Search results for "SOUTHERN FINLAND"

showing 5 items of 5 documents

Recent changes in chironomid communities and hypolimnetic oxygen conditions relate to organic carbon in subarctic ecotonal lakes

2018

A key question in aquatic elemental cycling is related to the influence of bottom water oxygen conditions in regulating the burial and release of carbon under climate warming. In this study, we used head capsules of Chironomidae larvae to assess community and diversity change between the past (estimated as Pre-Industrial Period) and present and to reconstruct changes in hypolimnetic oxygen conditions from 30 subarctic ecotonal lakes (northeastern Lapland) using the top-bottom paleolimnological approach applying surface sediment (topmost 0-2 cm) and reference (4-5 cm) samples. Subsequently, we tested the findings against dissolved organic carbon (DOC) concentration of the sites. We found tha…

liuennut orgaaninen hiili010504 meteorology & atmospheric sciencesClimateCALIBRATION MODEL010501 environmental sciencesDOC01 natural sciencesPaleolimnologyFreshwater ecosystemFRESH-WATER ECOSYSTEMSDissolved organic carbonGREENHOUSE-GASWaste Management and DisposalTEMPERATUREhappikatoTotal organic carbonCLIMATE-CHANGEpaleolimnologyPollutionSubarctic climateAdaptation PhysiologicalpaleolimnologiaOceanographyBenthic zonedissolved oxygenHypolimnionEnvironmental MonitoringEnvironmental EngineeringClimate Changeta1171ChironomidaeBottom waterRECONSTRUCTIONSSUBFOSSIL CHIRONOMIDSEnvironmental ChemistryAnimals14. Life underwatersurviaissääsket1172 Environmental sciences0105 earth and related environmental sciencesMIDGES DIPTERA15. Life on landNUTRIENT DYNAMICSCarbontop-bottom approachOxygenLakesLapland13. Climate actionEnvironmental scienceta1181subarktinen vyöhykeSOUTHERN FINLANDScience of the Total Environment

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Lichen communities on Populus tremula are affected by the density of Picea abies

2021

Questions Aspen (Populus tremula) is declining in the old‐growth forests of boreal Fennoscandia. This threatens the numerous taxa that are dependent on old aspens, including many epiphytic lichens. Potential methods to aid epiphytic lichens on aspen are centered around treatments which affect the density of Norway spruce (Picea abies). In this study, we investigated how epiphytic lichen communities on aspen are affected by the variation of spruce density in the immediate vicinity of the focal aspen. Location Southern boreal forests in Finland. Methods We recorded the occurrence of lichens from 120 aspens in 12 semi‐natural forest sites. We used spruce basal area as the measure for spruce de…

0106 biological scienceshaapaBiodiversityEcological succession01 natural sciencestiheysvanhat metsätboreal forestsLichenFinlandbiodiversitysienitiededensitygeography.geographical_feature_categoryEcologybiologyjäkälätEcologyTaigaesiintyminenOld-growth forestekologiasuccessionold growth forestsboreaalinen vyöhykeEuropean aspenNorway spruceboreal zoneold-growth forestsvuorovaikutuslichen communitiesEcology (disciplines)epiphytic lichenscyanolichensinteractionManagement Monitoring Policy and Lawlichen010603 evolutionary biologyred‐listed speciessuojelualueetoccurenceSouthern FinlandPopulus tremulaNature and Landscape ConservationgeographyCommunityPicea abiesPicea abies15. Life on landbiology.organism_classificationbiodiversiteettimycologyprotected areasmetsäkuusired-listed speciescommunity ecology010606 plant biology & botanyApplied Vegetation Science

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Long-Term Consequences of Water Pumping on the Ecosystem Functioning of Lake Sekšu, Latvia

2020

Cultural eutrophication, the process by which pollution due to human activity speeds up natural eutrophication, is a widespread and consequential issue. Here, we present the 85-year history of a small, initially Lobelia&ndash

