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OALib Journal期刊
ISSN: 2333-9721
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柳属植物特性及其在污染底泥修复中的应用研究进展
DOI: 10.3724/SP.J.1145.2015.01046, PP. 837-841
Keywords: 柳属植物,植物修复,污染底泥,生物学特征,修复潜力
Abstract:
污染底泥具有处置困难、污染严重并可引起上覆水体二次污染从而造成恶性循环等特点,植物修复是一种绿色环保、高效、对环境扰动少、易于被公众所接受的污染修复方式,柳属植物因具有生态幅宽以及易繁殖、生长快,尤其是较禾本科植物更加适合污染底泥修复的生物学特性,被选作植物修复材料而倍受关注.本文在介绍和分析柳属植物特性及其环境适应力的生态学意义的基础上,重点梳理其对污染物的修复方式与机理,包括植物萃取(phytoextraction)、植物转化(phytotransformation)、植物固定(phytostabilization)、植物降解(phytodegradation)和植物挥发(phytovolatilization)等.进一步详述柳属植物在底泥修复中应用的国内外进展,在累积重金属、降解有机物和改变底泥性质等方面的作用研究说明其对污染底泥的修复具有很好的效果.最后结合目前柳属植物研究中的一些问题和应用实践,建议未来应更注重野外试验、延长试验周期、开展修复植物群落优化配置的研究等.
| [1] | 1dickmanndi.silvicultureandbiologyofshort-rotationwoodycropsintemperateregions:thenandnow[j].biomassbioenergy,2006,30(8-9):696-705
|
| [2] | 2kuzovkinaya,volkta.thecharacterizationofwillow(salixl.)varietiesforuseinecologicalengineeringapplications:co-ordinationofstructure,functionandautecology[j].ecoleng,2009,35(8):1178-1189
|
| [3] | 7pank,wangwx.tracemetalcontaminationinestuarineandcoastalenvironmentsinchina[j].scitotalenviron,2012,421-422:3-16
|
| [4] | 8薄录吉,王德建,颜晓,彭小兰,冉景.底泥环保资源化利用及其风险评价[j].土壤通报,2013,44(4):1017-1024[bojl,wangdj,yanx,pengxl,ranj.utilizationandriskassessmentofsediment[j].chinjsoilsci,2013,44(4):1017-
|
| [5] | 9pintopx,al-abedsr,barthe,loftspringc,voitj,clarkp,ioannidesam.environmentalimpactoftheuseofcontaminatedsedimentsaspartialreplacementoftheaggregateusedinroadconstruction[j].jhazardmater,2011,189(1-2):546-555
|
| [6] | 11donis,maccic,peruzzie,iannellir,ceccantib,masciandarog.decontaminationandfunctionalreclamationofdredgedbrackishsediments[j].biodegradation,2013,24(4):499-512
|
| [7] | 12glickbr.usingsoilbacteriatofacilitatephytoremediation[j].biotechnoladv,2010,28(3):367-374
|
| [8] | 13张春燕,王瑞刚,范稚莲,施士争,丁永祯,郭军康,赵玉杰.杨树和柳树富集cd、zn、pb的品种差异性[j].农业环境科学学报,2013,32(3):530-538[zhangcy,wangrg,fanzl,shisz,dingyz,guojk,zhaoyj.thedifferencesofpoplarandwillowenrichmentofcd,zn,pb[j].jagro-environsci,2013,32(3):530-
|
| [9] | 14liup,tangxm,gongc,xugd.manganesetoleranceandaccumulationinsixmnhyperaccumulatorsoraccumulators[j].plantsoil,2010,335(1-2):385-395
|
| [10] | 15moondh,cheongkh,khimj,waznem,hyuns,parkj-h,changy-y,okys.stabilizationofpb2+andcu2+contaminatedfiringrangesoilusingcalcinedoystershellsandwastecowbones[j].chemosphere,2013,91(9):1349-1354
|
| [11] | 20souchca,martinpj,stephensw,spoorg.effectsofsoilcompactionandmechanicaldamageatharvestongrowthandbiomassproductionofshortrotationcoppicewillow[j].plantsoil,2004,263(1):173-182
|
| [12] | 21lis,rezapezeshkis,douglasshieldsjrf.partialfloodingenhancesaerationinadventitiousrootsofblackwillow(salixnigra)cuttings[j].jplantphysiol,2006,163(6):619-628
|
| [13] | 22韦朝阳,陈同斌.重金属超富集植物及植物修复技术研究[j].生态学报,2001,21(7):1196-1203[weicy,chentb.hyperaccumulatorsandphytoremediationofheavymetalcontaminatedsoil:areviewofstudiesinchinaandabroad[j].actaecolsin,2001,21(7):1196-
|
| [14] | 24dimitrioui,aronssonp.landfillleachatetreatmentwithwillowsandpoplars-efficiencyandplantresponse[j].wastemanage,2010,30(11):2137-2145
|
| [15] | 30masciandarog,dibiasea,maccic,peruzzie,iannellir,donis.phytoremediationofdredgedmarinesediment:monitoringofchemicalandbiochemicalprocessescontributingtosedimentreclamation[j].jenvironmanage,2014,134:166-174
