师资队伍

教职员工

王秀伟

发布时间:2019年11月19日 10:15   点击:

个人简介:

王秀伟,理学博士,副教授,博士生导师。森林资源利用系党支部书记兼副主任。主要研究方向为树木生理学和植物生态学。主持国家自然基金项目2项,国家重点研发子课题1项。共同主持国家“十二五”科技支撑子课题1项,作为主要研究人员参加了国家重大基础研究发展计划项目1项,国家自然科学基金项目4项,国家林业局“948”项目2项、黑龙江省自然科学基金项目1项,教育部博士点基金项目1项。在国内外学术期刊上共发表学术论文20余篇,作为主要负责人选育国家林木良种8个,获得国家专利2项,出版专著2部,获梁希科学技术奖(自然科学)二等奖1项,黑龙江省科学技术奖三等奖1项,黑龙江省高校科学技术奖一等奖1项,梁希科学技术奖一等奖1项(排名第八)。东北林业大学第十五届和第十六届“我最喜爱的十佳教师”。主讲树木学、树木学实验和高级树木生理等专业课程。截至目前指导毕业硕士2人。

代表性成果:

1.X.W. Wang, Mao Z, Mcguire M A, et al. Stem radial CO2conductance affects stem respiratory CO2fluxes in ash and birch trees[J]. Journal of Forestry Research. 2019, 30(1): 21-29.

2.X.W. Wang, Zhao D, Liu G, et al. Additive tree biomass equations for Betula platyphylla Suk. plantations in Northeast China[J]. Annals of Forest Science. 2018, 75(2): 60.

3.X.W. Wang,Y.H. Weng,G.F. Liu,M.J. Krasowski,C.P. Yang,Variations in carbon concentration, sequestration and partitioning amongBetula platyphyllaprovenances,Forest Ecology and Management,2015,358:344-352.

4.X.-W. Wang, M. Zhao, Z.-J. Mao, S-Y. Zhu and D-L, Zhang, X-Z. Zhao. Interaction of Elevated CO2and Temperature and Elevated Temperature Only Promote Photosynthesis ofQuercus mongolicaFisch. Seedlings. Russian Journal of Plant Physiology.2008,55(1):54-58

5.王秀伟,贾桂梅,毛子军,孙涛,袁显磊.NaCl胁迫对3个杨树无性系幼苗生长和光合生理的影响.植物研究,2015,35(01):27-33.

6.王秀伟,毛子军.兴安落叶松树干CO2各通量成分对树干呼吸的贡献及其主要影响因子.植物研究,2014,34(04):452-457+484.

7.王秀伟,毛子军.输导组织结构对液流速度和树干CO2释放通量的影响.北京林业大学学报,2013,35(04):9-15.

8.王秀伟,毛子军,孙涛,吴海军.春、秋季节树干温度和液流速度对东北3树种树干表面CO2释放通量的影响.生态学报,2011,31(12):3358-3367.

9.王秀伟,毛子军.7个光响应曲线模型对不同植物种的实用性.植物研究,2009,29(01):43-48.

10.王秀伟,毛子军.兴安落叶松人工林冠层气体交换的时空特性.林业科学,2007(11):43-49.

11.王秀伟,毛子军,CHOI Kyung,PARK Kwang-woo. Significance of the leaf epidermis fingerprint for taxonomy ofGenus Rhododendron. Journal of Forestry Research,2006(03):171-176+263.

12.纳晓莹,王秀伟*,徐浩玉,乔丽娜,王遂,刘桂丰,Kentbayev Yerzhan,Kentbayeva Botagoz,4种桦树幼苗耐盐性分析与评价,植物研究,2015,(06):873-882.

联系方式:

0451-82191829

wxgreat@nefu.edu.cn

CURRICULUM VITAE

Xiuwei Wang

Dr. &Associate professor

School of Forestry, Northeast Forestry University

Harbin, P.R. China (150040)

Tel: 0451-82191829

November 19th2019

Personal Data

Particular Address: 26 Hexing Road Xiangfang District, Harbin, P.R.China ,150040, School of Forestry, Northeast Forestry University

Phone (work): +86-451-82191829

Email:wxgreat@nefu.edu.cn or wxgreat@126.com

Education

Doctor of Science, Northeast Forestry University,2009 Major: Botany(Forest Ecophysiology)

Master of Science,Northeast Forestry University,2006 Major: Botany(Forest Ecophysiology)

Bachelor of Agriculture Science, Northeast Forestry University,2003 Major: Forestry Science

RESEARCH INTERESTS

Major topics:Ecophysiology; Production ecology; Ecosystem ecology;

Current interests:Carbon, water, and nitrogen cycling in forests; Belowground respiration and soil CO2efflux; Internal transport of CO2in tree stems and roots; Linkages between carbon assimilation, storage, and respiration; Source/sink relationships of trees; Sap flow techniques.

Professional Position

2016.01-2017.01 Visiting scholar, School of Forest and Natural Resources, University of Georgia (In Dr. Robert Teskey Lab.)

2015- currentAssociate professor in Forestry school, Northeast Forestry University, Harbin (China).

2009-2015 Lecturer in Forestry school, Northeast Forestry University, Harbin (China).

