Your search keyword '"Viver T"' showing total 46 results

1. The molecular epidemiology of SARS-CoV-2 in the Pityusic Islands shows multiple introductions and fast replacements of variants in a touristic worldwide hot spot

Author

Viver, T., López-Causapé, C., Ribot-Fraile, P., Pérez-Mazón, C., López-Solé, D., Jiménez-Guerra, G., Taltavull, B., and López-López, A.

Published

2023

2. Overview of the Diversity of Extremely Saline Soils from a Semi-Arid Region Using 16S rRNA Gene Sequencing: A Case Study of the Sebkhas in Algerian High Plateaus

Author

Amiour, S., Chekroud, K., Font-Verdera, F., Anver, S., Liébana, R., Hafdi, O., and Viver, T.

Published

2022

3. Apunts d'Urbanística II

Author

Alexander, Chirstofer, Solà-Morales Rubió, Manuel de, Busquets Grau, Joan, Laboratorio de Urbanismo, Ribas Piera, Manuel, Esteban Noguera, Julian, Ferrer Aixalà, Amador, Pou Viver, T., Alexander, Chirstofer, Solà-Morales Rubió, Manuel de, Busquets Grau, Joan, Laboratorio de Urbanismo, Ribas Piera, Manuel, Esteban Noguera, Julian, Ferrer Aixalà, Amador, and Pou Viver, T.

Abstract

1979/1980

Published

1979

4. Apunts d'Urbanística III

Author

Alexander, Christofer, Solà-Morales Rubió, Manuel de, Busquets Grau, Joan, Laboratorio de Urbanismo, Ribas Piera, Manuel, Esteban Noguera, Julio, Ferrer Aixalà, amador, Solé Llusà, J., Pou Viver, T., Alexander, Christofer, Solà-Morales Rubió, Manuel de, Busquets Grau, Joan, Laboratorio de Urbanismo, Ribas Piera, Manuel, Esteban Noguera, Julio, Ferrer Aixalà, amador, Solé Llusà, J., and Pou Viver, T.

Abstract

1979/1980

Published

1979

5. Acidimicrobiia, the actinomycetota of coastal marine sediments: Abundance, taxonomy and genomic potential.

Author

Silva-Solar S, Viver T, Wang Y, Orellana LH, Knittel K, and Amann R

Abstract

Microbial communities in marine sediments represent some of the densest and most diverse biological communities known, with up to a billion cells and thousands of species per milliliter. Among this taxonomic diversity, the class Acidimicrobiia, within the phylum Actinomycetota, stands out for its consistent presence, yet its limited taxonomic understanding obscures its ecological role. We used metagenome-assembled genomes from a 5-year Arctic fjord sampling campaign and compared them to publicly available Acidimicrobiia genomes using 16S rRNA gene and whole-genome phylogenies, alongside gene prediction and annotation to study their taxonomy and genomic potential. Overall, we provide a taxonomic overview of the class Acidimicrobiia and show its significant prevalence in Isfjorden and Helgoland coastal sediments, representing over 90% of Actinomycetota 16S rRNA gene sequences, and 3-7% of Bacteria. We propose Benthobacter isfjordensis gen. nov., sp. nov., Hadalibacter litoralis gen. nov., sp. nov., and two new species from Ilumatobacter, following SeqCode guidelines. In addition, we report the first in situ quantification of the family Ilumatobacteraceae, revealing its substantial presence (1-6%) in coastal sediments. This work highlights the need of refining the taxonomy of Acidimicrobiia to better understand their ecological contributions., (Copyright © 2024. Published by Elsevier GmbH.)

Published

2024

6. Halorubrum miltondacostae sp. nov., a potential polyhydroxyalkanoate producer isolated from an inland solar saltern in Rio Maior, Portugal.

