Search results for "Bioactivator"

showing 2 items of 2 documents

Biostimulation of in situ microbial degradation processes in organically-enriched sediments mitigates the impact of aquaculture

2019

Fish farm deposition, resulting in organic matter accumulation on bottom sediments, has been identified as among the main phenomena causing negative environmental impacts in aquaculture. An in situ bioremediation treatment was carried out in order to reduce the organic matter accumulation in the fish farm sediments by promoting the natural microbial biodegradation processes. To assess the effect of the treatment, the concentration of organic matter in the sediment and its microbial degradation, as well as the response of the benthic prokaryotic community, were investigated. The results showed a significant effect of the treatment in stimulating microbial degradation rates, and the consequen…

Geologic SedimentsEnvironmental EngineeringHealth Toxicology and MutagenesisFish farmingBioactivator0208 environmental biotechnologyFisheriesAquaculture02 engineering and technology010501 environmental sciences01 natural sciencesDeposition (geology)Prokaryotic diversityBiostimulationBioremediationAquacultureAnimalsEnvironmental ChemistryOrganic matter14. Life underwaterMicrobial biodegradation0105 earth and related environmental scienceschemistry.chemical_classificationExtracellular enzymatic activitybusiness.industryLachnospiraceaeFishesPublic Health Environmental and Occupational HealthFish farmGeneral MedicineGeneral ChemistryPollution6. Clean water020801 environmental engineeringchemistry13. Climate actionEnvironmental chemistryEnvironmental scienceOrganic matterbusiness
researchProduct

Cellulolytic bacteria joined with deproteinized whey decrease carbon to nitrogen ratio and improve stability of compost from wine production chain by…

2022

Composting residues from wine and dairy chains would contribute to increase the environmental sustainability of the production. The aim of this study was to evaluate the effects of deproteinized whey combined with bioactivators on the composting process. Bacillus velezensis and Kocuria rhizophila, bacteria with cellulolytic activity, were isolated from raw materials and inoculated in the organic mass to be composted. Piles moistened with deproteinized whey showed the highest reduction of total and dissolved organic carbon due to the stimulation of bacterial activity by nitrogen compounds held within deproteinized whey. Such findings were also confirmed by the speed up of the microbial carbo…

Kocuria rhizophilaEnvironmental EngineeringBacteriaNitrogenBioactivatorPruning residueCompostingWineGeneral MedicineManagement Monitoring Policy and LawDissolved Organic MatterGrape marcCarbonWheyBacillus velezensisWaste Management and DisposalJournal of Environmental Management
researchProduct