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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2019年03

Page:

143-150

Research Field:

Publishing date:

Info

Title:

ToleranceandAccumulationofFourHeavyMetalsinMyceliumofFlammulinavelutipesandPleurotuseryngii

Author(s):

HUANGXiaohui1; WANGChunhui1; XUNing1; PENGYunxiang1; JIANGXingjian1; HUANGFenglan2

(1.HunanEdibleFungiInstitute,Changsha,Hunan410013;2.YizhangCountyFuchengBiotechCo.Ltd.,Chenzhou，Hunan424211)

Keywords:

Keywords:heavymatal; Lentinulaedodes; Flammulinavelutipes; mycelia; tolerance; accumlation

PACS:

-

DOI:

10.11937/bfyy.20182862

Abstract:

Abstract:TheexperimentofheavymetaltoleranceandaccumulationinFlammulinavelutipesandPleurotuseryngiimyceliumwascarriedoutthroughexternallyaddingdifferentconcentrationgradientsofPb,Cd,As,Hgtotheplatemediumandliquidfermentationmedium.Thetoleranceandaccumulationcharacteristicsofdifferentkindsofheavymetalsindifferentfungiwerestudiedbymeasuringtheaveragegrowthrateofmycelium,thedryweightofmycelium,aswellastheheavymetalconcentrationinmyceliumandfermentationbroth.Basedonthis,theheavymetalaccumulationmodelwasestablished,onthepurposeofprovidingfundamentaldatafortheheavymetalaccumulationmechanisminfungi.TheresultsshowedthatPb,Cd,As,Hg,atlowerconcentration(below1mg?L-1),promotedthegrowthofmyceliumandincreasedtheamountofmyceliumball,whiletheheavymetals,athigherconcentration(above5mg?L-1),hadaninhibitoryeffect.AndPb,CdandAs,atthemediumconcentration(1-5mg?L-1),hadanobviousinhibitoryeffectattheformerstage,butthemyceliumrecoveredtonormalgrowingspeedatthelatterstage.ThemyceliumofFlammulinavelutipesandPleurotuseryngiiaccumulatedhighamountofCdandPbwithCdreaching619mg?kg-1DW,424mg?kg-1DWandPbreaching449mg?kg-1DW,844mg?kg-1DW,butlowamountofAsandHgwasaccumulated,withAsonlyreaching49mg?kg-1DW,21mg?kg-1DWandHgreaching44mg?kg-1DW,40mg?kg-1DW.Differentmyceliumshaddifferentaccumulationsaturabilityforthesameheavymetal.TheaccumulationsaturationpointofPbinFlammulinavelutipesmyceliumwas452mg?kg-1DW,whilethatofPbinPleurotuseryngiimyceliumwasashighas902mg?kg-1DW.Meanwhile,thesamespeciesalsohaddifferentsaturabilityfordifferentfungi,andthedifferencewaslarge.TheaccumulationsaturationpointofCdinPleurotuseryngiimyceliumwas429mg?kg-1DW,butthatofAswas224mg?kg-1DW.

References:

[1]刘洪超,魏学华,何广宇.我国重金属污染土壤修复技术的发展现状与选择策略[J].环境与发展,2018(2):82-86.[2]许飘.白腐真菌对重金属的修复富集特性及其重金属耐受性和机制研究进展[D].长沙:湖南大学,2016.[3]李维焕,于兰兰,陈显好,等.两种大型真菌菌丝体对重金属的耐受和富集特性[J].生态学报,2011,31(5):1240-1248.[4]李宁杰.白腐真菌对废水中Pb2+的去除剂稳定化机理的研究[D].长沙:湖南大学,2015.[5]陈苗苗,郑鑫,李小芳,等.大型重金属富集能力与机制研究进展[J].农业资源与环境学报,2017,34(6):499-508.[6]朱华玲,班立桐,徐晓萍.食用菌对重金属耐受和富集机理的研究进展[J].安徽农业科学，2011,39(13):8056-8057.[7]谢福全,黎志银,陈仁财,等.4种重金属元素在茶树菇栽培过程中的迁移特性研究[J].福建农业学报,2015,30(3):303-306.[8]宫锡鸿,孙乃军,赵飞,等.用Excel建立Logisitic模型方法探讨[J].中国植保导刊,2011(6):13-16.[9]夏珍珍,范秀芝,王明锐,等.黑木耳菌丝对铅、铬和镉重金属富集规律的研究[J].湖北农业科学,2017,56(24):4875-4877.[10]胡清秀,杨昕,杨小红,等.外源重金属对杏鲍菇生长发育的影响研究[J].农业环境科学学报,2011,30(2):236-243.

Memo

Memo:

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Common functions

Last Update: 2019-03-15