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長沙理工大學水利與環(huán)境工程學院研究生導師基本信息表

一、個人基本信息

    名:黃志勇

   別: 男

籍貫:湖南湘潭

       

   族:漢族

政治面貌:中共黨員(2011年入黨

出生年月:1990年9月

技術職稱: 講師(碩導)

畢業(yè)院校 香港大學

學歷(學位研究生(哲學博士

所在學科: 水文與水資源工程系 地理信息科學專業(yè)

聯(lián)系電話:15292292593      聯(lián)系郵箱:huangzy9084@126.com

學術主頁:https://www.researchgate.net/profile/Huang-Zhiyong?ev=hdr_xprf

學習和工作經(jīng)歷

教育經(jīng)歷:

(1) 2017-07 至 2021-12, 香港大學,遙感水文博士(導師:焦赳赳 教授

(2) 2012-09 至 2015-06, 首都師范大學地圖學與地理信息系統(tǒng),碩士

(導師:潘云 教授)

(3) 2008-09 至 2012-06, 衡陽師范學院地理信息系統(tǒng),學士

(導師:鄧運員 教授 鄧美容


科研與學術工作經(jīng)歷:

(1) 2021-12 至 今, 長沙理工大學,水利與環(huán)境工程學院講師

(2) 2017-07 至 2021-06, 香港大學,地球科學系,助教

(3) 2015-07 至 2017-05, 首都師范大學,資源環(huán)境與旅游學院,科研助理

三、目前研究領域

1.遙感水文:側重利用重力衛(wèi)星、測高衛(wèi)星和可見光遙感衛(wèi)星,水文模型和地面實測等多源數(shù)據(jù)在不同空間尺度上探究地表水、地下水儲量變化、陸地水均衡與水循環(huán)、干旱和洪澇監(jiān)測,助力水資源和水安全監(jiān)測、評估與預測。


2.生態(tài)水文學:側重聯(lián)合多源遙感、模型和實測數(shù)據(jù)探究極端氣候事件(如,干旱)對植被生長的影響以及碳、水循環(huán)與植被變化的相互作用,助力生態(tài)文明建設。

、主持在研或已完成主要課題

1.國家自然科學基金青年科學基金項目,42301404,利用衛(wèi)星重力探究巖溶區(qū)地下水儲量動態(tài)規(guī)律及干旱機制,2024-01至2026-12,主持,在研,

2.湖南省自然科學基金青年基金項目,2022JJ40480,洞庭湖流域長期水文干旱特征及其對氣候變化響應關系研究,2022-01-01至2024-12-31,主持,在研。

3.長沙理工大學引進人才科研啟動項目,聯(lián)合多源遙感、實測和模型數(shù)據(jù)監(jiān)測地下水儲量變化,2021-12至2024-12,主持,在研

4.國家自然科學基金委員會,面上項目41877172, 珠江三角洲弱透水層―含水層地區(qū)的碳循環(huán)機理以二氧化碳和甲烷排放機制的研究,2019-01-01 至 2022-12-31,已結題參與。

5.香港大學浙江科學技術研究院,科研創(chuàng)新團隊啟動基金, EE403, 地下水對太湖水量與生源物質(zhì)及其對環(huán)境與生態(tài)影響,2018-06 至 2019-12, 已結題,參與。

6.首都師范大學-中國地質(zhì)環(huán)境監(jiān)測研究院合作項目:利用GRACE重力衛(wèi)星研究汾渭盆地地下水儲量變化,2015-2017,已結題,參與。

、主要研究成果

一作或通訊作者(*)論文:

(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,中科院一區(qū)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, 中科院二區(qū)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,中科院一區(qū)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 , 中科院三區(qū))

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, 中科院一區(qū)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,中科院一區(qū)TOP)


合作論文:

(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 (中科院二區(qū))

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, 中科院一區(qū)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,中科院一區(qū)TOP該論文被評為國際華人青年水科學協(xié)會2020年杰出論文)

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, 中科院二區(qū)TOP)

