Search results for "biodegradation"

showing 10 items of 317 documents

Comparative Investigation on the Soil Burial Degradation Behaviour of Polymer Films for Agriculture before and after Photo-Oxidation

2020

Polymer films based on biodegradable polymers, polyethylene (PE) and modified PE with oxo-degradable additive were prepared by film blowing. Carbon black (1%) was added to all the films. Commercial biodegradable Ecovio&reg

polyethyleneEcovio<sup>®</sup>Materials sciencemulch filmsPolymers and Plasticspolymer degradation02 engineering and technologyMater-Bi<sup>®</sup>010402 general chemistry01 natural sciencesArticlelcsh:QD241-441chemistry.chemical_compoundPolymer degradationlcsh:Organic chemistrySoil retrogression and degradationbiodegradable polymers; mulch films; soil burial test; Ecovio®; Mater-Bi®; polylactide; poly(butyleneadipate-co-butyleneterephtalate); polyethylene; polymer degradation; photooxidationchemistry.chemical_classificationsoil burial testGeneral ChemistryPolymerCarbon blackPolyethyleneBiodegradation021001 nanoscience & nanotechnologyBiodegradable polymerphoto-oxidation0104 chemical sciencesSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialichemistryChemical engineeringbiodegradable polymerspolylactidepoly(butyleneadipate-<i>co</i>-butyleneterephtalate)Biodegradable polymers Ecovio® Mater-Bi® Mulch films Photo-oxidation Poly(butyleneadipate-co-butyleneterephtalate) Polyethylene Polylactide Polymer degradation Soil burial testDegradation (geology)Ecovio®poly(butyleneadipate-co-butyleneterephtalate)0210 nano-technologyMater-Bi®Polymers
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The bioremediation potential of the Priolo Harbour (SR, Italy): isolation, identification and catabolic ability of hydrocarbonoclastic bacteria

2013

The petrochemical site of Priolo-Augusta-Melilli (Sicily, Italy), is a Site of National Interest (SIN) due to high levels of contamination of the coastline and its remediation is urgently needed. Successful remediation strategies relying on the catabolic potential of marine hydrocarbonoclastic bacteria (HCB) have been described. HCB are specialised hydrocarbon (HC)-degrading marine bacteria that use HC almost exclusively as unique carbon and energy source and become dominant in oil-impacted environments. In order to identify the key hydrocarbon degraders and explore the natural bioremediation potential of the contaminated area, sediment cores and sea water were collected inside the Priolo H…

Bioremediation marine pollution Biodegradation Hydrocarbons
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Evaluation of carbamazepine uptake and metabolization by Typha spp., a plant with potential use in phytotreatment

2011

Abstract Phytoremediation technologies such as constructed wetlands have shown higher efficiencies in removal of pharmaceuticals from wastewaters than conventional wastewater treatment processes, and plants seem to have an important role in the removal of some of those compounds. In this context, a study was conducted to assess tolerance, uptake, and metabolism of the epilepsy drug, carbamazepine, by the macrophyte Typha spp. This evaluation was conducted in hydroponic solutions with 0.5–2.0 mg/L of this pharmaceutical for a maximum period of 21 days. The removal of carbamazepine from nutrient solutions by the plants reached values of 82% of the initial contents. Furthermore, a metabolite (…

Spectrometry Mass Electrospray IonizationEnvironmental EngineeringMetaboliteBioengineeringContext (language use)Typhaceaechemistry.chemical_compoundNutrientTandem Mass SpectrometryBotanymedicineTypha spp.Waste Management and DisposalTyphaPhytotreatmentbiologyConstructed wetlandsRenewable Energy Sustainability and the EnvironmentGeneral MedicineCarbamazepinebiology.organism_classificationPhytoremediationPhytoremediationBiodegradation EnvironmentalCarbamazepinechemistryCatalaseOxidative stressEnvironmental chemistrybiology.proteinPharmaceuticalsAnticonvulsantsWater Pollutants ChemicalChromatography Liquidmedicine.drug
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Cytotoxicity of Metal and Semiconductor Nanoparticles Indicated by Cellular Micromotility

2009

In the growing field of nanotechnology, there is an urgent need to sensitively determine the toxicity of nanoparticles since many technical and medical applications are based on controlled exposure to particles, that is, as contrast agents or for drug delivery. Before the in vivo implementation, in vitro cell experiments are required to achieve a detailed knowledge of toxicity and biodegradation as a function of the nanoparticles' physical and chemical properties. In this study, we show that the micromotility of animal cells as monitored by electrical cell-substrate impedance analysis (ECIS) is highly suitable to quantify in vitro cytotoxicity of semiconductor quantum dots and gold nanorods…

