Your search keyword '"rhizosphere"' showing total 35 results

1. Differentiation of rhizosphere fungal assemblages by host ploidy level in mixed‐ploidy Larrea tridentata populations.

Author

Gerstner, Benjamin P., Mann, Michael A., Laport, Robert G., and Whitney, Kenneth D.

Subjects

*LARREA, *PLOIDY, *RHIZOSPHERE, *HOST plants, *PLANT populations

Abstract

Polyploidy – whole genome duplication – is common in plants. Studies over the last several decades have documented numerous mixed‐ploidy populations. Whether arising via recurrent whole genome duplication events within a population, or from secondary contact, the persistence of mixed populations is possible by niche differentiation. Specifically, one mechanism facilitating ploidy co‐occurrence is microbially‐mediated niche differentiation (MMND), wherein cytotypes occupy different niches via interactions with different sets of microbes. Inherently cryptic, MMND is underexplored in polyploid plant populations. Here, we search for evidence of MMND in creosotebush Larrea tridentata, a dominant desert shrub of the southwestern US and northern Mexico. We sequenced root‐associated fungal taxa in soils of diploid, autotetraploid, and autohexaploid plants growing in two naturally‐occurring mixed‐cytotype populations. Within populations, we found substantial fungal assemblage overlap across host plant cytotypes. However, using indicator species analysis, we identified some fungi that are differentiated by host plant cytotype, satisfying a necessarycondition for MMND. Future study is needed to determine the degree of niche differentiation conferred, if any, and whether the identified fungi play a role in the long‐term persistence of multiple cytotypes within populations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Exploring Microbial Rhizosphere Communities in Asymptomatic and Symptomatic Apple Trees Using Amplicon Sequencing and Shotgun Metagenomics.

Author

Muñoz-Ramírez, Zilia Y., González-Escobedo, Román, Avila-Quezada, Graciela D., Ramírez-Sánchez, Obed, Higareda-Alvear, Victor M., Zapata-Chávez, Emiliano, Borrego-Loya, Alejandra, and Muñoz-Castellanos, Laila N.

Subjects

*SHOTGUN sequencing, *MICROBIAL communities, *METAGENOMICS, *NUCLEOTIDE synthesis, *WILT diseases, *BACTERIAL diversity, *FUSARIUM oxysporum

Abstract

The rhizosphere is a dynamic and highly interactive habitat where diverse microbial communities are established, and it plays crucial roles in plant health and disease dynamics. In this study, microbial communities and functional profiles in the rhizosphere of both asymptomatic and symptomatic apple trees were investigated through amplicon sequencing and shotgun metagenomics. The research was conducted at a location in the municipality of Cuauhtemoc, Chihuahua State, Mexico, and a total of 22 samples were collected, comprising 12 for amplicon sequencing and 10 for shotgun metagenomic sequencing. Symptomatic trees were identified based on reddish branches and internal necrosis in the trunk and root, while asymptomatic trees exhibited a healthy physiology. The findings showed that the dominant bacterial phyla included Proteobacteria, Actinobacteria, and Bacteroidetes, with prevalent genera such as Streptomyces, Pseudomonas, and Rhodanobacter. The fungal communities featured Ascomycota, Mortierellomycota, and Basidiomycota, which were dominated by Fusarium, Penicillium, and Mortierella. In the fungal communities, Mortierellomycota, notably abundant in asymptomatic trees, holds potential as a biocontrol agent, as seen in other studies on the suppression of Fusarium wilt disease. The application of shotgun metagenomic sequencing revealed significant differences in alpha and beta diversities in bacterial communities, suggesting a health-dependent change in species composition and abundance. Functional profile analysis highlighted enzymatic activities associated with lipid synthesis/degradation, amino acid biosynthesis, carbohydrate metabolism, and nucleotide synthesis, which have been documented to participate in symbiotic relationships between plants. These insights not only contribute to understanding the dynamics of rhizosphere microbial activity but also provide valuable perspectives on the potential application of microbial communities for tree health and implications for the management of apple orchards. [ABSTRACT FROM AUTHOR]

Published

2024

3. First report of Sinomonas halotolerans from Parkinsonia aculeata rhizosphere.

Author

Herrera-Sepúlveda, Angélica, Argentel-Martínez, Leandris, Peñuelas-Rubio, Ofelda, and Azizoglu, Ugur

Subjects

*RHIZOSPHERE, *MICROBIOLOGICAL techniques, *SOIL classification, *SOIL salinity, *SOIL sampling

Abstract

There are only 10 validly characterized species in the genus Sinomonas, all of which are isolated from various soil types in Asia and have been reported as a result of useful biotechnological applications. Here we described the first report of the species Sinomonas halotolerans isolated from rhizospheric soil samples of Parkinsonia aculeata based on materials collected from the Sonoran Desert, Mexico. Parkinsonia aculeata is an indigenous species that has weathered salinity, drought, and extremely high temperatures in the semiarid parts of Mexico and contributes significantly to the functionality of these ecosystems through considerable rates of vegetation. Materials were collected three times, in February, March, and August 2022 in 2 locations: Bahia de Lobos and Tesopaco, affected by two abiotic stress conditions: salinity and drought respectively. During the investigation, the strains BA8A, BA10B, and TA1 were isolated from both locations, they were identified using microbiological and molecular techniques. Based on the 16S rRNA gene sequences, the three strains were identified as Sinomonas halotolerans (99.9% sequence similarity). As the genus Sinomonas is still poorly known in America, our study may help to improve this situation and S. halotolerans might be considered a potential species to develop novel biotechnological applications with the aim to cope with the adverse effects of salinity and drought in soil. [ABSTRACT FROM AUTHOR]

Published

2024

4. Identification and Characterization of Beneficial Soil Microbial Strains for the Formulation of Biofertilizers Based on Native Plant Growth-Promoting Microorganisms Isolated from Northern Mexico.

Author

Guardiola-Márquez, Carlos Esteban, Santos-Ramírez, María Teresa, Figueroa-Montes, Melina Lizeth, Valencia-de los Cobos, Eric Oswaldo, Stamatis-Félix, Iván Jesús, Navarro-López, Diego E., and Jacobo-Velázquez, Daniel A.

Subjects

BIOFERTILIZERS, NATIVE plants, MICROORGANISMS, NITROGEN fixation, CROPS

Abstract

Plant growth-promoting microorganisms (PGPM) benefit plant health by enhancing plant nutrient-use efficiency and protecting plants against biotic and abiotic stresses. This study aimed to isolate and characterize autochthonous PGPM from important agri-food crops and nonagricultural plants to formulate biofertilizers. Native microorganisms were isolated and evaluated for PGP traits (K, P, and Zn solubilization, N2-fixation, NH3-, IAA and siderophore production, and antifungal activity against Fusarium oxysporum). Isolates were tested on radish and broccoli seedlings, evaluating 19 individual isolates and 12 microbial consortia. Potential bacteria were identified through DNA sequencing. In total, 798 bacteria and 209 fungi were isolated. Isolates showed higher mineral solubilization activity than other mechanisms; 399 bacteria and 156 fungi presented mineral solubilization. Bacteria were relevant for nitrogen fixation, siderophore, IAA (29–176 mg/L), and ammonia production, while fungi for Fusarium growth inhibition (40–69%). Twenty-four bacteria and eighteen fungi were selected for their PGP traits. Bacteria had significantly (ANOVA, p < 0.05) better effects on plants than fungi; treatments improved plant height (23.06–51.32%), leaf diameter (25.43–82.91%), and fresh weight (54.18–85.45%) in both crops. Most potential species belonged to Pseudomonas, Pantoea, Serratia, and Rahnella genera. This work validated a high-throughput approach to screening hundreds of rhizospheric microorganisms with PGP potential isolated from rhizospheric samples. [ABSTRACT FROM AUTHOR]

Published

2023

5. Diversity and bioactivity of sediment-associated fungi from a mangrove forest in Mexico with different conservation conditions.

