李春阳，男，汉族，1967年2月16日出生于浙江诸暨市。浙江农林大学林业与生物技术学院院长,教授,博士生导师。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。主要从事环境胁迫下树木生态生理与遗传基础研究，在主要胁迫因子之间的相互关系以及对木本植物叠加影响等方面取得创新性成果。现任国际林学顶尖期刊Tree Physiology编委，并被聘为该期刊亚洲地区唯一的科学编辑。第一作者和通讯作者在国际主流学术期刊发表SCI论文百余篇，其中80%发表在本领域前30％期刊，被引频次逾4200余次，H指数为42。

研究方向及学术成绩:

主要从事环境胁迫下树木生态生理与分子遗传研究，在主要胁迫因子之间的相互关系以及对木本植物叠加影响等方面取得创新性成果。

[1] 以桉树为研究对象，详细阐述了木本植物的抗旱性与水分利用效率的关系以及对个体生长的影响。研究发现原产地最干旱季节的降雨量而非年降雨量与抗旱性能呈负相关，最干旱季节的降雨量越少的物种，则抗旱能力越强(表现出较高的根/茎比、叶面积/基茎横断面积比和用水效率以及较低的比叶面积)而个体生长则越小(表现出较小的高生长与较低的生物量积累)。这为木本植物抗旱性方面的研究提供了新的评价体系。

[2] 以桦树为研究对象，详细阐述了木本植物抗寒性的生理基础与分子机制。运用最新的分子生物学手段，率先克隆出桦树的抗寒性基因(Bplti36)，并确定它与脱落酸的信号传导有关，调控着短光周期与低温环境胁迫下抗寒能力的发育程度，使木本植物抗寒性的机理研究深入到了分子水平。

[3] 以杨树为研究对象，发现在理想环境中雌株的生物量积累大于雄株，但在环境胁迫下雄株的抗逆能力明显高于雌株。采用高通量测序技术，从转录组水平系统揭示了杨树雌雄植株对环境胁迫差异响应的分子机制。结果表明环境胁迫显著改变了雌雄植株的基因表达，差异表达基因数量雄株是雌株的5-10倍。环境胁迫也显著影响雌雄植株激素合成、光合作用和氧自由基清除酶系统的基因表达，不同性别间这些基因在表达水平和表达模式上存在显著的差异。

[4] 鉴于杨树雌雄植株在环境胁迫下所表现出的显著差异，将抗逆的雄株和高产的雌株进行交互嫁接，系统揭示了木本植物地上部分与地下部分的结构与功能。研究发现在环境胁迫下，雄根为砧木的植株干物质积累显著大于雌根为砧木的植株，且所有嫁接组合的根茎比都明显增加，但前者的增加更为显著。同时，在环境胁迫下，雄根砧木极显著地改善了雌株接穗的水分利用效率，并使其维持了相对较高的水势和较好的细胞超微结构特征。结果表明杨树雌雄植株对环境胁迫的抗逆能力主要取决于根系部分，地上部分只起辅助作用。采用抗逆的雄株做砧木、高产的雌株做接穗有可能获得既抗逆又高产的杨树新品种。

[5] 探讨了青杨雌雄植株在不同水分处理下的性内和性间竞争关系，研究表明竞争显著影响了青杨雌雄植株对水分条件生理响应的二态性。性别竞争关系呈现环境依赖性，干旱改变了雌雄植株间的竞争关系。在雌雄性间竞争中，水分充足下雌株比雄株具有更大的竞争优势，而在干旱胁迫下雄株个体仅表现出轻微的竞争优势。与性内竞争相比，性间竞争中的雌株增加了适合度，而雄株降低了适合度。由于雄株保守性的用水策略所带来的节水效应和微环境的改善可能缓解了干旱对雌株的负面作用。水分和氮资源利用上的性别差异和生态位分化影响了特定环境下雌雄植株性别竞争关系，性别竞争也影响了雌雄植株个体的竞争能力和适合度，这可能导致青杨种群的性别空间分异。

学习和工作经历:

