Search results for "Arctic soil"

showing 3 items of 3 documents

Biogenic Fenton process - A possible mechanism for the mineralization of organic carbon in fresh waters.

2020

To explore the mechanisms that mineralize poorly bioavailable natural organic carbon (OC), we measured the mineralization of OC in two lake waters over long-term experiments (up to 623 days) at different pH and iron (Fe) levels. Both the microbial and photochemical mineralization of OC was higher at pH acidified to 4 than at the ambient pH 5 or an elevated pH 6. During 244 days, microbes mineralized up to 60% of OC in the 10-mu m filtrates of lake water and more than 27% in the 1-mu m filtrates indicating that large-sized microbes/grazers enhance the mineralization of OC. A reactivity continuum model indicated that the acidification stimulated the microbial mineralization of OC especially i…

liuennut orgaaninen hiiliHYDROXYL RADICAL FORMATIONbiogenic FentonARCTIC SOIL0208 environmental biotechnologyMicrobial metabolismrauta02 engineering and technology010501 environmental sciencesReactivity continuum01 natural sciencesOxygenOXYGENchemistry.chemical_compoundironDissolved organic carbonmikrobitHydrogen peroxideDIOXIDE EMISSIONSWaste Management and DisposalWater Science and Technologyreactive oxygen speciesPHOTOCHEMICAL MINERALIZATIONTotal organic carbonINORGANIC CARBONkemialliset reaktiot218 Environmental engineeringChemistryhiilen kiertoEcological ModelingPollution6. Clean waterMicrobesEnvironmental chemistrymicrobesOxidation-ReductionEnvironmental EngineeringIronchemistry.chemical_elementjärvetreactivity continuum.HYDROGEN-PEROXIDETotal inorganic carbonBiogenic FentonHUMIC SUBSTANCESOrganic carbon0105 earth and related environmental sciencesCivil and Structural Engineeringorganic carbonMineralization (soil science)Hydrogen PeroxideCarbon020801 environmental engineeringBioavailabilitymineralisaatioLakesDARK PRODUCTION13. Climate actionReactive oxygen speciesWater Pollutants ChemicalWater research

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Biostimulation proved to be the most efficient method in the comparison of in situ soil remediation treatments after a simulated oil spill accident

2016

The use of in situ techniques in soil remediation is still rare in Finland and most other European countries due to the uncertainty of the effectiveness of the techniques especially in cold regions and also due to their potential side effects on the environment. In this study, we compared the biostimulation, chemical oxidation, and natural attenuation treatments in natural conditions and pilot scale during a 16-month experiment. A real fuel spill accident was used as a model for experiment setup and soil contamination. We found that biostimulation significantly decreased the contaminant leachate into the water, including also the non-aqueous phase liquid (NAPL). The total NAPL leachate was …

0301 basic medicineBACTERIALHealth Toxicology and Mutagenesis010501 environmental sciencesBacterial growth01 natural sciencesENHANCED BIOREMEDIATIONBiostimulationSoilChemical oxidationSoil PollutantsPetroleum PollutionLeachateTEMPERATUREFinlandSoil MicrobiologyGeneral MedicineContaminationPollutionSoil contamination6. Clean waterBiodegradation EnvironmentalCREOSOTE-CONTAMINATED SOILBiodegradationResearch ArticleSTRATEGIESAmendmentcomplex mixtures03 medical and health sciencesMolecular monitoringEnvironmental ChemistryFIELD1172 Environmental sciences0105 earth and related environmental sciencesANTARCTIC SOILEnvironmental engineeringBiodegradationDEGRADATIONModels TheoreticalCarbonBiostimulation030104 developmental biology13. Climate actionSoil bioremediationHydrocarbon contaminationAccidentsEnvironmental scienceCOMMUNITIESGroundwaterWater Pollutants ChemicalEnvironmental Science and Pollution Research International

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Cryptogams signify key transitions of bacteria and fungi in Arctic sand dune succession.

2020

•Primary succession models focus on aboveground vascular plants. However, the prevalence of mosses and lichens, i.e. cryptogams, suggests they play a role in soil successions. Here, we explore whether effects of cryptogams on belowground microbes can facilitate progressive shifts in sand dune succession. •We linked aboveground vegetation, belowground bacterial and fungal communities, and soil chemical properties in six successional stages in Arctic inland sand dunes: bare sand, grass, moss, lichen, ericoid heath and mountain birch forest. •Compared to the bare sand and grass stages, microbial biomass and the proportion of fungi increased in the moss stage, and later stage microbial groups a…

0106 biological sciences0301 basic medicineVascular planteroosioPhysiologyPolytrichumArctic soilPlant ScienceEcological succession01 natural sciencesbacterial communitySand dune stabilizationbakteeritkarhunsammalet03 medical and health sciencesSoilSandDominance (ecology)LichenitiökasvitPrimary successionEcosystemSoil Microbiologymaaperäarktinen aluebiologyBacteriaEcologyprimary successionArctic RegionsfungiFungifood and beverages15. Life on landCryptogambiology.organism_classificationerosion030104 developmental biologyPolytrichumfungal communitysand dunesienetcryptogam010606 plant biology & botanyThe New phytologistReferences

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