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石娟
(北京林業大學博士生導師)
鎖定
石娟個人簡歷
研究方向是林業外來有害生物入侵和植物檢疫,先後主持參加了北京市教育委員會共建項目
[1]
、國家科技基礎性工作專項課題、國家自然科學基金、教育部新世紀優秀人才計劃
[1]
、國家林業和草原局公益性行業專項、北京高等學校青年英才計劃項目、北京林業大學基礎科學研究創新計劃、國家重點研發計劃等課題。
[1]
[26]
獲得榮譽主要有”林業和草原科技創新領軍人才“
[50]
,“中國林業青年科技獎”
[1]
,科技部“中法傑出青年科研人員”
[26]
,教育部新世紀優秀人才
[1]
,梁希林業科學技術獎科技進步獎二等獎
[27]
、校級“優秀社會實踐指導教師”
[1]
,校級“優秀班主任”
[1]
和校級教學基本功比賽優秀獎等獎項
[1]
[26]
石娟社會職務
石娟研究方向
石娟課題項目
石娟國際交流
除在國內外進行的大量國際會議學術交流外,主要國外訪問活動有:
石娟論文著作
[5] 石娟,駱有慶,武海衞,Kari Helivaara,梁麗壯.松材線蟲(Bursaphelenchus xylophilus)入侵對馬尾松(Pinus massoniana)林分生長的影響及相關生長模型(英文)[J].生態學報,2008(07):3193-3204.
[10]
[6] 石娟,駱有慶,武海衞,嚴曉素,陳衞平,蔣平.松林生態系統對松材線蟲入侵的抵禦及其恢復的評價標準及指標體系[J].南京林業大學學報(自然科學版),2011,35(03):148-149.
[11]
[13] 趙捷,王一鳴,左伊凡,石娟,餘金勇,鄒元平,V.I.Ponomarev,V.G.Bezborodov.舞毒蛾的室內人工大量飼養技術優化[J].東北林業大學學報,2018,46(07):90-93.
[18]
[21] Shi, J., Yan, G., Guan, L., Li, Z., & Feng, J. 2006. Stand factors and risk analysis of harm extent of gypsy moths. Frontiers of Forestry in China, 1(1), 109-112.
[28]
[22] Shi, J., Luo, Y. Q., Wu, H. W., Yan, X. S., Jiang, P., & Chen, W. P. 2009. Impact of invasion of pine wood nematode on the growth of dominant shrub pleioblastus amarus, in pinus massoniana, communities. Forest Ecosystems, 11(1), 61-63.
[29]
[23] Shi, J., Chen, F., Luo, Y. Q., Wang, Z., & Xie, B. Y. 2013. First isolation of pine wood nematode from pinus tabuliformis forests in china. Forest Pathology, 43(1), 59-66.
[30]
[24] Chen F, Shi J, Luo Y Q, et al. 2013. Genetic characterization of the gypsy moth from China (Lepidoptera, Lymantriidae) using inter simple sequence repeats markers[J]. Plos One, 8(8):e73017.
[31]
[25] Wei, J., Luo, Y. Q., Shi, J., Wang, D. P., & Shen, S. W. 2014. Impact of temperature on postdiapause and diapause of the asian gypsy moth, lymantria dispar asiatica. Journal of Insect Science, 14(1), 5.
[32]
[26] Gao, R., Shi, J., Huang, R., Wang, Z., & Luo, Y. 2015. Effects of pine wilt disease invasion on soil properties and masson pine forest communities in the three gorges reservoir region, china. Ecology & Evolution, 5(8), 1702-1716.
[33]
[27] Chen, F., Shi, J., & Keena, M. 2016. Evaluation of the effects of light intensity and time interval after the start of scotophase on the female flight propensity of asian gypsy moth (lepidoptera: erebidae). Environmental Entomology, 45(2), 404-409.
[34]
[28] Gao R, Wang Z, Shi J, et al. 2017. Effect of Bursaphelenchus xylophilus infection on leaf photosynthetic characteristics and resource‐use efficiency of Pinus massoniana[J]. Ecology & Evolution, 7(10):3455-3463.
[35]
[29] Gao, R., Luo, Y., Wang, Z., Yu, H., & Shi, J. 2018. Patterns of biomass, carbon, and nitrogen storage distribution dynamics after the invasion of pine forests by bursaphelenchus xylophilus, (nematoda: aphelenchoididae) in the three gorges reservoir region. Journal of Forestry Research, 29(2), 459-470.
[36]
[30] Huang, M., Ge, X., Shi, H., Tong, Y., & Shi, J. 2019. Prediction of Current and Future Potential Distributions of the Eucalyptus Pest Leptocybe invasa (Hymenoptera: Eulophidae) in China Using the CLIMEX Model. Pest management science.
[37]
[31] Yifan, Z., Kurenshchikov, D.K., Jinyong, Y., Yuanping, Z., Yiming, W., Yanjun, W. et al. 2019 Microsatellite and Morphological Analyses Reveal Unexpected Diversity in Lymantria dispar in China. Forests.
[38]
[32] Keena, M. A., & Shi, J. 2019. Effects of Temperature on First Instar Lymantria (Lepidoptera: Erebidae) Survival and Development With and Without Food. Environmental Entomology, 48(3), 655-666.
[39]
[33] Zeshi, Q. and Juan, S. 2020 Feasibility of Species Origin Traceability by Hydrogen Stable Isotopes: Sample Case of Lymantria dispar L. (Lepidoptera: Erebidae). Forests.
[40]
[34] Liu Y , Shi J . 2020, Predicting the Potential Global Geographical Distribution of Two Icerya Species under Climate Change[J]. Forests, 11(6):684.
[41]
[35] Chenglong, G., Lili, R., Ming, W., Zhengtong, W., Ningning, F., Huiying, W. et al. 2021 Proteo-Transcriptomic Characterization of Sirex nitobei (Hymenoptera: Siricidae) Venom. Toxins.
[42]
[36] Jiaqiang, Z., Ke, H., Ke, C. and Juan, S. 2021 Quarantine supervision of Wood Packaging Materials (WPM) at Chinese ports of entry from 2003 to 2016. PLOS ONE.
[43]
[37] Tai, G. and Juan, S. 2021 The Potential Global Distribution of Sirex juvencus (Hymenoptera: Siricidae) under Near Current and Future Climatic Conditions as Predicted by the Maximum Entropy Model. Insects.
[44]
[38] Tai, G., Qiang, X., Yang, L., Jiaqiang, Z. and Juan, S. 2021 Predicting the Potential Geographic Distribution of Sirex nitobei in China under Climate Change Using Maximum Entropy Model. Forests.
[45]
[39] Yiming, W., Robert, L.H. and Juan, S. 2021 Effects of Rearing Density on Developmental Traits of Two Different Biotypes of the Gypsy Moth, Lymantria Dispar L., from China and the USA. Insects.
[46]
[1] 甘敬,2006年,生態公益林管護指南,中國林業出版社
[2] 李俊清,2008年,北京山地森林的生態恢復,科學出版社
[3] Matheo V.Fournier. 2009年. Forest Regeneration: Ecology, Management and Economics. Nova Press.
[4] 萬方浩. 2010年. 生物入侵——預警篇. 科學出版社.
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