李国雷
近期热点
资料介绍
个人简历
教育背景2004 – 2007 北京林业大学,林学院森林培育学科 博士2001 – 2004 山东农业大学,林学院林学系 硕士1997 – 2001 山东农业大学,林学院林学系 学士工作经历2017.01-至今 北京林业大学,林学院森林培育学科 教授2017.07-至今 林学院副院长2011.03-2016.12 北京林业大学,林学院森林培育学科 副教授2009.07-2011.03 北京林业大学,林学院森林培育学科 讲师2007.07-2009.07 北京林业大学,博士后流动站 助教研究领域
林木种苗培育理论与技术、森林培育"研究项目[1] 国家自然科学基金面上项目,叶片性状和根系特征对氮贮存与内转移的作用机制研究(31670638),2017/01–2020/12,65万元,主持[2] 北京市自然科学基金面上项目,短日照处理提高苗木夏季造林效果的生理基础(6132023),2013/01–2014/12,14万元,主持"近期论文
发表文章2018[1] Wang Jiaxi, Villar-Salvador P, Li Guolei*. 2018. Water stress does not inhibit nitrogen remobilization, allowing fast growth in high nitrogen content Quercus variabilis seedlings under dry conditions. Tree Physiology. In press[2] Shi Wenhui, Villar-Salvador P, Jacobs DF, Li Guolei*, Jiang Xiaoxu. 2018. Simulated predation of Quercus variabilis acorns impairs nutrient remobilization and seedling performance irrespective of soil fertility. Plant and Soil, 423: 295–306. doi: 10.1007/s11104-017-3518-0[3] Shi Wenhui, Steven C. Grossnickle, Li Guolei*, Shuchai Su, Yong Liu. 2018. Fertilization and irrigation regimes influence on seedling attributes and field performance of Pinus tabuliformis Carr. Forestry. doi:10.1093/forestry/cpy035[4] 姜晓旭, 李国雷*, 史文辉, 赵凯芬, 李成. 2018. 子叶丢失强度和时间对栓皮栎幼苗生长状况和营养物质转移的影响. 林业科学, 54(8): 56–64.[5] 史文辉, 李国雷*, 苏淑钗, 刘勇, 贾黎明, 尚治国. 2018. 子叶切除与苗圃施肥对栓皮栎容器苗造林效果的影响. 林业科学, 54(1): 64–73.2017[6] Shi W, Bloomberg M, Li Guolei *, Su S, Jia L. 2017. Combined effects of cotyledon excision and nursery fertilization on root growth, nutrient status and outplanting performance of Quercus variabilis container seedlings. PLoS ONE 12(5): e0177002. https://doi.org/10.1371/journal.pone.0177002[7] Fu Y, Oliet JA, Li Guolei *, Wang J. 2017. Effect of controlled release fertilizer type and rate on mineral nutrients, non-structural carbohydrates, and field performance of Chinese pine container-grown seedlings. Silva Fennica 51: id1607. https://doi.org/10.14214/sf.1607[8] Pan J, Jacobs DF, Li Guolei *. 2017. Combined effects of short-day treatment and fall fertilization on growth, nutrient status, and spring bud break of Pinus tabulaeformis seedlings. iForest, 10: 242–249. doi: 10.3832/ifor2178-009[9] 刘佳嘉, 李国雷*, 刘勇, 尚治国. 2017. 容器类型和胚根短截对栓皮栎容器苗苗木质量及造林初期效果的影响. 林业科学, 53(6): 47–55.2016[10] Liu J, Bloomberg M, Li Guolei *, Liu Y. 2016. Effects of copper root pruning and radicle pruning on first-season field growth and nutrient status of Chinese cork oak seedlings. New Forests, 47: 715–729. doi: 10.1007/s11056-016-9540-x[11] Wang J, Yu H, Li Guolei *, Zhang F. 2016. Growth and nutrient dynamics of transplanted Quercus variabilis seedlings as influenced by pre-hardening and fall fertilization. Silva Fennica, 50: id 1475. doi: 10.14214/sf.1475[12] Li Guolei *, Wang J, Oliet JA, Jacobs DF. 2016. Combined pre-hardening and fall fertilization facilitates N storage and field performance of Pinus tabulaeformis seedlings. iForest, 9: 483–489. doi: 10.3832/ifor1708-008[13] 程中倩, 李国雷*. 