徐海燕-兰州交通大学环境与市政工程学院

师资队伍

徐海燕

来源：作者：时间：2016年05月26日 11:21 点击量：

兰州交通大学环境与市政工程学院徐海燕（Dr. Hai-yan Xu）
	职称	教授
	所在部门	环境工程系(生态方向)
	办公室	尚德楼环境生态工程教研室1507
	联系电话	183 9417 3734
	E-mail	hyxu12@163.com
简介女，汉族，理学博士。2011毕业于兰州大学生态学专业。研究兴趣点主要集中于研究青藏高原冻土区土壤碳氮循环以及微生物群落多样性变化，揭示全球气候变化背景下，土壤碳库在微生物驱动下释放碳组分变化机制以及土壤微生物群落在碳氮循环过程中发生的动态响应，为全球气候变化和全球碳氮循环提供理论依据。个人科研实验室拥有设备较为齐全的寒区生态学实验室，实验设备有二氧化碳分析仪、便携式土壤碳通量仪、恒温培养箱、总有机碳仪、总氮分析仪、元素分析仪等，另有台式高速冷冻离心机、PCR仪、高压灭菌锅、核酸定量分析仪等分子生物学仪器。课题组还与中科院西北院、兰州大学有长期合作，拥有国家重点实验室和教育部重点实验室等国内一流先进仪器、设备和超算资源的使用便利。
教学及研究生指导本科生:基础生态学、生态学实验、环境土壤学、环境微生物学、植物学；研究生:科技论文阅读与写作、科技英语写作、土壤学理论与方法、环境微生物学理论与应用；招生专业：生态学、环境工程、环境科学。
研究方向气候变化与环境；土壤碳循环；土壤微生物；土壤生物地球化学循环；环境生态学。
科研项目 1、国家自然科学基金（41861011），祁连山多年冻土区优势植物生理生化指标对短期增温的响应，2019.01-2022.12，主持人 2、甘肃省科技厅，兰州马衔山半干旱地区土壤呼吸的海拔梯度格局及微生物多样性，2015.1-2017.12，主持人 3、甘肃省教育厅，兰州马衔山土壤呼吸和微生物群落海拔梯度分布格局，2015.7-2017.6，主持人
代表性论文 1.Xu, H., Li, L., Mao, N. et al. Physiological response of Kobresia pygmaea to temperature changes on the Qinghai-Tibet Plateau. BMC Plant Biol 22, 51 (2022). 2. Haiyan Xu, Guimin Liu, Xiaodong Wu⁎, Joseph M. Smoak, Cuicui Mu, Xiaoliang MaXiaolan Zhang, Hongqin Li, Guanglu Hu. Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau. Ecological Indicators.2018,85:585-593 3.Haiya Xu, Xiaodong Wu, Lin Zhao, Yuguo Zhao, Tonghua Wu, Guojie Hu,Wangping Li, Yongjian Ding, Changes in soil enzyme activities under different vegetation types of the northern fringe of the permafrost regions in the Qinghai-Tibetan Plateau, Fresenius Environmental Bulletin, 2015, 24(12C):4720-4728. 4. Xiaodong Wu,Haiyan Xu, Guimin Liu, Xiaoliang Ma, Cuicui Mu, Lin Zhao. Bacterial communities in the upper soil layers in the permafrost regions on the Qinghai-Tibetan plateau, Applied Soil Ecology,2017,120:81-88. 5.Wu, X.,Xu, H.,Liu, G., Zhao, L. and Mu, C. 2018a. Effects of permafrost collapse on soil bacterial communities in a wet meadow on the northern Qinghai-Tibetan Plateau. BMC Ecology 18(1), 27. 6.Xue S,Xu H, Mu C, et al. Changes in different land cover areas and NDVI values in northern latitudes from 1982 to 2015[J]. Advances in Climate Change Research, 2021,12(4):456-465. 7. Shouye, Xue &Hai-Yan, Xu& Cui-Cui, Mu & Tong-Hua, Wu & Wang-Ping, Li & Zhang, Wenxin & Streletskaya, Irina & Grebenets, Valery & Sokratov, Sergey & Kizyakov, Alexander & Xiao-Dong, Wu. (2021). Changes in different land cover areas and NDVI values in northern latitudes from 1982 to 2015. Advances in Climate Change Research. 