姓名：孟冉

政治面貌：中共党员

办公地点：西副楼311

研究方向：智慧农业、生态环境遥感

微信号：248850195

电子邮件：mengran@mail.hzau.edu.cn

个人网站：https://www.researchgate.net/profile/Ran-Meng-12

个人简介

在美国学习工作多年，2018年8月以高层次人才引入华中农业大学任教，担任教授、博士生导师，获批省部级青年人才项目。研究方向为智慧农业和生态环境遥感，长期专注于植被与生态环境定量遥感，利用多尺度、多源遥感技术和地学建模方法，精准动态反演农作物长势和恢复生态学关键地表参数，研究植被与生态环境多要素的交互作用，模拟与预测作物产量与森林干扰及恢复过程，服务于智慧农业、森林健康和生态环境评价等领域。

迄今为止，在国际主流学术期刊发表SCI论文28篇（中科院1区TOP15篇，中科院2区TOP7篇），其中第一或通讯作者论文（含共同）15篇，包括国际遥感类顶级学术期刊Remote Sensing Environment 7篇（5篇独立一作兼通讯作者，1篇独立通讯作者，1篇合作者），累计影响因子超过180；论文总被引685次（ResearchGate网站截止2022年3月28日）。受邀担任Remote Sensing Environment编委、《遥感技术与应用》杂志青年编委及Remote Sensing客座编辑；当选2016年度Remote Sensing Environment最佳审稿人；在国内外重要学术会议做口头报告超过20次，包括美国地球协会(AGU)、美国地理协会（AAG）与世界火生态协会（AFE）年会及全国定量遥感学术论坛、全国成像光谱对地观测学术研讨会等。

教育背景

2003年09月——2007年08月：山东农业大学太阳成集团tyc122cc，理学学士

2007年09月——2010年07月：中国科学院地理科学与资源研究所，理学硕士

2010年08月——2015年05月：美国犹他大学（University of Utah）地理学系，博士

工作经历

2021年01月——至今：华中农业大学宏观研究院，PI

2020年04月——至今：华中农业大学交叉科学研究院，PI

2018年08月——至今：太阳成集团tyc122cc，教授、博士生导师

2015年06月——2018年08月：美国布鲁克海文国家实验室（Brookhaven National Laboratory）环境与大气系，博士后

学术兼职

Remote Sensing of Environment杂志编委、《遥感技术与应用》杂志青年编委、Remote Sensing 杂志客座编辑；

2014年至今为Remote Sensing of Environment、ISPRS Journal of Photogrammetry and Remote Sensing、Method in Ecology and Evolution、Agricultural and Forest Meteorology、Ecology、Ecological Application、International Journal of Remote Sensing、Forest Ecology and Management等20+国际主流期刊评审超过70次；

受邀担任中国教育部、中国科技部、美国自然科学基金委、美国能源部、比利时科学政策办公室、波兰国家科学中心等科研和人才项目评审专家。

教学情况

本科生课程

地理信息科学专业新生研讨课（主讲）

农业大数据处理与应用（主讲）

数字图像处理（兼职主讲）

学术道德（拼盘合上）

智能农业数据分析综合实践（拼盘合上）

农业大数据分析（拼盘合上）

研究生课程

资源与环境信息工程（主讲）

现代植物营养研究技术（拼盘合上）

地理信息科学前沿进展（拼盘合上）

发表学术论文情况（*为通讯作者，$为同等贡献; 最新论文发表情况请查阅个人Research Gate网站https://www.researchgate.net/profile/Ran-Meng-12）

2018年后

[J28] Wang, M., Zheng, Y., Huang, C., Meng, R., Pang, Y., Wen, J., Zhou, J., Huang, Z., Fang, L., & Zhao, F. *, Assessing Landsat-8 and Sentinel-2 spectral-temporal features for mapping tree species of northern plantation forests in Heilongjiang Province, China, Forest Ecosystems, In Press. (中科院一区TOP, IF = 3.645)

[J27] Zhou L, Meng R, Tan   Y, Lv Z, Zhao Y, Xu B, Zhao F. Comparison of UAV-based LiDAR and digital   aerial photogrammetry for measuring crown-level canopy height in the urban   environment. Urban Forestry Urban Greening, 69: 127489(2022). (中科院一区TOP,   IF = 4.537)

[J26] Xu, L., Zhou, L.F.,   Meng, R. *, Zhao, F., Lv, Z., Xu, B., Zeng, L., Yu, X., & Peng, S. An   Improved Approach to Estimate Ratoon Rice Aboveground Biomass by Integrating   UAV-based Spectral, Textural and Structural Features. Precision   Agriculture, (2022). (中科院一区TOP, IF = 5.385)