教育经历

1985年09月- 1989年07月 浙江农林大学 林学专业 获学士学位

1989年09月- 1991年07月 东北林业大学 森林生态学专业 获硕士学位

1995年01月- 1999年09月 芬兰赫尔辛基大学 树木生理学专业 获博士学位

1999年10月- 2001年09月 芬兰科学院植物分子生物学卓越科研中心 博士后

工作经历

1991年08月- 1994年12月 中国林业科学院林业研究所 助理研究员

2001年10月- 2006年12月 芬兰赫尔辛基大学生物中心 高级研究人员

2002年01月- 2012年09月 中国科学院成都生物研究所 研究员/博导

2012年10月- 2014年12月 中国科学院成都山地灾害与环境研究所 研究员/博导

2015年01月-              浙江农林大学林业与生物技术学院 院长/教授/博导

科研项目:

[1] 中国科学院“引进国外杰出人才(百人计划)”项目“高寒环境胁迫下典型植物群落建群种的功能与应变”(2002.01-2004.12)

[2] 中国科学院知识创新工程重要方向项目“川西北地区植物适应环境胁迫的生态生理及分子机理”(2002.12-2005.12)

[3] 国家科技部、中国科学院与芬兰科学院共同资助的重点国际合作项目“森林与岷江上游：流域治理与生态系统重建”(2004.01-2008.12)

[4] 国家杰出青年科学基金“西南亚高山代表性木本植物的生态适应与分子进化”(2006.01-2009.12)

[5] 中国科学院知识创新工程重要方向项目“西南亚高山木本植物对逆境胁迫的生态适应与分子进化”(2007.10-2010.10)

[6] 国家自然科学重点研究基金“西南亚高山代表性木本植物对全球气候变化的响应与适应”(2010.01-2013.12)

[7] 国家973项目“我国主要人工林生态系统结构、功能与调控研究”第一课题“人工林生态系统生产力形成机理与关键过程”(2012.01-2016.12)

代表性论著:

[第一作者和通讯作者的SCI论文(*为代表性论文，©为通讯作者论文)]

1998

[1] ©Li, C. 1998. Variation of seedling traits ofEucalyptus microtheca origins in different watering regimes.Silvae Genetica 47(2-3):132-136.

[2] *©Li, C. 1998. Some aspects of leaf water relations in four provenances ofEucalyptus microtheca seedlings.Forest Ecology and Management 111:303-308.

[3] ©Li, C. 1998. Forest resources and management in China: problems and proposals.AMBIO 27(7):578-579.

1999

[4] ©Li, C. 1999. Isozyme variation in natural populations ofEucalyptus microtheca.Hereditas 130:117-123.

[5] ©Li, C., Koskela, J. and Luukkanen, O. 1999. Protective forest systems in China: current status, problems and perspectives.AMBIO 28(4):341-345.

[6] *©Li, C. 1999. Carbon isotope composition, water-use efficiency and biomass productivity ofEucalyptus microtheca populations under different water supplies.Plant and Soil 214:165-171.

2000

[7] *©Li, C. 2000. Population differences in water use efficiency ofEucalyptus microtheca seedlings under different watering regimes.Physiologia Plantarum 108:134-139.

[8] *©Li, C., Berninger, F., Koskela, J. and Sonninen, E. 2000. Drought responses ofEucalyptus microtheca provenances depend on seasonality of rainfall in their place of origin.Australian Journal of Plant Physiology 27:231-238.

[9] ©Li, C. 2000. RAPD analysis of genetic variation inEucalyptus microtheca F. Muell. populations.Hereditas 132:151-156.

[10] ©Li, C. and Zhou, X. 2000. Status and future trends in plantation silviculture in China.AMBIO 29(6):354-355.

2001(no publication)

2002

[11] *Li, C., Puhakainen, T., Welling, A., Vihera-Aarnio, A., Ernstsen, A., Junttila, O., Heino, P. and Palva, E.T. 2002. Cold acclimation in silver birch (Betula pendula). Development of freezing tolerance in different tissues and climatic ecotypes.Physiologia Plantarum 116:478-488.

2003

[12] * Li, C., Vihera-Aarnio, A., Puhakainen, T., Junttila, O., Heino, P. and Palva E.T. 2003. Ecotype-dependent control of growth, dormancy and freezing tolerance under seasonal changes inBetula pendula Roth.Trees 17:127-132.

[13] Li, C., Junttila, O., Ernstsen, A., Heino, P. and Palva, E.T. 2003. Photoperiodic control of growth, cold acclimation and dormancy development silver birch (Betula pendula) ecotypes.Physiologia Plantarum 117:206-212.

