谭志强
谭志强 男,1986年生,副研究员,硕士生导师 电 话:025-86882125 E-mail:zqtan@niglas.ac.cn 传 真:025-57714759 |
研究领域及方向: 洪泛湿地水文生态过程,湖泊-流域水文遥感
简历:
谭志强,男,1986年生,山东威海人,江西省地理学会理事。2016年获中国科学院南京地理与湖泊研究所自然地理学博士学位,同年留所工作,历任助理研究员,副研究员。主要从事洪泛湿地水文生态过程、湖泊-流域水文遥感等方面研究。
先后主持国家自然科学基金(面上和青年项目)、江苏省自然科学基金和江西省自然科学基金等项目6项,并作为骨干参与国家973项目、中国科学院A类战略先导科技专项、国家重点研发计划项目、中国科学院STS项目等。自主研发了耦合关键水力学参数的水文连通性评估工具(CAST),软件得到中国软件测评中心认证,多项技术被江苏省科技查新咨询中心认定为国内领先和国际先进。此外,参编《全球生态环境遥感监测2021年度报告》,报告发布会被新闻联播、朝闻天下等主流媒体报道。
累计发表学术论文52篇,其中SCI论文33篇,CSCD论文19篇。目前以第一作者和通讯作者在Water Research、Water Resources Research和Journal of Hydrology等期刊发表学术论文14篇(其中JCR一区6篇),参与编写专著4部,受理专利3项,获批软件著作权登记1项。获“地湖所年度优秀科技成果奖”、 “地湖所先进个人”等荣誉。
代表性论著:
[1].Tan, Z.Q., Li, Y.L.*, Zhang, Q., Liu, X.G., Song, Y.Y., Xue, C.Y., Lu, J.Z. 2021. Assessing effective hydrological connectivity for floodplains with a framework integrating habitat suitability and sediment suspension behavior.Water Research, 201(9):117253. [2].Tan, Z.Q., Yao, J.*, Gong, L.Q., Li, Y.L., Zhang, Q., Wang, X.L., Wan, R.R., Li, B. 2023. Multidirectional shifts in hydrological connectivity result from hydraulic barriers. Water Resources Research, 59, e2022WR033617. [3].Tan Z.Q., Melack M.J., Li Y.L., Liu X.G., Chen B., Zhang Q*. 2020. Estimation of Water Volume in Ungauged, Dynamic Floodplain Lakes.Environmental Research Letters, 15, 054021. [4].Tan Z.Q., Li Y.L., Xu X.L., Yao J., Zhang Q*. 2019. Mapping inundation dynamics in a heterogeneous floodplain: Insights from integrating observations and modeling approach.Journal of Hydrology, 572, 148-159. [5].Tan Z.Q., Wang X.L., Chen B., Liu X.G., Zhang Q*. 2019. Surface water connectivity of seasonal isolated lakes in a dynamic lake-floodplain system.Journal of Hydrology. 579, 124-154. [6].Tan Z.Q., Zhang Q.*, Li M.F., Li Y.L., Xu X.L., Jiang J.H.2016. A study of the relationship between wetland vegetation communities and water regimes using a combined remote sensing and hydraulic modeling approach.Hydrology Research, 47(S1): 278-292. [7].Tan Z.Q., Tao H., Jiang J.H.*, Zhang Q. 2015. Influences of Climate Extremes on NDVI (Normalized Difference Vegetation Index) in Poyang Lake Basin, China.Wetlands, 35(6): 1033-1042. [8].Tan Z.Q., Chen P., Zhang Q, Jiang J.H*. 2020. Vegetation Changes in the Poyang Lake Wetland Linked to the Three Gorges Dam: an Assessment Based on Moderate Resolution Imaging Spectroradiometer (MODIS) Observations from 2000 to 2012.Wetlands, (2019)39: 151-163. [9].Tan Z.Q., Jiang J.H*.2016. Spatial–Temporal Dynamics of Wetland Vegetation Related to Water Level Fluctuations in Poyang Lake, China.Water, 8(9): 397. [10].Tan Z.Q., Ai T.C.*, Lu X.Z., Cai Q.N., Liu C. 2012. Influences of Soil Fertility on Spatial Patterns of Aphis Gossypii Glover (Homoptera: Aphididae) Occurred in Bt-cotton Plants.Advance Journal of Food Science & Technology, 4(6): 377-382. [11].Li Y.L.*,Tan Z.Q.*, Zhang Q., Liu X.G., Chen J., Yao J. 2021. Refining the concept of hydrological connectivity for large floodplain systems: Framework and implications for eco-environmental assessments.Water Research. 195, 117005. [12].谭志强, 李云良, 张奇*等. 湖泊湿地水文过程研究进展.湖泊科学, 2022, 34(3):18-37 [13].谭志强, 张奇*, 李云良, 许秀丽, 姜加虎. 鄱阳湖湿地典型植物群落沿高程分布特征.湿地科学. 2016. 4(14): 506-515 [14].谭志强, 金卫斌, 艾天成*.. 湖北省荆州市农村不同类型饮水水质分析湖北农业科学. 2011. 6(50): 1142-1145 [15].谭志强, 许秀丽, 李云良, 张奇*. 长江中游大型通江湖泊湿地格局演变特征.长江流域资源与环境. 2017.26(10): 1619-1629