Author

Lagunes, Irene, Lumbreras-Martínez, Homero, Espinoza, César, Padrón, José M., López-Portillo, Jorge, and Trigos, Ángel

Subjects

*MANGROVE plants, *FOREST biodiversity, *MANGROVE forests, *FUNGI, *RHIZOSPHERE, *RHIZOPHORA, *AVICENNIA

Abstract

The biological importance of rhizosphere sediment-associated fungi in mangroves is poorly understood, especially when they are affected by high salinity and anaerobiosis in disturbed areas. This study evaluated the fungal diversity in the rhizosphere sediments of three mangrove species associated with three conservation conditions of mangrove forests in preserved, semi-preserved, and deteriorated areas. In addition, fungal bioactivity was correlated to the fungal diversity found in mangrove species from each area. We isolated 50 fungal strains belonging to three phyla, seven classes, and 10 orders. The fungal diversity was higher in the preserved area (H' = 2.22) than in the semi-preserved (H' = 1.73) and deteriorated areas (H' = 1.68); the redundancy analysis showed a tendency of fungal accumulation towards the rhizosphere of Rhizophora mangle and Avicennia germinans in the preserved and semi-preserved areas. In addition, the redundancy analysis showed that 10 bioactive fungi genera tended to accumulate on the rhizosphere of R. mangle and A. germinans in the preserved and semi-preserved areas. The preserved area is related to the semi-preserved area, with a 28% Jaccard similarity coefficient. The diversity and bioactivity of the isolated fungi encourage the need to conserve and restore mangrove ecosystems considering their current and potential services, such as bioprospecting new pharmacological compounds. [ABSTRACT FROM AUTHOR]

Published

2023

6. Endorhizal fungal symbiosis in lycophytes and metal(loid)-accumulating ferns growing naturally in mine wastes in Mexico.

Author

Guzmán-Cornejo, Laura, Pacheco, Leticia, Camargo-Ricalde, Sara Lucía, and González-Chávez, Ma. del Carmen

Subjects

*LYCOPHYTES, *VESICULAR-arbuscular mycorrhizas, *FERNS, *ENDOPHYTIC fungi, *ARSENIC, *PLANT colonization, *HEAVY metals

Abstract

Ferns and lycophytes are pioneer plants that can be useful for revegetation. Their natural distribution and interaction with soil fungal endophytes can increase plant fitness but have received little attention. This study aimed to identify these plant species in mine wastes, and determine colonization by arbuscular mycorrhizal fungi (AMF) and dark septate endophytes (DSE). The pseudo-total and diethylenetriamine pentaacetic acid (DTPA)-extractable rhizosphere concentrations of As, Cu, Cd, Pb, and Zn, bioavailability index (BI), and bioconcentration factor (BCF) were analyzed. Six ferns and one lycophyte were identified. Arsenic and metal concentrations were high, which were plant and site-dependent. All species showed hyperaccumulation of As in fronds, especially Argyrochosma formosa (2,883) and Notholaena affinis (2,160) had the highest concentrations (mg kg−1). All plants were colonized by AMF (3%−24%) and DSE (2%−33%). Astrolepis sinuata and Myriopteris notholaenoides had the maximum colonization by AMF and A. formosa by DSE. This study identifies for the first time five ferns and one lycophyte species on mine wastes, their As hyperaccumulation capacity and the simultaneous fungal colonization by AMF and DSE. These are relevant plant traits for phytoremediation. However, fungal identification and the role colonization by AMF and DSE requires full analysis. Arsenic accumulator ferns and a lycophytes species naturally established on three polluted sites were found. Astrolepis integerrima, A. sinuata, Myriopteris notholaenoides, Notholaena affinis, N. sulphurea, and the lycophyte Selaginella lepidophylla are for the first time reported in these sites. This is the first evidence of DSE colonization in these plants growing on mine wastes in interaction with AMF-colonization. These plants may be useful in developing phytoremediation alternatives. [ABSTRACT FROM AUTHOR]

Published

2023

7. Changes in the Rhizosphere Prokaryotic Community Structure of Halodule wrightii Monospecific Stands Associated to Submarine Groundwater Discharges in a Karstic Costal Area.

Author

de la Garza Varela, Alonso, Aguirre-Macedo, M. Leopoldina, and García-Maldonado, José Q.

Subjects

COMMUNITIES, RHIZOSPHERE, SULFUR metabolism, GROUNDWATER, BACTERIAL communities, REDUCTION potential

Abstract

Belowground seagrass associated microbial communities regulate biogeochemical dynamics in the surrounding sediments and influence seagrass physiology and health. However, little is known about the impact of environmental stressors upon interactions between seagrasses and their prokaryotic community in coastal ecosystems. Submerged groundwater discharges (SGD) at Dzilam de Bravo, Yucatán, Mexico, causes lower temperatures and salinities with higher nutrient loads in seawater, resulting in Halodule wrightii monospecific stands. In this study, the rhizospheric archaeal and bacterial communities were characterized by 16S rRNA Illumina sequencing along with physicochemical determinations of water, porewater and sediment in a 400 m northwise transect from SGD occurring at 300 m away from coastline. Core bacterial community included Deltaproteobacteria, Bacteroidia and Planctomycetia, possibly involved in sulfur metabolism and organic matter degradation while highly versatile Bathyarchaeia was the most abundantly represented class within the archaeal core community. Beta diversity analyses revealed two significantly different clusters as result of the environmental conditions caused by SGD. Sites near to SGD presented sediments with higher redox potentials and sand contents as well as lower organic matter contents and porewater ammonium concentrations compared with the furthest sites. Functional profiling suggested that denitrification, aerobic chemoheterotrophy and environmental adaptation processes could be better represented in these sites, while sulfur metabolism and genetic information processing related profiles could be related to SGD uninfluenced sites. This study showed that the rhizospheric prokaryotic community structure of H. wrightii and their predicted functions are shaped by environmental stressors associated with the SGD. Moreover, insights into the archaeal community composition in seagrasses rhizosphere are presented. [ABSTRACT FROM AUTHOR]

Published

2023

8. Análisis del efecto de las bacterias promotoras de crecimiento vegetal en la redistribución de elementos potencialmente tóxicos en jales de minas.

Author

Mendoza-Hernández, José Carlos, Arriola Morales, Janette, Castillo Morales, Maribel, Santamaría Juárez, Juana Deisy, and Urbina Trinidad, Pamela Alejandra

Subjects

MINE waste, ENVIRONMENTAL health, PLANT growth, PLANT growth promoting substances, ARSENIC, RHIZOSPHERE, ORGANIC compounds

Abstract

Copyright of Acta Universitaria is the property of Universidad de Guanajuato/Acta Universitaria and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

9. Pioneer plant species and fungal root endophytes in metal-polluted tailings deposited near human populations and agricultural areas in Northern Mexico.

Author

Flores-Torres, Gustavo, Solis-Hernández, Anaid Penelope, Vela-Correa, Gilberto, Rodríguez-Tovar, Aída Verónica, Cano-Flores, Oscar, Castellanos-Moguel, Judith, Pérez, Néstor Octavio, Chimal-Hernández, Aurora, Moreno-Espíndola, Iván Pável, Salas-Luévano, Miguel Ángel, Chávez-Vergara, Bruno Manuel, and Rivera-Becerril, Facundo

Subjects

ENDOPHYTIC fungi, RURAL population, METAL tailings, PLANT species, PLANT colonization, MINE waste, PLANT-fungus relationships, FUNGAL communities

Abstract

As a consequence of industrial mining activity, high volumes of tailings are scattered around Mexico. Frequently, tailings contain heavy metals (HM) which entail threats against all organisms. The aim of this research was to identify plants and root fungal endophytes in polymetallic polluted tailings with the potential to be used in strategies of bioremediation. Four deposits of mine wastes, situated in a semi-arid region near urban and semi-urban populations, and agricultural areas, were studied. The physical and chemical characteristics of substrates, accumulation of HM in plant tissues, root colonization between arbuscular mycorrizal (AMF) and dark septate endophyte (DSE) fungi, and the identification of DSE fungi isolated from the roots of two plant species were studied. Substrates from all four sites exhibited extreme conditions: high levels in sand; low water retention; poor levels in available phosphorus and nitrogen content; and potentially toxic levels of lead (Pb), cadmium (Cd), and zinc (Zn). The native plants Lupinus campestris, Tagetes lunulata, and Cerdia congestiflora, as well as the exotic Cortaderia selloana and Asphodelus fistulosus, demonstrated a relevant potential role in the phytostabilization and/or phytoextraction of Pb, Cd, and Zn, according to the accumulation of metal in roots and translocation to shoots. Roots of eleven analyzed plant species were differentially co-colonized between AMF and DSE fungi; the presence of arbuscules and microsclerotia suggested an active physiological interaction. Fourteen DSE fungi were isolated from the inner area of roots of T. lunulata and Pennisetum villosum; molecular identification revealed the predominance of Alternaria and other Pleosporales. The use of native DSE fungi could reinforce the establishment of plants for biological reclamation of mine waste in semi-arid climate. Efforts are needed in order to accelerate a vegetation practice of mine wastes under study, which can reduce, in turn, their potential ecotoxicological impact on organisms, human populations, and agricultural areas. [ABSTRACT FROM AUTHOR]

Published

2021

10. Distinctive prokaryotic microbiomes in sympatric plant roots from a Yucatan cenote.

Author

Escobar-Zepeda, Alejandra, Rosas-Escobar, Patricia, Marquez Valdelamar, Laura, de la Torre, Patricia, Partida-Martinez, Laila P., Remegaldo, Ruben, Sanchez-Flores, Alejandro, and Vergara, Fredd

