2021年欧洲杯冠军预测

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廖海清

【基本信息】
姓名:廖海清
职称:研究员
研究方向:流域水环境治理
电话:16601317778
Email:liaohq@craes.org.cn

【个人履历】
教育经历
2004.09 ~ 2008.07  中国科学院地球化学研究所 环境地球化学   理学博士
2001.09 ~ 2004.07  贵州工业大学             化学工艺       工学硕士
1997.09 ~ 2001.07  湘潭大学                 学工程与工艺   工学学士

工作经历
2020.06~          2021年欧洲杯冠军预测     研究生院副院长(主持工作)
2018.03~2020.05    2021年欧洲杯冠军预测     流域中心中心副主任(主持工作)
2016.11~2018.01    西藏自治区环境保护厅   厅长助理(挂职)
2015.12~          2021年欧洲杯冠军预测      研究员
2010.12~2015.11    2021年欧洲杯冠军预测     副研究员
2008.08~2010.11    2021年欧洲杯冠军预测     助理研究员
2006.11~2008.01    日本国立放射线医学综合研究所  实习研究员

【教学工作】
2012年至今,以招生和联培等形式,共引导1名博后、2名博士和13名硕士进行论文开题、教学实习、基础研究及论文撰写。

【奖励荣誉】
科技奖励
? 2013年,湖泊底泥污染控制理论技术与应用,国家科学技术进步奖二等奖
? 2012年,湖泊沉积物/水界面物质循环理论创新与应用示范,环境保护科学技术奖一等奖
? 2015年,鄱阳湖水环境演变特征及调控技术集成与应用,环境保护科学技术奖二等奖
? 2017年,山区湖库沉积物记录及水污染综合防治理论与技术,贵州省科学技术进步奖一等奖
? 2019年,再生水补给型河湖水环境多界面协同控制与修复关键技术及应用,北京市科学技术进步奖一等奖
? 2015年, 复合金属氧化物吸附剂及应用其去除水中苯并三唑的方法,中国专利优秀奖

荣誉称号
? 2020年,国家百千万人才工程,有突出贡献中青年专家
? 2016年,环境保护部环境保护部青年拔尖人才
? 2015年,国家创新人才推进计划重点领域创新团队
? 2014年,全国杰出专业技术人才先进集体

社会兼职
? 2019年,九三学社北京市委人口资源环境专业委员会
? 2019年,同济大学兼职教授
? 2018年,中国工程咨询协会生态环境专业委员会秘书长
? 2017年,《环境科学研究》编委

【科学研究】
主要研究领域
? 流域水环境治理
? 黑臭水体治理
? 重金属污染防治
? 同位素环境地球化学

代表性研究项目
[1] 内蒙古典型湖泊水生态综合治理与水资源智慧调控技术集成及示范;国家重点研发计划课题;2019年至2021年;主持;5330万元
[2] 流域(区域)水污染治理模式与技术路线图;国家科技重大专项子课题;2017年至2020年;主持;270万元
[3] 典型地区稀土开发与生产环境风险评估与监管技术研究;国家环境保护公益性行业科研专项重大项目;2012年至2014年;主持;1241万元
[4] 水体汞、砷污染控制与治理技术及工程示范;水体污染控制与治理国家科技重大专项;2011年至2014年;主持;890.43万元
[5] 博斯腾湖流域人工放射性核素的来源及其运移机理研究;国家自然科学基金面上项目;2016年至2019年;主持;88.8万元
[6] 我国典型地区湖泊沉积物中镅的分布特征与年代学研究;国家自然科学基金面上项目;2011年至2015年;主持;75万元
[7] 西北地区湖泊沉积物中钚的近代年学研究;国家自然科学基金青年基金项目;2010年至2012年;主持;20万元
[8] 两湖一库入湖缓冲区生态修复技术研究;贵阳市科学技术局技术服务项目;2011年至2012年;主持;80万元
[9] 花溪城市湿地公园生物多样性保护与生态系统修复技术集成;贵阳市科学技术局技术服务项目;2010至2011;主持;80万元
[10] 湖泊水环境质量演变与水环境基准研究;国家973项目;2008年至2012年;骨干;2473万元
[11] 滇池营养物质循环与生命过程的耦合关系及蓝藻水华控制;国家自然科学基金委联合基金项目;2010年至2013年;骨干;160万元

