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长沙理工大学水利与环境工程学院研究生导师基本信息表

一、个人基本信息

    名:黄志勇

   别: 男

籍贯:湖南湘潭

       

   族:汉族

政治面貌:中共党员(2011年入党

出生年月:1990年9月

技术职称: 讲师(硕导)

毕业院校 香港大学

学历(学位研究生(哲学博士

所在学科: 水文与水资源工程系 地理信息科学专业

联系电话:15292292593      联系邮箱:huangzy9084@126.com

学术主页:https://www.researchgate.net/profile/Huang-Zhiyong?ev=hdr_xprf

学习和工作经历

教育经历:

(1) 2017-07 至 2021-12, 香港大学遥感水文博士(导师:焦赳赳 教授

(2) 2012-09 至 2015-06, 首都师范大学地图学与地理信息系统硕士

(导师:潘云 教授)

(3) 2008-09 至 2012-06, 衡阳师范学院地理信息系统学士

(导师:邓运员 教授 邓美容


科研与学术工作经历:

(1) 2021-12 至 今, 长沙理工大学水利与环境工程学院讲师

(2) 2017-07 至 2021-06, 香港大学地球科学系助教

(3) 2015-07 至 2017-05, 首都师范大学资源环境与旅游学院科研助理

三、目前研究领域

1.遥感水文:侧重利用重力卫星、测高卫星和可见光遥感卫星,水文模型和地面实测等多源数据在不同空间尺度上探究地表水、地下水储量变化、陆地水均衡与水循环、干旱和洪涝监测,助力水资源和水安全监测、评估与预测


2.生态水文学:侧重合多源遥感、模型和实测数据探究极端气候事件(如,干旱)对植被生长的影响以及碳水循环与植被变化的相互作用,助力生态文明建设

、主持在研或已完成主要课题

1.国家自然科学基金青年科学基金项目,42301404,利用卫星重力探究岩溶区地下水储量动态规律及干旱机制,2024-01至2026-12,主持,在研

2.湖南省自然科学基金青年基金项目,2022JJ40480,洞庭湖流域长期水文干旱特征及其对气候变化响应关系研究,2022-01-01至2024-12-31,主持,在研

3.长沙理工大学引进人才科研启动项目,联合多源遥感、实测和模型数据监测地下水储量变化,2021-12至2024-12,主持,在研

4.国家自然科学基金委员会面上项目41877172, 珠江三角洲弱透水层―含水层地区的碳循环机理以二氧化碳和甲烷排放机制的研究2019-01-01 至 2022-12-31,已结题参与

5.香港大学浙江科学技术研究院科研创新团队启动基金 EE403, 地下水对太湖水量与生源物质及其对环境与生态影响2018-06 至 2019-12, 已结题,参与

6.首都师范大学-中国地质环境监测研究院合作项目:利用GRACE重力卫星研究汾渭盆地地下水储量变化2015-2017已结题,参与

、主要研究成果

一作或通讯作者(*)论文:

(1)Huang, Z. Y., Pat J.-F. Yeh, Jiu Jimmy Jiao*, Xin Luo, Yun Pan, Longqun Zheng, Chong Zhang, Yuannan Long, 2023, A new approach for assessing groundwater recharge by combining GRACE and baseflow with case studies in karst areas of southwest China, Water Resources Research, 59, e2022WR032091. https://doi.org/10.1029/2022WR032091. (IF=5.240,中科院一区TOP)

2Deng B, Xiong K, Huang, Z. Y.*, C. Jiang, J. Liu, W. Luo, Y. Xiang, 2022, Monitoring and Predicting Channel Morphology of the Tongtian River, Headwater of the Yangtze River Using Landsat Images and Lightweight Neural Network. Remote Sensing, 14(13): 3107. (IF=4.848, 中科院二区TOP)

(3)Huang, Z. Y., J. J. Jiao*, X. Luo, Y. Pan, and T. Y. Jin, 2021, Drought and flood characterization and connection to climate variability in Pearl River Basin, Southern China using long-term GRACE and reanalysis data, Journal of Climate, 34(6), 2053-2078, doi: 10.1175/JCLI-D-20-0332.1. (IF=5.148,中科院一区TOP)

4Huang, Z. Y., J. J. Jiao*, X. Luo, Y. Pan, and C. Zhang, (2019). Sensitivity analysis of leakage correction of GRACE data in Southwest China using a-priori model simulations: inter-comparison of spherical harmonics, mass concentration and in situ observations. Sensors, 19(14), 3149. doi: 10.3390/s19143149. (IF=3.576 , 中科院三区)

