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Potencial de biorremediación de aceite de motor usado por hongos asociados a mangle
Potencial de biorremediación de aceite de motor usado por hongos asociados a mangle
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Authors
Molinares Guette, Manuel Mariano
Embargoed Until
Advisor
Cafaro, Matías J.
College
College of Arts and Sciences - Sciences
Department
Department of Biology
Degree Level
M.S.
Publisher
Date
2023-05-12
Abstract
Los microorganismos naturales presentes en los manglares juegan un papel importante en la eliminación de los contaminantes derivados de los hidrocarburos del petróleo (PHC). El proceso de remediación con hongos es prometedor debido a que estos poseen habilidades metabólicas para asimilar este tipo de contaminante y usarlos como única fuente de carbono para su crecimiento. Por lo anterior, el objetivo de esta investigación fue conocer si los hongos aislados de los mangles rojo de la Bahía de Boquerón (Cabo Rojo, PR) poseen el potencial para degradar el aceite de motor usado y ser utilizados en procesos de biorremediación de contaminantes derivados del petróleo. Para lograr tal propósito, se eligieron 12 cepas fúngicas que tienen la capacidad crecer en el colorante Rojo Congo y aumentar su biomasa cuando fueron sometidos a crecimiento en aceite de motor usado. Para demostrar lo anterior, los aislados fueron crecidos en matraces que contenía medio mínimo basal y la fase orgánica del aceite por triplicado por diferentes periodos de tiempo (7, 14 y 21 días) en condiciones de agitación. Para estimar el crecimiento de los hongos, éstos fueron filtrados en papel de filtro Whatman No. 11 y la biomasa producida fue cuantificada a través de análisis gravimétricos. La mayor producción de biomasa ocurrió entre los días 14 y 21 en las cepas KmCR3 Paecilomyces carneus, KmCR6 Penicillium paxillii, KmCR11 Talaromyces ruber, KmCR12 Emericella sp. y KmCR32 Meyerozyma guilliermondii. Estas 5 cepas fueron sometidas a bioensayos de biorremediación. Las cepas fueron crecidas en medio mínimo y aceite de motor usado en periodos de incubación de 14 y 21 días en condiciones de agitación. Luego de determinar biomasa mediante análisis gravimétricos, el micelio fue lavado con n-hexano y el filtrado estudiado para degradación de carbono. La cepa que produjo mayor biomasa en el día 14 fue KmCR3 Paecilomyces carneus (13.5 mg) y en el día 21 fue KmCR6 Penicillium paxillii KmCR6 (56.38 mg). Los filtrados por cada día de incubación fueron reservados en tubos Falcon estériles para estimar el porcentaje de degradación del aceite de motor usado por espectrofotometría y los cálculos fueron realizados teniendo en cuenta la Ley de Beer-Lambert. Se pudo comprobar que estas cinco cepas de hongos degradaron el aceite de motor en diferentes proporciones siendo la cepa KmCR3 Paecilomyces carneus la que produjo el mejor promedio de degradación en el día 14 de degradación (53.22±5.62%) y KmCR32 Meyerozyma guilliermondii para el día 21 (42.03 ± 5.13). Por lo anterior mencionado, estos hongos pueden ser potencialmente utilizados en procesos de biorremediación de contaminantes derivados del petróleo.
