0000000000398704

AUTHOR

Jussi Huotari

showing 5 related works from this author

Effect of catchment characteristics on aquatic carbon export from a boreal catchment and its importance in regional carbon cycling

2013

Inland waters transport and emit into the atmosphere large amounts of carbon (C), which originates from terrestrial ecosystems. The effect of land cover and land-use practises on C export from terrestrial ecosystems to inland waters is not fully understood, especially in heterogeneous landscapes under human influence. We sampled for dissolved C species in five tributaries with well-determined subcatchments (total size 174.5 km(2)), as well as in various points of two of the subcatchments draining to a boreal lake in southern Finland over a full year. Our aim was to find out how land cover and land-use affect C export from the catchments, as well as CH4 and CO2 concentrations of the streams,…

Peat010504 meteorology & atmospheric sciencesDitchDrainage basinSTREAMS010501 environmental sciences01 natural sciencesCarbon CycleCarbon cycleSoilRiversTributaryDissolved organic carbonEnvironmental ChemistryEcosystemFinland0105 earth and related environmental sciencesGeneral Environmental ScienceHydrologyAir PollutantsGlobal and Planetary Changegeographygeography.geographical_feature_categoryEcologyAgricultureCarbon Dioxide15. Life on landCarbon13. Climate actionEnvironmental scienceTerrestrial ecosystemSeasonsMethaneGlobal Change Biology
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High Nitrogen Removal in a Constructed Wetland Receiving Treated Wastewater in a Cold Climate

2018

Constructed wetlands provide cost-efficient nutrient removal, with minimal input of human labor and energy, and their number is globally increasing. However, in northern latitudes, wetlands are rarely utilized, because their nutrient removal efficiency has been questioned due to the cold climate. Here, we studied nutrient retention and nitrogen removal in a boreal constructed wetland (4-ha) receiving treated nitrogen-rich wastewater. On a yearly basis, most of the inorganic nutrients were retained by the wetland. The highest retention efficiency was found during the ice-free period, being 79% for ammonium-nitrogen (NH4+-N), 71% for nitrate-nitrogen (NO3--N), and 88% for phosphate-phosphorus…

Denitrification010504 meteorology & atmospheric sciencesconstructed wetlandNitrogenP REDUCTIONSta1172Wetlandjätevesi010501 environmental sciencesWaste Disposal Fluid01 natural scienceskosteikotNutrienttyppiilmastoEnvironmental ChemistryN2O PRODUCTIONTEMPERATUREwastewater1172 Environmental sciences219 Environmental biotechnology0105 earth and related environmental sciencesjäteveden käsittelygeographyjätevedenpuhdistamotgeography.geographical_feature_categoryDUAL NUTRIENT NFRESH-WATERANAMMOX PROCESScold climateGeneral ChemistryDENITRIFICATIONAMMONIUM15. Life on land6. Clean waterWastewater13. Climate actionPHOSPHORUS LIMITATIONWetlandsEnvironmental chemistryEUTROPHICATION1181 Ecology evolutionary biologyConstructed wetlandEnvironmental scienceSewage treatmentNitrificationhigh nitrogen removalEutrophicationEnvironmental Science and Technology
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Denitrifying microbial communities along a boreal stream with varying land-use

2019

Streams have an important role in regulating nitrogen (N) transportation from terrestrial ecosystems to downstream waters. Here, we examined how catchment land-use affects potential denitrification rates and the function and composition of denitrifier communities in boreal stream sediments, using stable isotope incubations and qPCR and 454-pyrosequencing targeted on nirS, nirK and nosZ genes. Although land-use influenced the water chemistry as higher nitrite + nitrate (NO x − ) concentration at the agriculture-affected sampling point, sediment organic matter content was found to be the key factor in regulating potential denitrification rates. However, the abundance as well as the diversity …

denitrifikaatio0106 biological sciencesDenitrification010504 meteorology & atmospheric sciencescatchment land-useDIVERSITY454-PyrosequencingmaankäyttöAquatic ScienceNIRK01 natural sciencesnirS + nirKDenitrifying bacteriaORGANIC-CARBONAbundance (ecology)nosZCommunity compositionOrganic mattercommunity compositionNITROUS-OXIDE REDUCTASEEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesWater Science and Technology454-pyrosequencingchemistry.chemical_classificationCatchment land-usedenitrificationEcology218 Environmental engineeringStable isotope ratio010604 marine biology & hydrobiologySedimentDENITRIFICATION15. Life on land6. Clean waterchemistryBoreal13. Climate actionEnvironmental chemistry1181 Ecology evolutionary biologyBACTERIAnirS plus nirKEnvironmental scienceNITRATE REDUCTIONTerrestrial ecosystemABUNDANCERIBOSOMAL-RNAvaluma-alueetNOSZ GENES
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Ecosystem responses to increased organic carbon concentration: comparing results based on long-term monitoring and whole-lake experimentation

2019

Recent increases in terrestrial dissolved organic carbon (DOC) concentrations in northern inland waters have many ecological consequences. We examined available data on carbon cycles and food webs of 2 boreal headwater lakes in southern Finland. Basic limnology and catchment characteristics of a pristine lake, Valkea-Kotinen (VK), were monitored over the past 25 years while the lake has undergone browning and DOC increased from similar to 11 to 13 mg L-1. Pronounced changes in the early 2000s represent a regime shift in DOC concentration and color. Lake Alinen Mustajarvi (AM) was manipulated for 2 years by additions of labile DOC (cane sugar), raising the DOC concentration from similar to 1…

0106 biological sciences010504 meteorology & atmospheric scienceshiiliBOREAL LAKEHUMIC LAKEboreal lakesMicrobial metabolismBACTERIAL METABOLISMDOCAquatic ScienceFOREST LAKESjärvetTERRESTRIAL CARBON01 natural sciencesFreshwater ecosystemCarbon cycleorgaaniset aineetFOOD WEBSparasitic diseasesDissolved organic carbonEcosystem14. Life underwater0105 earth and related environmental sciencesWater Science and TechnologybrowningTotal organic carbon010604 marine biology & hydrobiologyPlankton6. Clean waterekosysteemit (ekologia)terrestrial organic carbonorganic carbon concentration13. Climate actionLong term monitoringEnvironmental chemistry1181 Ecology evolutionary biologyGROWTHPLANKTONEnvironmental scienceCO2 fluxMATTERecosystem responseslake metabolismInland Waters
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Ecosystem responses to increased organic carbon concentration: comparing results based on long-term monitoring and whole-lake experimentation

2019

Recent increases in terrestrial dissolved organic carbon (DOC) concentrations in northern inland waters have many ecological consequences. We examined available data on carbon cycles and food webs of 2 boreal headwater lakes in southern Finland. Basic limnology and catchment characteristics of a pristine lake, Valkea-Kotinen (VK), were monitored over the past 25 years while the lake has undergone browning and DOC increased from ∼11 to 13 mg L−1. Pronounced changes in the early 2000s represent a regime shift in DOC concentration and color. Lake Alinen Mustajärvi (AM) was manipulated for 2 years by additions of labile DOC (cane sugar), raising the DOC concentration from ∼10 to 12 mg L−1, but …

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