INDICATORS0106 biological scienceslcsh:Hydraulic engineeringwater level fluctuationGeography Planning and DevelopmentDIAGENESISNorthern EuropeLEVEL FLUCTUATIONS01 natural sciencesBiochemistrylcsh:Water supply for domestic and industrial purposes:Geofag: 450 [VDP]CULTURAL EUTROPHICATION:Geosciences: 450 [VDP]Water Science and Technologybiologymulti-proxy approachPlanktonCladoceraSTATE6. Clean waterORGANIC-MATTEReutrophicationOceanographyCladocera1181 Ecology evolutionary biologyHypolimnionSEDIMENTS010506 paleontologyINDEXESAquatic ScienceChironomidaeHYPOLIMNETIC OXYGENdiatomslcsh:TC1-978Ecosystem14. Life underwater1172 Environmental sciences0105 earth and related environmental scienceslcsh:TD201-500010604 marine biology & hydrobiologyfungiSediment15. Life on landbiology.organism_classificationWater levelDiatom13. Climate actionEnvironmental scienceEutrophicationSOUTHERN FINLANDWater

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Calibration of in situ chlorophyll fluorometers for organic matter

2019

AbstractOrganic matter (OM) other than living phytoplankton is known to affect fluorometric in situ assessments of chlorophyll in lakes. For this reason, calibrating fluorometric measurements for OM error is important. In this study, chlorophyll (Chl) fluorescence was measured in situ in multiple Finnish lakes using two sondes equipped with Chl fluorometers (ex.470/em.650–700 nm). OM absorbance (A420) was measured from water samples, and one of the two sondes was also equipped with in situ fluorometer for OM (ex.350/em.430 nm). The sonde with Chl and OM fluorometers was also deployed continuously on an automated water quality monitoring station on Lake Konnevesi. For data from multiple lake…

In situveden väri010504 meteorology & atmospheric sciencesFinnish lakesNorthern Europe010501 environmental sciences01 natural scienceschemistry.chemical_compoundFluorometerlakesCentral Finlandautomated monitoringVesijärviFinlandorganic matterwater colourchemistry.chemical_classificationhumic lakes6. Clean waterhumusjärvetEuropeEnvironmental chemistryorgaaninen ainesfluorescenceorgaaninen aineVanajavesiklorofylliChlorophyll aoptical sensorskalibraatiochlorophyll aAquatic SciencejärvetAbsorbancePhytoplanktonOrganic matterSouthern FinlandJyväsjärvivedenväri0105 earth and related environmental sciencesin situfluoresenssivedenlaatucalibrationautomaattinen seurantaoptiset anturitchemistryChlorophyllKonnevesisuomalaiset järvetEnvironmental scienceWater qualityHydrobiologia

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The effects of drainage and restoration of pine mires on habitat structure, vegetation and ants

2016

Habitat loss and degradation are the main threats to biodiversity worldwide. For example, nearly 80% of peatlands in southern Finland have been drained. There is thus a need to safeguard the remaining pristine mires and to restore degraded ones. Ants play a pivotal role in many ecosystems and like many keystone plant species, shape ecosystem conditions for other biota. The effects of mire restoration and subsequent vegetation succession on ants, however, are poorly understood. We inventoried tree stands, vegetation, water-table level, and ants (with pitfall traps) in nine mires in southern Finland to explore differences in habitats, vegetation and ant assemblages among pristine, drained (30…

0106 biological sciencesAichi Biodiversity Target 15PeatFORMICA-AQUILONIAta1172ecological restorationpine bogs and fens010603 evolutionary biology01 natural sciencesMiretransforming and transformed drained miresBOREAL FORESTSlcsh:ForestryditchingBogRestoration ecologyFormicidae4112 Forestrygeography.geographical_feature_categoryAgroforestryEcologyEcological ModelingASSEMBLY RULESEXTINCTION DEBTForestryVegetation15. Life on land010602 entomologywater-table levelGeographyHabitat destructionTree standBOGSWATER-LEVELlcsh:SD1-669.5ta1181COMMUNITIESSOUTHERN FINLANDWOOD ANTSExtinction debt

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