领域

作物栽培与耕作
气候变化生物学
土壤养分循环

招生信息

   
招生专业
090101-作物栽培学与耕作学
090302-植物营养学
090301-土壤学
招生方向
作物栽培与耕作
气候变化生物学
土壤养分循环

教育背景

   
教育经历

2003-2007  吉林农业大学,农学专业,本科,农学学士学位 

2008-2013  中国科学院大学,生态学专业,硕博连读,理学博士学位

工作经历

2020.12至今 中国科学院东北地理与农业生态研究所 副研究员

2019.12-2020.12 中国科学院东北地理与农业生态研究所 项目副研究员

2019.05-2020.05 澳大利亚国立大学 植物科学系 访问学者

2013.07-2019.12 中国科学院东北地理与农业生态研究所 助理研究员


社会兼职

美国作物科学学会会刊Crop Science期刊编委(Associate Editor)

Frontiers in Environmental Science期刊编委(Review Editor)

国家自然科学基金函评专家

黑龙江省作物学会理事

黑龙江省黑土资源保护与利用学会理事

专利与奖励

  • 李彦生(2/9),中科毛豆新品种选育与应用,黑龙江省科技进步二等奖,2018
  • 李彦生(10/12),提高大豆单产关键技术及配套技术模式研究与应用推广,黑龙江省科技进步二等奖,2020
  • 李彦生(2/5),黑土农田系统响应大气 CO2 浓度升高的分子生态机制,黑龙江省科技进步三等奖,2021
  • 菜用大豆新品种,中科毛豆7号,刘长错、张秋英、李彦生等,黑审豆2023Z0020
  • 菜用大豆新品种,中科毛豆5号,张秋英,刘长锴,李彦生等,黑审豆2021Z0052
  • 菜用大豆新品种,中科毛豆4号,张秋英,刘长锴,李彦生等,黑审豆2019Z0005
  • 菜用大豆新品种,中科毛豆3号,张秋英,刘长锴,李彦生等,黑审豆2019Z0010
  • 菜用大豆新品种,中科毛豆2号,张秋英,李彦生,李春阳等,黑审豆2014023