Materials scienceContrast MediaMetal NanoparticlesGeneral Physics and AstronomyNanoparticleNanotechnologyDrug Delivery SystemsIn vivoQuantum DotsMicroscopyElectric ImpedanceAnimalsHumansNanotechnologyGeneral Materials ScienceCytotoxicityFluorescent DyesGeneral EngineeringIn vitroBiodegradation EnvironmentalSemiconductorsMetalsQuantum dotDrug deliveryNanoparticlesNanorodGoldACS Nano
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Isolation of organophosphorus-degrading bacteria from agricultural mediterranean soils

2010

biodegradationorganophosphorus pesticides solid phase micro-extractionSettore AGR/13 - Chimica AgrariaSettore BIO/11 - Biologia Molecolare
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In vivo exposure of the marine sponge Chondrilla nucula Schmidt, 1862 to cadmium (Cd), copper (Cu) and lead (Pb) and its potential use for bioremedia…

2018

Abstract The study aimed to test the cadmium (Cd), copper (Cu) and lead (Pb) bioaccumulation capacity of the marine sponge Chondrilla nucula and to measure the expression of metallothioneins (MTs) by a western blotting assay to explore metal tolerance and its potential use as a bioremediator in contaminated coastal areas. C. nucula was sampled in a protected marine area in order to perform experiments on organisms living in a healthy environment. Under laboratory conditions, the sponges were exposed to increasing concentrations of Cd, Cu and Pb in tanks filled with artificial seawater set up for the experiments. For each metal, three waterborne concentrations (mgL−1) of Cd (0.02–0.04-0.08),…

Settore BIO/07 - Ecologia0301 basic medicineEnvironmental EngineeringHealth Toxicology and Mutagenesischemistry.chemical_elementArtificial seawater010501 environmental sciences01 natural sciences03 medical and health sciencesBioremediationSpongeEnvironmental ChemistryAnimalsChondrilla nucula0105 earth and related environmental sciencesCadmiumbiologyAnimalPublic Health Environmental and Occupational HealthEnvironmental engineeringGeneral MedicineGeneral ChemistryContaminationbiology.organism_classificationChondrilla nuculaPollutionCopperPoriferaSpongeHeavy metal030104 developmental biologyBiodegradation EnvironmentalHeavy metalschemistryLeadSpongesEnvironmental chemistryBioaccumulationBiodegradationBioremediation Chondrilla nucula Heavy metals SpongesBioremediationCopperCadmiumChemosphere
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Effect of polyethelene oxide on the thermal degradation of cellulose biofilm - Low cost material for soft tissue repair in dentistry

2016

Background Bio cellulose is a byproduct of sweet tea fermentation known as kombusha. During the biosynthesis by bacteria cellulose chains are polymerized by enzyme from activated glucose. The single chains are then extruded through the bacterial cell wall. Interestingly, a potential of the Kombucha's byproduct bio cellulose (BC) as biomaterial had come into focus only in the past few decades. The unique physical and mechanical properties such as high purity, an ultrafine and highly crystalline network structure, a superior mechanical strength, flexibility, pronounced permeability to gases and liquids, and an excellent compatibility with living tissue that reinforced by biodegradability, bio…

Thermogravimetric analysisMaterials scienceBiocompatibilityResearchBiomaterial02 engineering and technologyBiodegradation:CIENCIAS MÉDICAS [UNESCO]010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical scienceschemistry.chemical_compoundchemistryChemical engineeringBiomaterials and Bioengineering in DentistryUNESCO::CIENCIAS MÉDICASPEG ratioUltrapure watermedicineCelluloseSwellingmedicine.symptom0210 nano-technologyGeneral DentistryJournal of Clinical and Experimental Dentistry
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Metabolic shift of polyphosphate-accumulating organisms with different levels of polyphosphate storage

2012

Previous studies have shown that polyphosphate-accumulating organisms (PAOs) are able to behave as glycogen-accumulating organisms (GAOs) under different conditions. In this study we investigated the behavior of a culture enriched with Accumulibacter at different levels of polyphosphate (poly-P) storage. The results of stoichiometric ratios Gly degraded/HAc uptake, PHB synthesized/HAc uptake, PHV synthesized/HAc uptake and P release/HAc uptake confirmed a metabolic shift from PAO metabolism to GAO metabolism: PAOs with high poly-P content used the poly-P to obtain adenosine tri-phosphate (ATP), and glycogen (Gly) to obtain nicotinamide adenine dinucleotide (NADH) and some ATP. In a test whe…