Subjects

*PLANT roots, *PLANT DNA, *GENETIC barcoding, *GENE amplification, *SINKHOLES

Abstract

Objective: Cenotes are flooded caves in Mexico's Yucatan peninsula. Many cenotes are interconnected in an underground network of pools and streams forming a vast belowground aquifer across most of the peninsula. Many plants in the peninsula grow roots that reach the cenotes water and live submerged in conditions similar to hydroponics. Our objective was to study the microbial community associated with these submerged roots of the Sac Actun cenote. We accomplished this objective by profiling the root prokaryotic community using 16S rRNA gene amplification and sequencing. Results: We identified plant species by DNA barcoding the total genomic DNA of each root. We found a distinctive composition of the root and water bacterial and archaeal communities. Prokaryotic diversity was higher in all plant roots than in the surrounding freshwater, suggesting that plants in the cenotes may attract and select microorganisms from soil and freshwater, and may also harbor vertically transmitted lineages. The reported data are of interest for studies targeting biodiversity in general and root-microbial ecological interactions specifically. [ABSTRACT FROM AUTHOR]

Published

2021

11. HALOBACTERIAS PROMOTORAS DE CRECIMIENTO VEGETAL ASOCIADAS A Lippia palmeri (VERBENACEAE) EN LA ZONA ÁRIDA DEL NOROESTE DE MÉXICO.

Author

MÉNDEZ-MAYBOCA, Fátima R., PLASCENCIA-JATOMEA, Maribel, DEL-TORO-SÁNCHEZ, Carmen L., WONGCORRAL, Francisco J., BORBOA-FLORES, Jesús, GUERRA, Kevyn, MURILLO-AMADOR, Bernardo, and RUEDA-PUENTE, Edgar O.

Subjects

*ARID soils, *BACILLUS amyloliquefaciens, *BACILLUS licheniformis, *SUSTAINABLE agriculture, *BACILLUS subtilis, *BIOFERTILIZERS, *PLANT growth, *RHIZOSPHERE

Abstract

The production of oregano is of economic relevance in northwestern Mexico. However, to obtain high yields, producers resort to chemical fertilization, but its misuse increases salinity. Lippia palmeri Watts is a species of oregano that naturally grows in arid soils with poor organic matter, high salinity and temperature in the northwestern Mexico. In the context of sustainable agriculture, microorganisms activate soil fertility and increase plant productivity. Currently there is interest in proposing biofertilizers in the agriculture with high saline intrusion and temperatures for the cultivation of oregano. The Plant Growth Promoting Halobacteria (HPCP) have stood out by the beneficiary of the nutritious crops and mitigate the effect of the salinity. The goal of this work was to identify HPCP associated to the rhizosphere of L. palmeri, thermo and halotolerant; phosphate solubilizing activity, organic acid production, siderophores and nitrogen fixation were evaluated; the highest activity colonies were identified by the rRNA-16S gene and the effect on germination and root length was evaluated. Fifteen different colonies stood out when growing in NaCl (0.25, 0.50 and 0.75 M) at 35 and 45 °C, from which three bacteria were identified: Bacillus amyloliquefaciens, Bacillus subtilis and Bacillus licheniformis. The effect on root length was significant for B. amyloliquefaciens. Studies related to plant promotion should be involved in subsequent studies. This is the first report of Bacillus amyloliquefaciens as a nitrogen fixing bacteria associated with Lipia palmeri. [ABSTRACT FROM AUTHOR]

Published

2021

12. Plant growth-promoting rhizobacteria associated to candelilla rhizosphere (Euphorbia antisyphilitica) and its effects on Arabidopsis thaliana seedlings.

Author

SALAZAR-RAMÍREZ, Maria T., SÁENZ-MATA, Jorge, PRECIADO-RANGEL, Pablo, FORTIS-HERNÁNDEZ, Manuel, RUEDA-PUENTE, Edgar O., YESCAS-CORONADO, Pablo, and OROZCO-VIDAL, Jorge A.

Subjects

*PLANT growth-promoting rhizobacteria, *PLANT growth, *ARABIDOPSIS thaliana, *CROPS, *RHIZOSPHERE, *SEEDLINGS

Abstract

In the communities of Sierra Mojada and Viesca, Coahuila, Mexico of Coahuila desert, two rhizosphere samplings of candelilla (Euphorbia antisyphilitica Zucc) were collected to isolate, characterize, and identifying plant growth-promoting rhizobacteria (PGPR); 165 rhizobacteria were tested in vitro with Arabidopsis thaliana seedlings to evaluate their potential as plant growth promoters, and obtaining 21 strains with best results in the variables of the number of secondary roots and fresh weight concerning the uninoculated control. Their salinity tolerance was evaluated at concentrations from 0.85 M, 1.7 M and 2.55 M of NaCl. Biochemical tests were accomplishing such as siderophores production, phosphates solubilization, production of Indole-3-acetic acid (IAA), and the activity of the ACC deaminase enzyme. The results obtained from 21 strains selected, high activities were obtained in organic substances like a siderophores since they developed a translucent orange halo around their growth; four rhizobacteria developed a clear halo around the bacterial growth with a thickness between 1.487 mm ± 0.667 mm and 5.267 mm ± 0.704 mm in phosphates solubilization; in the production of Indole-3-acetic acid (IAA), the bacterial strains showed the presence of this phytohormone, with values from 4.444 μg mL-1 to 19.286 µg mL-1; and according to the activity of the ACC deaminase enzyme, values from 0.424 to 1.306 μmol α-KB/h/mg Pr were showed. 16S rRNA sequencing was carried out and genus identified were Bacillus, Staphylococcus, Acinetobacter, Cronobacter and Siccibacter. The results obtained show the potential of the isolated rhizobacteria as growth promoters and the increase in the biomass of the Arabidopsis thaliana seedlings is evident. This is a first indication to proceed to carry out tests in different phenological stages in crops of agricultural importance. [ABSTRACT FROM AUTHOR]

Published

2021

13. BIOSURFACTANTS PRODUCED BY METAL-RESISTANT Pseudomonas aeruginosa ISOLATED FROM Zea mays RHIZOSPHERE AND COMPOST.

Author

J. L., Aguirre-Noyola, Y., Romero Ramírez, J. C., Ruvalcaba Ledezma, A. V., Forero Forero, Rodríguez R., León, and Jiménez J., Toribio

Subjects

*CORN, *BIOSURFACTANTS, *PSEUDOMONAS aeruginosa, *RHIZOSPHERE, *PSEUDOMONAS aeruginosa infections, *ANTIFUNGAL agents, *CORN stover

Abstract

Methodology: Biosurfactant production was determined based hemolysis on blood agar, blue halos in CTAB-Methylene blue agar, drop collapse test and production of foam on PPGAS Contextualization: Pseudomonas aeruginosa is capable of producing biosurfactants which have many uses in bioremediation and the production of antiviral, antibacterial, antiparasitic, sporicidal and antifungal agents, among others. Purpose: The overall aims were to investigate biosurfactant, pyocyanin production, and tolerance to heavy metals and antimicrobial activity capacity than biosurfactants produced from P. aeruginosa strains from corn rhizosphere and compost in Mexico. Knowledge gap: This study describes the production of mono and di-rhamnolipid biosurfactants by P. aeruginosa strains isolated from Zea mays rhizosphere and composts in the state of Guerrero, Mexico. broth, the emulsion index (IE24) and antibacterial capacity. The strains were identified by sequence of the 16S rDNA gene and their resistance to heavy metals were also evaluated. Results and conclusions: Two strains isolated from Zea mays rhizosphere (PAM8, PAM9) were the best biosurfactant producers and their extracts showed antimicrobial activity against Grampositive and Gramnegative bacteria. PAM8 and PAM9 showed >30% of cellular hydrophobicity to hydrocarbons, and were capable of emulsifying toluene, cyclohexane, petroleum, diesel and oils. All strains showed the same profile of heavy metal tolerance (As5+ >As3+ >Zn2+ >Pb2+ >Fe3+ >Cd2+ >Cu2+ >Cr6+ in concentrations of 20, 10, 10, 6, 4, 4, 2 and 2 mM., respectively). The isolation of biosurfactant-producing and heavy-metal tolerant bacteria from Zea mays rhizosphere and compost in Guerrero demonstrates the capacity for this region to harbor potentially important microbial strains for industrial or bioremediation applications. [ABSTRACT FROM AUTHOR]

Published

2021

14. Composition, Structure, and PGPR Traits of the Rhizospheric Bacterial Communities Associated With Wild and Cultivated Echinocactus platyacanthus and Neobuxbaumia polylopha.

Author

de la Torre-Hernández, María Eugenia, Salinas-Virgen, Leilani I., Aguirre-Garrido, J. Félix, Fernández-González, Antonio J., Martínez-Abarca, Francisco, Montiel-Lugo, Daniel, and Ramírez-Saad, Hugo C.