COURSES TAUGHT

Dendrology, Tree Physiology

Grants Received

2019.05-2022.04 Study on the geographical differentiation of root exudates of four tree species in Northeast China. Fundamental Research Funds for the Central Universities (2572019BA15)¥180,000

2018.07-2021.06 Field adaptability evaluation of multifunctional soil and water conservation plants.National Key R&D Program (2018YFC0507003-03)¥250,000

2017.1-2020.12 Temporal and spatial variation in growth of white birch and its responses and adaptation to climate change in Northeastern China. Natural Science Foundation of China (No. 31670476) ¥630,000

2015.7-2018.6 The regulatory mechanisms of soil carbon flux associated with different succession stages of the typical mixed broadleaved-Korean pine forest in Northeastern China. Foundation of State Key Laboratory of Forest and Soil Ecology(LFSE2015-10)¥50,000

2014.3-2017.2 Fundamental Research Funds for the Central Universities(2572014EA01-01)¥64,000

2012.1-2014.12 Stem radial CO2conductance affects stem respiratory CO2fluxes .Natural ScienceFoundation of China(No. 31100284) ¥260,000

2011.6-2014.6 Fundamental Research Funds for the Central Universities(DL11BA10)¥40,000

PUBLICATION IN REFEREED JOURNALS

1.X.W. Wang, Mao Z, Mcguire M A, et al. Stem radial CO2 conductance affects stem respiratory CO2 fluxes in ash and birch trees[J]. Journal of Forestry Research. 2019, 30(1): 21-29.

2.X.W. Wang, Zhao D, Liu G, et al. Additive tree biomass equations for Betula platyphylla Suk. plantations in Northeast China[J]. Annals of Forest Science. 2018, 75(2): 60.

3.Xiuwei Wang,Zijun Mao,M.A. McGuire,R.O. Teskey. Stem radial CO2conductance affects stem respiratory CO2fluxes in ash and birch trees. Journal of forest research (Accepted)

4.X. W. Wang, Y. H. Weng, G. F. Liu, et al. Variations in carbon concentration, sequestration and partitioning amongBetula platyphyllaprovenances. Forest Ecology and Management. 2015, 358: 344-352.

5.Tao Sun, Zijun Mao, Lili Dong , Lingling Hou, Yuan Song ,Xiuwei Wang. Further evidence for slow decomposition of very fine roots using two methods: litterbags and intact cores. Plant and soil 2013, 366, 1-2, 633

6.Xi-yang Zhao, Xiu-yan Bian, Zhi-xin Li,Xiu-wei Wang, et al. Genetic stability analysis of introducedBetula pendula,Betula kirghisorum, andBetula pubescensfamilies in saline-alkali soil of northeastern China. Scandinavian Journal of Forest Research.2014, 29( 7):639–649

7.X.-W. Wang, M. Zhao, Z.-J. Mao, S-Y. Zhu and D-L, Zhang, X-Z. Zhao. Interaction of Elevated CO2and Temperature and Elevated Temperature Only Promote Photosynthesis ofQuercus mongolicaFisch. Seedlings. Russian Journal of Plant Physiology.2008,55(1):54-58

8.Zi-Jun Mao, Yan-Jun Wang,Xiu-Wei Wang, Pavel. U. Voronin, Effect of Doubled CO2on Morphology: Inhibition of Stomata Development in Growing Birch (Betula platyphyllaSuk.) Leaves. Russian Journal of Plant Physiology. 2005,52(2),P.171~175

9.Z.-J. Mao, Y.-J. Wang, Y.-G. Zhu,X.-W. Wang, Y.-F. Sun, B.-O. Zhou, and P. Yu. Voronin, Prolonged Growth of Young Spruce (Picea koraiensisNakai) Plants at Double Atmospheric CO2Concentration Stimulates the Preferential Growth of Thick Roots Russian Journal of Plant Physiology. 2005, 52 (5): 741–746.

10.Xiu-Wei WANG, JIA Gui-Mei, MAO Zi-Jun,et.al. Effect of NaCl tolerance on the photosynthetic physiology and growth of seedlings of three poplar clones. Bulletin of Botanical Research,2015,01:27-33. (In Chinese)

11.Xiu-wei WANG, Mao Zijun. CO2flux components and their contribution to stem respiration of larch. Bulletin of Botanical Research,2014,04:452-457+484. (In Chinese)

12.Xiu-wei WANG, MAO Zi-jun. Effects of Structure of Conducting Tissue on Sap Flow Density and Stem CO2efflux . Journal of Beijing Forestry University,2013,04:9-15. (In Chinese)

13.Xiu-wei WANG,MAO Zijun. Practicability of 7 Light Responsive Curve Models to Different Plant Species . Bulletin of Botanical Research,2009,01:43-48.(In Chinese)

14.Xiu-wei WANG, Mao Zijun, SUN Tao, WU Hai-Jun. Effects of stem temperature and sap flow density on stem CO2efflux of three tree species in spring and autumn in northeast China . Acta Ecologica Sinica,2011,12:3358-3367. (In Chinese)

15.Xiu-wei WANG, Mao Zijun. Temporal and spatial variation of canopy gas exchange ofLarix gmeliniiplantation . Scientia Silvae Sinicae,2007,11:43-49. (In Chinese)

16.Xiu-wei WANG, MAO Zi-jun, CHOI Kyung, PARK Kwang-woo. Significance of the leaf epidermis fingerprint for taxonomy ofGenus Rhododendron. Journal of Forestry Research, 2006,03:171-176+263. (In Chinese)


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