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教授
蔡崇法
发布人:发布时间:2016-05-23

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姓名:蔡崇法   职称:永利集团3044教授

政治面貌:中共党员

E-mailcfcai@mail.hzau.edu.cn      电话:13507184049

研究方向:1.水土保持与荒漠化防治土壤侵蚀机理          2.生态学恢复生态

                      3. 资源环境信息工程地理信息与遥感应用         4.土壤学土壤侵蚀与土壤地理


Cai Chongfa   Professor

Technical Areas:

Soil erosion mechanisms; Soil and water conservation

Research Interests:

The mechanism, process and prediction of soil erosion in southern China; the interaction between soil structure and soil erosion; the application of GIS and remote sensing on soil erosion prediction, regional hazard assessment, regional development, and erosion control; evaluation and management of the quality for cultivated lands; the control of non-point source pollution agricultural system; the structure and functionality of agroforestry composite system.


 

个人简介

教授、博士生导师。长期从事土壤侵蚀与水土保持研究工作,主要研究南方主要土壤的侵蚀机理、过程和预测,在土壤结构与侵蚀相互关系、基于GIS和遥感的土壤侵蚀预测与区域危害评价、区域发展与土壤侵蚀防控、耕地质量评价与管理、农业面源污染控制、坡地农林复合系统的结构与功能等方面做了大量的研究工作,主持国家自然基金重点项目、科技专项计划课题等国家级研究课题20项。Soil & Tillage ResearchGeodermaAgriculture, Ecosystems & EnvironmentSoil Science Society of America JournalJournal of Hydrology等国内外重要学术刊物上发表论文共230余篇,其中SCI收录78篇。已指导博士30,硕士70名。


 

工作经历

2001-至今,永利集团3044教授

2011-2016,农业部长江中下游耕地保育重点实验室主任

2002-2010,永利集团3044经理

1997-2001,永利集团3044副教授

1991-1996, 永利集团3044讲师

Work Experience

n Professor (2001-present), Associate Professor (1997-2001), Assistant Professor (1991-1996), College of Resources and Environment, Huazhong Agricultural University.

n Director of the Key Laboratory of cultivated land conservation in the middle and lower reaches of the Yangtze River for the Department of Agriculture (2011-2016).

n Dean of College of Resources and Environment (2002-2010).


 

教育经历

2002-2003,美国农业部国家泥沙实验室NSL访问学者、博士后

1994-1998,永利304官方入口,土壤学,博士

1983-1986,永利304官方入口,土壤学,硕士

1979-1983,华中农学院,土壤农化,学士

Educational background

n 2002-2003, Research Scholar in Sediment laboratory, United States Department of Agriculture

n 1994-1998, Ph.D. in Huazhong Agricultural University

n 1983-1986, M.S. in Huazhong Agricultural University

n 1979-1983, B.S. in Huazhong Agricultural University


 

教学情况

本科生:水土保持前沿、资源环境学导论、土壤调查与评价、土壤地理、地理信息系统原理、林业土壤学

硕士生:土壤地理、水土保持专题

博士生:资源环境信息研究进展、高级土壤学(部分)


 

学术兼职

Journal of Soil and Water Conservation副主编

先后担任《土壤学报》、《永利304官方入口学报》(自科版)、《中国水土保持科学》、《水土保持学报》、《土壤》、《水土保持通报》、《亚热带水土保持》编委

中国土壤学会常务理事

中国环境资源与生态保育学会常务理事

中国水土保持学会理事

中国地理学会教育专业委员会委员

中国自然资源学会农业资源专业委员会委员

教育部高等学校地理科学类专业指导委员会委员

全国土壤质量标准化技术委员会委员

教育部高等学校水土保持与荒漠化防治专业教材编写指导委员会委员

农业部耕地质量建设与管理专家指导组成员

黄土高原土壤侵蚀与旱地农业国家重点实验室学术委员会委员

红壤野外科学观测研究国家站学术委员会委员

湖北省土壤肥料学会理事长

湖北省水土保持学会副理事长


 

主要科学研究

1. 花岗岩风化岩区崩岗形成机理研究(国家自然科学基金重点项目)

2. 红壤团聚体稳定性与坡面侵蚀过程(国家自然科学基金重点项目)

3. 地带性土壤团聚体抗侵蚀稳定性及其与铁铝氧化物(国家自然科学基金面上项目)

4. 等高绿篱对浅沟流及泥沙淤积过程的影响(国家自然科学基金面上项目)

