Search results for "STABLE-ISOTOPE RATIOS"

showing 2 items of 2 documents

Environmental controls on benthic food web functions and carbon resource use in subarctic lakes

2019

Climate warming and consequent greening of subarctic landscapes increase the availability of organic carbon to the detrital food webs in aquatic ecosystems. This may cause important shifts in ecosystem functioning through the functional feeding patterns of benthic organisms that rely differently on climatically altered carbon resources. Twenty-five subarctic lakes in Finnish Lapland across a tree line ecotone were analysed for limnological and optical variables, carbon (delta C-13) and nitrogen (delta N-15) stable isotope (SI) composition of surface sediment organic matter (OM) and fossil Chironomidae (Diptera) remains to examine environmental controls behind chironomid functional feeding g…

0106 biological sciencesTROPHIC FRACTIONATIONliuennut orgaaninen hiilita1171stable isotopesAquatic Sciencefunctional ecology010603 evolutionary biology01 natural sciencesPaleolimnologyZooplanktonChironomidaeINVERTEBRATESDELTA-C-13STABLE-ISOTOPE RATIOS14. Life underwatersurviaissääsket1172 Environmental sciencesInvertebrateTotal organic carbonFunctional ecologyFRESH-WATERpaleolimnologyEcology010604 marine biology & hydrobiologyorganic carbonhiilen kierto15. Life on landSubarctic climateFood webpaleolimnologiaNITROGEN13. Climate actionBenthic zoneZOOPLANKTON1181 Ecology evolutionary biologyEnvironmental scienceta1181ENRICHMENTDELTA-N-15TERRESTRIAL ORGANIC-MATTERravintoverkot
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Drivers of shell growth of the bivalve, Callista chione (L. 1758) - Combined it environmental and biological factors

2018

WOS:000426027100014; Seasonal shell growth patterns were analyzed using the stable oxygen and carbon isotope values of live-collected specimens of the bivalve Callista chione from two sites in the Adriatic Sea (Pag and Cetina, Croatia). Micromilling was performed on the shell surface of three shells per site and shell oxygen isotopes of the powder samples were measured. The timing and rate of seasonal shell growth was determined by aligning the delta O-18(shell)-derived temperatures so that the best fit was achieved with the instrumental temperature curve. According to the data, shells grew only at very low rates or not at all during the winter months, i.e., between January and March. Shell…

0106 biological sciences010504 meteorology & atmospheric sciencesmussel mytilus-galloprovincialisCroatiaShell (structure)Oxygen IsotopesAquatic ScienceEnvironmentOceanography01 natural sciencesIsotopes of oxygenChionespisula-solidissimaBiological Factorswater temperatureSclerochronologySeasonal shell growth patternsSclerochronologycontinental-shelfBivalve molluskAnimals14. Life underwaterArctica islandicaparticulate organic-matter0105 earth and related environmental sciencesStable isotopesCarbon IsotopesBivalve mollusk ; Seasonal shell growth patterns ; Stable isotopes ; Sclerochronology ; Environment ; Biology ; Life history traitbiologyStable isotope ratiostable-isotope ratios010604 marine biology & hydrobiologyACLpopulation-dynamicsGeneral Medicineglycymeris-glycymerisLife history traitsbiology.organism_classificationPollutionBivalviaphacosoma-japonicumOceanographyIsotopes of carbonEnvironmental scienceSeawaterarctica-islandica[SDE.BE]Environmental Sciences/Biodiversity and Ecology
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