Fluorescence Properties of Urban Water Bodies of Beijing
WU Jing, CUI Shuo, SU Wei, CAO Zhi-ping
Environment Simulation and Pollution Control State Key Joint Laboratory, Department of Environmental Science and Engineering, Tsinghua University, Beijing 100084, China
Abstract:“Fluorescence fingerprint” of water body based on fluorescence excitation-emission matrix has been a novel and valuable method to exhibit the organics details. In the present study, the fluorescence matrixes of urban water bodies of Beijing were investigated. The experimental results showed that these matrixes could be divided into 3 groups: Type I owned two fluorescence centers, locating at λex/λem=275~280/340 and 225~230/340 nm respectively, and was the predominant group; fluorescence centers of Type Ⅱ located at λex/λem=280/345~365 and 245/380 nm; Type Ⅲ had four fluorescence centers around 275/305, 275/340, 225/305 and 225/340 nm. The fingerprints indicated that these water bodies had been disturbed by human activities. Type I and Type Ⅲ were transitional fingerprints between undisturbed water body and sewage wastewater and Type Ⅲ was closer to sewage wastewater. Type Ⅱ closely originated from reclaimed water of municipal wastewater treatment plant. These three types were main types of urban water bodies where domestic pollution was dominating. The fluorescence fingerprints clearly displayed the ubiquitous impacts of human activities and the resulting potential risk. Fluorescence fingerprint could display pollution information and serve as a possible diagnosis tool of pollution source.
Key words:Excitation-emission matrix;Fluorescence fingerprint;Urban water body;Domestic pollution;Pollution source
吴 静,崔 硕,苏 伟,曹知平 . 北京城市水体的三维荧光特征[J]. 光谱学与光谱分析, 2011, 31(06): 1562-1566.
WU Jing, CUI Shuo, SU Wei, CAO Zhi-ping . Fluorescence Properties of Urban Water Bodies of Beijing . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(06): 1562-1566.
[1] Wu J,Pons M N,Potier O. Water Science and Technology, 2006,53(4-5):449. [2] LI Hong-bin,LIU Wen-qing,ZHANG Yu-jun(李宏斌, 刘文清, 张玉钧). Optical Technique(光学技术), 2006,32(1):27. [3] Vignudelli S, Santinelli C. Coastal & Shelf Science, 2004,60:133. [4] Wang G S, Hsieh S T. Environment International, 2001, 26: 205. [5] Nieke B, Reuter R, Heuermann R, et al. Continental Shelf Research, 1997, 17: 235. [6] Nagao S, Matsunaga T, Suzuki Y, et al. Water Research, 2003, 37: 4159. [7] Baker A, Inverarity R, Charlton M, et al. Environmental Pollution, 2003, 124: 57. [8] Thurman E M. Organic Geochemistry of Natural Waters. Dordrecht, Netherlands: Martinus Nijhoff/Dr. W. Junk Publishers, 1985. [9] Coble P G, Green S A, Blough N V, et al. Nature, 1990, 348(6300): 432. [10] Sierra M M D, Donard O F X, Lamotte M, et al. Marine Chemistry, 1994, 47(2): 127. [11] Gregor J, Marsalek B. Water Research, 2004, 38: 517. [12] Hua B, Dolan F, Mcghee C, et al. Intern. J. Environ. Anal. Chem., 2007, 87(2): 135. [13] Beijing Municipal Water Environment Guality Report(北京市水环境质量报告). http://www.bjepb.gov.cn/bjhb/publish/portal0/tab376/. [14] Baker A. Environ. Sci. & Techno., 2001, l35(5): 948. [15] Baker A, Inverarity R. Hydrological Processes, 2004, 18(15): 2927. [16] CHENG Mao-fu,WU Jing(陈茂福,吴 静). Acta Optica Sinica(光学学报), 2008, 28(3):578.