The natural microorganisms present in the mangroves play an important role in the elimination of pollutants derived from petroleum hydrocarbons (PHC). The remediation process with fungi is promising because they have metabolic abilities to assimilate this type of contaminant and use them as the only carbon source for their growth. Therefore, the objective of this research was to determine if the fungi isolated from the red mangroves of Boquerón Bay (Cabo Rojo, PR) have the potential to degrade used motor oil and be used in bioremediation processes of derived pollutants. of the oil. To achieve this purpose, 12 fungal strains that have the ability to grow in the Congo Red dye and increase their biomass when they were subjected to growth in used motor oil were chosen. To demonstrate this, the isolates were grown in flasks containing the minimum basal medium and the organic phase of the oil in triplicate for different periods of time (7, 14, and 21 days) under shaking conditions. To estimate the growth of the fungi, they were filtered on Whatman No. 11 filter paper and the biomass produced was quantified through gravimetric analysis. The highest biomass production occurred between days 14 and 21 in the strains KmCR3 Paecilomyces carneus, KmCR6 Penicillium paxillii, KmCR11 Talaromyces ruber, KmCR12 Emericella sp. and KmCR32 Meyerozyma guilliermondii. These 5 strains were subjected to bioremediation bioassays. The strains were grown in minimal medium and used motor oil in incubation periods of 14 and 21 days under shaking conditions. After determining biomass by gravimetric analysis, the mycelium was washed with n-hexane and the filtrate studied for carbon degradation. The strain that produced the highest biomass on day 14 was KmCR3 Paecilomyces carneus (13.5 mg) and on day 21 it was KmCR6 Penicillium paxillii (56.38 mg). The filtrates for each day of incubation were reserved in sterile Falcon tubes to estimate the percentage of degradation of the motor oil used by spectrophotometry and the calculations were made taking into account the Beer-Lambert Law. It was possible to verify that these five fungal strains degraded the motor oil in different proportions, with the KmCR3 Paecilomyces carneus strain being the one that produced the best average degradation on day 14 of degradation (53.22 ± 5.62%) and KmCR32 Meyerozyma guilliermondii for the day 21 (42.03 ± 5.13). Due to the aforementioned, these fungi can potentially be used in bioremediation processes of petroleum-derived contaminants.
The natural microorganisms present in the mangroves play an important role in the elimination of pollutants derived from petroleum hydrocarbons (PHC). The remediation process with fungi is promising because they have metabolic abilities to assimilate this type of contaminant and use them as the only carbon source for their growth. Therefore, the objective of this research was to determine if the fungi isolated from the red mangroves of Boquerón Bay (Cabo Rojo, PR) have the potential to degrade used motor oil and be used in bioremediation processes of derived pollutants. of the oil. To achieve this purpose, 12 fungal strains that have the ability to grow in the Congo Red dye and increase their biomass when they were subjected to growth in used motor oil were chosen. To demonstrate this, the isolates were grown in flasks containing the minimum basal medium and the organic phase of the oil in triplicate for different periods of time (7, 14, and 21 days) under shaking conditions. To estimate the growth of the fungi, they were filtered on Whatman No. 11 filter paper and the biomass produced was quantified through gravimetric analysis. The highest biomass production occurred between days 14 and 21 in the strains KmCR3 Paecilomyces carneus, KmCR6 Penicillium paxillii, KmCR11 Talaromyces ruber, KmCR12 Emericella sp. and KmCR32 Meyerozyma guilliermondii. These 5 strains were subjected to bioremediation bioassays. The strains were grown in minimal medium and used motor oil in incubation periods of 14 and 21 days under shaking conditions. After determining biomass by gravimetric analysis, the mycelium was washed with n-hexane and the filtrate studied for carbon degradation. The strain that produced the highest biomass on day 14 was KmCR3 Paecilomyces carneus (13.5 mg) and on day 21 it was KmCR6 Penicillium paxillii (56.38 mg). The filtrates for each day of incubation were reserved in sterile Falcon tubes to estimate the percentage of degradation of the motor oil used by spectrophotometry and the calculations were made taking into account the Beer-Lambert Law. It was possible to verify that these five fungal strains degraded the motor oil in different proportions, with the KmCR3 Paecilomyces carneus strain being the one that produced the best average degradation on day 14 of degradation (53.22 ± 5.62%) and KmCR32 Meyerozyma guilliermondii for the day 21 (42.03 ± 5.13). Due to the aforementioned, these fungi can potentially be used in bioremediation processes of petroleum-derived contaminants.
Keywords
Biorremediación,
Manglares,
Aceite de motor,
Compuestos aromaticos policiclicos,
Hongos
Manglares,
Aceite de motor,
Compuestos aromaticos policiclicos,
Hongos
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Cite
Molinares Guette, M. M. (2023). Potencial de biorremediación de aceite de motor usado por hongos asociados a mangle [Thesis]. Retrieved from https://hdl.handle.net/20.500.11801/3545