Author

Albuquerque L, Viver T, Barroso C, Claudino R, Galvan M, Simões G, Lobo-da-Cunha A, and Egas C

Abstract

One hundred and sixty-three extreme halophiles were recovered from a single sample collected from an inland solar saltern in Rio Maior. Based on random amplified polymorphic DNA (RAPD) profiles and partial 16S rRNA gene sequencing 125 isolates were identified as members of the Archaea domain within the genus Halorubrum. Two strains, RMP-11 T and RMP-47, showed 99.1 % sequence similarity with the species Halorubrum californiense based on phylogenetic analysis of the 16S rRNA gene sequence. However, phylogenetic analysis based on five housekeeping genes, atpB, EF-2, glnA, ppsA and rpoB', showed Halorubrum coriense as the closest related species with 96.7 % similarity. The average nucleotide identity (ANI) of strains RMP-11 T , RMP-47 and species Hrr. coriense were within the range of 90.0-90.5 %, supporting that strains RMP-11 T and RMP-47 represent a novel species of the genus Halorubrum. These strains formed red-pigmented colonies that were able to grow in a temperature range of 25-50 °C. Polyhydroxyalkanoate (PHA) granules were detected in both strains. The polar lipid profile was identical to the neutrophilic species of the genus Halorubrum. The Rio Maior sample from which both strains were isolated was metagenome sequenced. We identified five metagenome-assembled genomes representing novel Halorubrum species but distinct from the species represented by strains RMP-11 T and RMP-47. Based on phylogenetic, phylogenomic, comparative genomics, physiological and chemotaxonomic parameters, we describe a new species of the genus Halorubrum represented by strains RMP-11 T (=CECT 30760 T  = DSM 115521 T ) and RMP-47 (=CECT 30761 = DSM 115541) for which we propose the name Halorubrum miltondacostae sp. nov., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2024

7. Extremely halophilic brine community manipulation shows higher robustness of microbiomes inhabiting human-driven solar saltern than naturally driven lake.

Author

Liébana R, Viver T, Ramos-Barbero MD, Bustos-Caparros E, Urdiain M, López C, Amoozegar MA, Antón J, and Rossello-Mora R

Subjects

Spain, Humans, Salts chemistry, Salinity, Iran, Metagenome, Bacteria genetics, Bacteria isolation & purification, Bacteria classification, Lakes microbiology, Lakes virology, Microbiota

Abstract

Hypersaline ecosystems display taxonomically similar assemblages with low diversities and highly dense accompanying viromes. The ecological implications of viral infection on natural microbial populations remain poorly understood, especially at finer scales of diversity. Here, we sought to investigate the influence of changes in environmental physicochemical conditions and viral predation pressure by autochthonous and allochthonous viruses on host dynamics. For this purpose, we transplanted two microbiomes coming from distant hypersaline systems (solar salterns of Es Trenc in Spain and the thalassohaline lake of Aran-Bidgol lake in Iran), by exchanging the cellular fractions with the sterile-filtered accompanying brines with and without the free extracellular virus fraction. The midterm exposure (1 month) of the microbiomes to the new conditions showed that at the supraspecific taxonomic range, the assemblies from the solar saltern brine more strongly resisted the environmental changes and viral predation than that of the lake. The metagenome-assembled genomes (MAGs) analysis revealed an intraspecific transition at the ecotype level, mainly driven by changes in viral predation pressure, by both autochthonous and allochthonous viruses., Importance: Viruses greatly influence succession and diversification of their hosts, yet the effects of viral infection on the ecological dynamics of natural microbial populations remain poorly understood, especially at finer scales of diversity. By manipulating the viral predation pressure by autochthonous and allochthonous viruses, we uncovered potential phage-host interaction, and their important role in structuring the prokaryote community at an ecotype level., Competing Interests: The authors declare no conflict of interest.

Published

2024

8. Acidovorax bellezanensis sp. nov., a novel bacterium from uranium mill tailings repository sites with selenium bioremediation capabilities.