[14] * Li, C., Junttila, O., Heino, P. and Palva, E.T. 2003. Different responses of northern and southern ecotypes ofBetula pendula to exogenous ABA application.Tree Physiology 23:481-487.

[15] ©Li, C. and Wang, K. 2003. Differences in drought responses of three contrastingEucalyptus microtheca F. Muell. populations.Forest Ecology and Management 179:377-385.

2004

[16] *©Li, C., Liu, S. and Berninger, F. 2004.Picea seedlings show apparent acclimation to drought with increasing altitude in the eastern Himalaya.Trees 18(3):277-283.

[17] *©Li, C., Yin, C. and Liu, S. 2004. Different responses of two contrastingPopulus davidiana populations to exogenous abscisic acid application.Environmental and Experimental Botany 51(3):237-246.

[18] ©Li, C., Junttila, O. and Palva, E.T. 2004. Environmental regulation and physiological basis of freezing tolerance in woody plants.Acta Physiologiae Plantarum 26(2):213-222.

[19] ©Li, C., Ren, J., Luo, J. and Lu, R. 2004. Sex-specific physiological and growth responses to water stress inHippophae rhamnoides L. populations.Acta Physiologiae Plantarum 26(2):123-129.

[20] *©Li, C., Junttila, O., Heino, P. and Palva, E.T. 2004. Low temperature sensing in silver birch (Betula pendula Roth) ecotypes.Plant Science 167(1):165-171.

[21] Zhang, X., Zang, R. and©Li, C. 2004. Population differences in physiological and morphological adaptations ofPopulus davidiana seedlings in response to progressive drought stress.Plant Science 166:791-797.

[22] Yin, C., Duan, B., Wang, X. and©Li, C. 2004. Morphological and physiological responses of two contrastingPopulus species to water stress and exogenous abscisic acid application.Plant Science 167(5):1091-1097.

[23] Liu, X., Xu, H., Berninger F., Luukkanen O. and©Li, C. 2004. Nutrient distribution inPicea likiangensis trees growing in a plantation in West Sichuan, Southwest China.Silva Fennica 38(3):235-242.

[24] Puhakainen, T.,Li, C., Boije-Malm, M., Kangasärvi, J., Heino, P. and Palva, E.T. 2004. Short-day potentiation of low temperature-induced gene expression of a C-repeat-binding factor-controlled gene during cold acclimation in silver birch.Plant Physiology 136:4299- 4307.

2005

[25] Zhang, X., Wu, N. and©Li, C. 2005. Physiological and growth responses ofPopulus davidiana ecotypes to different soil water contents.Journal of Arid Environments 60:567-579.

[26] *Wang, Y., Luo, J., Xue, X., Korpelainen, H. and©Li, C. 2005. Diversity of microsatellite markers in the populations ofPicea asperata originating from the mountains of China.Plant Science 168(3):707-714.

[27] ©Li, C., Wu, N. and Liu, S. 2005. Development of freezing tolerance in different altitudinal ecotypes ofSalix paraplesia.Biologia Plantarum 49(1):65-71.

[28] Yin, C., Wang, X., Duan, B., Luo, J. and©Li, C. 2005. Early growth, dry matter allocation and water use efficiency of two sympatricPopulus species as affected by water stress.Environmental and Experimental Botany 53:315-322.

[29] *Yin, C., Peng, Y., Zang, R., Zhu, Y. and©Li, C. 2005. Adaptive responses ofPopulus kangdingensis to drought stress.Physiologia Plantarum 123:445-451.

[30] ©Li, C., Yang, Y., Junttila, O. and Palva, E.T. 2005. Sexual differences in cold acclimation and freezing tolerance development in sea buckthorn (Hippophae rhamnoides L.) ecotypes.Plant Science 168(5):1365-1370.

[31] Luo, J., Wang, Y., Korpelainen, H. and©Li, C. 2005. Allozyme variation in natural populations ofPicea asperata.Silva Fennica 39(2):167-176.

[32] *Yang, Y., Yao, Y., Xu, G. and©Li, C. 2005. Growth and physiological responses to drought and elevated ultraviolet-B in two contrasting populations ofHippophae rhamnoides L.Physiologia Plantarum 124:431-440.

[33] *Duan, B., Lu, Y., Yin, C., Junttila, C. and©Li, C. 2005. Physiological responses to drought and shade in two contrasting Picea asperata populations.Physiologia Plantarum 124:476-484.

