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湖泊科学 2012

江苏省西部湖泊溶解性有机物光谱学特征和来源解析

DOI: 10.18307/2012.0214

陈小锋,揣小明,刘涛,杨柳燕

Keywords: 湖泊,溶解性有机物,光谱学,江苏省

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Abstract:

利用光谱学手段研究江苏省西部湖泊表层水体中溶解性有机物(DOM)组成与结构,并对其来源进行分析.单位浓度可溶性有机碳在254和280nm波长下的吸光度值(SUVA)测定结果表明,各湖泊芳香性程度及分子量大小依次为邵伯湖>天岗湖>白马湖>石臼湖>洪泽湖>固城湖>骆马湖>高邮湖>宝应湖.特定波长下吸光度的比值(E2/E3、E3/E4)显示邵伯湖和白马湖中的DOM结构复杂、分子量大、苯环多,以腐殖酸为主要成分;其它湖泊的DOM腐殖化程度较低,以富里酸为主.指数函数曲线斜率(S275~295nm)拟合结果也同样表明邵伯湖DOM分子量最大,而宝应湖最低.各湖泊荧光指数和生物指数分别处于1.13~1.30和0.47~0.67范围内,体现出DOM强烈的陆源性.四个主要荧光峰的相对荧光强度之间均存在良好的相关性,表明这些湖泊的类腐殖酸及类蛋白物质可能有着相同的来源.结合这些湖泊的特征及流域经济发展水平,可以初步推断经入湖河流携带的由农业及其下游产业产生的有机质是江苏西部湖泊中DOM的主要来源.