8.Wu, X., Zhao, L.,Liu, G.,Xu, H., Zhang, X. and Ding, Y. 2018b. Effects of permafrost thaw-subsidence on soil bacterial communities in the southern Qinghai-Tibetan Plateau. Applied Soil Ecology 128, 81-88. 9.Liu, G., Zhang, X., Wu, T., Wu, X., Smoak, J.M., Li, X., Ji, G.,Xu, H.,Ma, X., Li, H., Yue, G., Ding, Y., Zhao, L. and Wu, X. 2019. Seasonal changes in labile organic matter as a function of environmental factors in a relict permafrost region on the Qinghai-Tibetan Plateau. Catena 180, 194-202. 10.Ma, X.,Liu, G., Wu, X., Smoak, J.M., Ye, L.,Xu, H.,Zhao, L. and Ding, Y. 2018. Influence of land cover on riverine dissolved organic carbon concentrations and export in the Three Rivers Headwater Region of the Qinghai-Tibetan Plateau. Science of The Total Environment 630, 314-322. 11.Cuicui Mu, Xiaodong Wu, Qian Zhao, Joseph M. Smoak3 Yulong Yang, Lian Hu, Wen Zhong, Guimin Liu,Haiyan Xu, and Tingjun Zhang.Relict Mountain Permafrost Area (Loess Plateau, China) Exhibits High Ecosystem Respiration Rates and Accelerating Rates in Response to Warming.Journal of Geophysical Research: Biogeosciences. 12.Xu Lu,Haiyan Xu, Zhonghu Li, Huiying Shang, Robert P. Adams，Kangshan Mao, Genetic Diversity and Conservation Implications of Four Cupressus Species in China as Revealed by Microsatellite Markers, Biochemical Genetics, 2013,52(1): 181-202. (SCI)( Xu Lu and Haiyan Xu contributed equally to this work) 13.Zhonghu Li,Haiyan Xu, Guifang Zhao, Isolation and characterization ofpolymorphic microsatellite loci primers for Cupressus funebris (Cupressaceae), Conservation Genetics Resources, 2012, 5(6): 307-309. 14.Haiyan Xu，Dachuan Shi，Juan Wang，Tingting Xu，Yuxia Wu. 2008 Isolation and characterization of polymorphic microsatellite markers in Cupressus chengiana S. Y. Hu (Cupressaceae). Conservation Genetics 9:1023–1026 15.Dahai Gao, Qian Gao,Haiyan Xu, Changming Zhao and Jianquan Liu. 2009 Physiological responses to gradual drought stress in the diploid hybrid Pinus densata and its two parental species. Trees- Structure and Function 23:717–72 16.Gao D, Qian G,Xu H Y, et al.16.Physiological responses to gradual drought stress in the diploid hybrid Pinus densata and its two parental species[J]. Trees, 2009, 23(4):717. 