[34] Xue, X., Wang, Y., Korpelainen, H. and©Li, C. 2005. Assessment of AFLP-based genetic variation in the populations ofPicea asperata.Silvae Genetica 54(1):24-30.

[35] Zang, R., Tao, J and©Li, C. 2005. Within community patch dynamics in a tropical montane rain forest of Hainan Island, South China.Acta Oecologica 28:39-48.

[36] Yao, Y., Li, Y., Yang, Y. and©Li, C. 2005. Effect of seed pretreatment by magnetic field on the sensitivity of cucumber (Cucumis sativus) seedlings to ultraviolet B radiation.Environmental and Experimental Botany 54:286-294.

[37] Zhang, X., Wang, T. and©Li, C. 2005. Different responses of two contrasting wheat cultivars to abscisic acid application.Biologia Plantarum 49(4):613-616.

[38] *©Li, C., Welling, A., Puhakainen, T., Vihera-Aarnio, A., Ernstsen, A., Junttila, O., Heino, P. and Palva, E.T. 2005. Different responses of silver birch (Betula pendula Roth) ecotypes to short day photoperiod and low temperature.Tree Physiology 25:1563-1569.

[39] Peng, Y., Lu, Z., Chen, K., Luukkanen, O., Korpelainen, H. and©Li, C. 2005. Population genetic survey ofPopulus cathayana originating from southeastern Qinghai-Tibetan Plateau of China based on SSR markers.Silvae Genetica 54(3):116-122.

2006

[40] Lu, Z., Wang, Y., Peng, Y., Korpelainen, H. and©Li, C. 2006. Genetic diversity of Populus cathayana Rehd populations in southwestern China revealed by ISSR markers.Plant Science 170:407-412.

[41] *Luo, J., Zang, R. and©Li, C. 2006. Physiological and morphological variations ofPicea asperata populations originating from different altitudes in the mountains of southwestern China.Forest Ecology and Management 221:285-290.

[42] Yin, C., Berninger, F. and©Li, C. 2006. Photosynthetic responses ofPopulus przewalskisubjected to drought stress.Photosynthetica 44:62-68.

[43] Yao, Y., Yang, Y., Ren, J. and©Li, C. 2006. UV-spectra dependence of seedling injury and photosynthetic pigment change inCucumis sativus andGlycine max.Environmental and Experimental Botany 57:160-167.

[44] *Ren, J., Yao, Y., Yang, Y., Korpelainen, H., Junttila, O. and©Li, C. 2006. Growth and physiological responses to supplemental UV-B radiation of two contrasting poplar species.Tree Physiology 26:665-672.

[45] * Lei, Y., Yin, C. and©Li, C. 2006. Differences in some morphological, physiological and biochemical responses to drought stress in two contrasting populations ofPopulus przewalskii.Physiologia Plantarum 127:182-191.

[46] *©Li, C., Zhang, X., Liu, X., Luukkanen, O. and Berninger, F. 2006. Leaf morphological and physiological responses ofQuercus aquifolioides along an altitudinal gradient.Silva Fennica 40:5-13.

[47] Zhang, X., Korpelainen, H. and©Li, C. 2006. Microsatellite variation ofQuercus aquifolioides populations at varying altitudes in the Wolong Natural Reserve of China.Silva Fennica 40:407-415.

[48] Wang, Y., Korpelainen, H. and©Li, C. 2006. Genetic diversity and environmental associations ofPicea asperata originating from the mountains of China. Silva Fennica 40:561-575.

[49] Yao, Y., Xuan, Z., Li, Y, He, Y., Korpelainen, H. and©Li, C. 2006. Effects of ultraviolet-B radiation on crop growth, development, yield and leaf pigment concentration of tartary buckwheat (Fagopyrum tataricum) under field conditions.European Journal of Agronomy 25:215-222.

2007

[50] *©Li, C., Xu, G., Zang, R., Korpelainen, H. and Berninger, F. 2007. Gender-related differences in leaf morphological and physiological responses ofHippophae rhamnoides along an altitudinal gradient.Tree Physiology 27:399-406.

[51] Chen, K., Peng, Y., Wang, Y., Korpelainen, H. and©Li, C. 2007. Genetic relationships among poplar species in sectionTacamahaca (Populus L.) from western Sichuan, China.Plant Science 172:196-203.