5. 等高绿篱-坡地农林复合系统分组间养分竞争特性(国家自然科学基金面上项目)

6. 农林复合系统养分流失规律研究(国家自然科学基金面上项目)

7. 农业面源和重金属污染管理决策系统研发(国家重点研发计划)

8. 长江流域水土保持动态监测协作项目:丹江口库区、湘资沅澧等重点治理区等水土流失动态监测遥感解译(部委级科研项目)

9. 江西省土系、湖北省土系调查(科技部基础专项)

10. 南方紫色砂页岩区坡耕地水土流失综合治理试验观测项目(部委级科研项目)

11. 亚热带农林复合生态模式及效益研究(中央高校基本科研业务费项目)

12. 红壤水土流失阻控技术研究(国家科技支撑计划课题)

13. 南方红壤和紫色土丘陵区土壤侵蚀过程及影响因子定量评价(973计划)

14. 三峡库区节水技术研究与示范(科技部三峡专项863)

15. 南方红壤带北部低丘岗农林复合发展模式与技术研究(国家十五攻关)

16. 红壤侵蚀与红壤结构变化的相互作用机理与调控(973计划)

17. 土壤侵蚀与环境生态(湖北省创新群体)


 

主要奖励

参加完成的科研项目,先后湖北省科技进步二等奖、国家科技进步二等奖、湖北省科技成果推广二等奖、江西省科技进步二等奖、获得长江水利委员会科技进步二等奖、中国科学院科技进步二等奖、全国农牧渔业丰收奖二等奖、教育部自然科学奖二等奖等十多项


 

主要论文

[1] Wei YJ, Wu XL, Xia JW, Zeng RB, Cai CF, Wang TW. Dynamic study of infiltration rate for soils with varying degrees of degradation by water erosion[J]. International Soil and Water Conservation Research, 2019, 7(2): 167-175.

[2] Wei YJ, Wu XL, Xia JW, Miller GA, Cai CF, et al. The effect of water content on the shear strength characteristics of granitic soils in South China[J]. Soil and Tillage Research, 2019, 187:50-59.

[3] Xia JW, Cai CF, Wei YJ, Wu XL. Granite residual soil properties in collapsing gullies of south China: spatial variations and effects on collapsing gully erosion[J]. Catena, 2019, 174:469-477.

[4] Wu XL, Wei YJ, Wang JG, Xia JW, Cai CF, et al. Effects of soil type and rainfall intensity on sheet erosion processes and sediment characteristics along the climatic gradient in central-south China[J]. Science of the Total Environment, 2018, 621: 54-66.

[5] Wei YJ, Wu XL, Li XY, Xia JW, Cai CF, et al. A Novel and Facile Method for Characterizing Shrinkage Geometry along the Granitic Soil Profile [J]. Soil Science Society of America Journal, 2018, 82: 20-30.

[6] Wu XL, Wei YJ, Wang JG, Cai CF, et al. RUSLE erodibility of heavy-textured soils as affected by soil type, erosional degradation, and rainfall intensity: A field simulation [J]. Land Degradation and Development, 2018, 29(3), 408-421.

[7] Deng YS, Duan XQ, Ding SW, Cai CF, Chen JZ. Suction stress characteristics in granite red soils and their relationship with the collapsing gully in south China[J]. Catena, 2018, 171:505-522.

[8] Xia D, Zhao BQ, Liu DX, Deng YS, Cheng H, Yan YJ, Ding SW, Cai CF*. Effect of soil moisture on soil disintegration characteristics of different weathering profiles of collapsing gully in the hilly granitic region, South China [J]. Plos One, 2018, 13(12).

[9] Shao Y, Cai CF, Zhang HT, Fu W, Zhong XM, Tang S. Controlling factors of soil selenium distribution in a watershed in Se-enriched and longevity region of South China[J]. Environmental Science and Pollution Research, 2018, 25(20):20048-20056.

[10] Luo Y, Li S, Tan WF, Qiu GH, Liu F, Cai CF. PREPUBLICATION: Oxidation and catalytic oxidation of dissolved sulfide by manganite in aqueous systems [J]. Clays and Clay Minerals, 2017, 65(5):299-309.

[11] Wu XL, Wei YJ, Wang JG, Xia JW, Cai CF, et al. Effects of erosion degree and rainfall intensity on erosion processes for Ultisols derived from quaternary red clay [J]. Agriculture, Ecosystems and Environment, 2017, 249: 226-236.

