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1、J.LakeSci.(湖泊科學(xué)),2014,26(2):177-184http://www.jlakes.org.E-mail:jlakes@niglas.a(chǎn)c.cn2014byJournalofLakeSciences*太湖草源性“湖泛”水域沉積物營養(yǎng)鹽釋放估算11,231,211**申秋實,周麒麟,邵世光,劉成,張雷,范成新(1:中國科學(xué)院南京地理與湖泊研究所湖泊與環(huán)境國家重點實驗室,南京210008)(2:中國科學(xué)院大學(xué),北京100049)(3:河海大學(xué)水文水資源學(xué)院,南京210098)摘要:于太湖草源性“湖泛”暴發(fā)期,采
2、集柱狀沉積物并應(yīng)用peeper被動采樣裝置獲得“湖泛”區(qū)原位沉積物間隙水.泥水樣品分析表明:“湖泛”發(fā)生水域表層(0~7cm)沉積物的含水率、孔隙度和有機(jī)質(zhì)含量均明顯高于對照區(qū),其中有機(jī)質(zhì)含量更是對照區(qū)樣品的4倍左右,沉水植物殘體促使表層沉積物物化性質(zhì)改變的作用明顯;“湖泛”發(fā)生水域表層沉積物+2+間隙水中銨態(tài)氮(NH4-N)、溶解性反應(yīng)磷(SRP)及Fe含量遠(yuǎn)高于未發(fā)生區(qū),植物殘體降解對沉積物厭氧環(huán)境的營造+2+顯著.運用分子擴(kuò)散模型對沉積物釋放通量估算:“湖泛”發(fā)生區(qū)沉積物NH4-N、SRP和Fe的釋放速率分別是對照區(qū)的49.
3、8、15.3和123.1倍.研究認(rèn)為,草源性“湖泛”水體氮、磷等營養(yǎng)物含量升高的主要原因是沉積物的釋放,而“湖泛”所營造的厭氧環(huán)境是氮、磷釋放急劇增加的主要驅(qū)動因素.關(guān)鍵詞:湖泛;氮;磷;沉積物釋放;peeper;太湖Estimationofin-situsedimentnutrientsreleaseatthesubmergedplantinducedblackbloomareainLakeTaihu11,231,211SHENQiushi,ZHOUQilin,SHAOShiguang,LIUCheng,ZHANGLei&FAN
4、Chengxin(1:StateKeyLaboratoryofLakeScienceandEnvironment,NanjingInstituteofGeographyandLimnology,ChineseAcademyofSciences,Nanjing210008,P.R.China)(2:UniversityofChineseAcademyofSciences,Beijing100049,P.R.China)(3:CollegeofHydrologyandWaterResource,HohaiUniversity,Nanj
5、ing210098,P.R.China)Abstract:DuringthesubmergedplantinducedblackbloomperiodinLakeTaihu,sedimentcoreswerecollectedandporewaterswereacquiredusingpeeperin-situpassiveporewatersamplersattheblackbloomandthecontrolareas.Thesedimentsanalysisre-sultsshowedthatthewatercontent,
6、porosityandorganicmatter(LOI)wereobviouslyhigherinthesurfacesediment(0-7cm)intheblackbloomareathanthoseinthecontrolarea,amongwhichtheLOIcontentswereabout4timeshigher.Thephysicaland+chemicalcharacteristicsofsurfacesedimentswereinfluencedbythesubmergedplantresiduesgreat
7、ly.Ammonium(NH4-N),sol-2+ublereactivephosphorus(SRP)andFecontentsinsurfaceporewatersattheblackbloomareaweresignificantlyhigherthan+2+thoseatthecontrolarea.ThesedimentreleasefluxesofNH4-N,SRP,andFewerealsoestimatedbyusingtheporewaterdif-+2+fusionmodelapproach.Comparedt
8、othecontrolarea,thereleasefluxesofNH4-N,SRP,andFeintheblackbloomareawere49.8,15.3,and123.1timeshigher,respectively.Theresear