Can Biochar Protect Labile Organic Matter Against Mineralization in Soil?

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摘要 Biocharcouldhelptostabilizesoilorganic(SOM)matter,thussequesteringcarbon(C)intothesoil.Theaimofthisworkwastodetermineaneasymethodi)toestimatetheeffectsoftheadditionofbiocharandnutrientsontheorganicmatter(SOM)mineralizationinanartificialsoil,proposedbytheOrganizationforEconomicCo-operationandDevelopment(OECD),amendedwithglucoseandii)tomeasuretheamountoflabileorganicmatter(glucose)thatcanbesorbedandthusbepartiallyprotectedinthesamesoil,amendedornotamendedwithbiochar.Afactorialexperimentwasdesignedtochecktheeffectsofthreesinglefactors(biochar,nutrients,andglucose)andtheirinteractionsonwholeSOMmineralization.Soilsampleswereinoculatedwithamicrobialinoculumandpreincubatedtoensurethattheirbiologicalactivitieswerenotlimitedbyasmallamountofmicrobialbiomass,andthentheywereincubatedinthedarkat21℃for619d.PeriodicalmeasurementsofCmineralizedtocarbondioxide(CO_2)werecarriedoutthroughoutthe619-dincubationtoallowthemineralizationofbothactiveandsloworganicmatterpools.Theamountofsorbedglucosewascalculatedasthedifferencebetweenthetotalandremainingamountsofglucoseaddedinasoilextract.Twodifferentmodels,theFreundlichandLangmuirmodels,wereselectedtoassesstheequilibriumisothermsofglucosesorption.TheCO_2-Creleasestronglydependedonthepresenceofnutrientsonlywhennobiocharwasaddedtothesoil.ThemineralizationoforganicmatterinthesoilamendedwithbothbiocharandglucosewasequaltothesumofthemineralizationofthetwoCsourcesseparately.Furthermore,asignificantamountofglucosecanbesorbedonthebiochar-amendedsoil,suggestingtheinvolvementofphysico-chemicalmechanismsinlabileorganicmatterprotection.
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机构地区 不详
出处 《土壤圈:英文版》 2017年5期
出版日期 2017年05月15日(中国期刊网平台首次上网日期,不代表论文的发表时间)
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