[12] Wu XL, Wei YJ, Wang JG, Wang D, Cai CF, et al. Effects of soil physicochemical properties on aggregate stability along a weathering gradient [J]. Catena, 2017, 156: 205-215.

[13] Wang JG, Yu B, Yang W, Cheng JN, Song YR, Cai CF. The abrasion of soil aggregate under different artificial rough beds in overland flow [J]. Catena, 2017, 155:183-190.

[14] Deng YS, Cai CF, Xia D, Ding SW, Chen J. Fractal features of soil particle size distribution under different land-use patterns in the alluvial fans of collapsing gullies in the hilly granitic region of southern China [J]. Plos One, 2017, 12(3): e0173555.

[15] Deng YS, Cai CF, Xia D, Ding SW, Chen JZ, Wang TW. Soil Atterberg limits of different weathering profiles of the collapsing gullies in the hilly granitic region of southern China[J]. Solid Earth, 2017, 8(2):499-513.

[16] Ye C, Guo ZL, Li ZX, Cai CF. The effect of Bahiagrass roots on soil erosion resistance of Aquults in subtropical China [J]. Geomorphology, 2017, 285: 82-93.

[17] Guo ZL, Ma MJ, Cai CF, Wu YW. Combined effects of simulated rainfall and overland flow on sediment and solute transport in hillslope erosion [J]. Journal of Soils and Sediments, 2017: 1-13.

[18] Zhang Y, Wang TW, Cai CF, et al. Landscape pattern and transition under natural and anthropogenic disturbance in an arid region of northwestern China[J]. International Journal of Applied Earth Observation and Geoinformation, 2016, 44: 1-10.

[19] Wu XL, Cai CF, Wang J, Wei YJ, Wang S. Spatial variations of aggregate stability in relation to sesquioxides for zonal soils, South-central China [J]. Soil and Tillage Research, 2016, 157: 11-22.

[20] Wei YJ, Wu XL, Xia JW, Shen X, Cai CF. Variation of Soil Aggregation along the Weathering Gradient: Comparison of Grain Size Distribution under Different Disruptive Forces[J]. Plos One, 2016, 11(8): e0160960.

[21] Xia D, Ding SW, Long L, Deng YS, Wang QX, Wang SL, Cai CF. Effects of collapsing gully erosion on soil qualities of farm fields in the hilly granitic region of South China[J]. Journal of Integrative Agriculture, 2016, 15(12):2873-2885.

[22] Xia D, Deng YS, Wang SL, Ding SW, Cai CF. Fractal features of soil particle-size distribution of different weathering profiles of the collapsing gullies in the hilly granitic region, south China [J]. Natural Hazards, 2015, 79(1): 455-478.

[23] Ma RM, Cai CF, Li ZX, et al. Evaluation of soil aggregate microstructure and stability under wetting and drying cycles in two Ultisols using synchrotron-based X-ray micro-computed tomography [J]. Soil and Tillage Research, 2015, 149: 1-11.

[24] Ma RM, Cai CF, Wang JG, Wang TW, et al. Partial least squares regression for linking aggregate pore characteristics to the detachment of undisturbed soil by simulating concentrated flow in Ultisols (subtropical China) [J]. Journal of Hydrology, 2015, 524: 44-52.

[25] Wei YJ, Wu XL, Cai CF. Splash erosion of clay–sand mixtures and its relationship with soil physical properties: The effects of particle size distribution on soil structure [J]. Catena, 2015, 135: 254-262.

[26] Guo ZL, Zhao SH, Jiang J, Cai CF*. Nitrogen mineralization controlled by N/P ratio of plant residues from riparian buffer strip[J]. European Journal of Soil Biology, 2015, 67: 5-11.

[27] Zhang Y, Li CG, Wang TW, Cai CF, Bao YZ. County-level patterns of cropland and their relationships with socio-economic factors in northwestern China[J]. Agriculture, Ecosystems and Environment, 2015, 203: 11-18.

[28] Rahman MR, Shi ZH, Cai CF. Assessing regional environmental quality by integrated use of remote sensing, GIS, and spatial multi-criteria evaluation for prioritization of environmental restoration [J]. Environmental monitoring and assessment, 2014, 186(11): 6993-7009.

[29] Wang JG, Li ZX, Cai CF, Yang W, Ma RM, Zhang GB. 2013. Effects of stability, transport distance and two hydraulic parameters on aggregate abrasion of Ultisols in overland flow [J]. Soil and Tillage Research, 126: 134-142.

