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J.LakeSci.2015274607-615DOI10.18307/2015.04072015byJournalofLakeSciences*1123**1120043422141013210008.、、.10cm20cm.1d180d540d10cm20cm..Effectsofplow-tillageonthepreventionandcontrolofalgae-causedblackbloomHEWei1CHENYuquan1GUChunxin2FANChengxin3&CAILijing11ShanghaiInvestigationDesign&ResearchInstituteCo.Ltd.Shanghai200434P.R.China2WuxiXishanDistrictWaterResourcesBureauWuxi214101P.R.China3NanjingInstituteofGeographyandLimnologyChineseAcademyofSciencesNanjing210008P.R.ChinaAbstractBlack-bloomwasanenvironmentissuethatoftenoccurredrecentlyandthepollutedsurfacesedimentwasknownasthemostimportantreasonforitsoccurrence.Plow-tillagewasacost-effectiveandpracticableengineeringmeasurewhichwasdesignedforinternalloadingcontrol.Basedonthesimulatedexperimentinlaboratoryeffectsofplow-tillageonthepreventionandcontrolofalgae-causedblackbloomwasstudied.Thecolorandodornutrientconcentrationofoverlayingwatertheconcentrationsofvolatilesulfurcompoundsandphysicochemicalcharacteristicofsedimentweremeasured.Theresultswereshowedasfollowsblackbloomoccurredinbothcontrolchecksetandtreatmentsetsldayafterplow-tillageforthetwodiffirentplow-tillagedepthsbutitsdurationanddegreeincontrolchecksetweremoreseriousthanthoseintreatmentsetsldayafterplow-tillage.Thetreatmentsetsof180and540daysafterplow-tillageofbothdepthsdidn'texperiencedblackbloomduringthewholesimulatedexperiment.Overalltheap-propriateprojecttimeofplow-tillagecanpreventtheoccurrenceandcontrolthedegreeofalgae-causedblackbloom.KeywordsSurfacesedimentplow-tillageblackbloomphysicochemicalpropertiesvolatilesulfurcompoundsblackbloom、、.、.“”“”、、1.2007529、200***TH2013214、“”NIGLAS201213500841103033.2014-06-062014-09-22.1985~E-mailhewei1022@gmail.com.E-mailcxfan@niglas.ac.cn.608J.LakeSci.20152741-3.4-5126.Yang2.72007.4.8、.7-8.、9.10-11.、12.-.13-14.2315.5816-17.、、.、.11.157.2km2、18-19.8.31.39°N120.05°E.1.2Φ110mmL500mmRigoCo.Japan30cm516-17.10cmPT-1020cmPT-20.10cm10cm10cm.-.15~20cm±2℃21.1d3d180540d180540d.6091.37CK、1dPT-10-d1、PT-20-d1、180dPT-10-d180、PT-20-d180、540dPT-10-d540、PT-20-d540.2m35~40cm160cm2d30.50g5000g/m2516-1725±1℃20085.7-20cm75ml.50mlGF/CWhatmanNH+4-N、PO3-4-P.25ml..0~1、1~2、2~3、3~4、4~55~6cm100LOI、TPTN.1.41.4.1.4920、、、、、、.0、1、2、34.1.4.2H2SMeSH、DMS、DMDSDMTS.5.HS-SPMEAgilent7890AGC-FPDAgilentUSA.SupelcoCAR/PDMS75μmNo.57318USAAgilent7890AGC-FPD-Gaspro60m×0.32mm40mlPTFE.65℃500/min30min.GC-FDA3ml/min50ml/min65ml/min21-22.1.4.3NH+4-N23PO3-4-P24.LOI25TP26TN23.222d733CK、PT-10-d1PT-20-d1.2.112dCKPT-10-d11dPT-20-d1CK14dCK2dCK22d.1d2PT-10-d1、PT-20-d1CK22CK1.610J.