个人简介:
王兴昌,男,理学博士,副教授,博士生导师。主要从事森林生物地球化学(碳氮水)循环、森林微气象学和树木生理生态学研究,重点从器官、个体和生态系统尺度研究天然次生林的结构与碳汇功能关系及其对气候变化的响应。2008年至今在赌球网生态学科和黑龙江帽儿山森林生态系统国家野外科学观测研究站工作。主持国家自然科学基金面上和青年项目各1项、十四五重点研发项目子课题1项、黑龙江省自然科学基金青年项目1项,发表论文60篇,其中SCI论文28篇,获黑龙江省自然科学二等奖、东北林业大学成栋自然科学奖二等奖各1项。主讲《赌球网》《赌球网》《美国最佳博彩网》等课程。截至目前指导毕业硕士6人,其中4人获得校级优秀学位论文。
学习经历:
2015/09-2019/07,东北林业大学,赌球网,生态学,博士
2005/09-2008/07,东北林业大学,赌球网,生态学,硕士
2001/09-2005/07,东北林业大学,赌球网,林学,学士
工作经历:
2020/01-至今,东北林业大学,赌球网生态学科,副教授
2009/09-2019/12,东北林业大学,赌球网生态学科,助理研究员
2008/08-2011/08,东北林业大学,赌球网生态学科,研究实习员
代表性成果:
项目:
1.国家自然科学基金面上项目(32171765):东北天然次生林生产力年际波动与叶养分重吸收的耦联机制,2022/01-2025/12,58万元
2.科技部十四五重点研发项目课题“森林生态系统碳汇时空变化格局及驱动力机制”(2021YFD2200405)子课题:中国典型森林生态系统碳源汇变化及其环境驱动机制,2021/12-2026/11,100万元
3.国家自然科学基金青年项目(41503071):东北山地森林涡动协方差碳通量观测关键技术研究,2016/01-2018/12,21万元
4.黑龙江省自然科学基金青年项目(QC2017010):东北典型落叶阔叶林冠层物候动态及其对碳水通量的影响,2017/10-2020/09,5万元
论文:
1. Wang X, Song H, Liu F, Quan X, Wang C*. 2022. Timing of leaf fall and changes in litter nutrient concentration compromise estimates of nutrient fluxes and nutrient resorption efficiency. Forest Ecology and Management, 513: 120188.
2. Wang X#, Wang Q#, Chen Y, Zhao R, Zhang J, Quan X, Wang C*. 2022. Coloration and phenology manifest nutrient variability in senesced leaves of 46 temperate deciduous woody species. Journal of Plant Ecology, 15: 700-710.
3. Wang X, Liu F, Wang C. 2022. Radiation and energy balance on a hillslope forest: horizontal versus slope-parallel installation of radiometer. Journal of Mountain Science, 19(11): 3076-3087.
4. Sun X, Liu F, Zhang Q, Li Y, Zhang L, Wang J, Zhang H, Wang C,Wang X*. 2021. Biotic and climatic controls on interannual variation in canopy litterfall of a species-rich deciduous broad-leaved forest. Agricultural and Forest Meteorology, 306: 108483
5. Liu F.,Wang X*, Wang C and Zhang Q. 2021. Environmental and biotic controls on the interanual variations in CO2fluxes of a continental monsoon temperate forest. Agricultural and Forest Meteorology 296: 108232
6. Liu F, Wang C.Wang X*. 2021. Sampling protocols of specific leaf area for improving accuracy of the estimation of forest leaf area index. Agricultural and Forest Meteorology, 298–299: 108286
7. Wang X, Chen Y, Liu, F, Zhao R, Quan X and Wang C*. 2020. Nutrient resorption estimation compromised by leaf mass loss and area shrinkage: Variations and solutions. Forest Ecology and Management, 472, 118232
8. Wang X#, Liu F#, Wang C*. 2019. Towards a standardized protocol for measuring leaf area index in deciduous forests with litterfall collection. Forest Ecology and Management, 447: 87-94
9. Wang X, Wang C*, Bond-Lamberty B. 2017. Quantifying and reducing the differences in forest CO2-fluxes estimated by eddy covariance, biometric and chamber methods: A global synthesis. Agricultural and Forest Meteorology, 247: 93-103
10. Wang X, Wang C*, Guo Q, Wang J. 2016. Improving the CO2storage measurements with a single profile system in a tall-dense-canopy temperate forest. Agricultural and Forest Meteorology, 228–229: 327-338
11. Wang XC, Wang CK*, Zhang QZ, Quan XK. 2010. Heartwood and sapwood allometry of seven Chinese temperate tree species. Annals of Forest Science, 67(4), Article number 410.
12. Wang XC, Wang CK*, Yu GR. 2008. Spatio-temporal patterns of forest carbon dioxide exchange based on global eddy covariance measurements. Science in China Series D: Earth Sciences, 51(8):1129-1143
专著:
1. 王兴昌.山地森林涡动通量观测关键技术:以帽儿山温带森林为例.中国水利水电出版社, 2019.北京. 128pp.
奖励:
1. 王兴昌,刘志理,全先奎,张全智,金鹰.东北温带森林生态系统生产力形成及其调控机制.东北林业大学成栋自然科学奖,二等奖, 2022
2. 王传宽,张全智,王兴昌,全先奎,桑运荣,东北典型森林碳循环与碳计量,黑龙江省人民政府,黑龙江省自然科学技术奖,二等奖, 2016
联系方式:
邮箱:xcwang_cer@magdionline.com
电话:0451-82190615
Resume
Xingchang Wang, Doctor of Ecology, Associated professor, Doctoral supervisor.Major topics
1. Tree and ecosystem ecophysiology: including biomass production and allocation, nutrient resorption, ecological stoichiometry, and plant traits
2. Forest micrometeorology and carbon, water, and energy fluxes measurements on complex conditions
Current interests
1. Structure and function of natural secondary forests at the organ, individual and ecosystem scales; Carbon cycle methodology at the organ, individual and ecosystem scales in the forest ecosystem;
2. The application of eddy covariance technology to observe forest carbon and water energy flux, especially for complex terrain, cold climate, forest canopy and other complex conditions;
3. Near surface remote sensing by photography, broad-band vegetation index for tracking seasonal and interannual variation in GPP and canopy physiology;
4. Other areas of interest include plant traits, allometric relationships and ecological stoichiometry.
Contact information
E-mail: xcwang_cer@magdionline.com