团队负责人简介:
李春阳 现任杭州师范大学生命与环境科学学院院长,中科院百人计划终期评估优秀获得者,国家杰出青年科学基金终期评估优秀获得者,国家百千万人才工程入选者。曾任国际林学顶尖期刊Tree Physiology编委(2009-2018),现任国际生态与环境领域主流期刊Environmental and Experimental Botany和Journal of Plant Ecology编委。主要从事环境胁迫因子之间相互关系以及对木本植物叠加影响的研究,在雌雄杨树适应环境胁迫的性别差异方面取得创新性成果。以第一作者和通讯作者在国际主流学术期刊发表SCI论文150余篇,其中80%发表在本领域前20%期刊,被SCI引用4500余次,H指数42,连续5年入选中国高被引学者排行榜,在农业与生物科学排名前20。
团队成员:
夏志超 博士 讲师
郭庆学 博士 讲师
刘 秒 博士 讲师
余 雷 博士 讲师
方立东 博士 助理研究员
亢介玉 硕士 助理实验师
团队研究方向:
1)揭示木本植物(特别是雌雄异株植物)的根际过程与调控机制
2)探讨雌雄杨树对土壤微生物群落特征与功能影响的性别差异
3)阐明雌雄杨树在逆境胁迫下性别差异的生理过程与分子机制
团队承担教学与课程:
1)研究生课程《生态学研究方法》
2)研究生课程《生态系统生态学》
3)本科生课程《植物生理生态学》
4)本科生课程《植物逆境生理学研讨课》
团队承担以下研究项目:
1. 国家自然科学基金(新疆联合基金)重点项目 塔里木河流域胡杨雌雄干旱适应差异的生理与分子机制 (2019-2022)
2. 国家自然科学基金青年项目 雌雄青杨的磷觅食策略及性别内和性别间相互作用 (2019-2021)
3. 国家自然科学基金青年项目 遮荫与低氮对青杨雌雄性内和性间竞争关系的影响 (2019-2021)
4. 国家自然科学基金青年项目 基于雌雄青杨响应盐胁迫的钾/钠离子比差异调控机制 (2019-2021)
5. 浙江省自然科学基金青年项目 杉木对异种林木的化学选择及地下生态效应(2018-2020)
6. 浙江省自然科学基金青年项目 干旱梯度下杉木与木荷种内与种间竞争作用动态变化(2018-2020)
7. 浙江省自然科学基金青年项目 氮素对镉胁迫下青杨雌雄差异性的调控机制 (2018-2020)
近3年团队研究成果:
[1] Guo Q, Zhang Y, Wang D, Zhang Y, Korpelainen H, ©Li C(2017) Influence of soil qualities on intra- and interspecific competition dynamics of Larix kaempferi and L. olgensis. Environmental and Experimental Botany 135:96-105.
[2] Yu L, Song M, Lei Y, Duan B, Berninger F, Korpelainen H, Niinemets Ü, ©Li C (2017) Effects of phosphorus availability on later stages of primary succession in Gongga Mountain glacier retreat area. Environmental and Experimental Botany 141:103-112.
[3] Song M, Yu L, Jiang Y, Lei Y, Korpelainen H, Niinemets Ü, ©Li C (2017) Nitrogen-controlled intra and interspecific competition between Populus purdomii and Salix rehderiana drive primary succession in the Gongga Mountain glacier retreat area. Tree Physiology 37:799-814.
[4] Lei Y, Jiang Y, Chen K, Duan B, Zhang S., Korpelainen H, Niinemets Ü, ©Li C (2017) Reproductive investments driven by sex and altitude in sympatric Populus and Salix trees. Tree Physiology 37:1503-1514.
[5] Chen J, Han Q, Duan B, Korpelainen H, ©Li C (2017) Sex-specific competition differently regulates ecophysiological responses and phytoremediation of Populus cathayana under Pb stress. Plant and Soil 421:203-218.
[6] Chen F, Shen J, Min D, Ke L, Tian X, Korpelainen H, ©Li C (2018) Male Populus cathayana than female shows higher photosynthesis and less cellular injury through ABA-induced manganese transporting inhibition under high manganese condition. Trees 32:255-263.
[7] Jiang Y, Lei Y, Yang Y, Korpelainen H, Niinemets Ü, ©Li C (2018) Divergent assemblage patterns and driving forces for bacterial and fungal communities along a glacier forefield chronosequence. Soil Biology & Biochemistry 118:207-216.