LakeSci.20152741Tab.1Changesinwatercolorduringtheexperiment/d12345678910111213141516171819202122CK0000000000012332222110PT-10-d10000000000011211122100PT-20-d10000000000001121221210PT-10-d1800000000000000000001000PT-20-d1800000000000000000000000PT-10-d5400000000000000000000000PT-20-d54000000000000000000000001d11dCKPT-20-d112dPT-10-d1.CKPT-10-d1PT-10-d121d2.2Tab.2Changesintheodorofthewatersamplesduringtheexperiment/d12345678910111213141516171819202122CK0000000000112332221121PT-10-d10000000000011212112111PT-20-d10000000000112121121100PT-10-d1800000000000000000001000PT-20-d1800000000000000000000000PT-10-d5400000000000000000000000PT-20-d540000000000000000000000031dPT-10-d1、PT-20-d1CK..LowerMystic227-28H2S.WaddenH2S2029-31.DMTS2..2.211dH2SCK、PT-20-d1PT-10-d13H2S14d2384.40、2017.201358.55μg/L4H2S1.9dPT-10-d180H2SH2S900μg/L.2dMeSH2d.6dCKPT-10-d1MeSHCK10d.11d7MeSH7611MeSHCK、PT-10-d1PT-20-d1MeSH11d17d3MeSH41.7DMS1μg/L10d11dDMSCK、PT-10-d1PT-20-d1DMS41.17dDMS.1Fig.1ChangesofvolatilesulfurcompoundsconcentrationsinoverlayingwatersamplesduringtheexperimentDMDSDMTS2dDMDSDMTS6d11d.CK、PT-10-d1PT-20-d1DMDSDMTS4612J.LakeSci.2015274.DMDSDMTS4DMDSDMTSCK、PT-10-d1PT-20-d1DMDSDMTS.2DOa、NH+4-NbPO3-4-PcFig.2ChangesofdissolvedoxygenaNH+4-NbandPO3-4-PcconcentrationsduringtheexperimentH2SH2SMeSHMeSHDMSH2S、DMDS、DMTS32.Zhang、、.6.H2SH2S.2.32.3.1DO.DO8mg/LDODODO2mg/LDO4d0DO0~1mg/L2a.DO016DO1mg/L9.DODO.2dNH+4-N10dCK、PT-10-d1PT-20-d1NH+4-N14d2b.NH+4-NCKTNNH+4-NPT-10-d16131d10cm1dNH+4-N.PO3-4-P2cPO3-4-P9dPO3-4-PCK、PT-10-d1PT-20-d1PO3-4-P13dPO3-4-PPO3-4-P16d.PT-20-d1PO3-4-PPO3-4-P.Fe-P33DOFe3+34.PO3-4-PTPPO3-4-P35-36.2.3.23PT-10-d1PT-20-d1180d21dPT-10-d180PT-20-d18058.85%58.65%540d.LOIPT-20-d1LOILOI4.84%LOI5.24%~5.42%LOI6.67%LOI.TNTPTPCKTP630.44mg/kgTPPT-20-d180419.28mg/kgTP288.55~343.42mg/kg.LOI、TPTN.CKPT-10-d1PT-20-d1CK2NH+4-NPO3-4-P1dTP、TNLOI7PT-10-d1PT-20-d1CK.31-、、.2.1d1d180d540d.3H2S.457.、.10cm20cm614J.LakeSci.20152743Fig.3Verticalprofilesofphysicochemicalpropertiesinthesediments10cm.41.“”.2009203438-442.2YangMYuJWLiZLetal.TaihuLakenottoblameforWuxi'swoes.Science20083195860158.3QinBZhuGGaoGetal.AdrinkingwatercrisisinLakeTaihuChinaLinkagetoclimaticvariabilityandlakeman-agement.EnvironmentalManagement2010451105-112.4.“”.201026341-4452.5.-Fe、Mn、S.201031112652-2660.6ZhangXJChenCDingJQetal.The2007watercrisisinWuxiChinaAnalysisoftheorigin.JournalofHazardousMaterials20101821/2/3130-135.6157.2007.2007194357-358.8.2009“”.2010224481-487.9HeWShangJLuXetal.Effectsofsludgedredgingonthepr
本文标题:表层底泥翻耕对太湖藻源性湖泛的预控作用
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