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Microorganismos, hongos y algas(6)
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Evaluation of the grazer-prey interaction as a biotechnological strategy to increase toxin production by dinoflagellate cultures in photobioreactors
ArticleAbstract: In this paper, we extend an existing approach to biotechnologically assess grazer-prey interactionsPalabras claves:Artemia salina, Dinoflagellate, Grazers, Photobioreactor, Protoceratium reticulatum, YessotoxinsAutores:Contreras-Gómez A., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Sánchez-Mirón A.Fuentes:scopusNew insights into shear-sensitivity in dinoflagellate microalgae
ArticleAbstract: A modification of a flow contraction device was used to subject shear-sensitive microalgae to well-dPalabras claves:Dinoflagellate, Flow contraction device, Membrane fluidity, microalgae, Shear-sensitivityAutores:Chalmers J.J., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusModelling of multi-nutrient interactions in growth of the dinoflagellate microalga Protoceratium reticulatum using artificial neural networks
ArticleAbstract: This study examines the use of artificial neural networks as pbkp_redictive tools for the growth ofPalabras claves:Artificial Neural Network, Dinoflagellate, Growth modelling, MICROALGAAutores:Contreras-Gómez A., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusShear-induced changes in membrane fluidity during culture of a fragile dinoflagellate microalga
ArticleAbstract: The commonly used shear protective agent Pluronic F68 (PF68) was toxic to the marine dinoflagellatePalabras claves:Cell damage, Dinoflagellate, Membrane fluidity, MICROALGA, pluronic, Protoceratium reticulatum, Shear sensitivityAutores:Chisti Y., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusSimultaneous effect of temperature and irradiance on growth and okadaic acid production from the marine dinoflagellate Prorocentrum belizeanum
ArticleAbstract: Benthic marine dioflagellate microalgae belonging to the genus Prorocentrum are a major source of okPalabras claves:Dinoflagellate, Irradiance, MICROALGA, modelling, Photobioreactor, Prorocentrum belizeanum, TEMPERATUREAutores:Belarbi E.H., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusRapid method for the assessment of cell lysis in microalgae cultures
ArticleAbstract: A solid understanding of the effect of hydrodynamic forces encountered by microalgae in bioprocessesPalabras claves:Cell lysis, Dinoflagellate, LDH, microalgae, ViabilityAutores:García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusThe Isolation of Specialty Compounds from Amphidinium carterae Biomass by Two-Step Solid-Phase and Liquid-Liquid Extraction
ArticleAbstract: The two main methods for partitioning crude methanolic extract from Amphidinium carterae biomass werPalabras claves:amphidinol, carotenoids, Dinoflagellate, FATTY ACIDS, Liquid-liquid extraction, Solid-phase extractionAutores:Abreu A.C., Diletta G., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rodríguez M., López-Rosales L., Navarro-López E., Tristán A.I.Fuentes:scopus