王文杰，男，1974年生，二级教授，博导，龙江学者特聘教授、中科院人才计划入选者、教育部新世纪优秀人才、黑龙江省杰出青年基金获得者、黑龙江省头雁计划核心骨干。主持和完成国家自然基金7项（面上及青年6项、重点项目1项）、973专题、十三五专题等20多项。发表文章220篇，SCI90余篇，英文专著1部，科学出版社中文专著3部，参编Ecological studies 209专著多部等，被引用2600多次。获得省部级一等奖4项、二等奖3项。2019年获得东北地区落叶松林碳汇功能教育部自然科学二等奖1项（排名第一）、北方城市森林生态功能吉林省自然科学一等奖1项（排名第二）。美国明尼苏达大学访问学者，兼任日本北海道大学北方生物圈野外科学研究中心特任助教授，中国自然资源学会森林资源专委会副主任委员、中国生态学会理事，Eurasian J Forest Research、Journal of Forestry Research、Frontiers Sustainable Cities-urban greening、植物研究编委。

研究方向

森林生态学、全球变化生态学、植物多样性与碳汇、城市生态学与城市森林

工作与学习经历

2023.2-现在 教授，浙江农林大学

2008.9-2023.1 研究员，东北林业大学，化学化工与资源利用学院

2013.10-2022.12 中科院人才计划研究员，中科院东北地理与农业生态研究所

2011.1-2012.1 美国明尼苏达大学，国家公派访问学者

2006.11-2007.2 北海道大学北方生物圈野外科学研究中心，客座副教授

2005.7-2008.9 副研究员，东北林业大学

2002.3-2005.7 日本北海道大学农学部、中国东北林业大学攻读博士学位

2003.9- 2005.7 讲师，东北林业大学森林植物生态学教育部重点实验室

2000.3-2001.3 留学日本北海道大学演习林，外国人研究员

2000.7-2003.9 助教，东北林业大学森林植物生态学教育部重点实验室

教学工作

全球变化生态学，森林生态系统理论与应用

科研项目

1.王文杰.国家自然基金重点项目.植物组成多样性对东北森林碳汇功能影响及其形成机制(41730641). 2018.1.1-2022.12.31. 310万.

2.王文杰.中央高校碳中和专项。黑龙江流域景观与气候驱动的碳汇和植物多样性协同变化研究2572021DT03。40万，2021.7-2024.6。

3.王文杰。十三五科技部重点研发子专题。湿地植物多样性及碳汇功能阈值研究（2016YFA0602304-2）。70万。2016.7-2021.7.

4.王文杰。国家自然基金面上项目。基于网络街景的城市森林测量、评价及城市间分异规律研究（31670699）。62万。2017.1-2020.12。

5.王文杰。科技部基础调查专项，黑龙江大兴安岭森林国家级保护区及毗邻区植物群落调查2014FY110600-8。35万。2014-2019.

6.王文杰。院士咨询项目。大兴安岭区域森林火防控措施与对策（2020-DX07-B-031-01-03）。18万，2020.9-2023.8.

主要论文与专著

1.Cao X, Ji Q, Wei C, Xiao L, Zhang P, Mao R, He X*, Wang W* Plant succession and geo-topography determined forest soil P and nine fraction-Ps across a larch forest chronosequence in the northmost region of China. Plant and Soil. (2023)doi: 10.1007/s11104-023-05900-3.

2.Liang C, Serge A, Zhang X, Wang H*, Wang W*Assessment of street forest characteristics in four African cities using google street view measurement: Potentials and implications. Environmental Research (2023) 221: 115261. doi: https://doi.org/10.1016/j.envres.2023.115261.

3.Zhang P, Dong Y, Guo Y, Wang C, Wang G, Ma Z, Zhou W, Zhang D, Ren Z*, Wang W* Urban forest soil is becoming alkaline under rapid urbanization: A case study of Changchun, northeast China. CATENA (2023)224: 106993. doi: https://doi.org/10.1016/j.catena.2023.106993.

4.Agathokleous E, Barceló D, Aschner M, Azevedo RA, Bhattacharya P, Costantini D, Cutler GC, De Marco A, Docea AO, Dórea JG, Duke SO, Efferth T, Fatta-Kassinos D, Fotopoulos V, Ginebreda A, Guedes RNC, Hayes AW, Iavicoli I, Kalantzi O-I, Koike T, Kouretas D, Kumar M, Manautou JE, Moore MN, Paoletti E, Peñuelas J, Picó Y, Reiter RJ, Rezaee R, Rinklebe J, Rocha-Santos T, Sicard P, Sonne C, Teaf C, Tsatsakis A, Vardavas AI,Wang W, Zeng EY, Calabrese EJ (2022) Rethinking Subthreshold Effects in Regulatory Chemical Risk Assessments. Environmental Science & Technology 56: 11095-11099. doi: 10.1021/acs.est.2c02896.