Subjects

PLANT growth promoting substances, ARID regions, WILD plants, FUNGAL growth, PLANT communities, BACTERIAL diversity, PLANT growth, BACTERIAL communities

Abstract

The Queretaro semi-desert in central Mexico is the most southern extension of the Chihuahua desert. This semi-arid zone shelters a vast cactus diversity with many endemic species. Currently, two cacti species from this semi-desert namely, Echinocactus platyacanthus and Neobuxbaumia polylopha are under a threat to their survival. So far, there are no reports on the bacterial communities associated with these plants. In this study, we assessed the structure and diversity of the rhizospheric bacterial communities associated with Echinocactus platyacanthus and Neobuxbaumia polylopha growing in wild and cultivated conditions. Samples of E. platyacanthus were also approached with culture-based methods in search of isolates with plant growth promoting abilities. Metagenomic DNA was extracted from rhizospheric samples and used for Illumina sequencing of the 16S rRNA gene. α-diversity and amplicon sequence variant (ASV) richness were higher in both groups of E. platyacanthus samples. All samples accounted for 14 phyla, and the major 6 were common to all treatments. The dominant phyla in all four sample groups were Actinobacteria and Proteobacteria. Analysis at family and genus levels showed association patterns with the cultivated samples from both species grouping together, while the wild samples of each cactus species were grouping apart. High abundance values of Rubrobacteraceae (15.9–18.4%) were a characteristic feature of wild E. platyacanthus samples. In total, 2,227 ASVs were scored in all 12 rhizospheric samples where E. platyacanthus samples showed higher richness with 1,536 ASVs. Regarding the growing conditions, both groups of cultivated samples were also richer accounting for 743 and 615 ASVs for E. platyacanthus and N. polylopha , respectively. The isolates from E. platyacanthus rhizosphere were mainly assigned to Bacilli and Gammaproteobacteria. In total 35 strains were assayed for PGPR traits (IAA and siderophore production, phosphate solubilization, and fungal growth inhibition). Strains obtained from plants growing in the wild displayed better PGPR characteristics, stressing that naturally occurring wild plants are a source of bacteria with diverse metabolic activities, which can be very important players in the adaptation of cacti to their natural environments. [ABSTRACT FROM AUTHOR]

Published

2020

15. Cupriavidus plantarum sp. nov., a plant-associated species.

Author

Estrada-de los Santos, Paulina, Solano-Rodríguez, Roosivelt, Matsumura-Paz, Lucía, Vásquez-Murrieta, María, and Martínez-Aguilar, Lourdes

Subjects

*BURKHOLDERIA, *RHIZOSPHERE, *PLANT hybridization, *PLANT chemotaxonomy

Abstract

During a survey of plant-associated bacteria in northeast Mexico, a group of 13 bacteria was isolated from agave, maize and sorghum plants rhizosphere. This group of strains was related to Cupriavidus respiraculi (99.4 %), but a polyphasic investigation based on DNA-DNA hybridization analysis, other genotypic studies and phenotypic features showed that this group of strains actually belongs to a new Cupriavidus species. Consequently, taking all the results together, the description of Cupriavidus plantarum sp. nov. is proposed. [ABSTRACT FROM AUTHOR]

Published

2014

16. Arbuscular mycorrhizal fungi in chronically petroleum-contaminated soils in Mexico and the effects of petroleum hydrocarbons on spore germination.

Author

Franco-Ramírez, Alicia, Ferrera-Cerrato, Ronald, Varela-Fregoso, Lucía, Pérez-Moreno, Jesús, and Alarcón, Alejandro

Subjects

VESICULAR-arbuscular mycorrhizas, PLANT species, SOIL pollution, RHIZOSPHERE

Abstract

The article focuses on a study that aims to identify and isolate arbuscular mycorrhizal fungi (AMF) species from three plant species grown in chronically petroleum-contaminated soil while evaluating the impact of volatile compounds of the contaminated soil in Activo Cinco Presidentes, Tabasco, Mexico. It notes that samples of rhizosphere soil were used to determine its chemical properties. Results of the study have further confirmed the presence of AMF in the contaminated soils.

Published

2007

17. Salt-tolerant Bacillus species as a promising strategy to mitigate the salinity stress in wheat (Triticum turgidum subsp. durum).

Author

Ibarra-Villarreal, Arlett L., Gándara-Ledezma, Azucena, Godoy-Flores, América Dafne, Herrera-Sepúlveda, Angélica, Díaz-Rodríguez, Alondra María, Parra-Cota, Fannie Isela, and de los Santos-Villalobos, Sergio

Subjects

*EMMER wheat, *DURUM wheat, *SOIL salinity, *WHEAT, *SALINITY, *BACILLUS licheniformis, *MOLECULAR phylogeny

Abstract

Salinity negatively impacts the bacterial diversity associated with crops in commercial fields; however, Bacillus species -due to their great metabolic/genomic background and spore formation-have shown high resilience to this abiotic stress enhancing the tolerance of plants to saline soils. This work aimed to assess the diversity of cultivable salt-tolerant Bacillus species associated with wheat commercial fields in the Yaqui Valley, Mexico, as well as to identify native salt-tolerant Bacillus strains as promising alternatives to mitigate the negative effects of saline soils on wheat. Thus, based on morphological and molecular (sequencing the 16S rRNA gene) traits related to this genus, fifty-one Bacillus strains were isolated from thirty-six 1 ha-wheat commercial fields in the Yaqui Valley, Mexico [soils showed a gradient of electrical conductivity (E.C.) from 0.6 to 6.4 dS m−1]. These strains were grouped into ten Bacillus species: 1) B. subtilis (25.5%), 2) B. megaterium (25.5%), 3) B. cereus (19.6%), 4) B. amyloliquefaciens (7.8%), 5) B. pumilus (5.9), 6) B. licheniformis (5.9%), 7) B. endophyticus (3.92%), 8) B. atrophaeus (1.96%), 9) B. safensis (1.96%), and 10) B. mojavensis (1.96%). The soil salinity in wheat fields (E.C. 0.6–6.4 dS m−1) and the in vitro salt-tolerance assay (E.C. 6.4 dS m−1) negatively impacted the abundance and diversity of Bacillus species; however, B. licheniformis TRQ65 (isolated from soils having 4.1–5.0 dS m−1) showed the highest tolerance to in vitro saline stress (6.4 dS m−1), increasing its growth 223% under saline vs. non-saline conditions. Finally, the inoculation of B. licheniformis TRQ65 was able to mitigate the negative effects of saline soil conditions on wheat (30 days post-inoculation), since the growth promotion of inoculated seedlings under a saline soil condition (6.4 dS m−1) was similar (no significant differences, p > 0.05) to inoculated wheat seedlings under a non-saline soil condition, which was higher (significant differences, p < 0.05) than un-inoculated wheat seedlings under a non-saline and saline soil. Bacillus licheniformis TRQ65 (recently taxonomically affiliated as B. paralicheniformis TRQ65) is a promising native salt-tolerant strain that needs to be studied in the future for improving wheat growth and yield, under saline or non-saline soils. • The saline soil condition impacts negatively the Bacillus diversity in wheat commercial fields in the Yaqui Valley. • Fifty-one strains belonging to Bacillus species were identified based on their morphological and molecular traits. • Bacillus paralicheniformis TRQ65 showed the highest in vitro salt-tolerance. • B. paralicheniformis TRQ65 was able to mitigate the negative effects of saline soil on wheat (30 days post-inoculation). • B. paralicheniformis TRQ65 is a promising salt-tolerant strain for improving wheat growth in saline or non-saline soils. [ABSTRACT FROM AUTHOR]

Published

2021

18. Plant growth-promoting bacteria isolated from wild legume nodules and nodules of Phaseolus vulgaris L. trap plants in central and southern Mexico.