5Yin, W., T. Li*, W. Zheng*, L. Hu, S.-C. Han, N. Tangdamrongsub, M. ?prlák, 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, 中科院三區(qū))

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,中科院三區(qū))

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, 中科院三區(qū))

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,中科院區(qū)TOP)

9宮輝力*,李小娟,潘云,朱琳,張有全,陳蜜,陳蓓蓓,柯櫻海,王彥兵,高明亮,黃志勇,李勇永,2017,京津冀地下水消耗與區(qū)域地面沉降演化規(guī)律,中國科學基金,(1):72-77. (邀稿,CSCI)

10束秋妍,潘云*,宮輝力,黃志勇,鄭龍群,2018, 基于GRACE的華北平原地下水儲量時空變化分析, 國土資源遙感,30(2):132-137. (CSCD)



、教育教學

主講課程:

地理信息系統(tǒng)原理、地理信息系統(tǒng)設計與開發(fā)、ArcGIS開發(fā)與應用、空間數(shù)據(jù)庫

指導碩士生(*合作導師):

周思婷(2022-2025*)、蔣沂澄(2022-2025*)、胡慶麟(2023-2026*)、龍彩欣(2023-2026

指導本科生:

古天豪, 龐凱夫, 蔣培琰, 周思婷.中國陸地水儲量與植被覆蓋時空變化及其時滯性特征,2023易智瑞杯中國大學生GIS軟件開發(fā)競賽·遙感應用組,二等獎,并被評為“優(yōu)秀指導教師”。

古天豪,黃銘昊,劉軒宇,楊享運. 基于重構的重力衛(wèi)星數(shù)據(jù)監(jiān)測南方巖溶區(qū)長期水文干旱及對氣候變化的響應, 大學生創(chuàng)新訓練項目, 推薦省級。

蔣培琰,龐凱夫,汪雨菡,周呂思. 利用衛(wèi)星重力探測湘江流域地下水儲量動態(tài)及干旱特征,大學生創(chuàng)新訓練項目, 推薦校級。

、所獲學術榮譽及學術影響

香港大學研究生獎學金(2017-2021);

首都師范大學研究生二等學業(yè)獎學金2014);

國家勵志獎學金,湖南省教育廳(2008-2010)

. 學術兼職與學術活動

學術兼職:

香港氣象學會會員(2021-2022)

Journal of Hydrology, Scientific Report, Geocarto International, All Earth,地理科學,等期刊審稿人。


特邀報告:

黃志勇(2023),西南巖溶區(qū)地下水儲量變化衛(wèi)星重力監(jiān)測與探析,中國科學院亞熱帶農(nóng)業(yè)生態(tài)

研究所·環(huán)江喀斯特站,2023年青促會學術沙龍(第三十期)。 Huang, Z. Y. (2022), Monitoring Groundwater Storage Dynamics Using Satellite Gravimetry (利用衛(wèi)

星重力監(jiān)測地下水儲量動態(tài)), ARMA × Friday Seminar, Department of Civil Engineering,

Monash University, Australia, 線上英文口頭報告

   (報告視頻鏈接:https://pan.baidu.com/s/1LIW8UO72afw2s3GwGr0HtA, 提取碼:1fyd)

大會報告:

黃志勇,利用重力衛(wèi)星監(jiān)測典型巖溶區(qū)地下水儲量動態(tài),第一屆中國重力衛(wèi)星測量與科學應用年度論壇暨第六屆“衛(wèi)星重力與水文學”論壇,深圳,2023,大會報告。

黃志勇,一種聯(lián)合重力衛(wèi)星和基流分割評估地下水補給的新方法:以我國西南巖溶區(qū)為例, 2022,國際華人青年水科學協(xié)會(CYWater)第十屆夏季會議線上中文口頭報告。

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. (英語口頭報告)

會議摘要:

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.

誠摯歡迎水文、水利、地理、遙感、測繪、生態(tài)、數(shù)學、計算機、地質(zhì)等相關學科、專業(yè)或方向的同學們報考!??!





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