[30] Liu G, Liu PL, Yang MY, Cai CF, et al. The significance and relationships among substitutive climatic proxies in the Holocene at the middle Loess Plateau in China [J]. Environmental earth sciences, 2013, 70(7): 2997-3004.

[31] Li ZX, Yang W, Cai CF, et al. Aggregate Mechanical Stability and Relationship With Aggregate Breakdown Under Simulated Rainfall [J]. Soil Science, 2013, 178(7): 369-377.

[32] Wang JG, Li ZX, Cai CF*, Yang W, Ma RM, Zhang GB. Predicting physical equations of soil detachment by simulated concentrated flow in Ultisols (subtropical China) [J]. Earth Surface Processes and Landforms, 2012, 37: 633-641.

[33] Wang JG, Li ZX, Cai CF, Yang W. Effects of transport distance and flow discharge of overland flow on destruction of Ultisol aggregates [J]. Particuology, 2012, 10: 607-613.

[34] Yang W, Li ZX, Cai CF, Guo ZL, Chen JZ, Wang JG. Mechanical properties and soil stability affected by fertilizer treatments for an Ultisol in subtropical China [J]. Plant and Soil. 2012. DOI 10.1007/s11104-012-1266-8.

[35] Yang W, Li ZX, Cai CF, Wang JG, Hua ZG. Tensile strength and friability of Ultisols in sub-tropical China and effects on aggregate breakdown under simulated rainfall [J]. Soil Science. 2012, 177(6):377-383.

[36] Wang XY, Li ZX, Cai CF, Shi ZH, Xu QX, Fu ZY. Effects of rock fragment cover on hydrological response and soil loss from Regosols in a semi-humid environment in South-West China [J]. Geomorphology, 2012, 151:234-242

[37] Fu ZY, Li ZX, Cai CF, Shi ZH, Xu QX, Wang XY. Soil thickness effect on hydrological and erosion characteristics under sloping lands: A hydropedological perspective [J]. Geoderma, 2011. DOI: 10.1016/j.geoderma.2011.08.013.

[38] Fu ZY, Li ZX, Cai CF, Shi ZH, Xu QX, Wang XY. Linking soil thickness and plot-scale hydrological processes on the sloping lands in the Three Gorges Area of China: A hydropedological approach [J]. Hydrological processes, 2011. DOI: 10.1002/hyp.8331.

[39] Shi ZH, Yan FL, Li L, Li ZX, Cai CF. Interrill erosion from disturbed and undisturbed samples in relation to topsoil aggregate stability in red soils from subtropical China [J]. Catena, 2010, 81: 240-248.

[40] Xu QX, Wang TW, Cai CF, Li ZX, Shi ZH. Effects of soil conservation on soil properties of citrus orchards in the Three Gorges Area, China [J]. Land Degradation and Development, 2010. DOI: 10.1002/ldr.1045.

[41] Yan FL, Shi ZH, Cai CF, Li ZX. Wetting rate and clay content effects on interrill erosion in Ultisols of southeastern China [J]. Pedosphere, 2010, 20(1):129–136.

[42] Guo ZL, Cai CF, Li ZX, Wang TW, Zheng MJ. Crop residue effect on crop performance, soil N2O and CO2 emissions in alley cropping systems in subtropical China [J]. Agroforestry systems, 2009, 76(1): 67-80.

[43] Li L, Shi ZH, Yin W, Zhu D, Sai LN, Cai CF, Lei AL. A fuzzy analytic hierarchy process (FAHP) approach to eco-environmental vulnerability assessment for the danjiangkou reservoir area, China [J]. Ecological Modelling, 2009, 220: 3439-3447.

[44] Rejaur RMD, Shi ZH, Cai CF. Soil erosion hazard evaluation—an integrated use of remote sensing, GIS and statistical approaches with biophysical parameters towards management strategies [J]. Ecological Modelling, 2009, 220: 1724-1734.

[45] Shi ZH, Chen LD, Fang NF, Qin DF, Cai CF. Research on the SCS-CN initial abstraction ratio using rainfall-runoff event analysis in the Three Gorges Area, China [J]. Catena, 2009, 77: 1-7.

[46] Shi ZH, Chen LD, Hao JP, Wang TW, Cai CF. The effects of land use change on environmental quality in the red soil hilly region, China: A case study in Xianning County [J]. Environmental Monitoring and Assessment, 2009, 150: 295-306.

[47] Zhu D, Wang TW, Cai CF, Li L, Shi ZH. Large-scale assessment of soil erosion using a neuro-fuzzy model combined with GIS: A case study of Hubei Province, China [J]. Land Degradation and Development, 2009, 20: 654-666.