Author

Sánchez-Castro I, Viver T, Martínez-Rodríguez P, Bustos-Caparros E, Ruiz-Fresneda MÁ, Mena-Sanabria MT, Jiménez-García I, Bosch-Estévez G, Descostes M, and Merroun ML

Abstract

A Gram-stain-negative bacterial strain designated Be4 T , belonging to the genus Acidovorax , was isolated from mining porewaters sampled in uranium mill tailings repository sites, located in Bellezane, near Bessines-sur-Gartempe (Limousin, France). Cells were facultative anaerobic, rod-shaped, non-endospore-forming and motile with flagella. The mean cell size was 1.25-1.31 μm long and 0.70-0.73 μm wide. Colonies were light yellow, opaque, circular, convex with smooth margins, and 1-2 mm in diameter. Growth occurs at 4-37 °C and between pH 5.5-9.0. It differed from its phylogenetically related strains by phenotypic and physiological characteristics such as growth at 4 °C, presence of acid phosphatase, naphthol-AS-BI-phosphohydrolase and β-glucosidase enzymatic activities, and fermentation of l-xylose and esculin. The major fatty acids were C 16:0 , C 16:1 ω7c/C 16:1 ω6c, C 17:0 cyclo and C 18:1 ω7c. Phylogenetic analysis based on 16S rRNA and 938 core genes, confirmed its placement within the genus Acidovorax as a novel species. Strain Be4 T showed highest 16S rRNA sequence similarity to Acidovorax antarcticus (98.2 %), Acidovorax radicis (97.9 %), Acidovorax temperans (97.8 %) and Acidovorax facilis (97.7 %). The genome of strain Be4 T is 5,041,667 bp size with a DNA G + C content of 65.15 %. By automatic annotation numerous sequences involved in the interaction with metals/metalloids including some genes related to Se uptake and selenite resistance were detected in its genome. The average nucleotide identity (ANI) values calculated from whole genome sequences between strain Be4 T and the most closely related strains A. radicis and A. facilis were below the threshold value of 95 %. Thus, the data from the phylogenetic, physiological, biochemical, and genomic analyses clearly indicates that strain Be4 T represents a novel species with the suggested name Acidovorax bellezanensis sp. nov. The type strain is Acidovorax bellezanensis Be4 T (=DSM116209 T  = CECT30865 T ). This novel species, due to its unique isolation source, genomic analysis, and preliminary laboratory tests where it was able to reduce toxic Se(IV) to less harmful Se(0) in the form of nanoparticles, holds great potential for further investigation in bioremediation, particularly concerning Se., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors. Published by Elsevier Ltd.)

Published

2024

9. Metagenomics of two aquifers with thermal anomalies in Mallorca Island, and proposal of new uncultivated taxa named following the rules of SeqCode.

Author

Gago JF, Viver T, Urdiain M, Ferreira E, Robledo P, and Rossello-Mora R

Subjects

DNA, Bacterial genetics, Islands, Sequence Analysis, DNA, Spain, Metagenome, Genome, Bacterial genetics, Temperature, RNA, Ribosomal, 16S genetics, Groundwater microbiology, Phylogeny, Metagenomics, Bacteria classification, Bacteria genetics, Bacteria isolation & purification

Abstract

Groundwater offers an intriguing blend of distinctive physical and chemical conditions, constituting a challenge for microbial life. In Mallorca, the largest island of Balearic archipelago, harbours a variety of thermal anomalies (i.e., geothermal manifestation where surface aquifers exhibiting temperatures exceeding the regional average). The metagenomes of two aquifers in the centre and southern of the island showed Pseudomonadota to be the most represented phylum when using extracted 16S rRNA gene sequences. However, the microbial structures within and between aquifers were remarkably diverse but similar in their metabolic profiles as revealed by the metagenome-assembled genomes (MAGs) pointing to a prevalence of aerobic chemolithoautotrophic and heterotrophic metabolisms, especially in the Llucmajor aquifer. Also, some evidences of anaerobic lifestyles were detected, which would indicate that these environments either could suffer episodes of oxygen depletion or the anaerobes had been transported from deeper waters. We believe that the local environmental factors (temperature, external inputs or chemistry) seem to be more relevant than the connection and, eventually, transport of microbial cells within the aquifer in determining the highly divergent structures. Notably, most of the reconstructed genomes belonged to undescribed bacterial lineages and from them two high-quality MAGs could be classified as novel taxa named following the rules of the Code for Nomenclature of Prokaryotes Described from Sequence Data (SeqCode). Accordingly, we propose the new species and genus Costitxia debesea gen. nov., sp. nov., affiliated with the novel family Costitxiaceae fam. nov., order Costitxiales ord. nov. and class Costitxiia class. nov.; and the new new species and genus Lloretia debesea gen. nov. sp. nov. affiliated with the novel family Lloretiaceae fam. nov., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2024