Author

Tapia-García, Erika Yanet, Hernández-Trejo, Verónica, Guevara-Luna, Joseph, Rojas-Rojas, Fernando Uriel, Arroyo-Herrera, Ivan, Meza-Radilla, Georgina, Vásquez-Murrieta, María Soledad, and Estrada-de los Santos, Paulina

Subjects

*KIDNEY bean, *PLANT growth promoting substances, *BURKHOLDERIA cepacia, *COMMON bean, *LEGUMES, *SENSITIVE plant, *BACTERIA, *NITROGEN fixation

Abstract

• Most of the strains isolated were nodule associated bacteria. • Pseudomonas was frequently isolated from the nodules. • Mimosa pudica contains the largest number of genera as nodule associated bacteria. • Burkholderia and Brevibacillus are potential new nodulating bacteria. • Indoleacetic acid synthesis was common among the isolated strains. Central southern Mexico contains highly diverse legumes. In this study, nodule-associated bacteria (NAB) were isolated from wild legume nodules and from nodules on Phaseolus vulgaris plants used as a plant-trap in soils from the same areas as the wild legumes. The bacteria were identified through the 16S rRNA gene sequence analysis, tested for plant growth-promoting (PGP) activities and the production of antimicrobial compounds, and analyzed for potential nodulation by amplifying the nodC gene. Several genera with PGP activity were isolated from legume nodules, including Achromobacter, Acinetobacter, Bacillus, Brevibacillus , Brevibacterium, Burkholderia, Cupriavidus, Dyella, Ensifer, Enterobacter, Herbaspirillum, Kosakonia, Labrys, Microbacterium, Moraxella, Paraburkholderia, Pseudomonas, Rhizobium, Stenotrophomonas; and Aeromonas, Marinococcus Pseudarthrobacter and Pseudoxanthomonas were found in plant legume nodules for the first time. Pseudomonas was the most common bacteria, and Mimosa pudica was colonized by the largest number of genera (6 different genera). A Burkholderia strain from the Burkholderia cepacia complex and a firmicutes strain harbor the nodC gene, identifying them as potential novel nodulating bacteria and showing that most of the strains isolated in this study were NAB. The most frequent PGP activity identified among the strains isolated from wild legumes was IAA synthesis. Two bacteria, Stenotrophomonas sp. and Rhizobium sp., synthesized more than 250 μg/ml, which is more than the level of synthesis reported in this study for Azospirillum brasilense Sp7 (59.77 μg/ml). Nitrogen fixation and antimicrobial compound production were not common, but the production of siderophores was frequently found among all the strains. This study shows that diverse NAB with PGP activity are very common in the legume nodules from central southern Mexico. [ABSTRACT FROM AUTHOR]

Published

2020

19. Involvement of Allelopathy in the Invasive Potential of Tithonia diversifolia.

Author

Kato-Noguchi, Hisashi

Subjects

TITHONIA diversifolia, ALLELOPATHY, ALLELOPATHIC agents, NATIVE plants, NOXIOUS weeds, RHIZOSPHERE, ASTERACEAE

Abstract

Tithonia diversifolia (Hemsl.) A. Gray (Asteraceae) is native to Mexico and Central America. The species is spreading quickly and has naturalized in more than 70 countries. It has often been recorded as a harmful invasive plant that disturbs native plant communities. Phytotoxic chemical interactions such as allelopathy between invasive plants and native plants have been reported to play an important role in the invasion. Evidence for allelopathy of T. diversifolia has accumulated in the literature over 30 years. Thus, the objective of this review was to discuss the possible involvement of allelopathy in the invasive potential of T. diversifolia. The extracts, root exudates, and plant residues of T. diversifolia inhibited the germination and growth of other plant species. The soil water and soil collected from T. diversifolia fields also showed inhibitory growth effects. The decomposition rate of T. diversifolia residues in soil was reported to be high. Phytotoxic substances such as sesquiterpene lactones were isolated and identified in the extracts of T. diversifolia. Some phytotoxic substances in T. diversifolia may be released into the soil through the decomposition of the plant residues and the exudation from living tissues of T. diversifolia, including its root exudates, which act as allelopathic substances. Those allelopathic substances can inhibit the germination and growth of neighboring plants and may enhance the competitive ability of the plants, make them invasive. [ABSTRACT FROM AUTHOR]

Published

2020

20. Host genotype explains rhizospheric microbial community composition: the case of wild cotton metapopulations (Gossypium hirsutum L.) in Mexico.

Author

Hernández-Terán A, Navarro-Díaz M, Benítez M, Lira R, Wegier A, and Escalante AE

Subjects

Bacteria genetics, Genotype, Mexico, Plant Roots, RNA, Ribosomal, 16S genetics, Rhizosphere, Soil, Soil Microbiology, Gossypium, Microbiota

Abstract

The rhizosphere provides several benefits to the plant host being a strong determinant for its health, growth and productivity. Nonetheless, the factors behind the assembly of the microbial communities associated with the rhizosphere such as the role of plant genotypes are not completely understood. In this study, we tested the role that intraspecific genetic variation has in rhizospheric microbial community assemblages, using genetically distinct wild cotton populations as a model of study. We followed a common garden experiment including five wild cotton populations, controlling for plant genotypes, environmental conditions and soil microbial community inoculum, to test for microbial differences associated with genetic variation of the plant hosts. Microbial communities of the treatments were characterized by culture-independent 16S rRNA gene amplicon sequencing with Illumina MiSeq platform. We analyzed microbial community diversity (alpha and beta), and diversity structure of such communities, determined by co-occurrence networks. Results show that different plant genotypes select for different and specific microbial communities from a common inoculum. Although we found common amplicon sequence variants (ASVs) to all plant populations (235), we also found unique ASVs for different populations that could be related to potential functional role of such ASVs in the rhizosphere., (© FEMS 2020.)

Published

2020

21. Antagonic and plant growth-promoting effects of bacteria isolated from mine tailings at El Fraile, Mexico.

Author

Herrera-Quiterio A, Toledo-Hernández E, Aguirre-Noyola JL, Romero Y, Ramos J, Palemón-Alberto F, and Toribio-Jiménez J

Subjects

Biodegradation, Environmental, Humans, Mexico, Plant Roots, RNA, Ribosomal, 16S genetics, Soil Microbiology, Bacteria, Rhizosphere

Abstract

Mine tailings contain high concentrations of heavy metals such as As, Pb, Cu, Mn, and Fe, which are detrimental to the health of humans and the environment. In tailings at the El Fraile mine in Guerrero, Mexico, some plant species are apparently tolerant of heavy metals and can be found growing in the tailings. These plants could be associating with heavy metal-tolerant bacteria that promote plant growth and improve biomass production, and these bacteria could be a useful alternative for bacteria-assisted phytoremediation. The objective of this study was to isolate bacteria detected in the mine tailings at El Fraile-Taxco, focusing on those in the soil from the rhizosphere, the inner tissue of the root, leachate, and water, which have the potential to promote plant growth. The ability of the isolated bacteria to promote plant growth was evaluated in vitro. Of the 151 morphotypes isolated, 51% fix nitrogen, 12% dissolve phosphates, and 12%, 39.7%, and 48.3% produce indole acetic acid, gibberellins, and siderophores, respectively. In addition, 66.7% were observed to produce lytic enzymes, such as proteases, celluloses, lipases, esterases, and amylases, which exhibited activity against Fusarium, Aspergillus, and Colletotrichum. The use of 16S rRNA analysis led to the identification of the bacterial genera Chryseobacterium, Bacillus, Pseudomonas, Mycobacterium, Staphylococcus, Curtobacterium, Enterobacter, Agrobacterium, Ochrobactrum, Serratia, Stenotrophomonas, and Acinetobacter. The bacteria isolated from the rhizosphere exhibited the greatest ability to fix nitrogen and produced indole acetic acid, gibberellins, siderophore, and lytic enzymes. In addition, the isolates collected from the soil samples demonstrated ability to solubilize phosphate., (Copyright © 2019 Asociación Argentina de Microbiología. Publicado por Elsevier España, S.L.U. All rights reserved.)

Published

2020

22. Cupriavidus agavae sp. nov., a species isolated from Agave L. rhizosphere in northeast Mexico.

Author

Arroyo-Herrera I, Maldonado-Hernández J, Rojas-Rojas FU, Meza-Radilla G, Larios-Serrato V, Vásquez-Murrieta MS, Whitman WB, and Estrada-de Los Santos P

Subjects

Bacterial Typing Techniques, Base Composition, Cupriavidus isolation & purification, DNA, Bacterial genetics, Fatty Acids chemistry, Mexico, Nucleic Acid Hybridization, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Agave microbiology, Cupriavidus classification, Phylogeny, Rhizosphere

Abstract

During the isolation of bacteria from the Agave L. rhizosphere in northeast Mexico, four strains with similar BOX-PCR patterns were collected. The 16S rRNA gene sequences of all four strains were very similar to each other and that of the type strains of Cupriavidus metallidurans CH34 T (98.49 % sequence similarity) and Cupriavidus necator N-1 T (98.35 %). The genome of strain ASC-9842 T was sequenced and compared to those of other Cupriavidus species. ANIb and ANIm values with the most closely related species were lower than 95%, while the in silico DNA-DNA hybridization values were also much lower than 70 %, consistent with the proposal that they represent a novel species. This conclusion was supported by additional phenotypic and chemotaxonomic analyses. Therefore, the name Cupriavidus agavae sp. nov. is proposed with the type strain ASC-9842 T (=LMG 26414 T =CIP 110327 T ).

Published

2020

23. Isolation and characterization of psychrophilic and psychrotolerant plant-growth promoting microorganisms from a high-altitude volcano crater in Mexico.