[J25] Zhao, F., Sun, R.,   Zhong, L., Meng, R. *, Huang, C., Zeng, X., Wang,   M., Li, Y., & Wang, Z. Monthly Mapping of Forest Harvesting using Dense   Time Series Sentinel-1 SAR Imagery and Deep Learning. Remote Sensing of   Environment, 269, 112822(2022). (中科院一区TOP,   IF = 10.164)

[J24] Meng, R. *, Gao,   R., Zhao, F., Huang, C., Sun, R., Lv, Z., & Huang, Z. Landsat-based   Monitoring of Southern Pine Beetle Infestation Severity and Severity Change   in a Temperate Mixed Forest. Remote Sensing of Environment, 269,   112847(2022). (中科院一区TOP,   IF = 10.164)

[J23]. Zeng,   L.L., Peng, G.Z., Meng, R. *, Man, J.G., Li, W.B., Xu,   B.Y., Lv, Z.G., & Sun, R. Wheat Yield Prediction Based on Unmanned Aerial   Vehicles-Collected Red-Green-Blue Imagery. Remote Sensing, 13,   2937(2021). (中科院二区TOP, IF = 4.848)

[J22]. Lv,   Z., Meng, R. *, Man, J. *, Zeng, L., Wang, M.,   Xu, B., Gao, R., Sun, R., & Zhao, F. Modeling of winter wheat fAPAR by   integrating Unmanned Aircraft Vehicle-based optical, structural and thermal   measurement. International Journal of Applied Earth Observation and   Geoinformation, 102, 102407(2021). (中科院一区,   IF = 5.933)

[J21]. Zeng,   L.L., Wardlow, B.D., Hu, S., Zhang, X., Zhou, G.Q., Peng, G.Z., Xiang, D.X.,   Wang, R., Meng, R., & Wu, W.X. A Novel Strategy to Reconstruct   NDVI Time-Series with High Temporal Resolution from MODIS Multi-Temporal   Composite Products. Remote Sensing, 13, 1397(2021). (中科院二区TOP,   IF = 4.848)

[J20]. Zeng,   L.L., Hu, Y.C., Wang, R., Zhang, X., Peng, G.Z., Huang, Z.Y., Zhou, G.Q.,   Xiang, D.X., Meng, R., Wu, W.X., & Hu, S. 8-Day and Daily Maximum   and Minimum Air Temperature Estimation via Machine Learning Method on a   Climate Zone to Global Scale. Remote Sensing, 13, 2355(2021). (中科院二区TOP,   IF = 4.848)

[J19].Xu, Y., Yu, L. *,   Peng, D., Zhao, J., Cheng, Y., Liu, X., Li, W., Meng, R., Xu, X. and   Gong, P., Annual 30-m land use/land cover maps of China for 1980–2015 from   the integration of AVHRR, MODIS and Landsat data using the BFAST algorithm. Science   China Earth Sciences, 63, pp.1390-1407 (2020)

[J18]. Meng, R. *, Lv,   Z. $,   Yan, J., Chen, G., Zhao, F., Zeng, L., & Xu, B. Development of Spectral   Disease Indices for Southern Corn Rust Detection and Severity Classification.   Remote Sensing, 12, 3233(2020). (中科院二区TOP,   IF = 4.848)

[J17]. Yang, D. *,   Meng, R. ,   Morrison, B. D., McMahon, A., Hantson, W., Hayes, D. J., ... & Serbin, S.   P. A Multi-Sensor Unoccupied Aerial System Improves Characterization of   Vegetation Composition and Canopy Properties in the Arctic Tundra. Remote   Sensing, 12(16), 2638(2020). (中科院二区TOP,   IF = 4.848)

[J16]. Guo, L. *,   Fu, P., Shi, T., Chen, Y., Zhang, H., Meng, R. and Wang, S., Mapping   field-scale soil organic carbon with unmanned aircraft system-acquired time   series multispectral images. Soil and Tillage Research, 196, p.104477   (2020). (中科院一区TOP, IF = 5.374)

[J15]. Serbin, S. *,   Wu, J., Ely, K., Kruger, E., Meng, R. et al., From the Arctic   to the tropics: multi‐biome prediction of leaf mass per area using leaf   reflectance, New Phytologist, DOI:10.1111/nph.16123(2019). (中科院一区TOP,   IF = 10.151)

2018年及以前

[J14]. Veraverbeke, S. *, Dennison, P., Gitas, L., Hulley, G., Kalashnikova, O., Katagis, T.,   Kuai, L., Meng, R., Roberts, D., and Stavros, N., Hyperspectral remote sensing of fire: state-of-the-art and   future perspectives, Remote Sensing of Environment, 216, 105-121 (2018). (中科院一区TOP, IF = 10.164)

