Search results for "EAG"

showing 10 items of 1379 documents

Plant and sediment properties in seagrass meadows from two Mediterranean CO2 vents: Implications for carbon storage capacity of acidified oceans

2019

Abstract Assessing the status of important carbon sinks such as seagrass meadows is of primary importance when dealing with potential climate change mitigation strategies. This study examined plant and sediment properties in seagrass meadows (Cymodocea nodosa (Ucria) Asch.) from two high pCO2–low pH Mediterranean vent systems, located at Milos (Greece) and Vulcano (Italy) Islands, providing insights on carbon storage potential in future acidified oceans. Contrary to what has been suggested, carbon content (both inorganic and organic) and its surficial accumulation decreased at high pCO2–low pH in comparison with controls. The decrease in inorganic carbon may result from the higher solubilit…

0106 biological sciencesCarbon sequestrationSettore BIO/07 - EcologiaCymodocea nodosaAquatic ScienceCarbon sequestrationOceanography010603 evolutionary biology01 natural sciencesCarbon sinkBlue carbonTotal inorganic carbonLow pHTotal organic carbonBlue carbonCymodocea nodosabiology010604 marine biology & hydrobiologyOcean acidificationCarbon sinkOcean acidificationGeneral Medicinebiology.organism_classificationPollutionSeagrassEnvironmental chemistryEnvironmental science
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Seagrass ecosystem response to long-term high CO2 in a Mediterranean volcanic vent

2014

We examined the long-term effect of naturally acidified water on a Cymodocea nodosa meadow growing at a shallow volcanic CO2 vent in Vulcano Island (Italy). Seagrass and adjacent unvegetated habitats growing at a low pH station (pH = 7.65 ± 0.02) were compared with corresponding habitats at a control station (pH = 8.01 ± 0.01). Density and biomass showed a clear decreasing trend at the low pH station and the below- to above-ground biomass ratio was more than 10 times lower compared to the control. C content and δ13C of leaves and epiphytes were significantly lower at the low pH station. Photosynthetic activity of C. nodosa was stimulated by low pH as seen by the significant increase in Chla…

0106 biological sciencesCarbon sequestrationSettore BIO/07 - EcologiaCymodocea nodosaPHOcean acidification Carbon cycling Carbon sequestration Metabolism pH PhotosynthesisAquatic ScienceOceanography010603 evolutionary biology01 natural sciencesElectron TransportMagnoliopsidaNutrientHydrothermal VentsMediterranean Sea14. Life underwaterBiomassPhotosynthesisEcosystemCarbon cyclingBiomass (ecology)Analysis of VariancebiologyEcology010604 marine biology & hydrobiologyOcean acidificationPrimary productionOcean acidificationGeneral Medicine15. Life on landCarbon DioxideHydrogen-Ion Concentrationbiology.organism_classificationPollutionCarbonSeagrassMetabolismAgronomyProductivity (ecology)13. Climate actionEnvironmental scienceEpiphyte
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Ocean Acidification and the Loss of Phenolic Substances in Marine Plants

2012

Rising atmospheric CO(2) often triggers the production of plant phenolics, including many that serve as herbivore deterrents, digestion reducers, antimicrobials, or ultraviolet sunscreens. Such responses are predicted by popular models of plant defense, especially resource availability models which link carbon availability to phenolic biosynthesis. CO(2) availability is also increasing in the oceans, where anthropogenic emissions cause ocean acidification, decreasing seawater pH and shifting the carbonate system towards further CO(2) enrichment. Such conditions tend to increase seagrass productivity but may also increase rates of grazing on these marine plants. Here we show that high CO(2) …

0106 biological sciencesCymodocea nodosaved/biology.organism_classification_rank.speciesCarbonatesSecondary MetabolismMarine and Aquatic Scienceslcsh:MedicinePlant Science01 natural scienceschemistry.chemical_compoundGlobal Change Ecologylcsh:SciencePhysiological EcologyMultidisciplinaryAlismatalesbiologyEcologyEcologyPlant BiochemistryMarine EcologyOcean acidificationPotamogetonaceaeHydrogen-Ion ConcentrationSeagrassProductivity (ecology)ItalyCarbon dioxideCoastal EcologyResearch ArticleOceans and SeasMarine Biology010603 evolutionary biologyStatistics NonparametricHydrothermal VentsPhenolsPlant-Environment InteractionsTerrestrial plantSeawater14. Life underwaterocean acidification climate change mediterranean sea seagrassBiologyAnalysis of VarianceChemical EcologyMarylandved/biology010604 marine biology & hydrobiologyPlant Ecologyfungilcsh:R15. Life on landCarbon Dioxidebiology.organism_classificationSalinitychemistry13. Climate actionEarth Scienceslcsh:QRuppia maritima
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Halophila stipulacea descriptors in the native area (Red Sea): A baseline for future comparisons with native and non-native populations