[52] Xue, X., Wang, Y., Korpelainen, H. and©Li, C. 2007. Genetic diversity ofPicea asperata populations based on RAPD.Plant Biology 9:101-108.

[53] * Ren, J., Dai, W., Xuan, Z., Yao, Y., Korpelainen, H. and©Li, C. 2007. The effect of drought and enhanced UV-B radiation on growth and physiological traits of two contrasting poplar species.Forest Ecology and Management 239:112-119.

[54] Wang, T., Zhang, X. and©Li, C. 2007. Growth, abscisic acid content, and carbon isotope composition in wheat cultivars under grown different soil moisture.Biologia Plantarum 51(1):181-184.

[55] Lei, Y., Yin, C., Ren, J. and©Li, C. 2007. Effect of osmotic stress and SNP pretreatment on proline metabolism of wheat seedlings.Biologia Plantarum 51(2):386-390.

[56] Lei, Y., Korpelainen, H. and©Li, C. 2007. Physiological and biochemical responses to high Mn concentrations in two contrastingPopulus cathayana populations.Chemosphere 68(4):686-694.

[57] * Lu, Y., Duan, B. and©Li, C. 2007. Physiological responses to drought and enhanced UV-B radiation in two contrastingPicea asperata populations.Canadian Journal of Forest Research 37(7):1253-1262.

[58] Lei, Y., Chen, K., Tian, X., Korpelainen, H. and©Li, C. 2007. Effect of Mn toxicity on morphological and physiological changes in twoPopulus cathayana populations originating from different habitats.Trees 21:569-580.

[59] Yao, Y., Xuan, Z., He, Y., Lutts, S., Korpelainen, H. and©Li, C. 2007. Multivariate analysis of intraspecific responses of tartary buckwheat to UV-B radiation under field condition.Environmental and Experimental Botany 61(3):237-245.

[60] * Duan, B., Yang, Y., Lu, Y., Korpelainen, H. and Berninger, F. and©Li, C. 2007. Interactions between drought stress, ABA and genotypes in Picea asperata.Journal of Experimental Botany58(11):3025-3036.

[61] Lei, Y., Yin, C. and©Li, C. 2007. Adaptive responses ofPopulus przewalskii to drought stress and SNP application.Acta Physiologiae Plantarum29(6):519-526.

2008

[62] Xu, G., Duan, B. and©Li, C. 2008. Different adaptive responses of leaf physiological and biochemical aspects to drought in two contrasting populations ofHippophae rhamnoides.Canadian Journal of Forest Research 38(3):584-591.

[63] * Zhang, Y., Duan, B., Qiao, Y., Wang, K., Korpelainen, H. and©Li, C. 2008. Leaf photosynthesis ofBetula albosinensis seedlings as affected by elevated CO2 and planting density.Forest Ecology and Management 255:1937-1944.

[64] * Xu, X., Yang, F., Xiao, X., Zhang, S., Korpelainen, H. and©Li, C. 2008. Sex-specific responses ofPopulus cathayana to drought and elevated temperatures.Plant, Cell & Environment 31:850-860.

[65] Chen, G., Wang, Y., Zhao, C., Korpelainen, H. and©Li, C. 2008. Genetic diversity ofHippophae rhamnoides populations at varying altitudes in the Wolong Natural Reserve of China as revealed by ISSR markers.Silvae Genetica57(1):29-36.

[66] * Huang, X., Yin, C., Duan, B. and©Li, C. 2008. Interactions between drought and shade on growth and physiological traits inPopulus cathayana populations.Canadian Journal of Forest Research 38(7):1877-1887.

[67] Duan, B., Xuan, Z., Zhang, X., Korpelainen, H. and©Li, C. 2008. Interactions between drought, ABA application and supplemental UV-B inPopulus yunnanensis. Physiologia Plantarum 134(2):257-269.

[68] * Xu, X., Peng, G., Wu, C., Korpelainen, H. and©Li, C. 2008. Drought stress inhibits photosynthetic capacity more in females than in males ofPopulus cathayana.Tree Physiology 28:1751-1759.

2009

[69] Lu, Y., Duan, B., Zhang, X., Korpelainen, H. and©Li, C. 2009. Differences in growth and physiological traits ofPopulus cathayana populations as affected by enhanced UV-B radiation and exogenous ABA.Environmental and Experimental Botany 66:100-109.

