Search results for "mikro-organismit"

showing 5 items of 5 documents

Novel Autotrophic Organisms Contribute Significantly to the Internal Carbon Cycling Potential of a Boreal Lake

2018

ABSTRACT Oxygen-stratified lakes are typical for the boreal zone and also a major source of greenhouse gas emissions in the region. Due to shallow light penetration, restricting the growth of phototrophic organisms, and large allochthonous organic carbon inputs from the catchment area, the lake metabolism is expected to be dominated by heterotrophic organisms. In this study, we test this assumption and show that the potential for autotrophic carbon fixation and internal carbon cycling is high throughout the water column. Further, we show that during the summer stratification carbon fixation can exceed respiration in a boreal lake even below the euphotic zone. Metagenome-assembled genomes an…

0301 basic medicine030106 microbiologyHeterotrophDNA RibosomaljärvetMicrobiologyCarbon cycle03 medical and health sciencesWater columnTotal inorganic carbonRNA Ribosomal 16SVirologyCluster AnalysisPhotic zoneAnaerobiosis14. Life underwaterAutotrophFinlandPhylogeny030304 developmental biologyTotal organic carbon0303 health sciencesAutotrophic ProcessesmetagenomicsPhototroph030306 microbiologygreenhouse gas emissionsEcologyhiilen kiertoCarbon fixationSequence Analysis DNAiron oxidizers15. Life on landBiotaCarbonQR1-502Food webLakesMikrobiologi13. Climate actionmikro-organismitredox gradientEnvironmental sciencechemoautotrophyResearch ArticlemBio
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Microbial diversity along a gradient in peatlands treating mining-affected waters.

2018

Peatlands are used for the purification of mining-affected waters in Northern Finland. In Northern climate, microorganisms in treatment peatlands (TPs) are affected by long and cold winters, but studies about those microorganisms are scarce. Thus, the bacterial, archaeal and fungal communities along gradients of mine water influence in two TPs were investigated. The TPs receive waters rich in contaminants, including arsenic (As), sulfate (SO42-) and nitrate (NO3-). Microbial diversity was high in both TPs, and microbial community composition differed between the studied TPs. Bacterial communities were dominated by Proteobacteria, Actinobacteria, Chloroflexi and Acidobacteria, archaeal commu…

0301 basic medicinePeatmetal toleranceMicroorganismta1172030106 microbiologyMicrobial metabolismBiologyApplied Microbiology and BiotechnologyMicrobiologyMiningwetlandsActinobacteriaWater Purificationkosteikot03 medical and health sciencessulfate reductionfungal ITScontaminant removalturvemaatFinlandSoil Microbiologyjäteveden käsittelykaivostoimintaEcologyBacteriaMicrobiotaFungiBiodiversity15. Life on landbiology.organism_classificationArchaeabiodiversiteetti030104 developmental biologyMicrobial population biology13. Climate actionEnvironmental chemistrymikro-organismitkaivosvesiProteobacteriaSoil microbiologyWater Pollutants ChemicalAcidobacteriaFEMS microbiology ecology
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Abundant and diverse arsenic‐metabolizing microorganisms in peatlands treating arsenic‐contaminated mining wastewaters

2020

Mining operations produce large quantities of wastewater. At a mine site in Northern Finland, two natural peatlands are used for the treatment of mining‐influenced waters with high concentrations of sulfate and potentially toxic arsenic (As). In the present study, As removal and the involved microbial processes in those treatment peatlands (TPs) were assessed. Arsenic‐metabolizing microorganisms were abundant in peat soil from both TPs (up to 108 cells gdw‐1), with arsenate respirers being about 100 times more abundant than arsenite oxidizers. In uninhibited microcosm incubations, supplemented arsenite was oxidized under oxic conditions and supplemented arsenate was reduced under anoxic con…

PeatkaivoksetArseniteschemistry.chemical_elementjätevesiBiologyWastewaterMicrobiologyMiningbiologinen puhdistusarseeniArsenic03 medical and health scienceschemistry.chemical_compoundSoilturvemaatGroundwaterEcology Evolution Behavior and SystematicsArsenicResearch ArticlesSoil Microbiology030304 developmental biologyArsenite0303 health sciences030306 microbiologyMicrobiotaArsenateAnoxic waters6. Clean waterOxygenBiodegradation EnvironmentalchemistryMicrobial population biologyEnvironmental chemistrymikro-organismitArsenateskaivosvesiMicrocosmSoil microbiologyOxidation-ReductionWater Pollutants ChemicalResearch ArticleEnvironmental Microbiology
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A lift in snail's gut provides an efficient colonization route for tardigrades.

2022

phoresiszoochorykarhukaisetHelicidaekotilotSnailsAriantasuolistomikro-organismitTardigradaAnimalsdispersalgastropodochoryEcology Evolution Behavior and SystematicsleviäminenEcosystemEcology
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Complex plant quality—microbiota–population interactions modulate the response of a specialist herbivore to the defence of its host plant

2022

Many specialist herbivores have evolved strategies to cope with plant defences, with gut microbiota potentially participating to such adaptations. In this study, we assessed whether the history of plant use (population origin) and microbiota may interact with plant defence adaptation. We tested whether microbiota enhance the performance of Melitaea cinxia larvae on their host plant, Plantago lanceolata and increase their ability to cope the defensive compounds, iridoid glycosides (IGs). The gut microbiota were significantly affected by both larval population origin and host plant IG level. Contrary to our prediction, impoverishing the microbiota with antibiotic treatment did not reduce larv…

vuorovaikutusplant defencesuolistomikrobistoDIET QUALITYperhosetherbivoretoukatplant defenseglykosiditkasvitmicrobiotapuolustusmekanismit (biologia)ravintoketjutEcology Evolution Behavior and Systematicstrophic interactionsisäntäkasvitGUT MICROBIOTAMIDGUTIRIDOID GLYCOSIDE SEQUESTRATIONMELITAEA-CINXIApopulaatioekologiaLepidopteraGENERALISTCHEMICAL DEFENSEkasvinsyöjätBACTERIA1181 Ecology evolutionary biologySURVIVALmikro-organismitLANCEOLATA
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