|
| [16] | 31王树凤,施翔,孙海菁,陈益泰,杨肖娥.镉胁迫下杞柳对金属元素的吸收及其根系形态构型特征[j].生态学报,2013,33(19):6065-6073[wangsf,shix,sunhj,chenyt,yangxe.metaluptakeandrootmorphologicalchangesfortwovarietiesofsalixintegraundercadmiumstress[j].actaecolsin,2013,33(19):6065-
|
| [17] | 34彭少麟,杜卫兵,李志安.不同生态型植物对重金属的积累及耐性研究进展[j].吉首大学学报(自然科学版),2004,25(4):19-26[pengsl,duwb,liza.progressinstudyofheavymetaltoleranceandaccumulationofdifferentecotypesplants[j].jjishouuniv(natscied),2004,25(4):19-
|
| [18] | 35温�,穆立蔷.土壤铅、镉胁迫对4种绿化植物生长、生理及积累特性的影响[j].水土保持学报,2013,27(5):234-239[weny,mulq.effectsofsoilpb,cdstressonthegrowth,physiologicalandaccumulatingcharacteristicsoffourornamentaltrees[j].jsoilwaterconserv,2013,27(5):234-
|
| [19] | 36孙天国,沙伟,刘岩.复合重金属胁迫对两种藓类植物生理特性的影响[j].生态学报,2010,30(9):2332-2339[suntg,shaw,liuy.theeffectsofcompoundheavymetalstressonsomephysiologicalcharacteristicsoftwomossspecies[j].actaecolsin,2010,30(9):2332-
|
| [20] | 37mleczekm,rissmanni,rutkowskip,kaczmarekz,golinskip.accumulationofselectedheavymetalsbydifferentgenotypesofsalix[j].environexpbot,2009,66(2):289-296
|
| [21] | 38施翔,陈益泰,吴天林,潘红伟.7个柳树无性系在cu/zn污染土壤中的生长及对cu/zn的吸收[j].中国环境科学,2010,30(12):1683-1689[shix,chenyt,wutl,fanhw.plantgrowthandmetaluptakebysevensalixclonesoncu/zncontaminatedenvironment[j].chinaenvironsci,2010,30(12):1683-
|
| [22] | 39chengc,liuzk,zhangjf,owensg.phytoaccumulationofcopperinwillowseedlingsunderdifferenthydrologicalregimes[j].ecoleng,2012,44:285-289
|
| [23] | 40王德胜,陈兰,敬小兵,徐恒.螯合剂和表面活性剂辅助金福菇修复重金属污染土壤[j].应用与环境生物学报,2012,18(1):100-107[wangds,chenl,jingxb,xuh.chelator-andsurfactant-assistedfemediationofheavymetalcontamintedsoilbytricholomalobayenseheim[j].chinjapplenvironbiol,2012,18(1):100-
|
| [24] | 48lehmanna,stahrk.natureandsignificanceofanthropogenicurbansoils[j].jsoilsediment,2007,7(4):247-260
|
| [25] | 3karpa,hanleysj,trybushso,macalpinew,shieldi.geneticimprovementofwillowforbioenergyandbiofuels[j].jintegrplantbiol,2011,53(2):151-165
|
| [26] | 4毛志刚,谷孝鸿,陆小明,曾庆飞,谷先坤,李旭光.太湖东部不同类型湖区疏浚后沉积物重金属污染及潜在生态风险评价[j].环境科学,2014,35(1):186-193[maozg,guxh,luxm,zengqf,guxk,lixg.pollutiondistributionandpotentialecologicalriskassessmentofheavymetalinsedimentsfromthedifferentdasterndredgingregionsoflaketaihu[j].environsci,2014,35(1):186-
|
| [27] | 5毛志刚,谷孝鸿,陆小明,曾庆飞,谷先坤,李旭光.太湖东部不同类型湖区底泥疏浚的生态效应[j].湖泊科学,2014,26(3):385-392[maozg,guxh,luxm,zengqf,guxk,lixg.ecologicaleffectsofdredgingonaquaticecosysteminthedifferentregionsofeasternlaketaihu[j].jlakesci,2014,26(3):385-
|
| [28] | 6任朝亮,宋进喜,王珍,于芳.渭河底泥有机质的空间分布及与其他污染物相关性[j].干旱区资源与环境,2014,28(3):123-128[rancl,songjx,wangz,yuf.spatialdistributionoforganicmatterandthecorrelationalstudyofpollutionsofweiheriver.jaridlandresourenviron,2014,28(3):123-
|
| [29] | 10洪祖喜,何品晶,邵立明.水体受污染底泥原地处理技术[j].环境保护,2002(10):15-17[hongzx,hepj,shaolm.insitutreatmentofcontaminatedsediments[j].environprot,2002(10):15-
|
| [30] | 16argusgw.salix(salicaceae)distributionmapsandsynopsisoftheirclassificationinnorthamnerica,northmexico[j].harvardpapersbot,2007,12:335-368
|
| [31] | 17fjelli.preformationofrootprimordiainshootandrootmorphogenesisinsalixviminalis.nord[j].jbotany,1985,5:357-376
|
