Marco Antonio Rogel-Hernández scite author profile

Two novel related Rhizobium species, Rhizobium grahamii sp. nov. and Rhizobium mesoamericanum sp. nov., were identified by a polyphasic approach using DNA–DNA hybridization, whole-genome sequencing and phylogenetic and phenotypic characterization including nodulation of Leucaena leucocephala and Phaseolus vulgaris (bean). As similar bacteria were found in the Los Tuxtlas rainforest in Mexico and in Central America, we suggest the existence of a Mesoamerican microbiological corridor. The type strain of Rhizobium grahamii sp. nov. is CCGE 502T ( = ATCC BAA-2124T = CFN 242T = Dal4T = HAMBI 3152T) and that of Rhizobium mesoamericanum sp. nov. is CCGE 501T ( = ATCC BAA-2123T = HAMBI 3151T = CIP 110148T = 1847T).

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Change in Land Use Alters the Diversity and Composition of Bradyrhizobium Communities and Led to the Introduction of Rhizobium etli into the Tropical Rain Forest of Los Tuxtlas (Mexico)

Ormeño‐Orrillo

Rogel-Hernández

Lloret

et al. 2011

Microb Ecol

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Nitrogen-fixing bacteria of the Bradyrhizobium genus are major symbionts of legume plants in American tropical forests, but little is known about the effects of deforestation and change in land use on their diversity and community structure. Forest clearing is followed by cropping of bean (Phaseolus vulgaris) and maize as intercropped plants in Los Tuxtlas tropical forest of Mexico. The identity of bean-nodulating rhizobia in this area is not known. Using promiscuous trap plants, bradyrhizobia were isolated from soil samples collected in Los Tuxtlas undisturbed forest, and in areas where forest was cleared and land was used as crop fields or as pastures, or where secondary forests were established. Rhizobia were also trapped by using bean plants. Bradyrhizobium strains were classified into genospecies by dnaK sequence analysis supported by recA, glnII and 16S-23S rDNA IGS loci analyses. A total of 29 genospecies were identified, 24 of which did not correspond to any described taxa. A reduction in Bradyrhizobium diversity was observed when forest was turned to crop fields or pastures. Diversity seemed to recover to primary forest levels in secondary forests that derived from abandoned crop fields or pastures. The shifts in diversity were not related to soil characteristics but seemingly to the density of nodulating legumes present at each land use system (LUS). Bradyrhizobium community composition in soils was dependent on land use; however, similarities were observed between crop fields and pastures but not among forest and secondary forest. Most Bradyrhizobium genospecies present in forest were not recovered or become rare in the other LUS. Rhizobium etli was found as the dominant bean-nodulating rhizobia present in crop fields and pastures, and evidence was found that this species was introduced in Los Tuxtlas forest.

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Plant growth-promoting potential of bacteria associated to pioneer plants from an active volcanic site of Chiapas (Mexico)

Rincón-Molina

Martı́nez-Romero

Ruíz-Valdiviezo

et al. 2020

Applied Soil Ecology

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Phylogenetic Relationships of Rhizobia Based on Citrate Synthase Gene Sequences

Hernández-Lucas

Rogel-Hernández

Segovia

et al. 2004

Systematic and Applied Microbiology

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Complete Genome Sequence of a Novel Nonnodulating Rhizobium Species Isolated from Agave americana L. Rhizosphere

et al. 2017

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Rhizobiumstrain, a banana (Musaspp.)-associated bacterium with a high potential as biofertilizer

Salvador-Figueroa

Ruíz-Valdiviezo

Rogel-Hernández

et al. 2016

Journal of Plant Nutrition

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Genome Sequence of Rhizobium jaguaris CCGE525 ^T , a Strain Isolated from Calliandra grandiflora Nodules from a Rain Forest in Mexico

Servín-Garcidueñas

Guerrero

Rogel-Hernández

et al. 2019

Microbiol Resour Announc

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