17.Dahai Gao, Qian Wang, Yuxia Wu,Haiyan Xu, Qiushi Yu, Jianquan Liu. 2008 Microsatellite DNA loci from the typical halophyte Thellungiella salsuginea (Brassicaceae). Conservation Genetics 9: 953-955. 18.Qiushi Yu, Dongyuan Zhang, Dongshi Wan,Haiyan Xu, Changming Zhao.2008 Development of microsatellite DNA loci for Pugionium dolabratum (Brassicaceae), an endangered psammophyte.Conservation Genetics9: 1019-1022 19.张婷,朱晓鹏,徐海燕等.祁连山草地生态系统优势物种生长季的生态化学计量特征[J].草地学报. 2024 20.康国慧,吴晓东,徐海燕等.阿拉斯加苔原植被优势种地理分布的未来模拟[J/OL].冰川冻土,2024,46(1):1-9. 21.陈卓,徐海燕,殊秋丽等.祁连山不同草地类型土壤理化性质及酶活性特征[J].绿色科技,2024,26(02):53-59. 22.种碧莹,金显玲,徐海燕等.长期增温和围栏封育对高寒草原土壤微生物残体碳积累的影响不显著[J].冰川冻土,2023,45(04):1391-1400. 23.殊秋丽,徐海燕,吴晓东等.海拔和生长季节对高山嵩草叶、根生理特性的影响[J].兰州大学学报,2023. 24.梁冰妍,徐海燕,吴晓东等.祁连山不同草地类型区土壤有机碳组份的差异[J/OL].地球科学:1-17[2023-03-13]. 25.甘子鹏,徐海燕,薛守业等.青藏高原气象因子与施肥对青稞产量的影响[J].西南农业学报,2022,35(10):2421-2427.DOI:10.16213/j.cnki.scjas.2022.10.023. 26.甘子鹏,徐海燕,薛守业等.青藏高原不同气候区青稞品质差异[J].中国农业科技导报,2022,24(11):55-67.DOI:10.13304/j.nykjdb.2021.0545. 27.薛守业,徐海燕,甘子鹏等.泛北极地区植被数据集与制图：回顾与展望[J].地球信息科学学报,2022,24(03):421-436. 28.毛楠,刘桂民,李莉莎，徐海燕等.祁连山多年冻土区甲烷通量与甲烷微生物群落组成的关系[J].地球科学,2022,47(02):556-567. 29.毛楠,刘桂民,李莉莎，徐海燕等.祁连山多年冻土区甲烷通量与甲烷微生物群落组成的关系[J].地球科学,2022,47(02):556-567. 30.李莉莎、徐海燕、吴晓东、毛楠、甘子鹏、薛守业.青藏高原高山嵩草叶,根抗寒性生理特征[J].草地学报, 2020, v.28(06):59-66. 31.李新星,刘桂民,吴小丽,纪庚好,李莉莎,毛楠,徐海燕,吴晓东. 2020a.马衔山不同海拔土壤碳、氮、磷含量及生态化学计量特征.生态学杂志39(3), 758-765. 32.李新星,刘桂民,吴小丽,纪庚好,李莉莎,毛楠,徐海燕,吴晓东. 2020b.青藏高原东北部热融滑塌区土壤碳氮磷含量.环境科学与技术43(01), 37-44. 33.张晓兰,刘桂民,李新星,吴小丽,徐海燕,纪庚好,李莉莎,吴晓东. 2019a.青藏高原北麓河地区荒漠草原土壤细菌对热融滑塌的响应.冰川冻土41(4), 977-985. 34.张晓兰,刘桂民,徐海燕,李新星,吴小丽,纪庚好,李莉莎,吴晓东. 2019b.热融滑塌对青藏高原北麓河荒漠草原土壤细菌群落的影响.应用与环境生物学报25(6), 1135-1142. 35.马小亮,刘桂民,吴晓东,徐海燕,叶琳琳,张晓兰. 2018a.三江源高寒草甸下溪流溶解性有机碳的季节性输移特征.长江流域资源与环境27(10), 2387-23. 36.马小亮,刘桂民,吴晓东,徐海燕,叶琳琳,张晓兰,白炜. 2018b.青藏高原多年冻土区典型植被下河流溶解性有机碳的生物可利用性研究.环境科学39(5), 2086-2094. 37.马小亮,吴晓东,叶琳琳,徐海燕,白炜,胡广录,刘桂民. 2018c.青藏高原腹地不同植被下河流溶解性有机碳特征.环境科学与技术41(9), 79-84. 38.李红琴,徐海燕*,马小亮,胡广录,吴晓东,刘桂民. 2017.马衔山多年冻土与季节冻土区土壤微生物量及酶活性的季节动态.冰川冻土39(2), 421-428.
国家授权专利 1.徐海燕，梁冰妍，种碧莹，甘子鹏，薛守业，李莉莎，刘桂民，吴晓东，一种可调温式台式无菌操作箱，ZL 2021 2 0441526.9 2.徐海燕，种碧莹，甘子鹏，薛守业，梁冰妍，殊秋丽，陈卓，康国慧，张婷，李莉莎，刘桂民，吴晓东，一种多功能土壤微生物采样箱，ZL 2021 2 1128502.4 3.徐海燕，甘子鹏，薛守业，梁冰妍，种碧莹，陈卓，康国慧，张婷，殊秋丽，李莉莎，刘桂民，吴晓东，一种去CO₂水的制备装置，ZL 2021 2 1189692.0 4.徐海燕，薛守业，梁冰妍，种碧莹，甘子鹏，康国慧，张婷，殊秋丽，陈卓，李莉莎，刘桂民，吴晓东，一种用于液氮罐内的储样装置，ZL 2021 2 1197410.1 5.徐海燕，陈卓，殊秋丽，康国慧，张婷，梁冰妍，种碧莹，甘子鹏，薛守业，李莉莎，刘桂民，吴晓东，一种用于去除外源性RNAase的植物采样袋，ZL 2021 2 1197957.1