10. A metagenomic approach to unveil the association between fecal gut microbiota and short-chain fatty acids in diarrhea caused by diarrheagenic Escherichia coli in children.

Author

Gallardo P, Izquierdo M, Viver T, Bustos-Caparros E, Piras D, Vidal RM, Harmsen HMJ, and Farfan MJ

Abstract

Diarrheagenic Escherichia coli (DEC) is the main cause of diarrhea in children under five years old. The virulence of DEC is tightly regulated by environmental signals influenced by the gut microbiota and its metabolites. Short-chain fatty acids (SCFAs) are the main metabolic product of anaerobic fermentation in the gut, but their role in DEC diarrhea has not yet been established. In this study, we determine the levels of acetate, propionate, and butyrate in stool samples from children with diarrhea caused by DEC, and we identify bacteria from the fecal gut microbiota associated with the production of SCFAs. The microbiota and SCFAs levels in stool samples obtained from 40 children with diarrhea and 43 healthy children were determined by 16S rRNA gene sequencing and HPLC, respectively. Additionally, shotgun metagenomics was used to identify metagenome-assembled genomes (MAGs) in a subgroup of samples. The results showed significantly higher levels of all SCFAs tested in diarrheal samples than in healthy controls. The abundance of Streptococcus sp., Limosilactobacillus , Blautia , Escherichia , Bacteroides , Megamonas, and Roseburia was higher in the DEC group than in healthy individuals. Functional analysis of bacteria and their main metabolic pathways made it possible to identify species MAGs that could be responsible for the detected SCFAs levels in DEC-positive diarrhea. In conclusion, based on our results and published data, we suggest that SCFAs may be important in the crosstalk between the microbiota and DEC pathogens in the gut., Competing Interests: Conflict of Interest: The authors have no commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright: © 2024 Gallardo et al.)

Published

2024

11. An ANI gap within bacterial species that advances the definitions of intra-species units.

Author

Rodriguez-R LM, Conrad RE, Viver T, Feistel DJ, Lindner BG, Venter SN, Orellana LH, Amann R, Rossello-Mora R, and Konstantinidis KT

Subjects

Prokaryotic Cells, Phylogeny, Sequence Analysis, DNA, Genome, Bacterial, Bacteria genetics

Abstract

Importance: Bacterial strains and clonal complexes are two cornerstone concepts for microbiology that remain loosely defined, which confuses communication and research. Here we identify a natural gap in genome sequence comparisons among isolate genomes of all well-sequenced species that has gone unnoticed so far and could be used to more accurately and precisely define these and related concepts compared to current methods. These findings advance the molecular toolbox for accurately delineating and following the important units of diversity within prokaryotic species and thus should greatly facilitate future epidemiological and micro-diversity studies across clinical and environmental settings., Competing Interests: The authors declare no conflict of interest.

Published

2024

12. Towards estimating the number of strains that make up a natural bacterial population.

Author

Viver T, Conrad RE, Rodriguez-R LM, Ramírez AS, Venter SN, Rocha-Cárdenas J, Llabrés M, Amann R, Konstantinidis KT, and Rossello-Mora R

Subjects

Metagenomics methods, Metagenome genetics, Phylogeny, Genome, Bacterial genetics, Bacteria genetics, Bacteroidetes genetics

