Detección y evaluación del potencial nitrificante de aislados bacterianos asociados a la rizósfera de tres especies de macrófitas

Suárez, Wilmar Alirio Botello; Puerto, M. Derly; Montes, V. Donicer; Rodas, M Elkin

doi:10.24188/recia.v6.n2.2014.441

Cited by 2 publications

(6 citation statements)

References 10 publications

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“…We prepared stock solutions from every sterile saline solution isolation and adjusted them according to the McFarland scale to 0.5 standard turbidities. Afterward, the bacteria were inoculated and incubated at 30 • C for 3 to 6 weeks, in 5 µL amounts from each Petri dish solution containing the culture media (two seedings per Petri dish and two replicates per isolate) [1].…”

Section: Evaluation Of the Nitrifying Potentialmentioning

confidence: 99%

“…All strains that showed nitrifying potential and presented an acidifying halo bigger than 0.5 cm in diameter were subjected to the detection of oxidation products, basically the presence of nitrate and based on the selection criteria from Botello [1]. We used culture media ONL, OAL, ONH, and OAH, dispensed 200 mL per strain, and inserted them into bottles.…”

Section: Detection Of Oxidation Products (No 3 − )mentioning

confidence: 99%

“…Some microorganisms are present in the plant roots, and others live free in the soil. Nitrogen is fixated by bacteria and transformed into ammonia which is later oxidized to nitrite in the first place, and oxidized by the bacteria through the nitrification process to nitrate in the second step [1]. These bacteria are lithoorganotrophic organisms responsible for transforming nitrogen into an assimilable form for the plants as nitrates, which will be the main form in the trophic chain [2,3].…”

Section: Introductionmentioning

confidence: 99%

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Nitrite-Oxidizing Bacterial Strains Isolated from Soils of Andean Ecosystems and Their Potential Use in Nitrogen Reduction

et al. 2023

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Nitrification is part of the nitrogen cycle that occurs naturally in ecosystems. It is related to the presence of microorganisms and their metabolism, especially bacteria, which are involved in oxidizing compounds such as NH4+ and NO2− to NO3−. In this study, we evaluated the nitrification potential in 12 bacteria strains that belong to the genera Aeromonas, Bacillus, Buttiauxella, Mycobacterium, Paenibacillus, Serratia, and Yersenia, which are part of the cultivable microbial community from soil in a native forest and pine forest in The Labrado area within the Machangara micro-watershed in the Andes located in the south of Ecuador. This investigation aims to identify heterotrophic and lithoautotrophic strains using specific culture media for ammonium oxidative (AOL-AOH) and nitrate oxidation bacteria (ONL-ONH). The formation of nitrifying halos in the culture media allowed the identification of 10 strains with nitrifying potential. Five strains were from the pine forest, four were isolated from the native forest, and one strain was shared between both forests. The Serratia and Yersinia genera have a high NO2− oxidation capacity. Their inoculation in synthetic water rich in nitrogenous products allowed us to determine 40% and 94% nitrite reduction percentages and cell retention times of 20 to 40 days. Our results are promising for their possible potential use in environmental bioremediation processes through inoculation in wastewater for the biological removal of nitrogenous compounds.

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Section: Evaluation Of the Nitrifying Potentialmentioning

confidence: 99%

Section: Detection Of Oxidation Products (No 3 − )mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Nitrite-Oxidizing Bacterial Strains Isolated from Soils of Andean Ecosystems and Their Potential Use in Nitrogen Reduction

et al. 2023

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“…Los ensayos fueron establecidos en matraces conteniendo 200mL de caldo Luria Bertani (LB) con 10 partículas de material soporte, y fueron inoculados al 2% (OD 600 =0,2) con el aislado ambiental Bacillus sp. H22, caracterizado previamente por el grupo de investigación (14). El tiempo de incubación fue de 24h, a una temperatura de 30 ± 2ºC y agitación constante a 150 r.p.m.…”

Section: Materiales Y Métodosunclassified

“…Para ello, fue seleccionado como modelo de biomasa un aislado bacteriano ambiental (Bacillus sp. H22), recuperado a partir de un humedal natural (14), el cual, según los resultados obtenidos, permaneció viable y metabólicamente activo durante los ensayos realizados, como fue observado directamente al estimar el crecimiento microbiano, Figura 2, e indirectamente, al realizar la estimación de los niveles de remoción de materia orgánica, Tabla 3. El perfil cinético determinado a partir de la biomasa en suspensión permitió inferir el tiempo necesario para alcanzar el final de la fase de crecimiento exponencial (t=12h), periodo después del cual fue realizada la cuantificación de la biomasa adherida a cada soporte, encontrando entre 10 5 a 10 7 unidades formadoras de colonia por gramo de soporte, Tabla 2.…”

Section: Desempeño Del Reactor Biológico Híbridounclassified

Inmovilización microbiana en polímeros sintéticos para el tratamiento de aguas residuales

Suárez

Varón²,

Perea³

2016

nova

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Objetivo. Evaluar la capacidad de inmovilización microbiana de algunos polímeros sintéticos, y establecer su desempeño durante la partida y operación de un reactor biológico híbrido (RBH), aplicado al tratamiento de aguas residuales domésticas. Métodos. Para la evaluación fueron seleccionados cinco polímeros: tereftalato de polietileno (PET), polibutadieno (BD), espuma de poliuretano (EPU), poliestireno expandido (EPS) y polietileno (P). Los materiales con mayor capacidad de inmovilización (expresado como la cantidad de unidades formadoras de colonias contenidas en un gramo de material, UFCg -1 ), fueron incorporados a un RBH, con volumen operacional de 10,4L, alimentado con agua residual sintética. La eficiencia del sistema fue establecida en términos de remoción de la materia orgánica contenida en el afluente durante 13 días de operación continua. , presentó estabilidad operativa en todos los tratamientos evaluados, alcanzando una remoción de materia orgánica de 78% y 94%, al emplear BD y EPU como soportes de inmovilización, respectivamente.Palabras Clave. Agua residual doméstica, soportes de inmovilización, reactor biológico híbrido. AbstractObjective. Evaluate the ability of microbial immobilization of several synthetic polymers, and establish its performance during the start-up and operation of a hybrid biological reactor (HBR), applied to domestic wastewater treatment. Methods. For evaluation we selected five polymers: polyethylene terephthalate (PET), polybutadiene (BD), polyurethane foam (PUF), expanded polystyrene (EPS) and polyethylene (PE). Materials with higher immobilization capacity (expressed as the number of colony forming units contained in one gram of material, CFUg , showed operational stability for the treatments evaluated, reaching a removal of organic matter of 78% and 94%, by using BD and PUF as immobilization supports, respectively.

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Detección y evaluación del potencial nitrificante de aislados bacterianos asociados a la rizósfera de tres especies de macrófitas

Cited by 2 publications

References 10 publications

Nitrite-Oxidizing Bacterial Strains Isolated from Soils of Andean Ecosystems and Their Potential Use in Nitrogen Reduction

Nitrite-Oxidizing Bacterial Strains Isolated from Soils of Andean Ecosystems and Their Potential Use in Nitrogen Reduction

Inmovilización microbiana en polímeros sintéticos para el tratamiento de aguas residuales

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