专利专著
[1] FRESH WATER ACUTE CRITERIA PREDICTION METHOD BASED ON QUANTITATIVE STRUCTURE-ACTIVITY RELATIONSHIP FOR METALS, US 10,650,914 B2, 发明专利
[2] 一种快速筛选荧光光谱峰值批量数据的方法及装置, ZL201910004731.6,  发明专利
[3] 一种基于多策略的环境承载力指标权重计算方法及装置, ZL201910566085.2, 发明专利
[4] 一种化学转化法测定氮氧同位素的前处理方法和测定方法, ZL201910649369.8, 发明专利
[5] 水体黑臭模拟装置, ZL201910613711.9, 发明专利
[6] 一种水体样品中溶解性可絮凝物质的过滤富集装置, ZL201810522906.8, 发明专利
[7] 一种大通量底泥柱状采样装置及采样方法, ZL201710749381.7, 发明专利
[8] 湖泊生态系统灾变早期预警方法, ZL201710083064.6, 发明专利
[9] 沉积物有机质早期成岩演化程度的热鉴定方法, ZL201610542638.7, 发明专利
[10] 一种利用热分析检测植物生物质TOC的方法, ZL201510519151.2, 发明专利
[11] 植物生物质木质素含量的热分析测定方法, ZL201510583971.8, 发明专利
[12] 一种改性蓝藻处理含三价梯废水的方法, ZL201510518653.3, 发明专利
[13] 一种混合型稀土矿区水环境质量预警方法, ZL201510955132.4, 发明专利
[14] 湖泊浅水区底泥原位掩蔽投料方法, ZL201510344576.4 发明专利
[15] 一种用改性蓝藻处理含汞废水的方法, ZL201310092642.4 发明专利
[16] 复合金属氧化物吸附剂及应用其去除水中苯并三唑的方法, ZL200910084153.8, 发明专利
[17] 湖泊底泥重金属释放自动采样装置, ZL202022230997.3, 实用新型专利
[18] 湖泊浅水区底泥原位掩蔽投料装置, ZL201520409065.1, 实用新型专利
[19] 《水质基准的理论与方法学导论》, 科学出版社, 2010年, 参编
[20] 《水质基准理论与方法学及其案例研究》, 科学出版社, 2012年, 参编
[21] 《中国环境基准体系中长期路线图》, 科学出版社, 2014年, 参编