[70] Yang, F., Xiao, X., Zhang, S., Korpelainen, H. and©Li, C. 2009. Salt stress responses inPopulus cathayanaRehder.Plant Science 176:669-677.

[71] * Xiao, X., Yang, F., Zhang, S., Korpelainen, H. and©Li, C. 2009. Physiological and proteomic responses of two contrastingPopulus cathayana populations to drought stress.Physiologia Plantarum 136:150-168.

[72] Lu, Z., Wang, Y., Zhang, X., Korpelainen, H. and©Li, C. 2009. Genetic variation of isolatedPicea balfouriana populations from southeast of Qinghai-Tibet Plateau.Annals of Forest Science 66:607p1-10.

[73] Lu, Y., Duan, B., Zhang, X., Korpelainen, H., Berninger, F. and©Li, C. 2009. Intraspecific variation in drought response ofPopulus cathayana growth under ambient and enhanced UV-B radiation.Annals of Forest Science 66:613p1-12.

[74] ©Li, C., Wu, C., Duan, B., Korpelainen, H. and Luukkanen, O. 2009. Age-related nutrient content and carbon isotope composition in the leaves and branches ofQuercus aquifolioides along an altitudinal gradient.Trees 23:1109-1121.

[75] * Zhao, H., Li, Y., Duan, B., Korpelainen, H. and©Li, C. 2009. Sex-related adaptive responses ofPopulus cathayana to photoperiod transitions.Plant, Cell & Environment 32:1401-1411.

[76] Yang, F., Xu, X., Xiao, X. and©Li, C. 2009. Responses to drought stress in two contrasting poplar species originating from different altitudes.Biologia Plantarum 53:511-516.

[77] Huang, X., Xiao, X., Zhang, S., Korpelainen, H. and©Li, C. 2009. Leaf morphological and physiological responses to drought and shade in twoPopulus cathayanapopulations. Biologia Plantarum 53:588-592.

[78] Lu, S., Zhang, S., Xu., X., Korpelainen, H. and©Li, C. 2009. Effect of increased alkalinity on Na+ and K+ contents, lipid peroxidation and antioxidant enzymes in two populations ofPopulus cathayana.Biologia Plantarum53:597-600.

[79] * Duan, B., Li, Y., Zhang, X., Korpelainen, H. and©Li, C. 2009. Water deficit affects mesophyll limitation of leaves more strongly in sun than in shade in two contrastingPicea asperata populations.Tree Physiology 29:1551-1561.

2010

[80] * Zhang, S, Lu, S., Xu, X., Korpelainen, H. and©Li, C. 2010. Changes in antioxidant enzyme activities and isozyme profiles in leaves of male and femalePopulus cathayana infected withMelampsora larici-populina.Tree Physiology 30:116-128.

[81] Ren, J., Duan, B., Zhang, X., Korpelainen, H. and©Li, C. 2010. Differences in growth and physiological traits of two poplars originating from different altitudes as affected by UV-B radiation and nutrient availability.Physiologia Plantarum 138:278-288.

[82] * Zhang, S, Chen, F., Peng, S., Ma, W., Korpelainen, H. and©Li, C. 2010. Comparative physiological, ultrastructural and proteomic analyses reveal sexual differences in the responses of Populus cathayana under drought stress.Proteomics 10:2661-2677.

[83] * Chen, L., Zhang, S., Zhao, H., Korpelainen, H. and©Li, C. 2010. Sex-related adaptive responses to interaction of drought and salinity inPopulus yunnanensis.Plant, Cell & Environment 33:1767-1778.

[84] Chen, F., Chen, L., Zhao, H., Korpelainen, H. and©Li, C. 2010. Sex-specific responses and tolerances ofPopulus cathayana to salinity.Physiologia Plantarum 140:163-173.

[85] Ran, F., Wu, C., Peng, G., Korpelainen, H. and©Li, C. 2010. Physiological differences inRhododendron calophytum seedlings regenerated in mineral soil or on fallen dead wood of different decaying stages.Plant and Soil 337:205-215.

[86] * Xu, X., Zhao, H., Zhang, X., Hanninen, H., Korpelainen, H. and©Li, C. 2010. Different growth sensitivity to enhanced UV-B radiation between male and femalePopulus cathayana.Tree Physiology 30:1489-1498.