[8] Li J, Wu G, Guo Q, Korpelainen H, ©Li C (2018) Fast-growing Larix kaempferi suffers under nutrient imbalance caused by phosphorus fertilization in larch plantation soil. Forest Ecology and Management 417:49-62.
[9] Guo Q, Song H, Kang J, Korpelainen H, ©Li C (2018) Different responses in leaf-level physiology to competition and facilitation under different soil types and N fertilization. Environmental and Experimental Botany 150:69-78.
[10] Han Q, Luo J, Li Z, Korpelainen H, ©Li C (2018) Improved drought resistance by intergeneric grafting in Salicaceae plants under water deficits. Environmental and Experimental Botany 155:217-225.
[11] Guo Q, Yan L, Korpelainen H, Niinemets Ü, ©Li C (2019) Plant-plant interactions and N fertilization shape soil bacterial and fungal communities. Soil Biology & Biochemistry 128:127-138.
[12] Jiang Y, Lei Y, Qin W, Korpelainen H, ©Li C (2019) Revealing microbial processes and nutrient limitation in soil through ecoenzymatic stoichiometry and glomalin-related soil proteins in a retreating glacier forefield. Geoderma 338:313-324.
[13] Yu L, Song M, Lei Y, Korpelainen H, Niinemets Ü, ©Li C (2019) Effects of competition and phosphorus fertilization on leaf and root traits of late-successional conifers Abies fabri and Picea brachytyla. Environmental and Experimental Botany 162:14-24.
[14] Jiang Y, Song H, Lei Y, Korpelainen H, ©Li C (2019) Distinct co-occurrence patterns and driving forces of rare and abundant bacterial subcommunities following a glacial retreat in the eastern Tibetan Plateau. Biology and Fertility of Soils 55:351-364.
[15] Dong T, Duan B, Korpelainen H, Niinemets Ü, ©Li C (2019) Asymmetric pruning evinces how organ connectivity alters the functional balance between leaves and roots of Chinese fir. Journal of Experimental Botany 70:1941-1953.
[16] Song M, Yu L, Jiang Y, Korpelainen H, ©Li C (2019) Increasing soil age drives shifts in plant-plant interactions from positive to negative and affects primary succession dynamics in a subalpine glacier forefield. Geoderma 353:435-448.
[17] Yu L, Song M, Xia Z, Korpelainen H, Niinemets Ü, ©Li C (2019) Elevated temperature differently affects growth, photosynthetic capacity, nutrient absorption and leaf ultrastructure of Abies faxoniana and Picea purpurea under intra- and interspecific competition. Tree Physiology 39:1342-1357.
[18] Xia Z, Yu L, He Y, Korpelainen H, ©Li C (2019) Broadleaf trees mediate chemically the growth of Chinese fir through root exudates. Biology and Fertility of Soils 55:737-749.
[19] Zhang S, Tang D, Korpelainen H, ©Li C (2019) Metabolic and physiological analyses reveal that Populus cathayana males adopt an energy saving strategy to cope with phosphorus deficiency. Tree Physiology 39:1630-1645.
[20] Yu L, Song M, Xia Z, Korpelainen H, ©Li C (2019) Plant-plant interactions and resource dynamics of Abies fabri and Picea brachytyla as affected by phosphorus fertilization. Environmental and Experimental Botany 168: 103893.
[21] Han Q, Guo Q, Korpelainen H, Niinemets Ü, ©Li C (2019) Rootstock determines the drought resistance of poplar grafting combinations. Tree Physiology 39:1855-1866.
[22] Xia Z, He Y, Yu L, Miao J, Korpelainen H, ©Li C (2020) Root traits and rhizosphere processes reflect differential phosphorus acquisition strategies in contrasting Populus clones. Forest Ecology and Management 457:117750.
[23] Xia Z, He Y, Yu L, Lv R, Korpelainen H, ©Li C (2020) Sex-specific strategies of phosphorus acquisition in Populus cathayana as affected by soil P availability and distribution. New Phytologist 225:782-792.
[24] Liu M, Bi J, Liu X, Kang J, Korpelainen H, Niinemets Ü, ©Li C (2020) Microstructural and physiological responses to cadmium stress under different nitrogen levels in Populus cathayana females and males. Tree Physiology 40:30-45.
[25] Liu M, Liu X, Kang J, Korpelainen H, ©Li C (2020) Are males and females of Populus cathayana differentially sensitive to Cd stress? Journal of Hazardous Materials 393:122411.
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