5.Mao Z,Wang W, Ren Z, Zhang D, He X (2022) Recreational Attractiveness of Urban Parks and Implications for Their Management: A Case Study in Changchun, China. Chinese Geographical Science 32: 456-466. doi: 10.1007/s11769-022-1273-5.

6.Miao N, Yun C, Han S, Shi Y, Gao Y, Wu S, Zhao Z, Wang H,Wang W*(2022a) Postharvest UV-A radiation affects flavonoid content, composition, and bioactivity of Scutellaria baicalensis root. Postharvest Biology and Technology 189: 111933. doi: https://doi.org/10.1016/j.postharvbio.2022.111933.

7.Miao N, Yun C, Shi Y, Gao Y, Wu S, Zhang Z, Han S, Wang H,Wang W*(2022b) Enhancement of flavonoid synthesis and antioxidant activity in Scutellaria baicalensis aerial parts by UV-A radiation. Industrial Crops and Products 187: 115532. doi:https://doi.org/10.1016/j.indcrop.2022.115532.

8.Wang C, Ren Z*, Dong Y, Zhang P, Guo Y,Wang W*,Bao G (2022a) Efficient cooling of cities at global scale using urban green space to mitigate urban heat island effects in different climatic regions. Urban Forestry & Urban Greening 74: 127635. doi: https://doi.org/10.1016/j.ufug.2022.127635.

9.Wang W*,Tian P, Zhang J, Agathokleous E, Xiao L, Koike T, Wang H, He X (2022b) Big data-based urban greenness in Chinese megalopolises and possible contribution to air quality control. Science of The Total Environment: 153834. doi: https://doi.org/10.1016/j.scitotenv.2022.153834.

10.Wang W*, Sun J, Zhong Z, Xiao L, Wang Y, Wang H. Relating macrofungal diversity and forest characteristics in boreal forests in China: Conservation effects, inter-forest-type variations, and association decoupling. Ecology and Evolution 2021; n/a: online first;DOI: 10.1002/ece3.8049.

11.Wei, C., Xiao, L., Shen, G. Wang HM,Wang Wenjie*. Effects of tree species on mineral soil C, N, and P, litter and root chemical compositions: cross-sites comparisons and their relationship decoupling in Northeast China. Trees (2021).https://doi.org/10.1007/s00468-021-02166-z.

12.Xiao L ,Wang W, Ren Z , He Xingyuan*. Two-city street-view greenery variations and association with forest attributes and landscape metrics in NE China[J]. Landscape Ecology, 2021(3). 10.1007/s10980-021-01210-0.

13.Wang, Y., Wen, H., Wang, K. Sun J, Yu J, Wang Q &Wang Wenjie*. Forest plant and macrofungal differences in the Greater and Lesser Khingan Mountains in Northeast China: A regional-historical comparison and its implications. J. For. Res. (2021). https://doi.org/10.1007/s11676-021-01313-z.

14.Bingbing Liang#,Wenjie Wang#,Xuxiao Fan,Alexander V. Kurakov,Yufei Liu, Fuqiang Song, Wei Chang.2020.Arbuscular mycorrhizal fungi can ameliorate salt stress in Elaeagnus angustifolia by improving leaf photosynthetic function and ultrastructure. Plant Biology, DOI: 10.1111/plb.13164.

15.Succarie, A., Xu, Z.,Wang, W., Liu, T., Zhang, X., & Cao, X. (2020). Effects of climate change on tree water use efficiency, nitrogen availability and growth in boreal forest of northern China. Journal of Soils and Sediments. doi:10.1007/s11368-020-02734-9.

16.Wei, C., Wang, Q., Ren, M., Pei, Z., Lu, J., Wang, H. andWang, W*. (2020), Soil aggregation accounts for the mineral soil organic carbon and nitrogen accrual in broadleaved forests as compared to that of coniferous forests in China: cross‐sites and multiple species comparisons. Land Degrad Dev. Accepted Author Manuscript. doi:10.1002/ldr.3725.

17.Gu Y,HanS, Zhang J, Chen Z, Wang W, Feng Y, Jiang Y, Geng S. Temperature-Dominated Driving Mechanisms of the Plant Diversity in Temperate Forests, Northeast China. Forests. 2020; 11(2):227.

