Search results for "Microphytobentho"

showing 4 items of 4 documents

Is there light after depth? Distribution of periphyton chlorophyll and productivity in lake littoral zones

2014

Periphyton and phytoplankton contribute to the base of lake food webs, and both groups of microalgae are influenced by resources and physical forcing. Spatial variation in light availability interacts with the physical dynamics of the water column to create predictable depth gradients in resources and disturbance that may differentially affect periphyton vs phytoplankton. We characterized the depth distribution of chlorophyll and productivity of periphyton on sediments (epipelon) and phytoplankton in the euphotic zones of 13 oligomesotrophic lakes that span a large size gradient (0.017–32,600 km2 ). Epipelic chlorophyll usually increased with depth in the epilimnion. Light was the primary d…

disturbanceCNWisconsinmicrophytobenthosLake TanganyikaphytoplanktonepipelonNorth Temperate LakesLake Tahoelightfosforiperifyton
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Differential response of benthic microbes and meiofauna to fish-farm disturbance in coastal sediments

2001

Bacterial and meiofaunal abundance and biomass and their response to the disturbance induced by fish-farm biodeposition were investigated from March to October 1997 on a monthly basis at two stations of the Gaeta Gulf (Tyrrhenian Sea, Mediterranean Sea). The biopolymeric fraction of the organic matter was characterized by high concentrations which was similar at both fish-farming-impacted and control stations. Similarly, bacteria accounted for a small fraction of the biopolymeric organic carbon (<1%), while the contribution due to auto-fluorescent cell biomass (i.e. prokaryotic and eukaryotic cells displaying auto-fluorescence) to the total biopolymeric carbon was quantitatively negligible …

Settore BIO/07 - EcologiaChlorophyllGeologic SedimentsNematodaMeiofaunaHealth Toxicology and MutagenesisMeiobenthosColony Count MicrobialAquacultureBiologyToxicologyCyanobacteriaFish-farmMediterranean seaBenthosSedimentary organic matterEnvironmental ChemistrySedimentary organic matterAnimalsOrganic matterBiomassMicrophytobenthoTotal organic carbonchemistry.chemical_classificationBiomass (ecology)Bacteria2300EcologyChlorophyll Ameiofauna; bacteria; microphytobenthos; fish-farms; sedimentary organic matterGeneral MedicinePigments BiologicalPollutionchemistryItalyBenthic zone
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Distribution and sources of bulk organic matter (OM) on a tropical intertidal mud bank in French Guiana from elemental and isotopic proxies

2014

International audience; The mobile French Guiana coast is a shoreface region downdrift of the Amazon River, where enormous quantities of inorganic and organic materials are exchanged with the Atlantic Ocean. The rapid accumulation of these materials forms highly unstable shore-attached mud banks, which can be temporally emerged and then rapidly colonized and stabilized by microphytobenthos and opportunistic mangroves (i.e. Avicennia germinans). Mud banks are preferential sites for the accumulation and significant remineralization of organic matter (OM) due to intense erosion/deposition cycles and potential biological colonization. The distribution and sources of bulk sedimentary OM were cha…

[TN/TOC]atomic ratiosDeposition (geology)Macouria mud bankGeochemistry and PetrologyOrganic matter14. Life underwaterMacouria mud bank French Guiana[SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/OceanographyTotal organic carbonchemistry.chemical_classificationHydrologyStable carbon and nitrogen isotopes[ SDU.STU.OC ] Sciences of the Universe [physics]/Earth Sciences/OceanographybiologyAvicennia germinansMicrophytobenthosSediment[TNTOC](atomic) ratiosGeology15. Life on landbiology.organism_classificationFrench GuianaOceanographychemistryBenthic zoneSedimentary organic matter sourcesSedimentary rockMangroveGeology
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Latitudinal- and local-scale variations in a rocky intertidal interaction web

2015

Natural assemblages are structured by a complex combination of positive and negative interactions, and the relative importance of each interaction can vary across spatial scales. By using a simple interaction web (barnacles-grazers-microphytobenthos) in a rocky intertidal system, we tested the hypothesis that the relative strength of positive and negative interactions would vary as a function of different environmental stress between 2 latitudinal levels and local environmental conditions. We manipulated the cover of barnacles and the presence of limpets at 2 sites in northern and southern Italy and non-destructively examined the response of microphyto - benthos (MPB) (photosynthetic biomas…

BarnacleSettore BIO/07 - EcologiaIndirect effectEvolutionIntertidal zoneDensity dependenceBarnacles; Density dependence; Environmental stress; Facilitation; Grazing; Indirect effects; Interaction web; Local stressors; Microphytobenthos; Aquatic Science; Ecology; Ecology Evolution Behavior and SystematicsEnvironmental stressBiologyAquatic ScienceBenthosBehavior and SystematicsInteraction webRelative species abundanceMicrophytobenthoEcology Evolution Behavior and SystematicsTrophic levelAbiotic componentBiomass (ecology)EcologyEcologyEnvironmental streMicrophytobenthosLocal stressorsLocal stressorGrazingIndirect effectsHabitatFoundation speciesFacilitationBarnacles
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