2011

[87] * Duan, B., Korpelainen, H. and©Li, C. 2011. Long-term acclimation of mesophyll conductance, carbon isotope discrimination and growth in two contrastingPicea asperatapopulations exposed to drought and enhanced UV-B radiation for three years.Agricultural and Forest Meteorology 151:116-126.

[88] * Zhao, H., Xu., X., Zhang, Y., Korpelainen, H. and©Li, C. 2011. Nitrogen deposition limits photosynthetic response to elevated CO2differentially in a dioecious species.Oecologia 165:41-54.

[89] * Zhang, S., Jiang, H., Peng, S., Korpelainen, H. and©Li, C. 2011. Sex-related differences in morphological, physiological and ultrastructural responses of Populus cathayana to chilling.Journal of Experimental Botany 62:675-686.

[90] Li, Y., Zhao, H., Duan, B., Korpelainen, H. and©Li, C. 2011. Effect of drought and ABA on growth, photosynthesis and antioxidant system of Cotinus coggygriaseedlings under two different light conditions.Environmental and Experimental Botany 71:107-113.

[91] Wu, C., Peng, G., Zhang, Y., Xu, X., Korpelainen, H., Berninger, F. and©Li, C. 2011. Physiological responses ofAbies faxoniana seedlings to different non-growing seasonal temperatures as revealed by reciprocal transplantations at two contrasting altitudes.Canadian Journal of Forest Research 41:599-607.

[92] * Zhang, Y., Duan, B., Xian, J., Korpelainen, H. and©Li, C. 2011. Links between plant diversity, carbon stocks and environmental factors along a successional gradient in a subalpine coniferous forest in Southwest China.Forest Ecology and Management 262:361-369.

[93] * Chen, L., Han, Y., Jiang, H., Korpelainen, H. and©Li, C. 2011. Nitrogen nutrient status induces sexual differences in responses to cadmium inPopulus yunnanensis.Journal of Experimental Botany 62:5037-5050.

[94] * Chen, F., Zhang, S., Jiang, H., Ma, W., Korpelainen, H. and©Li, C. 2011. Comparative proteomics analysis of salt response reveals sex-related photosynthetic inhibition by salinity inPopulus cathayana cuttings.Journal of Proteome Research 10:3944-3958.

[95] Li, Y., Zhao, H., Duan, B., Korpelainen, H. and©Li, C. 2011. Adaptability to elevated temperature and nitrogen addition is greater in a high elevation population than in a low elevation population ofHippophae rhamnoides.Trees 25:1073-1082.

2012

[96] * Jiang, H., Peng, S., Zhang, S., Li, X., Korpelainen, H. and©Li, C. 2012. Transcriptional profiling analysis inPopulus yunnanensis provides insights into molecular mechanisms of sexual differences in salinity tolerance.Journal of Experimental Botany 63:3709-3726.

[97] * Zhang, S., Chen, L., Duan, B., Korpelainen, H. and©Li, C. 2012.Populus cathayana males exhibit more efficient protective mechanisms than females under drought stress. Forest Ecology and Management 275:68-78.

[98] * Zhao, H., Li, Y., Zhang, X., Korpelainen, H. and©Li, C. 2012. Sex-related and stage-dependent source- to-sink transition inPopulus cathayana grown at elevated CO2 and elevated temperature.Tree Physiology 32:1325-1338.

[99] * Peng, S., Jiang, H., Zhang, S., Chen, L., Li, X., Korpelainen, H. and©Li, C. 2012. Transcriptional profiling reveals sexual differences of the leaf transcriptomes in response to drought stress inPopulus yunnanensis.Tree Physiology 32:1541-1555.

[100] * Zhang, S., Feng, L., Jiang, H., Ma, W., Korpelainen, H. and Li, C. 2012. Biochemical and proteomic analyses reveal thatPopulus cathayana males and females have different metabolic activities under chilling stress.Journal of Proteome Research 11:5815-5826.

2013

[101] * Han, Y., Wang, Y., Jiang, H., Wang, M., Korpelainen, H. and©Li, C. 2013. Reciprocal grafting separates the roles of the root and shoot in sex-related drought responses inPopulus cathayana males and females.Plant, Cell & Environment 36:356-364.