Abstract

What a strain is and how many strains make up a natural bacterial population remain elusive concepts despite their apparent importance for assessing the role of intra-population diversity in disease emergence or response to environmental perturbations. To advance these concepts, we sequenced 138 randomly selected Salinibacter ruber isolates from two solar salterns and assessed these genomes against companion short-read metagenomes from the same samples. The distribution of genome-aggregate average nucleotide identity (ANI) values among these isolates revealed a bimodal distribution, with four-fold lower occurrence of values between 99.2% and 99.8% relative to ANI >99.8% or <99.2%, revealing a natural "gap" in the sequence space within species. Accordingly, we used this ANI gap to define genomovars and a higher ANI value of >99.99% and shared gene-content >99.0% to define strains. Using these thresholds and extrapolating from how many metagenomic reads each genomovar uniquely recruited, we estimated that -although our 138 isolates represented about 80% of the Sal. ruber population- the total population in one saltern pond is composed of 5,500 to 11,000 genomovars, the great majority of which appear to be rare in-situ. These data also revealed that the most frequently recovered isolate in lab media was often not the most abundant genomovar in-situ, suggesting that cultivation biases are significant, even in cases that cultivation procedures are thought to be robust. The methodology and ANI thresholds outlined here should represent a useful guide for future microdiversity surveys of additional microbial species., (© 2024. The Author(s).)

Published

2024

13. Niche differentiation within bacterial key-taxa in stratified surface waters of the Southern Pacific Gyre.

Author

Oggerin M, Viver T, Brüwer J, Voß D, García-Llorca M, Zielinski O, Orellana LH, and Fuchs BM

Subjects

Pacific Ocean, Alphaproteobacteria genetics, Alphaproteobacteria metabolism, Alphaproteobacteria classification, Alphaproteobacteria isolation & purification, Metagenomics, In Situ Hybridization, Fluorescence, Ecosystem, Phylogeny, Microbiota, Seawater microbiology

Abstract

One of the most hostile marine habitats on Earth is the surface of the South Pacific Gyre (SPG), characterized by high solar radiation, extreme nutrient depletion, and low productivity. During the SO-245 "UltraPac" cruise through the center of the ultra-oligotrophic SPG, the marine alphaproteobacterial group AEGEAN169 was detected by fluorescence in situ hybridization at relative abundances up to 6% of the total microbial community in the uppermost water layer, with two distinct populations (Candidatus Nemonibacter and Ca. Indicimonas). The high frequency of dividing cells combined with high transcript levels suggests that both clades may be highly metabolically active. Comparative metagenomic and metatranscriptomic analyses of AEGEAN169 revealed that they encoded subtle but distinct metabolic adaptions to this extreme environment in comparison to their competitors SAR11, SAR86, SAR116, and Prochlorococcus. Both AEGEAN169 clades had the highest percentage of transporters per predicted proteins (9.5% and 10.6%, respectively). In particular, the high expression of ABC transporters in combination with proteorhodopsins and the catabolic pathways detected suggest a potential scavenging lifestyle for both AEGEAN169 clades. Although both AEGEAN169 clades may share the genomic potential to utilize phosphonates as a phosphorus source, they differ in their metabolic pathways for carbon and nitrogen. Ca. Nemonibacter potentially use glycine-betaine, whereas Ca. Indicimonas may catabolize urea, creatine, and fucose. In conclusion, the different potential metabolic strategies of both clades suggest that both are well adapted to thrive resource-limited conditions and compete well with other dominant microbial clades in the uppermost layers of SPG surface waters., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

14. Impact of dilution on stochastically driven methanogenic microbial communities of hypersaline anoxic sediments.

Author

Font-Verdera F, Liébana R, Rossello-Mora R, and Viver T

Subjects

Salts, Archaea genetics, Bacteria genetics, Ampicillin, RNA, Ribosomal, 16S genetics, Geologic Sediments microbiology, Phylogeny, Methane, Euryarchaeota genetics, Microbiota