5Huang, Z. Y., Pat J.-F. Yeh*, Y. Pan*, J. J. Jiao, H.L. Gong, X.J. Li, A. Güntner, Y.Q. Zhu, C. Zhang, and L.Q. Zheng, 2019, Detection of large-scale groundwater storage variability over the karstic regions in Southwest China, Journal of Hydrology,569, 409-422, doi: 10.1016/j.jhydrol.2018.11.071. (IF=5.722, 中科院一区TOP)

6Huang, Z. Y., Y. Pan*, H. L. Gong, P. J.-F. Yeh, X. Li, D. Zhou and W. Zhao (2015), Subregional-scale groundwater depletion detected by GRACE for both shallow and deep aquifers in North China Plain. Geophysical Research Letters, 42, 1791-1799, doi: 10.1002/2014GL062498. (IF=4.720,中科院一区TOP)


合作论文:

(1)Long Y. N.*, , W. W. Chen, C. B. Jiang, Z. Y. Huang, S. X. Yan, X. F. Wen, 2023, Improving streamflow simulation in Dongting Lake Basin by coupling hydrological and hydrodynamic models and considering water yields in data-scarce areas, Journal of Hydrology: Regional Studies. DOI: 10.1016/j.ejrh.2023.101420 (中科院二区)

2Zhang, C. Q. Y. Duan*, P. J.-F. Yeh, Y. Pan, H. L. Gong, H. Moradkhanih, W. Gong, X. H. Lei, W. H. Liao, L. Xu, Z. Y. Huang, L. Q, Zheng, X. R. Guo, 2021, Sub-regional groundwater storage recovery in North China Plain after the South-to-North water diversion project. Journal of Hydrology, 597, 126156. doi: 10.1016/j.jhydrol.2021.126156. (IF=5.722, 中科院一区TOP)

3Zhang, C., Q. Duan*, P. J.-F. Yeh, Y. Pan, H. Gong, W. Gong, Z. Di, X. Lei, W. Liao, Z. Y. Huang, and L. Zheng, X. Guo, 2020, The effectiveness of the South‐to‐North Water Diversion Middle Route Project on water delivery and groundwater recovery in North China Plain. Water Resources Research, 56(10). doi: 10.1029/2019WR026759. (IF=5.240,中科院一区TOP该论文被评为国际华人青年水科学协会2020年杰出论文)

4Zheng, L., Y. Pan*, H. Gong, Z. Y. Huang, and C. Zhang, 2020. Comparing Groundwater Storage Changes in Two Main Grain Producing Areas in China: Implications for Sustainable Agricultural Water Resources Management. Remote Sensing, 12(13), p.2151. doi: 10.3390/rs12132151. (IF=4.848, 中科院二区TOP)

5Yin, W., T. Li*, W. Zheng*, L. Hu, S.-C. Han, N. Tangdamrongsub, M. Šprlák, and Z. Y. Huang, 2020. Improving regional groundwater storage estimates from GRACE and global hydrological models over Tasmania, Australia. Hydrogeology Journal, 28, 1809–1825. doi: 10.1007/s10040-020-02157-3. (IF=3.178, 中科院三区)

6Li, S., J. Chen, J. Xiang, Y. Pan, Z. Y. Huang, and Y. Wu, 2019. Water level changes of Hulun Lake in Inner Mongolia derived from Jason satellite data. Journal of Visual Communication and Image Representation, 58, 565-575. doi: 10.1016/j.jvcir.2018.12.031. (IF=2.678,中科院三区)

7Gong, H., Y. Pan*, L. Zheng, X. Li, L. Zhu, C. Zhang, Z. Y. Huang, Z. Li, H. Wang, C. Zhou, (2018), Long-term groundwater storage changes and land subsidence development in the North China Plain (1971-2015), Hydrogeology Journal, doi:10.1007/s10040-018-1768-4. ( IF=3.178, 中科院三区)

8Pan, Y., C. Zhang*, H. L. Gong, P. J.-F. Yeh, Y. Shen, Y. Guo, Z. Y. Huang and X. Li (2017), Detection of human-induced evapotranspiration using GRACE satellite observations in the Haihe River Basin of China, Geophysical Research Letters, 44(1), 190–199, doi: 10.1002/2016GL071287. (IF=4.720,中科院TOP)

9宫辉力*,李小娟,潘云,朱琳,张有全,陈蜜,陈蓓蓓,柯樱海,王彦兵,高明亮,黄志勇,李勇永,2017,京津冀地下水消耗与区域地面沉降演化规律,中国科学基金,(1):72-77. (邀稿CSCI)

10束秋妍,潘云*,宫辉力,黄志勇,郑龙群,2018, 基于GRACE的华北平原地下水储量时空变化分析, 国土资源遥感,30(2):132-137. (CSCD)



教育教学

主讲课程:

地理信息系统原理、地理信息系统设计与开发、ArcGIS开发与应用、空间数据库

指导硕士生(*合作导师):

周思婷(2022-2025*)、蒋沂澄(2022-2025*)、胡庆麟(2023-2026*)、龙彩欣(2023-2026

指导本科生:

古天豪, 庞凯夫, 蒋培琰, 周思婷.中国陆地水储量与植被覆盖时空变化及其时滞性特征,2023易智瑞杯中国大学生GIS软件开发竞赛·遥感应用组二等奖,并被评为“优秀指导教师”。

古天豪,黄铭昊,刘轩宇,杨享运. 基于重构的重力卫星数据监测南方岩溶区长期水文干旱及对气候变化的响应, 大学生创新训练项目, 推荐省级

蒋培琰,庞凯夫,汪雨菡,周吕思. 利用卫星重力探测湘江流域地下水储量动态及干旱特征,大学生创新训练项目, 推荐校级。

、所获学术荣誉及学术影响

香港大学研究生奖学金(2017-2021);

首都师范大学研究生二等学业奖学金2014)

国家励志奖学金,湖南省教育厅(2008-2010)

. 学术兼职与学术活动

学术兼职:

香港气象学会会员(2021-2022)

Journal of Hydrology, Scientific Report, Geocarto International, All Earth,地理科学,等期刊审稿人。


特邀报告:

黄志勇(2023),西南岩溶区地下水储量变化卫星重力监测与探析,中国科学院亚热带农业生态

研究所·环江喀斯特站,2023年青促会学术沙龙(第三十期)。 Huang, Z. Y. (2022), Monitoring Groundwater Storage Dynamics Using Satellite Gravimetry (利用卫

星重力监测地下水储量动态), ARMA × Friday Seminar, Department of Civil Engineering,

Monash University, Australia, 线上英文口头报告

   (报告视频链接:https://pan.baidu.com/s/1LIW8UO72afw2s3GwGr0HtA, 提取码:1fyd)

大会报告:

黄志勇,利用重力卫星监测典型岩溶区地下水储量动态,第一届中国重力卫星测量与科学应用年度论坛暨第六届“卫星重力与水文学”论坛,深圳,2023,大会报告。

黄志勇,一种联合重力卫星和基流分割评估地下水补给的新方法:以我国西南岩溶区为例, 2022,国际华人青年水科学协会(CYWater)第十届夏季会议线上中文口头报告。

Huang, Z., Y. Pan, P. J.-F. Yeh, D. Long, H. Gong, A. Güntner, et al., (2016), Monitoring groundwater storage changes in a karst area of Southwest China using GRACE satellites: challenges and opportunities, 1st Workshop on Satellite Gravity and Hydrology, Beijing, China. (英语口头报告)

会议摘要:

Huang Z. Y., Jiu Jimmy Jiao, Xin Luo, Yun Pan, Taoyong Jin, 2021, Drought and Flood Characterization and Connection to Climate Variability in the Pearl River Basin in Southern China Using Long-Term GRACE and MERRA-2 Reanalysis Data: the Role of Reservoir Storage Change, In AGU Fall Meeting, Conference Abstracts with Poster.

Huang Z. Y., Jiu Jimmy Jiao, Xin Luo, 2021, Have GRACE Satellites Detected Interbasin Groundwater Flow in Karst Areas of Southwest China? In AGU Fall Meeting, Conference Abstracts with Poster.

Huang, Z., J. J. Jiao, X. Luo, and Y. Pan, 2020, Drought and flood monitoring and connection to climate  variability in Pearl River Basin, Southern China using GRACE data. In EGU General Assembly Conference Abstracts (p. 4600).

Zheng, L., Y. Pan*, H. Gong, P. J.-F. Yeh, C. Zhang, Z. Huang, 2016, Long-term groundwater storage changes in Haihe River Basin, China, from GRACE and in situ observations, the 43rd IAH congress, Abstracts with poster.

Yeh, P. J.-F*., Y. Pan, and Z. Huang, 2015, On the Consistency between GRACE, In-situ Observed and Modeled Terrestrial Water Storage, AGU Fall Meeting, Abstracts.

Pan, Y*, Z. Huang, P. J.-F. Yeh and H. Gong, 2014, GRACE-Derived groundwater depletion from both shallow and deep aquifers within North China Plain, AGU Fall Meeting, Abstracts with poster, 1, 0579.

Pan, Y*, Z. Huang and H. Gong, 2013, Remotely-sensed groundwater depletion in North China plain: evidences for enhanced lateral recharge, AGU Fall Meeting, Abstracts with poster, 1, 1506.

诚挚欢迎水文、水利、地理、遥感、测绘、生态、数学、计算机、地质等相关学科、专业或方向的同学们报考!!!





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