出版信息

  • Zhang, Chunyu, Li Yansheng*, Yu Zhenhua, Wang Guanghua, Liu Xiaobing, Liu Junjie, Liu Judong, Zhang Xingmei, Yin Kuide*, and Jin Jian. Co-elevation of atmospheric [CO2] and temperature alters photosynthetic capacity and instantaneous water use efficiency in rice cultivars in a cold-temperate region. Frontiers in Plant Science 2022, 13: 1037720.
  • Fang Rui#, Li Yansheng#, Yu Zhenhua, Xie Zhihuang, Wang Guanghua, Liu Xiaobing, Herbert S J., Jin Jian*. Warming offsets the beneficial effect of elevated CO2 on maize plant-carbon accumulation in particulate organic carbon pools in a Mollisol. Catena, 2022 213: 106219.
  • Li YS, Xie ZH, Zhou M, Liu CK, Yu ZH, Wu JJ, Jin J, Chen Y, Zhang XY, and Liu XB*. Soybean yield and quality relative to Mollisols fertility with 7-year consecutive cattle manure application under maize-soybean rotation. Land Degradation & Development. 2021, 32(16): 4740-4754.
  • Xie ZH#, Li YS#, Yu ZH, Wang GH, Tang CX, Mathesius U, Liu XB, Liu JJ, Liu JD, Herbert ST, Wu JJ, Jin J*. Incorporation of maize crop residue maintains soybean yield through the stimulation of nitrogen fixation rather than residue-derived nitrogen in Mollisols. Field Crops Research. 2021, 272: 108269.
  • Li Y.S.#, Xie Z.H.#, Yu Z.H., Wang Y.H., Liu C.K., Wang G.H., Wu J.J., Jin J*. Liu X.B.* Impact of surface soil manuring on particulate carbon fractions in relevant to nutrient stoichiometry in a Mollisol profile. Soil & Tillage Research, 2021, 207: 104859
  • 李彦生,金剑,刘晓冰.作物对大气CO2浓度升高生理响应研究进展. 作物学报, 2020, 46(12): 1819-1830.
  • Zhou, M., Wang, C.Y., Xie, Z.H., Li, Y.S.*, Zhang, X.Y., Wang, G.H., Jin, J., Ding, G.W., Liu, X.B.* Humic substances and distribution in Mollisols affected by six-year organic amendments. Agronomy Journal, 2020, 112(6): 4723. -4740.
  • Li Y.S., Yu Z.H., Yang S.C., Wang G.H., Liu X.B. Wang C.Y., Xie Z.H., Jin J.* Impact of elevated CO2 on C:N:P ratio among soybean cultivars. Science of the Total Environment, 2019, 694: 133784.
  • Li Y.S.#,Yu Z.H.#, Yang S.C., Jin J.*, Wang G.H., Liu C.K., Herbert S.J., Liu X.B. Soybean intraspecific genetic variation in response to elevated CO2. Archives of Agronomy and Soil Science, 2019, 65: 1733-1744
  • Li Y.S., Yu Z.H., Jin J. *, Zhang Q.Y., Wang G.H., Liu C.K., Wu J.J., Wang C., Liu X.B. * Impact of elevated CO2 on seed quality of soybean at the fresh edible and mature stages. Frontiers in Plant Science, 2018, 9: 1413
  • Li Y.S., Yu Z.H., Liu X.B., Mathesius U., Wang G.H., Wu J.J., Liu J.D., Zhang S.Q., Jin J*. Elevated CO2 increases nitrogen fixation at the reproductive phase contributing to various yield responses of soybean cultivars. Frontiers in Plant Science, 2017, 8: 1546
  • Li Y.S.,Liu X.B., Wang G.H., Yu Z.H., Mathesius U, Liu J.D., Herbert S.J., Jin J*. Shift in origin of plant nitrogen alters carbon and nitrogen assimilation during reproductive stages of soybean grown in a Mollisol. Crop & Pasture Science, 2016, 67: 872–880
  • Yu Z.H.#, Li Y.S.#, Wang G.H., Liu J.J., Liu J.D., Liu X.B., Herbert S.J., Jin J*. Effectiveness of elevated CO2 mediating bacterial communities in the soybean rhizosphere depends on genotypes. Agriculture, Ecosystems and Environment, 2016, 231: 229–232
  • Yu Z.H.#, Li Y.S.#, Hu Xiaojing, Jin Jian, Wang Guanghua, Tang Caixian, Liu Junjie, Liu Xiaobing, Ashley Franks, Elenora Egidi. Elevated CO2 increases the abundance but simplifies networks of soybean rhizosphere fungal community in Mollisol soils. Agriculture, Ecosystems & Environment, 2018, 264: 94-98
  • Yu Z.H., Li Y.S., Wang Guanghua, Tang Caixian, Liu Xiaobing, Jin Jian. Elevated CO2 alters the abundance but not the structure of diazotrophic community in the rhizosphere of soybean grown in a Mollisol. Biology and Fertility of Soils. 2018.54: 7: 877–881.
  • Li Y.S.,Liu X.B.*, Henson J.F. Advances in crop responses to enhanced UV-B radiation. Applied Ecology and Environmental Research, 2016, 14(3): 339-367
  • Li Y.S., Du M., Zhang Q.Y.*, Wang G.H., Jin J., S.J. Hebert, Liu X.B. Planting Date Influences Fresh pod yield and seed chemical compositions of vegetable soybean. Hortscience, 2014, 49: 1376-1380
  • Li Y.S.,Du M., Zhang Q.Y.*, M. Hashemi, Liu X.B., S.J. Hebert. Correlation and path coefficient analysis for yield components of vegetable soybean in Northeast China. Legume Research, 2013, 4:284-288
  • Li Y.S., Du M., Zhang Q.Y.*, Wang G.H., M. Hashemi, Liu X.B*. Greater differences exist in seed protein, oil, total soluble sugar and sucrose content of vegetable soybean genotypes [Glycine max (L.) Merrill] in Northeast China. Australian Journal of Crop Science, 2012, 60:1681-1686

科研活动

国家自然科学基金面上项目

国家自然科学基金青年基金项目

中科院先导A类项目课题

国家重点研发计划子课题

黑龙江省自然科学基金青年基金项目

黑龙江省留学回国人员择优资助项目

国家科技支撑项目子课题

农业部农业环境重点实验室开放基金


合作情况

指导学生

   

已毕业:

王春雨(硕士、联培)

徐    影(硕士、联培)

张春雨(博士、联培)

包文彬(硕士、联培)


在  读:

苏亚飞

刘牧青

汪    妍