Author

Tapia-Vázquez I, Sánchez-Cruz R, Arroyo-Domínguez M, Lira-Ruan V, Sánchez-Reyes A, Del Rayo Sánchez-Carbente M, Padilla-Chacón D, Batista-García RA, and Folch-Mallol JL

Subjects

Altitude, Cold Temperature, DNA isolation & purification, Ecosystem, Fungi pathogenicity, Germination, Indoleacetic Acids metabolism, Solanum lycopersicum growth & development, Mexico, Plant Diseases, Rhizosphere, Seeds growth & development, Siderophores metabolism, Soil Microbiology, Stress, Physiological, Volcanic Eruptions, Yeasts physiology, Bacteria classification, Bacteria isolation & purification, Bacterial Physiological Phenomena, Phylogeny, Plant Development, Yeasts classification, Yeasts isolation & purification

Abstract

Extreme ecosystems are a possible source of new interesting microorganisms, in this study the isolation of psychrophilic and psychrotolerant plant growth promoting microorganisms was pursued in a cold habitat, with the aim of finding novel microbes that can protect crops from cold. Eight yeast and four bacterial strains were isolated from rhizospheric soil collected from the Xinantécatl volcano in Mexico, and characterized for plant growth promoting properties. Most of the yeasts produced indole acetic acid and hydrolytic enzymes (cellulases, xilanases and chitinases), but none of them produced siderophores, in contrast to their bacterial counterparts. Inorganic phosphate solubilization was detected for all the bacterial strains and for two yeast strains. Yeast and bacterial strains may inhibit growth of various pathogenic fungi, propounding a role in biological control. Microorganisms were identified up to genera level, by applying ribotyping techniques and phylogenetic analysis. Bacterial strains belonged to the genus Pseudomonas, whereas yeast strains consisted of Rhodotorula sp. (4), Mrakia sp. (3) and Naganishia sp. (1). New species belonging to the aforementioned genera seem to have been isolated from both bacteria and yeasts. Germination promoting activity on Solanum lycopersicum seeds was detected for all strains compared to a control, whereas tomato plantlets, grown at 15 °C in the presence of some of the strains, performed better than the non-inoculated plantlets. This study offers the possibility of using these strains as an additive to improve culture conditions of S. lycopersicum in a more environmentally compatible way. This is the first study to propose psychrophilic/psychrotolerant yeasts, as plant growth promoting microbes., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2020

24. Septoglomus mexicanum , a new species of arbuscular mycorrhizal fungi from semiarid regions in Mexico.

Author

Chimal-Sánchez E, Senés-Guerrero C, Varela L, Montaño NM, García-Sánchez R, Pacheco A, Montaño-Arias SA, and Camargo-Ricalde SL

Subjects

DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Fabaceae microbiology, Glomeromycota cytology, Glomeromycota genetics, Glomeromycota growth & development, Hyphae cytology, Hyphae growth & development, Mexico, Mycorrhizae cytology, Mycorrhizae genetics, Mycorrhizae growth & development, RNA, Ribosomal genetics, Rhizosphere, Sequence Analysis, DNA, Spores, Fungal classification, Spores, Fungal cytology, Spores, Fungal genetics, Spores, Fungal growth & development, Desert Climate, Glomeromycota classification, Mycorrhizae classification

Abstract

Septoglomus mexicanum is here described as a new species of arbuscular mycorrhizal fungi (AMF; Glomeromycota) based on morphological and phylogenetic analyses. It was isolated from rhizospheric soil of two endemic Mexican legumes: Prosopis laevigata and Mimosa luisana , which grow in semiarid regions of central Mexico. Septoglomus mexicanum is characterized by forming globose spores of (154.5-)202.8(-228.9) µm diam and a spore wall consisting of four layers (SWL1-SWL4): outer wall layer (SWL1) hyaline, evanescent, (1.7-)3.2(-4.3) µm thick; SWL2 laminate and smooth, orange to reddish orange, (3.1-)4.5(-6.1) µm thick; SWL3 laminate, smooth, reddish orange to reddish brown, (4.1-)5.1(-5.7) µm thick; and SWL4 hyaline, semiflexible, (0.93-)1.2(-1.4) µm thick. None of the spore wall layers stain with Melzer's reagent. The subtending hypha has a color from yellowish to golden and presents a septum on spore base. Septoglomus mexicanum can be distinguished from all other Septoglomus species by spore size and color, by spore wall structure (four layers), and by color change of the subtending hypha. Phylogenetic analysis based on the AMF extended DNA barcode covering a 1.5-kb fragment of the small subunit (SSU), internal transcribed spacer region (ITS1-5.8S-ITS2), and the large subunit (LSU) of rRNA genes places S. mexicanum in the genus Septoglomus , separated from other described Septoglomus species, especially S. turnauae , with whom it could be confused morphologically. All available sequences in public databases suggest that this new fungal species has not yet been previously detected. Thus, there are currently 149 Glomeromycota species registered in Mexico, representing 47.4% of the known species worldwide.

Published

2020

25. Draft genome sequence of Bacillus megaterium TRQ8, a plant growth-promoting bacterium isolated from wheat (Triticum turgidum subsp. durum) rhizosphere in the Yaqui Valley, Mexico.

Author

Robles Montoya, Rosa Icela, Parra Cota, Fannie Isela, and de los Santos Villalobos, Sergio

Subjects

*PLANT growth, *PLANT growth promoting substances, *BACILLUS megaterium, *EMMER wheat, *NUCLEOTIDE sequencing, *WHEAT, *PHOSPHATE metabolism

Abstract

Bacillus megaterium TRQ8 was isolated from wheat (Triticum turgidum subsp. durum) rhizosphere in commercial fields in the Yaqui Valley, Mexico. Here, we report the draft genome of strain TRQ8, with a size of ~ 5.6 Mbp and a G + C content of 38%. Based on the cutoff values on species delimitation established for average nucleotide identity (> 95–96%), genome-to-genome distance calculator (> 70%), and the reference sequence alignment-based phylogeny (REALPHY) builder method, TRQ8 was strongly affiliated to Bacillus megaterium. The rapid annotation using subsystem technology server revealed that TRQ8 contains 153 RNA genes, and 6113 coding DNA sequences, including those related to plant growth promotion traits, i.e. auxin biosynthesis, phosphate metabolism, siderophores production, and osmotic and oxidative stress response. The function of those putative annotated genes was validated at metabolic level, observing that strain TRQ8 was able to produce 12.0 ± 1.9 µg/mL indoles, phosphate solubilization of 38.7 ± 4.2%, siderophore production of 8.1 ± 0.2%, and tolerance to saline (80.0 ± 5.3%), and water (110.0 ± 4.2%) stress conditions. This genomic and metabolic background was in vivo corroborated by the inoculation of TRQ8 to wheat plants (30 days, under axenic conditions), observing a significant (p = 0.05) increment (compared to un-inoculated plants) of shoot height (16.4%), root length (68.4%), total plant length (30.9%), stem diameter (26.7%), stem circumference (34.8%), shoot dry weight (60.0%), root dry weight (55.6%). Those results provide insights for future agricultural studies and potential applications of this strain, as a plant growth-promoting bacterium. [ABSTRACT FROM AUTHOR]

Published

2019

26. Hormesis under oil-induced stress in Leersia hexandra Sw. used as phytoremediator in clay soils of the Mexican humid tropic.

Author

Alberto Orocio-Carrillo J, Del Carmen Rivera-Cruz M, Manuel Aranda-Ibañez E, Trujillo-Narcía A, Hernández-Galvez G, and Remedios Mendoza-López M

Subjects

Biodegradation, Environmental, Clay, Mexico, Soil chemistry, Stress, Physiological, Hormesis physiology, Petroleum Pollution adverse effects, Poaceae physiology, Rhizosphere, Soil Pollutants adverse effects

Abstract

The oil industry has inherent risks of spills or leaks due to natural or anthropogenic causes, which cause alterations in the soil and damage to the plant. An experiment was carried to investigate the effect of oil on the growth, biomass production, biosynthesis of crude protein of Leersia hexandra grass and the remove of oil from the soil. The results showed different responses by L. hexandra depending on the age, low concentrations of oil induced a significant increase in stolon length, in relative growth rate, in dry matter production and in the biosynthesis of crude protein. The same parameters decreased at high concentrations of oil. However, at the end of the evaluation period of 180 days, high concentrations of oil induced a significant increase in the number of young plants and secondary roots, the terminal third of the main root and root dry matter. The dose response curves had the shape of an inverted U, showing that at days 15, 45, 90 and 180, in stolon length, aerial dry matter production, crude protein (day 90) and young plants (days 45 and 90) exhibited a typical biphasic response. The increase in oil concentration correlated with increases in young plants, number of secondary roots, number of roots at the middle, terminal third and root dry matter. After 180 days exposure the rhizosphere of L. hexandra a total oil removal of oil of 76.7 ± 4 was achieved; 61.7, 51, 44.6, 38 and 52% in soils that initially contained 7.9, 54, 102, 126, 145 and 238 g oil.