References

[1]	Judd KE,Crump BC,Kling GW. Variation in dissolved organic matter controls bacterial production and community composition. Ecology,2006,87:2068-2079.
[2]	Mladenov N,Zheng Y,Miller MP et al. Dissolved organic matter sources and consequences for iron and arsenic mobilization in Bangladesh aquifers. Environ Sci Technol,2010,44:123-128.
[3]	Znachor P,Nedoma J. Importance of dissolved organic carbon for phytoplankton nutrition in a eutrophic reservoir. J Plankton Res,2010,32(3):367-376.
[4]	Troyer ID,Bouillonl S,Barker S et al. Stable isotope analysis of dissolved organic carbon in soil solutions using a catalytic combustion total organic carbon analyzer-isotope ratio mass spectrometer with a cryofocusing interface. Rapid Commun Mass Spectrom,2010,24:365-374.
[5]	Her N,Amy G,Chung J et al. Characterizing dissolved organic matter and evaluating associated nanofiltration membrane fouling. Chemosphere,2008,70:495-502.
[6]	Wu F,Tanoue E. Molecular mass distribution and fluorescence characteristics of dissolved organic ligands for copper (Ⅱ) in lake Biwa,Japan. Org Geochem,2001,32:11-20.
[7]	Fu PQ,Wu FC,Liu CQ et al. Spectroscopic characterization and molecular weight distribution of dissolved organic matter in sediment porewaters from Lake Erhai,Southwest China. Biogeochemistry,2006,81:179-189.
[8]	Parlanti E,W rz K,Geoffroy L et al. Dissolved organic matter fluorescence spectroscopy as a tool to estimate biological activity in a coastal zone submitted to anthropogenic inputs. Org Geochem,2000,31:1765-1781.
[9]	章宗涉,黄祥飞. 淡水浮游植物研究方法. 北京:科学出版社, 1991:338, 340,345-347.
[10]	Green S,Blough N. Optical absorption and fluorescence properties of chomophoric dissolved organic matter in natural waters. Limnol Oceanogr,1994,39(8):1903-1916.
[11]	Komatsu K,Nakajima F,Furumai H et al. Characterization of dissolved organic matter (DOM) removal by iron coagulation using spectrofluorimetry and pyrolysis GC/MS analysis. J Wat Supply Res Technol-AQUA,2005,54(3):157-163.
[12]	Zepp RG,Sheldon WM,Moran MA. Dissolved organic fluorophores in southeastern US coastal waters:correction methods for eliminating Rayleigh and Raman scattering peaks in excitation-emission matrices. Mar Chem,2004,89:15-36.
[13]	更多...
[14]	Ohno T. Fluorescence inner-filtering correction for determining the humification index of dissolved organic matter. Environ Sci Technol,2002,36:742-746.
[15]	Bricaud A,Morel A,Prieur L. Absorption by dissolved organic matter of the sea (yellow substance) in the UV and visible domains. Limnol Oceanogr,1981,26(1):43-53.
[16]	Chin YP,Aiken G,O\'Loughlin E. Molecular weight,polydispersity,and spectroscopic properties of aquatic humic substances. Environ Sci Technol,1994,28:1853-1858.
[17]	Huovinen PS,Penttil H,Soimasuo MR. Spectral attenuation of solar ultraviolet radiation in humic lakes in Central Finland. Chemosphere,2003,51(3):205-214.
[18]	Artinger R,Buckau G,Geyer S et al. Characterization of groundwater humic substances:influence of sedimentary organic carbon. Appl Geochem,2000,15:97-116.
[19]	Tamara ECK,Anderson CA,Morgenstern K. Determining sources of dissolved organic carbon and disinfection byproduct precursors to the Mckenzie River,Oregon. J Environ Qual,2010,39:2100-2112.
[20]	Zhang YL,Liu ML,Qin BQ et al. Photochemical degradation of chromophoric-dissolved organic matter exposed to simulated UV-B and natural solar radiation. Hydrobiologia,2009,627:159-168.
[21]	宋晓娜,于涛,张远等. 利用三维荧光技术分析太湖水体溶解性有机质的分布特征及来源. 环境科学学报, 2010,30(11):2321-2331.
[22]	Baker A,Curry M. Fluorescence of leachates from three contrasting landfills. Water Res,2004,38:2605-2613.
[23]	黄智华,薛滨,逄勇. 江苏固城湖流域1951-2000年农业非点源氮,磷输移的数值模拟研究. 第四纪研究, 2008,28(4):674-682.
[24]	吴舜泽,夏青,刘鸿亮. 中国流域水污染分析. 环境科学与技术,2000,23(2):1-6.
[25]	吴丰昌,王立英,黎文等. 天然有机质及其在地表环境中的重要性. 湖泊科学,2008, 20(1):1-12.
[26]	Peterson BJ. Stable isotopes as tracers of organic matter input and transfer in benthic food webs:A review. Acta Oecol, 1999,20(4):479-487.
[27]	Woods G,Simpson M,Keleher B et al. Online high-performance size exclusion chromatography-nuclear magnetic resonance for the characterization of dissolved organic matter. Environ Sci Technol,2010,44:624-630.
[28]	Coble PG. Characterization of marine and terrestrial DOM in seawater using excitation-emission matrix spectroscopy. Mar Chem,1996,51:325-346.
[29]	Hera N,Amya G,McKnighta D et al. Characterization of DOM as a function of MW by fluorescence EEM and HPLC-SEC using UVA,DOC,and fluorescence detection. Water Res,2003,37:4295-4303.
[30]	Wada S,Aokib MN,Tsuchiya Y et al. Quantitative and qualitative analyses of dissolved organic matter released from Ecklonia cava Kjellman,in Oura Bay,Shimoda,Izu Peninsula,Japan. J Exp Mar Biol Ecol,2007,349:344-358.
[31]	中国科学院南京地理研究所湖泊室. 江苏湖泊志. 南京:江苏科学技术出版社,1982.
[32]	范成新,羊向东,史龙新等. 江苏湖泊富营养化特征、成因及解决途径. 长江流域资源与环境,2005,14(2):218-223.
[33]	Weishaar J,Aiken G,Bergamaschi B et al. Evaluation of specific ultraviolet absorbance as an indicator of the chemical composition and reactivity of dissolved organic carbon. Environ Sci Technol,2003,37:4702-4708.
[34]	Tipping E,Corbishley HT,Koprivnjak JF et al. Quantification of natural DOM from UV absorption at two wavelengths. Environ Chem,2009,6(6):472-476.
[35]	Buffle J,Deladoey P,Zumstein J et al. Analysis and characterization of natural organic matters in freshwaters. I. Study of analytical techniques. J Hydrol,1983,44(2):325-362.
[36]	McKnight DM,Boyer EW,Westerhoff PK et al. Spectrofluorometric characterization of dissolved organic matter for indication of precursor organic materials and aromaticity. Limnol Oceanogr,2001,46(1):38-48.
[37]	Peuravuori J,Pihlaja K. Isolation and characterization of natural organic matter from lake water:comparison of isolation with solid adsorption and tangential membrane filtration. Environ Int,1997,23(4):441-451.
[38]	Abbt-Braun G,Lankes U,Frimmel FH. Structural characterization of aquatic humic substances:The need for a multiple method approach. Aquat Sci,2004,66:151-170.
[39]	Helms JR,Stubbins A,Ritchie JD et al. Absorption spectral slopes and slope ratios as indicators of molecular weight, source,and photobleaching of chromophoric dissolved organic matter. Limnol Oceanogr,2008,53(3):955-969.
[40]	Fichot CG,Benner R. A novel method to estimate DOC concentrations from CDOM absorption coefficients in coastal waters. Geophys Res Lett,2011,38(L03610,5).
[41]	Nelson NB,Carlson CA,Steinberg DK. Production of chromophoric dissolved organic matter by Sargasso Sea microbes. Mar Chem,2004,89(1):273-287.
[42]	Romera-Castillo C,Sarmento H,álvarez-Salgado XA et al. Production of chromophoric dissolved organic matter by marine phytoplankton. Limnol Oceanogr,2010,55(1):446-454.
[43]	刘明亮,张运林,秦伯强. 太湖入湖河口和开敞区CDOM 吸收和三维荧光特征. 湖泊科学,2009,21(2):234-241.
[44]	Huguet A,Vacher L,Relexans S et al. Properties of fluorescent dissolved organic matter in the Gironde Estuary. Org Geochem, 2009,40:706-719.
[45]	傅平青,刘丛强,吴丰昌. 溶解有机质的三维荧光光谱特征研究. 光谱学与光谱分析,2005,25(12):2024-2028.
[46]	傅平青,刘丛强,吴丰昌等. 洱海沉积物孔隙水中溶解有机质的三维荧光光谱特征. 第四纪研究,2004,24(6):695-700.
[47]	Baker A,Ward D,Lieten SH et al. Measurement of protein-like fluorescence in river and waste water using a handheld spectrophotometer. Water Res,2004,38(12):2934-2938.
[48]	董广霞,毛剑英. 淮河流域污染"久治不愈"原因浅析及治理措施建议. 中国环境监测, 2005,21(6):75-78.

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