Rizobacterias y hongos micorrízicos arbusculares asociados con chile poblano en la sierra nevada de Puebla, México

Mancilla, Apolinar González; Suarez, Juan José Almaraz; Cerrato, Ronald Ferrera; Guzmán, María del Pilar Rodríguez; Gaytán, Oswaldo Rey Taboada; Santos, Antonio Trinidad

doi:10.29312/remexca.v0i20.1004

Cited by 2 publications

(3 citation statements)

References 22 publications

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“…In this regard, any factor contributing to microbiome change should be extensively studied. It has been reported that the altitudinal gradient of the sites was a determining factor in the chemical properties of the soil and the distribution of the bacterial communities evaluated (González Mancilla et al, 2018). To date, a variety of studies have investigated the response of the microbial community in bulk soil to various environmental elements, including elevational gradients.…”

Section: Introductionmentioning

confidence: 99%

Bacterial diversity changes in response to an altitudinal gradient in arid and semi-arid regions and their effects on crops growth

Zakavi

Askari²,

Shahrooei³

2022

Front. Microbiol.

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The microbiome of soil has a fundamental role in maintaining the health of soil and plants. While the diversity of microbes is one of the most important factors in the environment, little is known about the effects of elevation on the microbiome and the impact of the affected microbiome on plants. The main goal of this study is to expand our knowledge of what happens to the soil bacterial community along an altitudinal gradient and investigate their possibly different impacts on plant growth. Bacteria from soils at various altitudes have been isolated, characterized, and identified by Matrix-Assisted Laser Desorption/Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS) to determine the effects of an elevational gradient on the microbiome and plant growth. Furthermore, their effects have been investigated by isolates assessment on maize, wheat, and canola. Based on our results, higher altitude results in a higher diversity of the microbiome and lower bacteria biomass. Bacillus cereus is found in abundance in arid and semi-arid samples. Interestingly, enhanced diversity in higher altitudes shows similarity in response to environmental stress and tolerates these factors well. Furthermore, the inoculation of these bacteria could enhance the overall growth of plants. We prove that bacterial communities could change their biomass and diversity in response to altitude changes. These indicate evolutionary pressure as these bacteria could tolerate stress factors well and have a better relationship with plants.

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Section: Introductionmentioning

confidence: 99%

Bacterial diversity changes in response to an altitudinal gradient in arid and semi-arid regions and their effects on crops growth

Zakavi

Askari²,

Shahrooei³

2022

Front. Microbiol.

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“…Se colectaron tres muestras de rizosferas de diferentes especies de mangles sin aparente contaminación por petróleo, para esto se tomaron cuatro submuestras por mangle, a una distancia de 1.5m en dirección a los puntos cardinales (figura 1), en cada uno de estos se debe continuar removiendo el suelo, hasta encontrar la raíz principal, a partir de esta, se busca raíces finas (aprox. 1mm o menores de diámetro) y se extraen un total de 30 cm por árbol, es decir se requiere de 7.5cm de raíz por submuestra y finalmente resguardar cada muestra en bolsas plásticas con cierre hermético con su de cadena en custodia y procesados dentro de las 24 h de su colecta [6].…”

Section: Fase I Muestreounclassified

“…Expresadas las de Unidades Formadoras de Colonias (UFC), se caracterizó con base en: forma (puntiforme, circular), bordes (enteros, ondulados), consistencia (seca, viscosa, elevación: plana, elevadas y convexa) y el rubro más importante es el color, ya que estas colonias se tiñen de rojo oscuro o escarlata en comparación con otras bacterias no absorben el colorante rojo Congo [6][7] [8].…”

Section: Fase IV Caracterización Morfológica a Nivel Colonia De Bacte...unclassified

Bacterias fijadoras de nitrógeno de vida libre provenientes de diferentes rizosferas de mangles

Fuentes Domínguez,

Ojeda-Morales,

Morales Bautista

2024

J. Basic Sci.

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Los microorganismos desempeñan un rol importante en la degradación de petróleo en diversos ecosistemas contaminados; sin embargo, existen organismos resilientes con la capacidad de metabolizarlo. Por lo tanto, se investigan alternativas para remediar estos sitios a través de la biotecnología con el uso de microrganismos. El presente trabajo tuvo como objetivo obtener bacterias fijadoras de nitrógeno de vida libre capaces de degradar petróleo. Los microorganismos se obtuvieron a partir de las rizósferas de mangle: rojo (Rhizophora mangle), blanco (Laguncularia racemosa) y negro (Avicennia germinans), las cuales estaban libres de petróleo. De las tres rizósferas se obtuvieron 16 cepas bacterianas, las cuales se caracterizaron fenotípicamente, y posteriormente se sometieron a crecimiento en Agar Bushnell Hass y triple 17 con petróleo como única fuente de carbono, y determinar si eran petrofílicas. Los resultados demostraron tres especies de cepas bacterianas petrofílicas identificadas como: B1MR, B3MR perteneciente del mangle rojo y B2MN mangle negro.

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Rizobacterias y hongos micorrízicos arbusculares asociados con chile poblano en la sierra nevada de Puebla, México

Cited by 2 publications

References 22 publications

Bacterial diversity changes in response to an altitudinal gradient in arid and semi-arid regions and their effects on crops growth

Bacterial diversity changes in response to an altitudinal gradient in arid and semi-arid regions and their effects on crops growth

Bacterias fijadoras de nitrógeno de vida libre provenientes de diferentes rizosferas de mangles

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