Published

2019

27. Comparative genome analysis of completely sequenced Cupriavidus genomes provides insights into the biosynthetic potential and versatile applications of Cupriavidus alkaliphilus ASC-732.

Author

Kutralam-Muniasamy G and Pérez-Guevara F

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Cupriavidus enzymology, Cupriavidus metabolism, Mexico, Pentose Phosphate Pathway, Photosynthesis, Polyhydroxyalkanoates biosynthesis, Polysaccharides, Bacterial biosynthesis, Rhizosphere, Cupriavidus genetics, Genome, Bacterial

Abstract

The genome analysis of microorganisms provides valuable information to endorse more extensive research on their potential applications. In this paper, the genome of Cupriavidus alkaliphilus ASC-732, isolated from agave rhizosphere in northeastern Mexico, was analyzed and compared with the genomes of other Cupriavidus species to gain better insight into the parts in the genetic makeup responsible for essential metabolic pathways and others of biotechnological importance. Here, the key genes related to glycolysis, pentose phosphate, and the Entner-Doudoroff and tricarboxylic acid cycle pathways were predicted. Comparative genome analysis revealed that the key genes for hydrogenotrophic growth and carbon fixation pathway, i.e., those coding for hydrogenase and enzymes Calvin-Benson-Bassham cycle, are absent in C. alkaliphilus ASC-732. Furthermore, capabilities for producing polyhydroxyalkanoates and extracellular polysaccharide matrix and degrading xenobiotics were found, and the related pathways are explained. Moreover, biofilm formation and the production of exopolysaccharides and polyhydroxyalkanoates were corroborated with crystal violet staining, calcofluor, and Nile red fluorochromes, confirming the presence of the products of the active genes in these pathways and their related metabolic routes, respectively. Additionally, a large group of genes essential for the resistance and detoxification of several heavy metals were also found. Thus, the present study demonstrates that this strain can respond to various environmental signals, such as energy source, nutrient limitations, virulence, and extreme metals concentration, indicating the possibility to foster C. alkaliphilus ASC-732 in diverse biotechnological applications.

Published

2019

28. Chlorothalonil tolerance of indole producing bacteria associated to wheat (Triticum turgidum L.) rhizosphere in the Yaqui Valley, Mexico.

Author

Díaz Rodríguez AM, Parra Cota FI, Santoyo G, and de Los Santos Villalobos S

Subjects

Bacillus metabolism, Bacillus physiology, Indoles metabolism, Mexico, Paenibacillus metabolism, Paenibacillus physiology, Plant Diseases microbiology, Plant Diseases prevention & control, Triticum microbiology, Bacillus drug effects, Fungicides, Industrial adverse effects, Nitriles adverse effects, Paenibacillus drug effects, Rhizosphere

Abstract

Chlorothalonil is a commonly used fungicide to control the karnal bunt caused by Tilletia indica Mitra in wheat production from the Yaqui Valley, Mexico. Here, the effect of Chlorothalonil on the growth of 132 bacterial strains associated with wheat rhizosphere from the Yaqui Valley was evaluated, as well as their ability to produce indoles. Thirty-three percent of the evaluated strains were inhibited by Chlorothalonil, being Bacillus and Paenibacillus the most inhibited genera, observing an inhibition >50% of their strains. In addition, 49% of the inhibited strains showed the ability to produce indoles (>5 μg/mL), where the genus Bacillus was the most abundant (80%). The remaining strains (67%) were tolerant to the evaluated fungicide, but only 37% of those showed the ability to produce indoles, which could be considered as Plant Growth Promoting Rhizobacteria (PGPR). These results showed that Chlorothalonil is not only an antifungal compound but also inhibits the growth of bacterial strains with the ability to produce indoles. Thus, the intensive application of fungicides to agro-systems needs more validation in order to develop sustainable agricultural practices for food production.

Published

2019

29. Draft Genome of Burkholderia cenocepacia TAtl-371, a Strain from the Burkholderia cepacia Complex Retains Antagonism in Different Carbon and Nitrogen Sources.

Author

Rojas-Rojas FU, Sánchez-López D, Tapia-García EY, Arroyo-Herrera I, Maymon M, Humm E, Huntemann M, Clum A, Pillay M, Palaniappan K, Varghese N, Mikhailova N, Stamatis D, Reddy TBK, Ivanova N, Kyrpides N, Woyke T, Shapiro N, Hirsch AM, Ibarra JA, and Estrada-de Los Santos P

Subjects

Bacteriocins genetics, Burkholderia cenocepacia isolation & purification, Chitinases genetics, Solanum lycopersicum microbiology, Mexico, Rhizosphere, Sequence Analysis, DNA, Siderophores genetics, Soil Microbiology, Antibiosis, Burkholderia cenocepacia genetics, Burkholderia cepacia complex, Carbon metabolism, Genome, Bacterial, Nitrogen metabolism

Abstract

Burkholderia cenocepacia TAtl-371 was isolated from the rhizosphere of a tomato plant growing in Atlatlahucan, Morelos, Mexico. This strain exhibited a broad antimicrobial spectrum against bacteria, yeast, and fungi. Here, we report and describe the improved, high-quality permanent draft genome of B. cenocepacia TAtl-371, which was sequenced using a combination of PacBio RS and PacBio RS II sequencing methods. The 7,496,106 bp genome of the TAtl-371 strain is arranged in three scaffolds, contains 6722 protein-coding genes, and 99 RNA only-encoding genes. Genome analysis revealed genes related to biosynthesis of antimicrobials such as non-ribosomal peptides, siderophores, chitinases, and bacteriocins. Moreover, analysis of bacterial growth on different carbon and nitrogen sources shows that the strain retains its antimicrobial ability.

Published

2019

30. Compatible bacterial mixture, tolerant to desiccation, improves maize plant growth.

Author

Molina-Romero D, Baez A, Quintero-Hernández V, Castañeda-Lucio M, Fuentes-Ramírez LE, Bustillos-Cristales MDR, Rodríguez-Andrade O, Morales-García YE, Munive A, and Muñoz-Rojas J

Subjects

Acinetobacter physiology, Azospirillum brasilense physiology, Biomass, Crops, Agricultural growth & development, Crops, Agricultural physiology, Desiccation, Mexico, Plant Roots growth & development, Plant Roots physiology, Pseudomonas putida physiology, Rhizosphere, Seeds growth & development, Seeds physiology, Sphingomonas physiology, Symbiosis, Zea mays growth & development, Zea mays physiology, Crops, Agricultural microbiology, Microbial Consortia physiology, Plant Development physiology, Plant Roots microbiology, Seeds microbiology, Zea mays microbiology

Abstract

Plant growth-promoting rhizobacteria (PGPR) increase plant growth and crop productivity. The inoculation of plants with a bacterial mixture (consortium) apparently provides greater benefits to plant growth than inoculation with a single bacterial strain. In the present work, a bacterial consortium was formulated containing four compatible and desiccation-tolerant strains with potential as PGPR. The formulation had one moderately (Pseudomonas putida KT2440) and three highly desiccation-tolerant (Sphingomonas sp. OF178, Azospirillum brasilense Sp7 and Acinetobacter sp. EMM02) strains. The four bacterial strains were able to adhere to seeds and colonize the rhizosphere of plants when applied in both mono-inoculation and multi-inoculation treatments, showing that they can also coexist without antagonistic effects in association with plants. The effects of the bacterial consortium on the growth of blue maize were evaluated. Seeds inoculated with either individual bacterial strains or the bacterial consortium were subjected to two experimental conditions before sowing: normal hydration or desiccation. In general, inoculation with the bacterial consortium increased the shoot and root dry weight, plant height and plant diameter compared to the non-inoculated control or mono-inoculation treatments. The bacterial consortium formulated in this work had greater benefits for blue maize plants even when the inoculated seeds underwent desiccation stress before germination, making this formulation attractive for future field applications.

Published

2017

31. Molecular identification of phosphate-solubilizing native bacteria isolated from the rhizosphere of Prosopis glandulosa in Mexicali valley.