2018

Abstract Halophila stipulacea is a small tropical seagrass species native to the Red Sea. Due to its invasive character, there is growing interest in understanding its ability to thrive in a broad range of ecological niches. We studied temporal (February 2014 and July 2014), depth (5, 9, 18 m) and spatial (NB and SB) related dynamics of H. stipulacea meadows in the northern Gulf of Aqaba. We evaluated changes in density, morphometry, biomass, and biochemical parameters alongside the reproductive effort. In both sites, maximal growth and vegetative performance occurred in the summer with a marked increase of 35% in shoot density and 18% in biomass; PAR reduction with season and depth induced…

0106 biological sciencesDepth-adaptationSettore BIO/07 - EcologiaSettore BIO/07Range (biology)Anthropogenic pressuresPhenol contentAquatic ScienceSeagrass Temporal changes Depth-adaptation Anthropogenic pressures Morphometric and population parameters Phenol content Nitrogen storage Stable isotopesOceanography010603 evolutionary biology01 natural sciencesMorphometric and population parametersNitrogen storageSeagrassStable isotopesEcological nicheHalophila stipulaceaBiomass (ecology)biologyEcology010604 marine biology & hydrobiologyBaseline (sea)food and beveragesTemporal changesGeneral Medicinebiology.organism_classificationPollutionSexual reproductionSeagrassShoot
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Positive demographic effects of nest surveillance campaigns to counter illegal harvest of the Bonelli's eagle in Sicily (Italy)

2017

Illegal trade in wildlife has been identified as one of the main challenges to wildlife conservation. In 2010, an illegal trade-ring trafficking in birds of prey was uncovered in Sicily (southern Italy). This illegal trade targeted the three most endangered species in Italy: Bonelli's eagle Aquila fasciata, Lanner falcon Falco biarmicus and Egyptian vulture Neophron percnopterus, all of them long-lived territorial raptors threatened with extinction across their European distribution. Illegal harvest primarily involved young birds and eggs taken from nests. After the discovery of these activities, surveillance camps and camera traps connected to the mobile Global System for Mobile communicat…

0106 biological sciencesEagleIllegal tradePopulationBonelli's eagleEndangered speciesSettore BIO/05 - Zoologia010603 evolutionary biology01 natural sciencesAnimals Protecció010605 ornithologyCritically endangeredbiology.animalPopulation viability analysiBonelli's eagle; Falconry; Illegal harvest; Illegal trade; Nest surveillance; Population viability analysis; Raptors; Ecology; Nature and Landscape ConservationeducationFauna ProteccióWildlife conservationNature and Landscape Conservationeducation.field_of_studyIllegal harvestbiologyEcologyNest surveillancebiology.organism_classificationRaptorFisheryPopulation viability analysisBonelli's eagleGeographyFalconryThreatened species
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Long-term changes in the breeding period diet of Bonelli

2019

Context Dietary analyses are essential to achieve a better understanding of animal ecology. In the case of endangered species, assessing dietary requirements is crucial to improve their management and conservation. The Bonelli’s eagle (Aquila fasciata) has experienced a severe decline throughout its breeding range in Europe and, in Italy, fewer than 50 pairs remain, and only in Sicily. This species is subject to major threats, including changes in landscape composition and, consequently, prey availability, which is further aggravated by the occurrence of viral diseases in the case of rabbits. Aims To provide current data on the diet of the Bonelli’s eagle in Sicily during the breeding peri…

0106 biological sciencesEagleeducation.field_of_studybiologyEcologyPopulationSpecies distributionEndangered speciesManagement Monitoring Policy and Lawbiology.organism_classification010603 evolutionary biology01 natural sciencesPredation010601 ecologyBonelli's eagleAnimal ecologybiology.animalCamera trapeducationEcology Evolution Behavior and SystematicsWildlife Research
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Species disparity response to mutagenesis of marine yeasts for the potential production of biodiesel.

2019

Abstract Background Among the third-generation biodiesel feed stock, oleaginous marine yeasts are the least studied microorganisms for such purpose. Results Wild strains yeasts were isolated from various Tunisian marine sources including fish waste (Candida tenuis CtTun15, Debaryomyces hansenii DhTun2015, Trichosporon asahii TaTun15 and Yarrowia lipolytica YlTun15) and seawater (Rhodotorula mucilaginosa RmTun15). Following incubation with ethyl methanesulfonate (EMS: 75 mM) for various periods of time (T15, T30, T45, T60 min), the cell viability of these strains responded differentially according to yeast species. For instance, mutated CtTun15 did not survive after 30 min of EMS treatment; …