| [32] | 18genetm,stokesa,salinf,mickovskis,fourcaudt,dumailj-f,vanbeekr.theinfluenceofcellulosecontentontensilestrengthintreeroots[j].plantsoil,2005,278(1-2):1-9
|
| [33] | 19mleczekm,rutkowskip,rissmanni,kaczmarekz,golinskip,szentnerk,stra?y�skak,stachowiaka.biomassproductivityandphytoremediationpotentialofsalixalbaandsalixviminalis[j].biomassbioenergy,2010,34(9):1410-1418
|
| [34] | 23yangwd,dingzl,zhaofl,wangyy,zhangxc,zhuzq,yangxe.comparisonofmanganesetoleranceandaccumulationamong24salixclonesinahydroponicexperiment:applicationforphytoremediation[j].jgeochemexplor,2015,149:1-7
|
| [35] | 25holmb,heinsook.municipalwastewaterapplicationtoshortrotationcoppiceofwillows-treatmentefficiencyandcloneresponseinestoniancasestudy[j].biomassbioenergy,2013,57:126-135
|
| [36] | 26徐礼生,吴龙华,高贵珍,曹稳根,陈志兵,徐德聪,骆永明.重金属污染土壤的植物修复及其机理研究进展[j].地球与环境,2010,38(3):372-377[xuls,wulh,gaogz,caowg,chenzb,xudc,luoym.researchprogressofphytoremediationofpollutedsoilswithheavymetalsandmechanism[j].earthenviron,2010,38(3):372-
|
| [37] | 27骆永明,查宏光,宋静,李华.大气污染的植物修复[j].土壤,2002(3):113-119[luoym,chahg,songj,lih.phytoremediationofairpollution[j].soil,2002(3):113-
|
| [38] | 28leighrj,corlettgk,frie?u.aconcurrentmultiaxisdifferentialopticalabsorptionspectroscopysystemforthemeasurementoftroposphericnitrogendioxide.applopt,2006,45(28):7504-7518
|
| [39] | 29meerse,lamsals,vervaekep,hopgoodm,lustn,tackfmg.availabilityofheavymetalsforuptakebysalixviminalisonamoderatelycontaminateddredgedsedimentdisposalsite[j].environpollut,2005,137(2):354-364
|
| [40] | 32chengc,liuyq,wangrm,zhangjf,owensg.cadmiumadsorptionbywillowroot:theroleofcellwallsandtheirsubfractions[j].environscipollutres,2013,20(8):5665-5672
|
| [41] | 33luxa,sottníkováa,opatrnáj,gregerm.differencesinstructureofadventitiousrootsinsalixcloneswithcontrastingcharacteristicsofcadmiumaccumulationandsensitivity[j].physiolplant,2004,120(4):537-545
|
| [42] | 41kiedrzynskim,kiedrzynskae,witoslawskip,urbaniakm,kurowskijk.historicallanduse,actualvegetation,andthehemerobylevelsinecologicalevaluationofanurbanrivervalleyinperspectiveofitsrehabilitationplan[j].poljenvironstud,2014,23(1):109-117
|
| [43] | 42slaterh,gouint,leighmb.assessingthepotentialforrhizoremediationofpcbcontaminatedsoilsinnorthernregionsusingnativetreespecies[j].chemosphere,2011,84(2):199-206
|
| [44] | 43dacunhaa,sabedots,sampaioc,ramosc,dasilvaa.salixrubensandsalixtriandraspeciesasphytoremediatorsofsoilcontaminatedwithpetroleum-derivedhydrocarbons[j].waterairsoilpollut,2012,223(8):4723-4731
|
| [45] | 44adrianodc,wenzelww,vangronsveldj,bolanns.roleofassistednaturalremediationinenvironmentalcleanup[j].geoderma,2004,122(2-4):121-142
|
| [46] | 45browns,sprengerm,maxemchuka,comptonh.ecosystemfunctioninalluvialtailingsafterbiosolidsandlimeaddition[j].jenvironqual,2005,34(1):139-148
|
| [47] | 46vervaekep,luyssaerts,mertensj,meerse,tackfmg,lustn.phytoremediationprospectsofwillowstandsoncontaminatedsediment:afieldtrial[j].environpollut,2003,126(2):275-282
|
| [48] | 47vandecasteeleb,quataertp,genouwg,lettenss,tackfmg.effectsofwillowstandsonheavymetalconcentrationsandtopsoilpropertiesofinfrastructurespoillandfillsanddredgedsediment-derivedsites[j].scitotalenviron,2009,407(20):5289-5297
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