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Carlos Alfonso Sierra García (2023, [Tesis de maestría])
La fotocatálisis heterogénea es esencial para la degradación exitosa de contaminantes orgánicos en medios líquidos. Este proceso de oxidación avanzada se ha convertido en uno de los más interesantes para el tratamiento de aguas residuales, que contienen compuestos orgánicos nocivos para el medio ambiente, como los colorantes. En este trabajo se evaluó la actividad fotocatalítica de zeolita MCM-22 pilareada con SiO2/TiO2 (también conocida como MCM-36) para la degradación de azul ácido 113, un colorante diazoico utilizado frecuentemente en la industria textil. Las zeolitas MCM-22 se sintetizaron mediante el método hidrotermal, sujetas al proceso de pilareado de SiO2/TiO2 en diferentes relaciones molares modificado con la asistencia de isopropanol junto a una impregnación húmeda de MnO2 (1 y 2%). Se confirmaron las estructuras mesoporosas de las zeolitas mediante los análisis de difracción de rayos X y fisisorción de N2. Los resultados de espectroscopía UV-Vis de reflectancia difusa indicaron la presencia de especies de óxidos de Ti y Mn. En microscopía electrónica de barrido las muestras se observaron de manera panorámica las muestras, mientras que en microscopia electrónica de transmisión se observó la dispersión de las nanopartículas de TiO2, donde se logró ver la distancia interplanar de estas identificando el plano (100) característico de la fase anatasa, así como la estructura laminar y mesoporosa de la MCM-22. Las cantidades de Ti y Mn introducidas a las muestras se obtuvieron mediante el análisis ICP-OES (espectrometría de emisión óptica de plasma de acoplamiento inductivo). Los resultados de degradación fotocatalítica mostraron que el fotocatalizador más activo fue MCM-36 0:1 consiguiendo un 79.64%, seguido del MCM-36 1:10 (42.70%), 1:5 (34.83%) y 1:3 (25.99%). Se observó que la actividad del TiO2 puede ser inhibida por la adición de MnO2, que envenena el catalizador, posiblemente dando lugar a la formación de una heterounión entre el TiO2 y MnO2, formando centros que aceleran la fotorecombinación.
Heterogeneous photocatalysis is essential for the successful degradation of organic contaminants in liquid media. This advanced oxidation process has become one of the most interesting for the treatment of wastewater containing organic compounds harmful to the environment, such as dyes. In this work, the photocatalytic activity of zeolite MCM-22 pillared with SiO2/TiO2 (also known as MCM36) was evaluated for the degradation of acid blue 113, a diazo dye frequently used in the textile industry. MCM-22 zeolites were synthesized by the hydrothermal method, using the SiO2/TiO2 pillaring process in different molar ratios, modified with the assistance of isopropanol together with a wet impregnation of MnO2 (1 and 2 %). The mesoporous structures of the zeolites were confirmed by Xray diffraction and N2 physisorption analyses. Diffuse reflectance UV-Vis spectroscopy results indicated the presence of Ti and Mn oxide species. With scanning electron microscopy, the samples were observed panoramically, while with transmission electron microscopy the dispersion of TiO2 nanoparticles was observed, where it was possible to see their interplanar distance, identifying the (100) plane, characteristic of the anatase phase, as well as the lamellar and mesoporous structure of MCM-22. The amounts of Ti and Mn introduced to the samples were obtained by ICP-OES (Inductively coupled plasma atomic emission spectroscopy) analysis. The photocatalytic degradation results showed that the most active photocatalyst was MCM-36 0:1 achieving 79.64%, followed by MCM-36 1:10 (42.70%), 1:5 (34.83%) and 1:3 (25.99%). It was observed that the activity of TiO2 can be inhibited by the addition of MnO2, which poisons the catalyst, leading to the formation of a heterojunction between TiO2 and MnO2, forming centers that accelerate photorecombination.
