34320143ActaScientiaeCircumstantiaeVol.34No.3Mar.2014No.ZR2012DQ003No.41301544“”No.NIGLAS2012135002SupportedbytheNaturalScienceFoundationofShandongProvinceNo.ZR2012DQ003theNationalNaturalScienceFoundationofChinaNo.41301544andthe“1-3-5”PlanningProgramofNanjingInstituteofGeographyandLimnologyChineseAcademyofSciencesNo.NIGLAS20121350021982—E-mailyaoxin@lcu.edu.cn*E-mailgwzhu@niglas.ac.cnBiographyYAOXin1982—femalelecturerPh.D.E-mailyaoxin@lcu.edu.cn*CorrespondingauthorE-mailgwzhu@niglas.ac.cnDOI10.13671/j.hjkxxb.2014.0120.2014.、J.343688-694YaoXZhangYLZhuGWetal.2014.DifferentdegradationmechanismofdissolvedorganicmatterderivedfromphytoplanktonandmacrophytesinLakeTaihuChinaJ.ActaScientiaeCircumstantiae343688-694、122*21.2520002.2100082013-07-102013-08-092013-08-09、DOM.、DOM.DOM.DOMDOMDOMC3、DOM.、DOM2d70%DOM.0253-2468201403-688-07X171ADifferentdegradationmechanismofdissolvedorganicmatterderivedfromphytoplanktonandmacrophytesinLakeTaihuChinaYAOXin1ZHANGYunlin2ZHUGuangwei2*QINBoqiang21.SchoolofEnvironmentandPlanningLiaochengUniversityLiaocheng2520002.StateKeyLaboratoryofLakeScienceandEnvironmentNanjingInstituteofGeographyandLimnologyChineseAcademyofSciencesNanjing210008Received10July2013receivedinrevisedform9August2013accepted9August2013AbstractLakeTaihuhashighspatialvariabilityincludingregionsdominatedbyphytoplanktonormacrophytes.TherearemultiplesourcesofDOMinLakeTaihuincludingallochthonousriverinputandautochthonousbiologicaldegradation.WeinvestigatetheproductionofDOMfromthedecompositionofAlgaepulpandP.malaianusinwell-controlledlaboratoryexperimentsrespectively.Theprotein-likefluorescencewasthemostimportantcomponentinbothalgal-dominatedDOMandmacrophyte-dominatedDOM.Howeverthetryptophan-likefluorescencewasthemostimportantcomponentinthealgal-dominatedDOMwhilethetyrosine-likefluorescenceinthesoutheasternmacrophyte-dominatedDOM.Theseresultsweresimilarwithfieldinvestigations.Intheexperimentabout70%ofthetotalalgal-dominatedDOMwasfoundtobereadilydegradablein2dayswhiledegradationcycleofmacrophyte-dominatedDOMtooklongertime.KeywordsTaihuLakeDOMphytoplanktonmacrophytesdegradation1Introduction20082010.DOM、、、、3、Simonetal.2002Turner2002.DOMDOMDOMMakietal.2010.、、、DOMTzortziouetal.2008Zhangetal.2009.、DOMQinetal.20042005Yaoetal.2011.DOMZhangetal.2009DOM、DOM、、DOM、DOMDOM.2Materialsandmethods2.120~25℃GF/C、DOM.DOM3.10dpHMillopore0.2μmDOM.T1、T2、.2.2DOMF-7000FLSpectrophotometer5nm200~450nm5nm250~600nm1nmMilli-Q0.01mg·L-1.2.3PARAFACPARAFACDOM3.PARAFACALSxijk=∑Ff=1aifbjfckf+eijki=12…Ij=12…Jk=12…Kxijki=k、=jaififbjfckffj、keijkF.2.4MATLABDOMFluorPARAFAC.SPSS11.5、、..p>0.050.01<p<0.05p<0.01.3Results3.1pHDOMDOMpH6pH6.891.DOMDOMpH5.48DOMpH26.1110pH6.591.tpHp<0.01.986341pHFig.1ChangesofpHintheprocessofdecomposition3.2DOMPARAFACDOMPARAFAC4C1~C42.4Stedmonetal.2005a2005bYamashitaetal.2008YamashitaandJaffe2008.C1220nm280nm320nm.C2220nm270nm357nm.C1C2Stedmonetal.2005bYamashitaetal.2008YamashitaandJaffe2008T.C3220nm275nm304nmStedmonetal.2005bYamashitaetal.2008BC1、C20963、24Fig.2TheEEMcontoursofthefourfluorescentcomponentsidentifiedbyPARAFACandsplit-halfvalidationresultsforfourcomponents.C4220nm290nm395nmAMYamashitaandJaffe2008PARAFAC.C1、C2C3C4.3.3DOM10dDOM90%DOM3.2d70%.DOM7d37%5.37%·d-13d50%16.77%·d-1.3、DOMFig.3DynamicsofDOMdegradationofalgae-derivedandsubmergedplant-derivedDOMextracts196343.4DOM4、DOM4.DOMC1~C31C28d0.C44.46%32.56%4.4DOMFig.4CompositionofDOMfluorescenceoffourcomponentsandchangesintheircontributiontototalDOMfluorescenceintensityDOMC3C3p<0.017dC3.C20.7dC2C37d90%42%32%C1C4.4Discussion4.1DOMDOMDOM.、DOMDOMDOMThomasetal.1995.、、YamashitaandTanoue2008Wangetal.2007.pH.、DOM4.DOMC1、C280%C320%.DOMC390%C1.、DOMDOMDOMYaoetal.2011.、DOM、DOM、DOM.、DOMDOM<5%.DOMKarmeretal.2004Nieto-Cid2963、etal.2006.IseBayJapanDOM25%Karmeretal.2004.71dYamashitaandTanoue2004.4.2DOMDOMQuallsetal.2003Jaffeetal.2004.、DOMDOMDOMHamamachietal.2008.DOM、DOM3.2d70%10d.、Hulattetal.2009.、.Scullyetal.2004.DOMHamamachietal.2008.5Conclusions1DOM.2DOMDOMDOMC3.、DOM、DOM、DOM.3、DOM2d70%DOM.ReferencesHanamachiYHamaTYanaiT.2008.DecompositionprocessoforganicmatterderivedfromfreshwaterphytoplanktonJ.Limnology957-69HulattCJThomasDNBowersDGetal.2009.ExudationanddecompositionofchromophoricdissolvedorganicmatterCDOMfromsometemperatemacroalgaeJ.EstuarineCoastalandShelfScience84147-153JaffeRBoyeraJNLuXetal.2004.Sourcecharacterizationofdissolvedorganicmatterinasubtropicalmangrove-dominatedestuarybyfluorescenceanalysisJ.MarineChemistry84195-210KramerGDHerndlGJ.2004.Photo-andbioreactivityofchromophoricdissolvedorganicmatterproducedbymarinebacterioplanktonJ.AquaticMicrobileEcology36239-246MakiKKimCYoshimizuCetal.2010.Autochthonousoriginofsemi-labiledissolvedorganiccarboninalargemononicticlakeLakeBiwacarbonstableisotopicevidenceJ.Limnology112143-153Nieto-CidMAlvarez-SalgadoXAPerezFF.2006.MicrobialandphotochemicalreactivityoffluorescentdissolvedorganicmatterinacoastalupwellingsystemJ.LimnologyOceanography511391-1400QinBQHuWPGaoGetal.2004.Dynamicsofsedimentresuspensionandtheconceptualschemaofnutrientreleaseinthela