[102] Li, L., Zhang, Y., Luo, J., Korpelainen, H. and©Li, C. 2013. Sex-specific responses ofPopulus yunnanensis exposed to elevated CO2 and salinity.Physiologia Plantarum147:477-488.

[103] * Jiang, H., Korpelainen, H. and©Li, C. 2013.Populus yunnanensis males adopt more efficient protective strategies than females to cope with excess zinc and acid rain. Chemosphere 91:1213-1220.

[104] * Duan, B., Zhang, X., Li, Y., Li, L., Korpelainen, H. and©Li, C. 2013. Plastic responses ofPopulus yunnanensis and Abies faxoniana to elevated atmospheric CO2 and warming.Forest Ecology and Management 296:33-40.

[105] Li, Y., Zhang, Y., Zhang, X., Korpelainen, H., Berninger, F. and©Li, C. 2013. Effects of elevated CO2 and temperature on photosynthesis and leaf traits of an understory dwarf bamboo in subalpine forest zone, China.Physiologia Plantarum 148:261-272.

[106] Ran, F., Zhang, X., Zhang, Y., Korpelainen, H. and©Li, C. 2013. Altitudinal variation in growth, photosynthetic capacity and water use efficiency ofAbies faxoniana Rehd. et Wils. seedlings as revealed by reciprocal transplantations.Trees 27:1405-1416.

[107] * Chen, F., Zhang, S., Zhu, G., Korpelainen, H. and©Li, C. 2013.Populus cathayana males are less affected than females by excess manganese: comparative proteomic and physiological analyses.Proteomics 13:2424-2437.

[108] Chen, L., Wang, L., Chen, F., Korpelainen, H. and©Li, C. 2013. The effects of exogenous putrescine on copper stress responses inPopulus cathayana males and females.Ecotoxicology and Environmental Safety 97:94-102.

[109] * Xu, G., Jiang, H., Zhang, Y., Korpelainen, H. and©Li, C. 2013. Effect of warming on soil carbon cycle along an altitudinal gradient in subalpine primaryAbies faxoniana forest.Forest Ecology and Management 310:357-365.

[110] * Han, Y., Wang, L., Zhang, X., Korpelainen, H. and©Li, C. 2013. Sexual differences in photosynthetic activity, ultrastructure and phytoremediation potential ofPopulus cathayana exposed to lead and drought.Tree Physiology 33:1043-1060.

2014

[111] * Chen, J., Duan, B., Wang, M., Korpelainen, H. and©Li, C. 2014. Intra- and inter-sexual competition ofPopulus cathayana under different watering regimes.Functional Ecology 28:124-136.

[112] * Zhang, S., Jiang, H., Zhao, H., Korpelainen, H. and©Li, C. 2014. Sexually different physiological responses ofPopulus cathayana to nitrogen and phosphorus deficiencies.Tree Physiology 34:343-354.

2015

[113] Jiang, H., Zhang, S., Feng, L., Korpelainen, H. and©Li, C. 2015. Transcriptional profiling in dioecious plantPopulus cathayana reveals potential and sex-related molecular adaptations to solar UV-B radiation.Physiologia Plantarum 153:105-118.

[114] * Chen, J., Dong, T., Duan, B., Korpelainen, H., Niinemets, Ü and©Li, C. 2015. Sexual competition and N supply interactively affect the dimorphism and competiveness of opposite sexes in Populus cathayana.Plant, Cell & Environment38:1285-1298.

[115] * Lei, Y., Zhou, J., Xiao, H., Duan, B., Wu, Y., Korpelainen, H. and©Li, C. 2015. Soil nematode assemblages as bioindicators of primary succession along a 120-year-old chronosequence on the Hailuogou Glacier forefield, SW China.Soil Biology & Biochemistry 88:362-371.

[116] * Dong, T., Li, J., Zhang, Y., Korpelainen, H., Niinemets, Ü and©Li, C. 2015. Partial shading of lateral branches affects growth, and foliage nitrogen- and water-use efficiencies in the coniferCunninghamia lanceolatagrowing in a warm monsoon climate.Tree Physiology35:632-643.

[117] Yang, Y., Jiang, H., Wang, M., Korpelainen, H. and©Li, C. 2015. Male poplars have a stronger ability to balance growth and carbohydrate accumulation than do females in response to a short-term potassium deficiency. Physiologia Plantarum (online).

联系方式：

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