Accumulibacter Type IIWaste component removalUnclassified drugPhysiologyChemical compositionMicrobial metabolismStorageWastewaterNicotinamide adenine dinucleotidePolyhydroxyalkanoic acidchemistry.chemical_compoundBacteriumBioreactorsPolyphosphatesGlycolysisAnaerobiosisBiomassPolyphosphate-accumulating organismsWaste Management and DisposalAccumulibacter Type IGlycogen accumulating organismPriority journalWater Science and TechnologyFluorescence microscopyPolyhydroxyvalerateSewageGlycogenHydrolysisFluorescence in situ hybridizationEcological ModelingPhosphorusHydrogen-Ion ConcentrationBioaccumulationPollutionStoichiometryWaste treatmentPolyphosphate-accumulating organismsBiodegradation EnvironmentalEnhanced biological phosphorus removalBiochemistryGlycogen-accumulating metabolism (GAM)Nicotinamide adenine dinucleotideAccumulibacter type 1Accumulibacter type 2GlycolysisGlycogenMetabolic Networks and PathwaysAccumulibacterAdenosine triphosphateEnvironmental EngineeringBiologyAcetic acidArticleAssociative storagePolyphosphate-accumulating metabolism (PAM)PolyphosphateGlycogen-accumulating organismsGlycogen-accumulating metabolismsTECNOLOGIA DEL MEDIO AMBIENTEPolyphosphate accumulating organismCivil and Structural EngineeringPolyphosphate-accumulating organisms (PAO)BacteriaPolyphosphateMetabolismIn situ measurementGlycogen-accumulating organisms (GAO)Polyphosphate-accumulating metabolismsNonhumanAmidesCarbonMetabolismchemistryPolyphosphate (poly-P)Bacterial metabolismCell cultureVolatilizationWater Research
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Prospects of in vivo 31P NMR method in glyphosate degradation studies in whole cell system

2009

Abstract The degradation of the phosphonate herbicide glyphosate ( N -phosphonomethylglycine) by four taxonomically distinct microorganisms was studied in vivo in whole cell system using phosphorus nuclear magnetic spectroscopy ( 31 P NMR). The time-course of glyphosate metabolization in dense cell cultures was followed by means of 31 P NMR up to 21 days after the addition. The results obtained by this non-invasive way confirmed that the cells of Spirulina platensis and Streptomyces lusitanus biodegrade herbicide. Moreover, phosphorus starvation influenced the rate of glyphosate degradation by S. platensis . On the other hand, the results of similar measurements in the cultures of green alg…

Streptomyces lusitanusMicroorganismChlorella vulgarischemistry.chemical_elementBioengineeringBiologyApplied Microbiology and BiotechnologyBiochemistrybiodegradationchemistry.chemical_compoundglyphosatein vivo31P NMRBotanyFusarium dimerumspirulina platensisPhosphorusBiodegradationbiology.organism_classificationStreptomyces lusitanusPhosphonatexenobiotic metabolismchemistryBiochemistryGlyphosateGreen algaeChlorella vulgarisBiotechnologyEnzyme and Microbial Technology
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Sorption of copper(II) ions in the biomass of alga Spirogyra sp.

2012

Abstract Sorption of copper ions by the alga Spirogyra sp. was investigated to determine the influence of experimental conditions and the methods of sample preparation on the process. The experiments were carried out both under the static and the dynamic conditions. Kinetics and equilibrium parameters of the sorption were evaluated. In addition, the influence was studied of the algae preparation methods on the conductivity of demineralized water in which the algae samples were immersed. The static experiments showed that the sorption of Cu2+ ions reached equilibrium in about 30 min, with approximately 90% of the ions adsorbed in the initial 15 min. The sorption capacity determined from the …

LangmuirCations DivalentInorganic chemistryBiophysicschemistry.chemical_elementFresh WaterConductivityAdsorptionAlgaeElectrochemistrySample preparationBiomassPhysical and Theoretical ChemistrybiologyElectric ConductivityTemperatureSorptionGeneral MedicineHydrogen-Ion ConcentrationSpirogyrabiology.organism_classificationCopperSolutionsKineticsBiodegradation EnvironmentalchemistryVolume (thermodynamics)Environmental chemistryThermodynamicsAdsorptionCopperWater Pollutants ChemicalBioelectrochemistry
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