Search results for "Chironomus plumosus"

showing 3 items of 3 documents

Uptake of organic xenobiotics by benthic invertebrates from sediment contaminated by the pulp and paper industry

2007

Abstract Uptake of pulp and paper mill-derived pollutants by benthic invertebrates from sediment in Southern Lake Saimaa, eastern Finland, was studied. Two groups of benthic invertebrates (Diptera and Oligochaeta) were analyzed for their concentrations of resin acids (RAs), chlorophenolics (CPs) and β -sitosterol. The samples were collected 1 and 3 km downstream from the mill. In laboratory experiments Chironomus plumosus (a dipteran) and Lumbriculus variegatus (oligochaete) were exposed for 14 d to sediments collected from the same locations. The concentrations of RAs, CPs and β -sitosterol were higher in the areas downstream from the mill than those in the upstream reference area in both …

Geologic SedimentsLumbriculus variegatusEnvironmental EngineeringFaunaSensitivity and SpecificityXenobioticsstomatognathic systemBenthosAnimalsChironomus plumosusWater PollutantsOrganic ChemicalsWater pollutionWaste Management and DisposalWater Science and TechnologyCivil and Structural EngineeringInvertebratebiologyChemistryEcologyEcological Modelingfungitechnology industry and agricultureSedimentbiology.organism_classificationInvertebratesPollutionBenthic zoneTextile IndustryEnvironmental chemistryWater Research
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Centromeric heterochromatin and satellite DNA in the Chironomus plumosus species group

1994

Species of the Chironomus plumosus group display significant differences in their amount of centromeric heterochromatin. A tandem-repetitive satellite-like DNA has been isolated from C. plumosus. This DNA accounts for a major part of the centromeric heterochromatin. The DNA element has a Sau3AI restriction site ("Sau elements") and a monomer length of 165 or 166 bp. It is A-T rich (73%) and reveals a moderate DNA curvature, as shown by gel migration and computer analysis. The chromosomal localization and genomic organization of Sau elements were studied in 24 Chironomus species by in situ hybridization and (or) Southern analysis. The DNA is predominantly located in the centromeric regions …

Satellite DNACentromereMolecular Sequence DataIn situ hybridizationDNA SatelliteChironomidaechemistry.chemical_compoundSpecies SpecificityHeterochromatinCentromereGeneticsAnimalsChironomus plumosusCloning MolecularDeoxyribonucleases Type II Site-SpecificMolecular BiologyIn Situ HybridizationPhylogenyGenomic organizationGeneticsBase SequencebiologySequence Analysis DNAGeneral Medicinebiology.organism_classificationMolecular biologyRestriction sitechemistryNucleic Acid ConformationChironomusDNABiotechnologyGenome
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Widespread contribution of methane-cycle bacteria to the diets of lake profundal chironomid larvae.

2008

Reports of unexpectedly 13C-depleted chironomid larvae in lakes have led to an hypothesis that significant transfer of detrital organic matter to chironomid larvae may occur via methane-cycle bacteria. However, to date little is known of how such transfer might vary across species and lakes. We gathered data from 87 lakes to determine how widespread this phenomenon might be and to define boundaries for its likely magnitude. Carbon stable isotope values of chironomid larvae varied greatly between taxa. Very marked 13C-depletion was evident only in certain taxa, especially Chironomus plumosus, C. anthracinus, and C. tenuistylus, all characteristic of eutrophic or dystrophic lakes and known to…

chemistry.chemical_classificationCarbon IsotopesMethanobacteriaceaeFood ChainbiologyEcologyFresh Waterbiology.organism_classificationChironomidaeFood webChironomidaeOxygenchemistryLarvaparasitic diseasesChironomus plumosusAnimalsOrganic matterProfundal zoneBiomassHypolimnionEutrophicationMethaneEcology Evolution Behavior and SystematicsChironomus anthracinusEcology
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