代表性论文
[1] Ji M, Chang M, Liao H, Wang X, Bai Y. Vertical distribution of 137Cs and plutonium in Lake Taihu and Dianchi sediment cores: loss of radionuclides in shallow, eutrophic lakes. Journal of Radioanalytical and Nuclear Chemistry. 2021. doi:10.1007/s10967-021-07594-2.
[2] Guo J, Liao H. In-situ formation of perylene in lacustrine sediments and its geochemical significance. Acta Geochimica, 2020,39:587-594.
[3] Tu X, Chen S, Wang S, Liao H, Deng X. Pollution status of volatile organic sulfur compounds causing odor in Xi River and factors influencing spatial distribution. Water Supply,2020,20(4):1264-1270.
[4] Feng W, Gao J, Cen R, Yang F, He Z, Wu J, Miao Q, Liao H. Effects of Polyacrylamide-Based Super Absorbent Polymer and Corn Straw Biochar on the Arid and Semi-Arid Salinized Soil. Agriculture 2020, 10,519.
[5] Yang F, Feng W, Matti L, Yang Y, Merkouriadi I, Cen R, Bai Y, Li C, Liao H. Simulation and Seasonal Characteristics of the Intra-Annual Heat Exchange Process in a Shallow Ice-Covered Lake. Sustainability, 2020,12,7832.
[6] Guo J, Liao H. In-situ formation of perylene in lacustrine sediments and its geochemical significance. Acta Geochimica, 2020, 39(4):587-594.
[7] Li B, Yang F, Yuan P, Liao H. Advanced treatment of dry-spun acrylic fiber wastewater by O3/UV-BAF process. IOP Conference Series: Earth and Environmental Science, 2019, 358(2): 022056 (6pp).
[8] Mostofa K, Li W, Wu F, Liu C, Liao H, Zeng L, Xiao M. Environmental characteristics and changes of sediment pore water dissolved organic matter in four Chinese lakes. Environmental Science and Pollution Research, 2018, 25(3): 2783-2804.
[9] Ma Y, Wang J, Peng C, Ding Y, He X, Zhang P, Li N, Lan T, Wang D, Zhang Zhang Z, Sun F, Liao H, Zhang Z. Toxicity of cerium and thorium on Daphnia magna. Ecotoxicology and Environmental Safety, 2016, 134: 226-232.
[10] Fu Z, Wu F, Chen L, Xu B, Feng C, Bai Y, Liao H, Sun S, Giesy J, Guo W. Copper and zinc, but not other priority toxic metals, pose risks to native aquatic species in a large urban lake in Eastern China. Environmental Pollution, 2016, 219: 1069-1076.
[11] Guo F, Mu Y, Chen C, Liao H, Bai Y. Thermal and spectral characterization of anaerobic thermal behavior patterns in a lacustrine sediment core. Environmental Science and Pollution Research, 2016, 23(19): 19949-19957.
[12] Wang Y, Wu F, Mu Y, Zeng E, Zhao X, Giesy J, Feng C, Wang P, Liao H, Chen C. Directly Predicting Water Quality Criteria from Physicochemical Properties of Transition Metals. Science Report, 2016, 6: 22515.
[13] Tang Z, Guo J, Liao H, Zhao X, Wu F, Zhu Y, Zhang L, Giesy J. Spatial and temporal distribution and sources of polycyclic aromatic hydrocarbons in sediments of Taihu Lake, eastern China. Environmental Science and Pollution Research, 2015, 22(7): 5350-5358.
[14] Zhu Y, Wu F, He Z, Giesy J, Feng W, Mu Y, Feng C, Zhao X, Liao H, Tang Z. Influence of natural organic matter on the bioavailability and preservation of organic phosphorus in lake sediments. Chemical Geology, 2015, 397: 51-60.
[15] Mu Y, Wu F, Chen C, Liu Y, Zhao X, Liao H, Giesy J. Predicting criteria continuous concentrations of 34 metals or metalloids by use of quantitative ion character-activity relationships-species sensitivity distributions (QICAR-SSD) model. Environmental Pollution,2014, 188: 50-55.