2016. 氮肥和容器长度对栓皮栎容器苗生长、根系结构及养分贮存的影响. 林业科学, 52(4): 21–29.2015[14] Wang J, Li Guolei *, Pinto JR, Liu J, Shi W, Liu Y. 2015. Both nursery and field performance determine suitable nitrogen supply of nursery-grown, exponentially fertilized Chinese pine. Silva Fennica, 49: id 1295. doi: 10.14214/sf.12952014[15] Li Guolei *, Zhu Y, Liu Y, Wang JX, Liu JJ, Dumroese RK. 2014. Combined effects of pre-hardening and fall fertilization on nitrogen translocation and storage in Quercus variabilis seedlings. European Journal of Forest Research, 133: 983–992. doi: 10.1007/s10342-014-0816-42013[16] Zhu Y, Dumroese RK, Pinto JR, Li Guolei *, Liu Y*. 2013. Fall fertilization enhanced nitrogen storage and translocation in Larix olgensis seedlings. New Forests, 44: 849–861. doi: 10.1007/s11056-013-9370-z[17] Li Guolei *, Zhu Y, Liu Y, Jiang L, Shi WH, Liu JJ, Wang JX, Cheng ZQ. 2013. Effects of nursery nitrogen application of bare-root Larix olgensis seedlings on growth, N uptake and initial field performance. Journal of Environmental Biology, 34: 79–85.2012[18] Li Guolei *, Liu Y*, Zhu Y, Li Q, Dumroese RK. 2012. Effect of fall-applied nitrogen on growth, N storage, and frost hardiness of bareroot Larix olgensis seedlings. Silva Fennica, 46: 345–354. doi: 10.14214/sf.45 [19] Liu Y, Bai SL, Zhu Y, Li Guolei *, Jiang P. 2012. Promoting seedling stress resistance through nursery techniques in China. New Forests, 43: 639–649. doi: 10.1007/s11056-012-9341-9[20] 李国雷, 刘勇*, 祝燕, 蒋乐, 史文辉. 2012. 国外容器苗质量调控技术研究进展. 林业科学, 48(8): 135–142.2011[21] Li Guolei *, Liu Y, Zhu Y, Yang J, Sun HY, Jia ZK, Ma LY. 2011. Influence of initial age and size on the field performance of Larix olgensis seedlings. New Forests, 42: 215–226. doi: 10.1007/s11056-011-9248-X[22] 李国雷, 刘勇*, 祝燕. 秋季施肥调控苗木质量研究评述. 林业科学, 2011, 48(11): 166–171.[23] 李国雷, 刘勇*, 祝燕. 2011. 苗木切根技术研究进展. 林业科学, 47(9): 140–147.2009[24] Bai SL, Li Guolei *, Liu Y, Dumroese RK, Lv RH. 2009. Ostryopsis davidiana seedlings inoculated with ectomycorrhizal fungi facilitate formation of mycorrhizae on Pinus tabulaeformis seedlings. Mycorrhiza, 19: 425–434. doi: 10.1007/s00572-009-0245-2[25] 李国雷, 刘勇*, 于海群, 吕瑞恒, 李瑞生. 2009. 油松(Pinus tabulaeformis)人工林下植被发育对油松生长节律的响应. 生态学报, 29(3): 1264–1275.[26] 李国雷, 刘勇*, 吕瑞恒, 于海群, 李瑞生. 2009. 华北落叶松人工林密度调控对林下植被发育的作用过程. 北京林业大学学报, 31(1): 19–24.SCI期刊New Forests副主编中国林学会青年工作委员会副主任中国科学技术协会第367次青年科学家论坛执行主席期刊审稿专家European Journal of Forest Research, Canadian Journal of Forest Research, New Forests, Journal of applied Ecology, Journal of Forest Research, Journal of Forestry Research 相关热点