[J13]. Meng, R. *, Dennison, P., Zhao, F.,   Shendryk, L., Cook, B., Havanan, R., and Serbin, S.P., Mapping canopy defoliation by insect herbivory at the individual   tree level using bi-temporal airborne imaging spectroscopy and LiDAR   measurements, Remote Sensing of   Environment, 215,170-183(2018).   (中科院一区TOP, IF = 10.164)

[J12]. Meng, R. *, Wu, J., Zhao, F., Cook, B.,   Havanan, R., and Serbin, S.P., Measuring   post-fire forest recovery across a burn severity gradient in a mixed pine-oak   forest using airborne imaging spectroscopy and LiDAR, Remote Sensing of Environment, 210,282-296(2018). (中科院一区TOP, IF = 10.164)

[J11]. Wu, J. *, Kobayashi, H., Starks, S.C., Meng, R., Guan, K., et al.,   Biological processes dominate seasonality of remotely sensed canopy greenness   in an Amazon evergreen forest. New Phytologist, 217,1507-1520 (2018).   (中科院一区TOP, IF = 10.151)

[J10]. Meng, R. *, Wu, J., Schwager, K., Zhao,   F., Dennison, P.E., Cook, B., Brewer, K., Green, T.M., and Serbin, S.P.,   Using high spatial resolution satellite imagery to map forest burn severity   across spatial scales in a Pine Barrens ecosystem. Remote Sensing of Environment, 191, 95-109 (2017). (中科院一区TOP, IF =   10.164)

[J9]. Ning, J. *, Gao,   Z., Meng, R., Xu, F., and Gao, M.,   Analysis of relationships between land surface temperature and land use   changes in the Yellow River Delta. Frontiers   of Earth Science, 2, 444-456, (2018).

[J8]. Wu, J. *, Serbin, S.P., Xu, X., Chen, M., Meng, R., Saleska, S.R., and   Rogers, A., The phenology of leaf quality and its within-canopy variation is   essential for accurate modeling of photosynthesis in tropical evergreen   forests. Global Change Biology, 23:4814-4827 (2017). (中科院一区TOP, IF = 10.863)

[J7]. Zhang, L*., Wei, Y. D., and Meng,  R., Spatiotemporal dynamics   and spatial determinants of urban growth in Suzhou, China, Sustainability, 9, 193 (2017).

[J6]. Zhao, R. F. *, Meng, R., Huang,   C., Zhao, A. F., Gong, P., Yu, L., Zhu, Z., Long-term post-disturbance forest recovery in the Greater Yellowstone   Ecosystem analyzed using Landsat time series stack, Remote Sensing, 8(11), 898 (2016). (中科院二区TOP，IF = 4.848)

[J5]. Meng, R. *, Dennison, P.,   Huang, C., Moritz, M., D’ Antonio, C.,   Effects of fire severity and post-fire climate on short-term vegetation   recovery of mixed-conifer and red fir forests in the Sierra Nevada Mountains   of California, Remote Sensing of   Environment, 171, 311-325 (2015). (中科院一区TOP,   IF = 10.164)

[J4]. Meng, R. , Zhao, F., Sun,   K., Zhang, R., Huang, C., Yang, J.*, Analysis of the 2014 “APEC Blue” in   Beijing using more than one decade of satellite observations: lessons learned   from radical emission control measures, Remote   Sensing, 7, 15224-15243 (2015). (中科院二区TOP，IF = 4.848)

[J3]. Meng, R. *, Dennison, P., Spectroscopic   analysis of green, desiccated and dead tamarisk canopies, Photogrammetric Engineering & Remote Sensing, 81(3), 199-207   (2015).

[J2]. Meng, R. *, Dennison, P., D’ Antonio, C.,   Moritz, M., Remote sensing analysis of vegetation recovery following   short-interval fires in southern California shrublands, PLoS ONE, 9(10): e110637 (2014).

[J1]. Meng, R. *, Dennison, P., Jamison., L,   van Riper, C., Nager, P., Hultine, K., Bean, D., Dudley, T., Detection   of tamarisk defoliation by the northern tamarisk beetle based on   multi-temporal Landsat 5 Thematic Mapper imagery, GIScience   & Remote Sensing, 49, 510-37 (2012). (中科院一区, IF = 6.238)  

研究生培养情况

实验室在读博士后1名，学术型博士4名，学术型硕士5名，专业硕士3名。

常年招聘博士后、博士研究生、学术型硕士研究生、专业硕士研究生；欢迎感兴趣的同学直接发送个人简历至邮箱mengran@mail.hzau.edu.cn进行联系，加入我们团队，共同奋斗，学习成长！