0106 biological sciencesEthyl methanesulfonatelcsh:BiotechnologyMicroorganismManagement Monitoring Policy and Law01 natural sciencesApplied Microbiology and Biotechnologylcsh:Fuel03 medical and health scienceschemistry.chemical_compoundEthyl methanesulfonatelcsh:TP315-360lcsh:TP248.13-248.65010608 biotechnologyDebaryomyces hanseniiFood scienceBiomassIncubationMutagenesis optimization030304 developmental biologychemistry.chemical_classification0303 health sciencesOleaginous yeastbiologyRenewable Energy Sustainability and the EnvironmentFatty acidCorrectionYarrowiaLipidbiology.organism_classificationFatty acidYeastddc:General EnergychemistryBiodiesel productionBiodieselBiotechnologyBiotechnology for biofuels
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Spatial ecology and habitat use of adult Booted eagles (Aquila pennata) during the breeding season: implications for conservation.

2016

Fast-moving technological advances, such as satellite tracking technologies, are providing in-depth information of aspects of avian ecology hitherto unknown. In fact, detailed information about movement ecology and ranging behaviour of birds is important not only from the perspective of the basic ecology, but also from the conservation point of view. This is particularly important in European countries where agricultural intensification, land abandonment and the withdrawal of traditional management agro-forestry practices pose a threat to biodiversity. The Booted Eagle, likewise other forest raptors, is an adequate bioindicator of human-dominated agro-forestry Mediterranean landscapes in wh…

0106 biological sciencesHome rangeEcology (disciplines)GPSForagingBiodiversityEcologia animal010603 evolutionary biology01 natural sciences010605 ornithologyMovement ecologyZoologiaNatura 2000ZoologíaBooted eaglebiologyEcologybiology.organism_classificationHome rangeGeographyHabitatSpatial ecologySatellite telemetryNatura 2000Buffer areas
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The Ectocarpus genome and the independent evolution of multicellularity in brown algae

2010

Brown algae (Phaeophyceae) are complex photosynthetic organisms with a very different evolutionary history to green plants, to which they are only distantly related. These seaweeds are the dominant species in rocky coastal ecosystems and they exhibit many interesting adaptations to these, often harsh, environments. Brown algae are also one of only a small number of eukaryotic lineages that have evolved complex multicellularity (Fig. 1). We report the 214 million base pair (Mbp) genome sequence of the filamentous seaweed Ectocarpus siliculosus (Dillwyn) Lyngbye, a model organism for brown algae, closely related to the kelps (Fig. 1). Genome features such as the presence of an extended set of…

0106 biological sciencesLineage (evolution)Molecular Sequence DataPhaeophyta01 natural sciencesGenomeEvolution Molecular03 medical and health sciencesAlgae[SDV.BDD] Life Sciences [q-bio]/Development BiologyBotanyBIOLOGIE CELLULAIREAnimals14. Life underwater[SDV.BDD]Life Sciences [q-bio]/Development Biologyflore marinePhylogenyOrganismComputingMilieux_MISCELLANEOUSphéophycées030304 developmental biology0303 health sciencesGenomeMultidisciplinarybiologyEctocarpus siliculosusAlgal ProteinsEukaryotaPigments BiologicalEctocarpus15. Life on landbiology.organism_classificationBiological EvolutionBrown algaeMulticellular organismEvolutionary biologyalgues brunesBiologieSignal Transduction010606 plant biology & botany
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Brown trout (Salmo trutta L.) high genetic diversity around the Tyrrhenian Sea as revealed by nuclear and mitochondrial markers

2018

The brown trout (Salmo trutta L.) is widely distributed all around Europe but its natural diversity is threatened by massive stocking with Atlantic domestic strains. Describing the remaining natural genetic diversity and the proportion of domestic hatchery strains in rivers is a prerequisite for smart conservation. The high genetic diversity of brown trout populations around the Tyrrhenian Sea is well known. Use of twelve microsatellites has allowed description of the natural genetic structure of populations and detection of the consequences of stocking. Mitochondrial DNA control region sequences and the LDH-C1* gene enabled placement of each population into one of the six mitochondrial and…

0106 biological sciencesLineage (genetic)PopulationSettore BIO/05 - ZoologiaIntrogressionZoologyConservationAquatic ScienceBiology010603 evolutionary biology01 natural sciencesBrown trout14. Life underwaterConservation LDH-C1 Microsatellites mtDNA control regionTyrrhenian brown troutSalmoeducationMicrosatellitesmtDNA control regionGenetic diversityeducation.field_of_study[SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE]mtDNA010604 marine biology & hydrobiologyMicrosatellite[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologycontrol regionbiology.organism_classificationTyrrhenian brown troutGenetic structureLDH-C1*mtDNA control region
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