[48] Guo ZL, Zhong C, Cai CF, Ding SW, Wang ZM. Nitrogen competition in contour hedgerow systems in subtropical China [J]. Nutrient cycling in agroecosystems, 2008, 81:71-83.

[49] Guo ZL, Cai CF, Li ZX, Wang TW, Zheng MJ. N2O and CO2 emissions from red soils followingland conversion in subtropical China [J]. EPPH, 2008, pp. 4015-4018.

[50] Yan FL, Shi ZH, Li ZX, Cai CF. Estimating interrill soil erosion from aggregate stability of Ultisols in subtropical China [J]. Soil and Tillage Research, 2008, 100: 34-41.

[51] Mushtak TJ, Shi ZH, Wang TW, Cai CF. Vegetation Change Prediction with Geo-Information Techniques in the Three Gorges Area of China[J]. Pedosphere, 2006, 16(4):457-467.

[52] 倪世民, 冯舒悦, 王军光, 蔡崇法. 不同质地重塑土坡面细沟侵蚀形态与水力特性及产沙的关系[J]. 农业工程学报, 2018, 15: 149-156.

[53] 夏金文, 魏玉杰, 蔡崇法. 花岗岩风化土物理特征曲线间的相关性研究[J]. 土壤学报, 2017, 54(03):581-589.

[54] 胡节, 吴新亮, 蔡崇法. 快速湿润过程中钾和钙离子浓度对土壤团聚体稳定性的影响[J]. 农业工程学报, 2017, 33(22):175-182.

[55] 王小燕, 蔡崇法, 李鸿, 谢德体. 三峡库区碎石含量对紫色土容重和孔隙特征的影响[J]. 土壤学报, 2017, 54(02):379-386.

[56] 邵亚, 王毅伟, 蔡崇法, 杨顺华, 张海涛. 西南典型岩溶区土壤硒空间分布预测[J]. 农业工程学报, 2016, 32(22):178-183.

[57] 李雪垠, 李朝霞, 王天巍, 蔡崇法, 王小燕, 宋婧. 紫色土中砾石夹层对土壤水分入渗的影响[J]. 水科学进展, 2016, 27(5):662-669.

[58] 余冰, 宋云瑞, 程嘉宁, 王军光, 蔡崇法, 段猷. 不同模拟糙度集中水流内红壤团聚体剥蚀特征研究[J].土壤学报, 2016, 53(4): 860-868.

[59] 邓羽松, 丁树文, 蔡崇法, 吕国安. 鄂东南崩岗剖面土壤水分特征曲线及模拟[J]. 土壤学报, 2015, 53(2):355-364.

[60] 刘窑军, 王天巍, 蔡崇法, 李朝霞, 李珩. 三峡库区低等级土质道路侵蚀研究[J]. 水科学进展, 2015, 26(02):169-177.

[61] 魏玉杰, 吴新亮, 蔡崇法. 崩岗体剖面土壤收缩特性的空间变异性[J]. 农业机械学报, 2015, 46(06):153-159.

[62] 陈芳, 王硕, 吴新亮, 蔡崇法. 不同侵蚀程度下地带性土壤的结构及渗透性能分析[J]. 农业工程学报, 2014, 30(22):137-146.

[63] 王小燕, 王天巍, 蔡崇法, 谢德体. 含碎石紫色土坡面降雨入渗和产流产沙过程[J]. 水科学进展, 2014, 25(02):189-195.

[64] 马仁明, 蔡崇法, 李朝霞, 王军光, 冯君园, 吴新亮, 朱惠荣. 前期土壤含水率对红壤团聚体稳定性及溅蚀的影响[J]. 农业工程学报, 2014, 30(03):95-103.

[65] 张甘霖, 王秋兵, 张凤荣, 吴克宁, 蔡崇法, 章明奎, 李德成, 赵玉国, 杨金玲. 中国土壤系统分类土族和土系划分标准[J]. 土壤学报, 2013, 50(04):826-834.

[66] 陈俊杰, 孙莉英, 蔡崇法, 刘俊体, 蔡强国. 不同土壤坡面细沟侵蚀差异与其影响因素[J]. 土壤学报, 2013, 50(02):281-288.

[67] 王军光, 李朝霞, 蔡崇法, 王玉华, 张国彪, 马仁明. 坡面流水力学参数对团聚体剥蚀程度的定量影响[J]. 水科学进展, 2012, 23(04):502-508.