[16] Sun F, Yan, Liao H, Bai Y, Xing B, Wu F. Biosorption of antimony(V) by freshwater cyanobacteria Microcystis from Lake Taihu, China: effects of pH and competitive ions. Environmental Science and Pollution Research, 2014, 21(9): 5836-5848.
[17] Liao H, Bu W, Zheng J, Wu F, Yamada M. Vertical Distributions of Radionuclides (Pu239+240, Pu-240/Pu-239, and Cs-137) in Sediment Cores of Lake Bosten in Northwestern China, Environmental Science and Techology, 48(7): 3840-3846.
[18] Li R, Li Q, Chen S, Wu F, Sun D, Liao HQ. Distribution of thorium in soils surrounding the rare-earth tailings reservoir in Baotou, China. Journal of Radioanalytical and Nuclear Chemistry, 2014, 299(3): 1453-1459.
[19] Guo J, Wu F, Liao H, Zhao X, Li W, Wang J, Wang L, Giesy J. Sedimentary record of polycyclic aromatic hydrocarbons and DDTs in Dianchi Lake, an urban lake in Southwest China. Environmental Science and Pollution Research, 2013, 20(8): 5471-5480.
[20] Zhu Y, Wu F, He Z, Guo J, Qu X, Xie F, Giesy J, Liao H, Guo F. Characterization of Organic Phosphorus in Lake Sediments by Sequential Fractionation and Enzymatic Hydrolysis. Environmental Science and Techology, 2013, 47(14): 7679-7687.
[21] Wu F, Xu L, Liao H, Guo F, Zhao X, Giesy J. Relationship between mercury and organic carbon in sediment cores from Lakes Qinghai and Chenghai, China. Journal of Soils and Sediments, 2013, 13(6): 1084-1092.
[22] Guo J, Wu F, Zhang L, Liao HQ, Tang Z, Zheng C, Zhang S. Characteristics of DDTs in fish from Lake Taihu: An indicator of continual DDTs input in China. Science of the Total Environment, 2012, 437: 196-199.
[23] Wu F, Xu L, Sun Y, Liao H, Zhao X, Guo J. Exploring the relationship between polycyclic aromatic hydrocarbons and sedimentary organic carbon in three Chinese lakes. Journal of Soils and Sediments, 2012, 12(5): 774-783.
[24] Wu F, Guo J, Chang H, Liao H, Zhao X, Mai B, Xing B. Polybrominated diphenyl ethers and decabromodiphenylethane in sediments from twelve lakes in China. Environmental Pollution, 2012, 162: 262-268.
[25] Zan FY, Huo S, Xi B, Zhu C, Liao H, Zhang J, Yeager K. A 100-year sedimentary record of natural and anthropogenic impacts on a shallow eutrophic lake, Lake Chaohu, China. Journal of Environmental Monitoring, 2012, 14(3): 804-816.
[26] Chang H, Wu F, Jin F, Feng C, Zhao X, Liao H. Picogram per liter level determination of hydroxylated polybrominated diphenyl ethers in water by liquid chromatography-electrospray tandem mass spectrometry. Journal of Chromatogragraphy A, 2011, 1223: 131-135.
[27] Zhu P, Liao H, Hua Z, Xie F, Tang Z, Zhang L. Parallel Factor Analysis as an Analysis Technique for the Ratio of Three-Dimensional Fluorescence Peak in Taihu Lake. Spectroscopy and Spectral Analysis, 2012, 32(1): 152-156.
[28] Zan F, Huo S, Xi B, Zhang J, Liao H, Wang Y, Yeager K. A 60-year sedimentary record of natural and anthropogenic impacts on Lake Chenghai, China. Journal of Environmental Sciences, 2012, 24(4): 602-609.
[29] Xu L, Wu F, Wan G, Liao H, Zhao X, Xing B. Relationship between Pb-210(ex) activity and sedimentary organic carbon in sediments of 3 Chinese lakes. Environmental Pollution, 2011, 159(12): 3462-3467.
[30] Wu F, Zheng J, Liao H, Yamada M, Wan GJ. Anomalous Plutonium Isotopic Ratios in Sediments of Lake Qinghai from the Qinghai-Tibetan Plateau, China. Environmental Science and Techology, 2011, 45(21): 9188-9194.