Author

Moreno-Ramírez L, González-Mendoza D, Cecena-Duran C, and Grimaldo-Juarez O

Subjects

Acinetobacter calcoaceticus classification, Acinetobacter calcoaceticus genetics, Acinetobacter calcoaceticus metabolism, Bacteria classification, Hydrogen-Ion Concentration, Mexico, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Solubility, Species Specificity, Bacteria genetics, Bacteria metabolism, Phosphates metabolism, Prosopis microbiology, Rhizosphere

Abstract

One of the main limitations in intensive crop production in Northwestern Mexico is the dependence on the use of phosphate fertilizer. In this study, we isolated indigenous microorganisms with phosphate solubilization capacities from mesquite (Prosopis glandulosa) present in the Mexicali valley. In total, 4 bacteria were isolated from the rhizosphere of mesquite, including ICA01, ICA02Ba, ICA03Bs, and ICA04Ma. The bacterial isolates were identified based on their phenotypic and 16S rRNA gene sequencing data to be Acinetobacter calcoaceticus. The results showed that ICA01 was the most efficient in solubilizing phosphate, followed by ICA02Ba and ICA03Bs, while ICA04Ma showed the lowest phosphate-solubilizing activity. The pH value of the culture medium decreased with bacterial growth, suggesting that these strains produce organic acids that solubilize phosphorus. These results will be useful for biotechnological studies and A. calcoaceticus may be employed for biofertilization programs in northwest Mexico.

Published

2015

32. Narrow-host-range bacteriophages that infect Rhizobium etli associate with distinct genomic types.

Author

Santamaría RI, Bustos P, Sepúlveda-Robles O, Lozano L, Rodríguez C, Fernández JL, Juárez S, Kameyama L, Guarneros G, Dávila G, and González V

Subjects

Mexico, Molecular Sequence Data, Open Reading Frames, Phylogeny, Rhizosphere, Soil Microbiology, Bacteriophages genetics, Bacteriophages isolation & purification, Genome, Viral, Host Specificity, Rhizobium etli virology

Abstract

In this work, we isolated and characterized 14 bacteriophages that infect Rhizobium etli. They were obtained from rhizosphere soil of bean plants from agricultural lands in Mexico using an enrichment method. The host range of these phages was narrow but variable within a collection of 48 R. etli strains. We obtained the complete genome sequence of nine phages. Four phages were resistant to several restriction enzymes and in vivo cloning, probably due to nucleotide modifications. The genome size of the sequenced phages varied from 43 kb to 115 kb, with a median size of ≈ 45 to 50 kb. A large proportion of open reading frames of these phage genomes (65 to 70%) consisted of hypothetical and orphan genes. The remainder encoded proteins needed for phage morphogenesis and DNA synthesis and processing, among other functions, and a minor percentage represented genes of bacterial origin. We classified these phages into four genomic types on the basis of their genomic similarity, gene content, and host range. Since there are no reports of similar sequences, we propose that these bacteriophages correspond to novel species.

Published

2014

33. Degradation of benzene, toluene, and xylene isomers by a bacterial consortium obtained from rhizosphere soil of Cyperus sp. grown in a petroleum-contaminated area.

Author

Ortega-González DK, Zaragoza D, Aguirre-Garrido J, Ramírez-Saad H, Hernández-Rodríguez C, and Jan-Roblero J

Subjects

Bacteria classification, Bacteria genetics, Cluster Analysis, Cyperus growth & development, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Mexico, Mixed Function Oxygenases genetics, Molecular Sequence Data, Oxygenases genetics, Petroleum metabolism, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Soil Pollutants metabolism, Bacteria metabolism, Benzene metabolism, Microbial Consortia, Rhizosphere, Soil Microbiology, Toluene metabolism, Xylenes metabolism

Abstract

Increasing contamination of soil and groundwater with benzene, toluene, and xylene (BTX) due to activities of the chemical and oil refinery industry has caused serious environmental damage. Efficient methods are required to isolate and degrade them. Microorganisms associated with rhizosphere soil are considered efficient agents to remediate hydrocarbon contamination. In this study, we obtained a stabilized bacterial consortium from the rhizosphere soil of Cyperus sp. grown in a petroleum-contaminated field in Southern Mexico. This consortium was able to completely degrade BTX in 14 days. Bacteria isolated from the consortium were identified by 16S rRNA gene sequence analysis as Ralstonia insidiosa, Cellulomonas hominis, Burkholderia kururiensis, and Serratia marcescens. The BTX-degradation capacity of the bacterial consortium was confirmed by the detection of genes pheA, todC1, and xylM, which encoded phenol hydroxylase, toluene 1,2-dioxygenase, and xylene monooxygenase, respectively. Our results demonstrate feasibility of BTX biodegradation by indigenous bacteria that might be used for soil remediation in Southern Mexico.

Published

2013

34. Bacterial community structure in the rhizosphere of three cactus species from semi-arid highlands in central Mexico.

Author

Aguirre-Garrido JF, Montiel-Lugo D, Hernández-Rodríguez C, Torres-Cortes G, Millán V, Toro N, Martínez-Abarca F, and Ramírez-Saad HC

Subjects

Bacteria genetics, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Mexico, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Seasons, Sequence Analysis, DNA, Bacteria classification, Bacteria isolation & purification, Biota, Cactaceae microbiology, Plant Roots microbiology, Rhizosphere

Abstract

The nature reserve of Tehuacan-Cuicatlan in central Mexico is known for its diversity and endemism mainly in cactus plants. Although the xerophytic flora is reasonably documented, the bacterial communities associated with these species have been largely neglected. We assessed the diversity and composition of bacterial communities in bulk (non-rhizospheric) soil and the rhizosphere of three cactus plant species: Mammillaria carnea, Opuntia pilifera and Stenocereus stellatus, approached using cultivation and molecular techniques, considering the possible effect of dry and rainy seasons. Cultivation-dependent methods were focused on putative N(2)-fixers and heterotrophic aerobic bacteria, in the two media tested the values obtained for dry season samples grouped together regardless of the sample type (rhizospheric or non-rhizospheric), these groups also included the non-rhizospheric sample for rainy season, on each medium. These CFU values were smaller and significantly different from those obtained on rhizospheric samples from rainy season. Genera composition among isolates of the rhizospheric samples was very similar for each season, the most abundant taxa being α-Proteobacteria, Actinobacteria and Firmicutes. Interestingly, the genus Ochrobactrum was highly represented among rhizospheric samples, when cultured in N-free medium. The structure of the bacterial communities was approached with molecular techniques targeting partial 16S rRNA sequences such as denaturing gradient gel electrophoresis and serial analysis of ribosomal sequence tags. Under these approaches, the most represented bacterial phyla were Actinobacteria, Proteobacteria and Acidobacteria. The first two were also highly represented when using isolation techniques.

Published

2012

35. Genetic relationships among Italian and Mexican maize-rhizosphere Burkholderia cepacia complex (BCC) populations belonging to Burkholderia cenocepacia IIIB and BCC6 group.

Author

Bevivino A, Costa B, Cantale C, Cesarini S, Chiarini L, Tabacchioni S, Caballero-Mellado J, and Dalmastri C

Subjects

Alleles, Burkholderia cenocepacia isolation & purification, DNA, Bacterial genetics, Genetic Variation, Italy, Linkage Disequilibrium, Mexico, Plant Roots microbiology, Polymorphism, Restriction Fragment Length, Sequence Analysis, DNA, Burkholderia cenocepacia genetics, Rhizosphere, Soil Microbiology, Zea mays microbiology

Abstract

Background: A close association between maize roots and Burkholderia cepacia complex (BCC) bacteria has been observed in different locations globally. In this study we investigated by MultiLocus Restriction Typing (MLRT) the genetic diversity and relationships among Burkholderia cenocepacia IIIB and BCC6 populations associated with roots of maize plants cultivated in geographically distant countries (Italy and Mexico), in order to provide new insights into their population structure, evolution and ecology., Results: The 31 B. cenocepacia IIIB and 65 BCC6 isolates gave rise to 29 and 39 different restriction types (RTs), respectively. Two pairs of isolates of B. cenocepacia IIIB and BCC6, recovered from both Italian and Mexican maize rhizospheres, were found to share the same RT. The eBURST (Based Upon Related Sequence Types) analysis of MLRT data grouped all the B. cenocepacia IIIB isolates into four clonal complexes, with the RT-4-complex including the 42% of them, while the majority of the BCC6 isolates (94%) were grouped into the RT-104-complex. These two main clonal complexes included RTs shared by both Italian and Mexican maize rhizospheres and a clear relationship between grouping and maize variety was also found. Grouping established by eBURST correlated well with the assessment using unweighted-pair group method with arithmetic mean (UPGMA). The standardized index of association values obtained in both B. cenocepacia IIIB and BCC6 suggests an epidemic population structure in which occasional clones emerge and spread., Conclusions: Taken together our data demonstrate a wide dispersal of certain B. cenocepacia IIIB and BCC6 isolates in Mexican and Italian maize rhizospheres. Despite the clear relationship found between the geographic origin of isolates and grouping, identical RTs and closely related isolates were observed in geographically distant regions. Ecological factors and selective pressure may preferably promote some genotypes within each local microbial population, favouring the spread of a single clone above the rest of the recombinant population.

Published

2011