18.WangY, Yu J, Xiao L, Zhong Z, Wang Q,Wang W*(2020) Dominant Species Abundance, Vertical Structure and Plant Diversity Response to Nature Forest Protection in Northeastern China: Conservation Effects and Implications. Forests 11(3):295.

19.Wang, Q.;Wang, W.*; Zhong, Z.; Wang, H.; Fu, Y. 2020. Variation in glomalin in soil profiles and its association with climatic conditions, shelterbelt characteristics, and soil properties in poplar shelterbelts of northeast China. J Forestry Res, 31, 279–290.

20.Xu, H.,Wang, W*., Wang, H., Sun, Y., Zhong, Z., Wang, S., 2019. Differences in quantity and composition of leaf particulate matter and morphological structures in three evergreen trees and their association in Harbin, China. Environmental Pollution 252, 1772-1790.

21.Agathokleous, E., A. Anav, V. Araminiene, A. De Marco, M. Domingos, M. Kitao, T. Koike, W. J. Manning, E. Paoletti, C. J. Saitanis, P. Sicard, M. Vitale,W. Wang, and E. J. Calabrese. 2019. Commentary: EPA's proposed expansion of dose-response analysis is a positive step towards improving its ecological risk assessment. Environmental Pollution 246:566-570.

22.Yang Y, Lv H, Fu Y, He X,Wang W*. 2019. Associations between Road Density, Urban Forest Landscapes, and Structural-Taxonomic Attributes in Northeastern China: Decoupling and Implications. Forests 10(1):58.

23.Wang Wenjie*，Bo Zhang, Wei Zhou, Hailiang Lv, Lu Xiao, Hongyuan Wang, Hongju Du, Xingyuan He. 2019. The effect of urbanization gradients and forest types on microclimatic regulation by trees, in association with climate, tree sizes and species compositions in Harbin city, northeastern China. Urban Ecosystem, https://doi.org/10.1007/s11252-019-0823-9.

24.Wang, Q.,W. Wang*, X. He, W. Zhou, C. Zhai, P. Wang, Z. Tang, C. Wei, B. Zhang, and L. Xiao. 2019. Urbanization-induced glomalin changes and their associations with land-use configuration, forest characteristics, and soil properties in Changchun, Northeast China. Journal of Soils and Sediments, 19(5), 2433-2444.

25.Lv H,Wang W*, He X, Wei C, Xiao L, Zhang B, Zhou W 2018. Association of urban forest landscape characteristics with biomass and soil carbon stocks in Harbin City, Northeastern China. PeerJ 6: e5825.

26.Wang, W.,Wang, Q., Zhou, W., Xiao, L., Wang, H., He, X., 2018 Glomalin changes in urban-rural gradients and their possible associations with forest characteristics and soil properties in Harbin City, Northeastern China, Journal of Environmental Management 224:225-234.

27.Wu Y.,Wang Wenjie*, Wang Q, Zhong Z, Pei Z., Wang H, Yao Y. 2018. Impact of poplar shelterbelt plantations on surface soil properties in northeastern China Canadian Journal of Forest Research48:559-567.

28.Wang W,Xiao L, Zhang J, Yang Y, Tian P, Wang H, He X 2018. Potential of Internet street-view images for measuring tree sizes in roadside forests Urban Forestry & Urban Greening 35:211-220.

29.Wang Wenjie,Qiu Ling, Zu Yuangang, Su Dongxue, An Jing, Wang Hongyan, Zheng Guanyu, Sun Wei, Chen Xiquan. 2011. Changes in soil organic carbon, nitrogen, pH and bulk density with the development of larch plantations in China. Global Change Biology 17：2657–2676。

30.WANG Wenjie, Zu Y.G., Cui S., Hirano T., Watanabe Y., Koike T.2006.Carbon dioxide exchange of larch (Larix gmelinii) cones during development.Tree Physiology, 26:1363-1368.

31.王文杰,王慧梅,祖元刚. 2006.中国东北落叶松人工林CO2通量研究（CO2 flux of a larch plantation in Northeast China）.英文专著。北京：科学出版社。Pp257.

32.王文杰，王慧梅，王琼等。2016.松嫩平原杨树防护林与农田土壤特性差异研究。科学出版社。P240.

33.王文杰。2019.哈尔滨市城市森林特征与生态服务功能。科学出版社（中国博士后出版基金资助出版），p200。

联系方式

通讯地址：浙江省杭州市临安区武肃街666号林业与生物技术学院

邮编：311300

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