[31] Wu F, Fu Z, Liu B, Mo C, Chen B, Corns W, Liao H. Health risk associated with dietary co-exposure to high levels of antimony and arsenic in the world's largest antimony mine area. Science of the Total Environment, 2011, 409(18): 3344-3351.
[32] Sun F, Wu F, Liao H, Xing B. Biosorption of antimony(V) by freshwater cyanobacteria Microcystis biomass: Chemical modification and biosorption mechanisms. Chemical Engineering Journal, 2011, 171(3): 1082-1090.
[33] Wu F, Zheng J, Liao H, Yamada M. Distribution of Artificial radionuclides in Lacustrine sediments in China. Radiation Protection Dosimetry, 2011, 146: 291-294.
[34] Zhao X, Cai Y, Wu F, Pan Y, Liao H, Xu B. Determination of perfluorinated compounds in environmental water samples by high-performance liquid chromatography-electrospray tandem mass spectrometry using surfactant-coated Fe3O4 magnetic nanoparticles as adsorbents. Microchemical Journal, 2011, 98(2): 207-214.
[35] Guo J, Wu F, Zhang L, Liao HQ, Zhang R, Li W, Zhao X, Chen S, Mai B. Screening Level of PAHs in Sediment Core from Lake Hongfeng, Southwest China. Archives of Environmental Contamination and Toxicology, 2011, 60(4):590-596.
[36] Zan F, Huo S, Xi B, Li Q, Liao H, Zhang J. Phosphorus distribution in the sediments of a shallow eutrophic lake, Lake Chaohu, China. Environmental Earth Sciences, 2011, 62(8): 1643-1653.
[37] Fu Z, Wu F, Mo C, Liu B, Zhu J, Deng Q, Liao H, Zhang Y. Bioaccumulation of antimony, arsenic, and mercury in the vicinities of a large antimony mine, China. Microchemical Journal, 2011, 97(1): 12-19.
[38] Guo J, Liang Z, Liao H, Tang Z, Zhao X, Wu F.Sedimentary record of polycyclic aromatic hydrocarbons in Lake Erhai, Southwest China. Journal of Environmental Sciences,2011,23(08):1308-1315.
[39] Liu B, Wu F, Li X, Fu Z, Deng Q, Mo C, Zhu J, Zhu Y, Liao H. Arsenic, antimony and bismuth in human hair from potentially exposed individuals in the vicinity of antimony mines in Southwest China. Microchemical Journal,2010,97(1) : 20-24.
[40] Xu L, Wu F, Zheng J, Xie Q, Li H, Liao H, Zhao X, Guo F. Sediment records of Sb and Pb stable isotopic ratios in Lake Qinghai. Microchemical Journal,2010,97(1) : 25-29.
[41] Xu, B, Wu, F, Zhao, X, Liao, H. Benzotriazole removal from water by Zn–Al–O binary metal oxide adsorbent: Behavior, kinetics and mechanism. Journal of Hazardous Materials,2010,184(1): 147-155.
[42] Fu Z, Wu F, Amarasiriwardena D, Mo C, Liu B, Zhu J, Deng Q, Liao, H. Antimony, arsenic and mercury in the aquatic environment and fish in a large antimony mining area in Hunan, China. Science of the Total Environment,2010,408(16): 3403-3410.
[43] Wu F, Zhao X, Li H, Zhang R, Cao Y, Liao H.China embarking on development of its own national water quality criteria system. Environmental science & technology,2010,44(21) : 7992-7993.
[44] Wang, S, Jin, X, Bu, Q, Liao, H, Wu, F.Evaluation of phosphorus bioavailability in sediments of the shallow lakes in the middle and lower reaches of the Yangtze River region, China. Environmental Earth Sciences,2010,60(7) : 1491-1498.
[45] Guo J, Wu F, Luo X, Liang Z, Liao H, Zhang R, Li W, Zhao X, Chen S, Mai B.Anthropogenic input of polycyclic aromatic hydrocarbons into five lakes in Western China. Environmental Pollution,2010,158(6) : 2175-2180.
[46] Xiong Y, Wu F, Fang J, Wang L, Li Y, Liao H.Organic geochemical record of environmental changes in Lake Dianchi, China. Journal of Paleolimnology,2010,44(1) : 217-231.