MCM-22, zeolita, fotocatálisis, TiO2, azul ácido 113 MCM-22, zeolite, photocatalysis, TiO2, acid blue 113 INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS OTRAS ESPECIALIDADES TECNOLÓGICAS OTRAS OTRAS
Sonia Quijano (2020, [Artículo])
Pseudo-nitzschia is a cosmopolitan genus, some species of which can produce domoic acid (DA), a neurotoxin responsible for the Amnesic Shellfish Poisoning (ASP). In this study, we identified P. subpacifica for the first time in Todos Santos Bay and Manzanillo Bay, in the Mexican Pacific using SEM and molecular methods. Isolates from Todos Santos Bay were cultivated under conditions of phosphate sufficiency and deficiency at 16°C and 22°C to evaluate the production of DA. This toxin was detected in the particulate (DAp) and dissolved (DAd) fractions of the cultures during the exponential and stationary phases of growth of the cultures. The highest DA concentration was detected during the exponential phase grown in cells maintained in P-deficient medium at 16°C (1.14 ± 0.08 ng mL-1 DAd and 4.71 ± 1.11 × 10−5 ng cell-1 of DAp). In P-sufficient cultures DA was higher in cells maintained at 16°C (0.25 ± 0.05 ng mL-1 DAd and 9.41 ± 1.23 × 10−7 ng cell-1 of DAp) than in cells cultured at 22°C. Therefore, we confirm that P. subpacifica can produce DA, especially under P-limited conditions that could be associated with extraordinary oceanographic events such as the 2013–2016 "Blob" in the northeastern Pacific Ocean. This event altered local oceanographic conditions and possibly generated the presence of potential harmful species in areas with economic importance on the Mexican Pacific coast. © 2020 Quijano-Scheggia et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
domoic acid, domoic acid, kainic acid, Article, cell growth, controlled study, diatom, Mexico, morphology, nonhuman, Pacific Ocean, phylogeny, plant cell, plant growth, Pseudo nitzschia, toxin analysis, cell culture technique, classification, diatom, CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OCEANOGRAFÍA OCEANOGRAFÍA
ARLETTE MARIMAR PACHECO SANDOVAL (2019, [Artículo])
Diet is a primary driver of the composition of gut microbiota and is considered one of the main routes of microbial colonization. Prey identification is fundamental for correlating the diet with the presence of particular microbial groups. The present study examined how diet influenced the composition and function of the gut microbiota of the Pacific harbor seal (Phoca vitulina richardii) in order to better understand the role of prey consumption in shaping its microbiota. This species is a good indicator of the quality of the local environment due to both its foraging and haul-out site fidelity. DNA was extracted from 20 fecal samples collected from five harbor seal colonies located in Baja California, Mexico. The V4 region of 16S rRNA gene was amplified and sequenced using the Illumina technology. Results showed that the gut microbiota of the harbor seals was dominated by the phyla Firmicutes (37%), Bacteroidetes (26%) and Fusobacteria (26%) and revealed significant differences in its composition among the colonies. Funtional analysis using the PICRUSt software suggests a high number of pathways involved in the basal metabolism, such as those for carbohydrates (22%) and amino acids (20%), and those related to the degradation of persistent environmental pollutants. In addition, a DNA metabarcoding analysis of the same samples, via the amplification and sequencing of the mtRNA 16S and rRNA 18S genes, was used to identify the prey consumed by harbor seals revealing the consumption of prey with mainly demersal habits. Functional redundancy in the seal gut microbiota was observed, irrespective of diet or location. Our results indicate that the frequency of occurrence of specific prey in the harbor seal diet plays an important role in shaping the composition of the gut microbiota of harbor seals by influencing the relative abundance of specific groups of gut microorganisms. A significant relationship was found among diet, gut microbiota composition and OTUs assigned to a particular metabolic pathway. © 2019 Pacheco-Sandoval et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
RNA 16S, RNA 18S, amino acid analysis, animal food, Article, bacterium colony, Bacteroidetes, basal metabolic rate, biodegradation, controlled study, DNA barcoding, feces analysis, Firmicutes, Fusobacteria, intestine flora, metabolism, Mexico, microb BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA ANIMAL (ZOOLOGÍA) BIOLOGÍA ANIMAL (ZOOLOGÍA)