[68] 王军光, 李朝霞, 蔡崇法, 杨伟, 马仁明, 王天巍. 坡面水流中不同层次红壤团聚体剥蚀程度研究[J]. 农业工程学报, 2012, 28(19):78-84.

[69] 张晓明, 丁树文, 蔡崇法. 干湿效应下崩岗区岩土抗剪强度衰减非线性分析[J]. 农业工程学报, 2012, 28(05):241-245.

[70] 王小燕, 李朝霞, 蔡崇法. 砾石覆盖紫色土坡耕地水文过程[J]. 水科学进展, 2012, 23(01):38-45.

[71] 王军光, 李朝霞, 蔡崇法, 杨伟, 马仁明, 张国彪. 集中水流内红壤分离速率与团聚体特征及抗剪强度定量关系[J]. 土壤学报, 2011, 48(06):1133-1140.

[72] 付智勇, 李朝霞, 蔡崇法, 郭忠录. 三峡库区不同厚度紫色土坡耕地产流机制分析[J]. 水科学进展, 2011, 22(05):680-688.

[73] 程冬兵, 张平仓, 李亚龙, 蔡崇法. 紫色土典型三角形层状剖面入渗模拟[J]. 水科学进展, 2010, 21(03):315-320.

[74] 徐勤学, 王天巍, 李朝霞, 蔡崇法, 史志华. 紫色土坡地壤中流特征[J]. 水科学进展, 2010, 21(02):229-234.

[75] 朱惇, 王天巍, 蔡崇法, 李璐, 史志华. 基于模糊神经系统与GIS的区域土壤侵蚀快速评价[J]. 农业工程学报, 2010, 26(01):103-107.

[76] 闫峰陵, 李朝霞, 史志华, 蔡崇法. 红壤团聚体特征与坡面侵蚀定量关系[J]. 农业工程学报, 2009, 25(03):37-41.

[77] 郭伟, 史志华, 陈利顶, 闫峰陵, 李朝霞, 蔡崇法. 不同湿润速率对红壤坡面侵蚀过程的影响[J]. 土壤学报, 2008, 45(1): 26-31.

[78] 程冬兵, 蔡崇法. 室内基于土壤水分再分布过程推求紫色土导水参数[J]. 农业工程学报, 2008, 24(7): 7-12.


 

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《土壤学与生活》(参译)科学出版社

《崩岗治理与农田质量保护技术》(合著)湖北科技出版社

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《中国土系志(湖北卷)》(顾问)科学出版社

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《棕红壤丘陵区土壤资源特性与农业发展》(合著)湖北科技出版社

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1、博士:

史志华:永利304官方入口

李朝霞:永利304官方入口

张明伟:国家气象局

王天巍:永利304官方入口

郭忠录:永利304官方入口

程冬兵:长江水利委员会长江科学院

闫峰陵:长江水利委员会水资源环境所

陈峰云:武汉绿也生态科技有限公司

朱 ?:长江水利委员会水资源环境所

李 璐:湖北省水利水电科学研究院

Rejaur: 外国职工(孟加拉)

2、硕士:

钟 诚:湖南省水利水电勘测设计研究院

郑床木:中国农业科学院农业质量标准与检测技术研究所

王 锋:黄河水利委员会水土保持局

张 琪:上海市园林局

孙站成:永利304官方入口

胡 霞:北京师范大学

高 超:湖北省水利厅水土保持监测中心

王中敏:长江水利委员会水资源研究所

张海斌:广西水利电力勘查设计院

马 杰:山东省威海市环保局

郭 磊:浙江省环境保护科学设计研究院

郭 伟:福建省环境监测中心站

孙艳艳:武汉绿也生态科技有限公司

姚 娜:国家电网湖北安源安全环保科技有限公司

郑珉姣:湖北水利水电勘察设计院

彭艳平:新疆水利水电勘察设计院

黄于同:厦门理工学院

向 党:鄂州市梁子湖区水利局

熊 锦:永利304官方入口

贺志涵:湖北省农干校

杨军弟:甘肃省人防工程有限责任公司

费 超:天门市招商局

相方圆:青州二炮士官学校

司娟娟:广西交通科学研究院

王 萌:武汉市规划设计研究院

吕叙杰:永利304官方入口

李春光:济南房产测绘院

范晓峰:中南勘测设计院

张利超:江西省水土保持科学研究所

安俊珍:甘肃省会宁县甘沟驿镇人民政府

莫 琼:湖北省环境科学院

廖国瑞:西昌卫星发射中心

程艳辉:永利304官方入口

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