地图学与地理信息系统学科-梁博毅
姓 名:梁博毅
通信地址:北京市海淀区清华东路35号完美电竞•(中国)电子竞技-Perfect Esports,林学院
邮政编码:100083
邮箱:liangboyi@bjfu.edu.cn
一、教育背景
2015.9-2019.6 北京大学 城市与环境学院 自然地理 博士 (导师:陈效逑 教授)
2017.9-2018.9 英国牛津大学 地理与环境学院 联合培养博士 (导师:Yadvinder Malhi 教授)
2012.9—2015.6 北京师范大学,地理学与遥感科学学院 地图学与地理信息系统 硕士 (导师:刘素红 教授)
2008.9—2012.6 南京师范大学,地理科学学院 测绘工程 学士 (毕业论文指导老师:杨林 教授)
二、工作经历
2021.10-至今 完美电竞•(中国)电子竞技-Perfect Esports, 林学院地理信息科学学科 讲师
2020.11-2022.10 英国埃克塞特大学 生命与环境科学学院 名誉研究员
2020.1-2020.8 英国埃克塞特大学 生命与环境科学学院 地理系 访问学者(合作导师:Tim Quine 教授)
2019.10-2021.9 北京大学 生态学博士后流动站 全职博士后(合作导师:刘鸿雁 教授)
三、研究方向
森林动态与全球变化、地理大数据
四、发表文章
Liang B., Wang J., Zhang Z., Zhang J., Zhang J., Cressey E.L., Wang Z. (2022) Planted forest is catching up with natural forest in China in terms of carbon density and carbon storage. Fundamental Research.
Liang B., Quine T.A., Liu H., Cressey E.L., Bateman I. (2021) How Can We Realize Sustainable Development Goals in Rocky Desertified Regions by Enhancing Crop Yield with Reduction of Environmental Risks? Remote Sensing.
Liang B., Chen X., Lang W., Liu G., Malhi Y., Rifai S. (2020) Examining land surface phenology in the tropical moist forest eco-zone of South America. International Journal of Biometeorology.
Liang B., Liu H., Chen X., Zhu X., Cressey E.L., Quine T.A. (2020) Periodic Relations between Terrestrial Vegetation and Climate Factors across the Globe. Remote Sensing.
Liang B., Liu H., Quine T.A., Chen X., Hallett P.D., Cressey E.L., Zhu X., Cao J., Yang S., Wu L., Hartley I.P (2020). Analysing and simulating spatial patterns of crop yield in Guizhou Province based on artificial neural networks. Progress in Physical Geography: Earth and Environment.
Liang B., Dahlsjö C.A., Maguire-Rajpaul V., Malhi Y., Liu S. (2019) Modelling error evaluation of ground observed vegetation parameters. IEEE Transactions on Instrumentation and Measurement.
Liang B., Liu S. (2018) Measurement of vegetation parameters and error analysis based on Monte Carlo method. Journal of Geographical Sciences.
Liang B., Liu S., Qu Y., Qu Y. (2015) Estimating fractional vegetation cover using the hand-held laser range finder: method and validation. Remote Sensing Letters.
Cao J., Liu H., Zhao B., Peng R., Liang B., Anenkhonov O.A., Korolyuk A.Y., Sandanov D.V. (2022) Mixed forest suffered less drought stress than pure forest in southern Siberia. Agricultural and Forest Meteorology.
Wang L., Liu H., Chen D., Zhang P., Leavitt S., Liu Y., Fang C., Sun C., Cai Q., Gui Z., Liang B., Shi L., Liu F., Zheng Y., Grießinger J (2022). The 1820s marks a shift to hotter‐drier summers in Western Europe since 1360. Geophysical Research Letters.
Wang J., Zhang J., Xiong N., Liang B., Wang Z., Cressey E.L. (2022) Spatial and Temporal Variation, Simulation and Prediction of Land Use in Ecological Conservation Area of Western Beijing. Remote Sensing.
Chen Z., Liu H., Xu C., Wu X., Liang B., Cao J., Chen D. (2022) Deep learning projects future warming-induced vegetation growth changes under SSP scenarios. Advances in Climate Change Research.
Peng Z., Liu H., Jiang L., Liu X., Dai J., Xu C., Chen Z., Wu L., Liu F., Liang B. (2021). Effect paths of environmental factors and community attributes on aboveground net primary productivity of a temperate grassland. Land Degradation & Development.
Shi L., Liu H., Xu C., Liang B., Cao J., Cressey E.L., Quine T.A., Zhou M., Zhao P. (2021) Decoupled heatwave-tree growth in large forest patches of Larix sibirica in northern Mongolian Plateau. Agricultural and Forest Meteorology.
Wu L., Liu H., Liang B., Zhu X., Cao J., Wang Q., Jiang L., Cressey E.L., Quine T.A. (2021) A process-based model reveals the restoration gap of degraded grasslands in Inner Mongolian steppe. Science of The Total Environment.
Cao J., Liu H., Zhao B., Li Z., Liang B., Shi L., Wu L., Cressey E.L., Quine T.A. (2021) High forest stand density exacerbates growth decline of conifers driven by warming but not broad-leaved trees in temperate mixed forest in northeast Asia. Science of The Total Environment.
Chen Z., Liu H., Xu C., Wu X., Liang B., Cao J., Chen D (2021). Modeling vegetation greenness and its climate sensitivity with deep-learning technology. Ecology and Evolution.
Zhu X., Liu H., Li Y., Liang B. (2021) Quantifying the role of soil in local precipitation redistribution to vegetation growth. Ecological Indicators.
Zhu X., Liu H., Wu L., Liang B., Liu F., He W. (2020) Impact of bedrock geochemistry on vegetation productivity depends on climate dryness in the Guizhou karst of China. Progress in Physical Geography: Earth and Environment.
Feng S., Wu L., Liang B., Wang H., Liu H., Zhu C., Li S (2020). Forestation does not necessarily reduce soil erosion in a karst watershed in southwestern China. Progress in Physical Geography: Earth and Environment.
Chen X., Zhang W., Ren S., Lang W., Liang B., Liu G. (2017) Temporal coherence of phenological and climatic rhythmicity in Beijing. International Journal of Biometeorology.
梁博毅, 刘素红, 瞿瑛, 周公器 & 何小雷 (2016) 利用GLASS LAI数据分析1982—2012年亚马逊热带雨林变化. 遥感学报.
梁博毅 & 刘素红 (2018) 抽样法估算影像植被覆盖度. 中国水土保持.
梁博毅, 钱思蔚 & 张维琦 (2017) 中国各省医疗条件空间分布与合理性研究. 中国卫生统计,.
姜梦迪, 张鹏丽, 梁博毅 & 李育 兰州盆地新石器时期遗址分布与地形的关系研究. 干旱区地理.
薛婷婷, 赵., 陈效逑, 姜梦迪, 梁博毅 (2020) 气温和土壤湿度对中国东部温带蒲公英黄枯普期的影响. 北京大学学报自然科学版.
杨林, 裴安平, 郭宁宁 & 梁博毅 (2012) 洛阳地区史前聚落遗址空间形态研究. 地理科学.
五、专著
廖小罕、施建成等,《全球生态环境遥感监测2013年度报告》,科学出版社 (编写组成员)
六、专利
[1] 梁博毅; 屈永华; 刘素红 一种利用手持型激光测距仪测量植被覆盖度的方法. 2015-12-02. (发明专利,已授权)