[47] Wu F, Zheng J, Liao H, Yamada M. Vertical distributions of plutonium and 137Cs in lacustrine sediments in northwestern china: quantifying sediment accumulation rates and source identifications.. Environmental science and technology,2010,44(8): 2911-2917.
[48] Fu P, Mostofa K, Wu F, Liu C, Li W, Liao H, Wang L, Wang J, Mei Y. Excitation-emission matrix characterization of dissolved organic matter sources in two eutrophic lakes (Southwestern China Plateau). Geochemical Journal,2010,44(2): 99-112.
[49] Xiao M, Wu F, Liao H, Li W, Lee X, H.Characteristics and distribution of low molecular weight organic acids in the sediment porewaters in Bosten Lake, China.Journal of Environmental Sciences,2010,22(03):328-337.
[50] Xiao M, Wu F, Liao H, Li W, Lee X, Huang R. Huang. Vertical profiles of low molecular weight organic acids in sediment porewaters of six Chinese lakes. Journal of Hydrology,2008,365(1): 37-45.
[51] Zheng J, Yamada M, Wu F, Liao H. Characterization of Pu concentration and its isotopic composition in soils of Gansu in northwestern China.. Journal of environmental radioactivity,2009,100(1): 71-75.
[52] Mei Y, Wu F, Wang L, Bai Y, Li W, Liao H.Binding characteristics of perylene, phenanthrene and anthracene to different DOM fractions from lake water. Journal of Environmental Sciences,2009,21(04):414-423.
[53] Wang, L, Wu, F, Zhang, R, Li, W, Liao, H. Characterization of dissolved organic matter fractions from Lake Hongfeng, Southwestern China Plateau.Journal of Environmental Sciences,2009,21(05):581-588.
[54] Liao H, Zheng J, Wu F, Yamada M, Tan M, Chen J.Determination of plutonium isotopes in freshwater lake sediments by sector-field ICP-MS after separation using ion-exchange chromatography. Applied Radiation and Isotopes,2008,66(8): 1138-1145.
[55] Zheng J, Wu F, Yamada M Liao, H Liu, C, Wan G. Global fallout Pu recorded in lacustrine sediments in Lake Hongfeng, SW China. Environmental Pollution,2007,152(2): 314-321.
[56] Zhang R, Wu F, Liu C, Fu P, Li W, Wang L, Liao, H Guo, J. Characteristics of organic phosphorus fractions in different trophic sediments of lakes from the middle and lower reaches of Yangtze River region and Southwestern Plateau, China. Environmental Pollution,2007,152(2): 366-372.
[57] Zheng J, Liao H, Wu F, Yamada M , Fu P, Liu C, Wan G. Vertical distributions of Pu239+240 activity and Pu-240/Pu-239 atom ratio in sediment core of Lake Chenghai, SW China. Journal of Radioanalytical and Nuclear Chemistry, 2008, 275(1):37-42.
[58] Zheng, J, Wu, F, Yamada, M, Liao, H, Wan, G.Artificial radionuclides recorded in lacustrine sediments in Bosten and Qinghai Lakes, NW China. Geochimica et Cosmochimica Acta, 2007, 71(15): A1166-A1166
[59] Fu P, Wu F, Liu C, Wei Z, Bai, Y, Liao, H. Spectroscopic characterization and molecular weight distribution of dissolved organic matter in sediment porewaters from Lake Erhai, Southwest China. Biogeochemistry,2006,81(2): 179-189.
[60] 贾世琪,李秋华,廖海清,陈倩,金爽,旷攀. 贵州高原红枫水库浮游植物中金属富集特征. 中国环境科学, 2020,40(9):3972-3980.
[61] 王希欢,杨芳,马文娟,贾世琪,冯冬霞,柏杨巍,陈少华,廖海清.乌梁素海硝酸盐来源的季节性变化研究.环境科学研究.https://doi.org/10.13198/j.issn.1001-6929.2020.11.15.
[62] 马文娟,刘丹妮,杨芳,王鹤立,王希欢,李崇蔚,廖海清.水环境中污染物同位素溯源的研究进展.环境工程技术学报,2020,10(02):242-250.
[63] 路金霞,柏杨巍,傲德姆,宋楠楠,廖海清,杨鹊平.上海市黑臭水体整治思路、措施及典型案例分析.环境工程学报,2019,13(03):541-549.
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