Abstract

Sediments underlying the solar salterns of S'Avall are anoxic hypersaline ecosystems dominated by anaerobic prokaryotes, and with the especial relevance of putative methanogenic archaea. Slurries from salt-saturated sediments, diluted in a gradient of salinity and incubated for > 4 years revealed that salt concentration was the major selection force that deterministically structured microbial communities. The dominant archaea in the original communities showed a decrease in alpha diversity with dilution accompanied by the increase of bacterial alpha diversity, being highest at 5% salts. Correspondingly, methanogens decreased and in turn sulfate reducers increased with decreasing salt concentrations. Methanogens especially dominated at 25%. Different concentrations of litter of Posidonia oceanica seagrass added as a carbon substrate, did not promote any clear relevant effect. However, the addition of ampicillin as selection pressure exerted important effects on the assemblage probably due to the removal of competitors or enhancers. The amended antibiotic enhanced methanogenesis in the concentrations ≤ 15% of salts, whereas it was depleted at salinities ≥ 20% revealing key roles of ampicillin-sensitive bacteria., (© The Author(s) 2023. Published by Oxford University Press on behalf of FEMS.)

Published

2023

15. Mycoplasma bradburyae sp. nov. isolated from the trachea of sea birds.

Author

Ramírez AS, Poveda JB, Dijkman R, Poveda C, Suárez-Pérez A, Rosales RS, Feberwee A, Szostak MP, Ressel L, Viver T, Calabuig P, Catania S, Gobbo F, Timofte D, and Spergser J

Subjects

Animals, Trachea, Phylogeny, RNA, Ribosomal, 16S genetics, Birds, DNA, Bacterial genetics, Sequence Analysis, DNA, Mycoplasma

Abstract

In the search for mollicutes in wild birds, six Mycoplasma strains were isolated from tracheal swabs taken from four different species of seabirds. Four strains originated from three Yellow-legged gulls (Larus michahellis) and a Cory's shearwater (Calonectris borealis) from Spain, one from a South African Kelp gull (Larus dominicanus), and one from an Italian Black-headed gull (Chroicocephalus ridibundus). These Mycoplasma strains presented 99 % 16S rRNA gene sequence similarity values with Mycoplasma (M.) gallisepticum. Phylogenetic analyses of marker genes (16S rRNA gene and rpoB) confirmed the close relationship of the strains to M. gallisepticum and M. tullyi. The seabirds' strains grew well in modified Hayflick medium, and colonies showed typical fried egg morphology. They produced acid from glucose and mannose but did not hydrolyze arginine or urea. Transmission electron microscopy revealed a cell morphology characteristic of mycoplasmas, presenting spherical to flask-shaped cells with an attachment organelle. Gliding motility was also observed. Furthermore, serological tests, MALDI-ToF mass spectrometry and genomic studies demonstrated that the strains were different to any known Mycoplasma species, for which the name Mycoplasma bradburyae sp. nov. is proposed; the type strain is T158 T (DSM 110708 = NCTC 14398)., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier GmbH.)

Published

2023

16. Food determines ephemerous and non-stable gut microbiome communities in juvenile wild and farmed Mediterranean fish.

Author

Viver T, Ruiz A, Bertomeu E, Martorell-Barceló M, Urdiain M, Grau A, Signaroli M, Barcelo-Serra M, Aspillaga E, Pons A, Rodgers C, Gisbert E, Furones D, Alós J, Catalán IA, and Rossello-Mora R

Subjects

Animals, Bacteria, Animal Feed analysis, Gastrointestinal Microbiome, Microbiota, Sea Bream metabolism

Abstract

Novel insights were provided by contrasting the composition of wild and farmed fish gut microbiomes because the latter had essentially different environmental conditions from those in the wild. This was reflected in the gut microbiome of the wild Sparus aurata and Xyrichtys novacula studied here, which showed highly diverse microbial community structures, dominated by Proteobacteria, mostly related to an aerobic or microaerophilic metabolism, but with some common shared major species, such as Ralstonia sp. On the other hand, farmed non-fasted S. aurata individuals had a microbial structure that mirrored the microbial composition of their food source, which was most likely anaerobic, since several members of the genus Lactobacillus, probably revived from the feed and enriched in the gut, dominated the communities. The most striking observation was that after a short fasting period (86 h), farmed gilthead seabream almost lost their whole gut microbiome, and the resident community associated with the mucosa had a very much reduced diversity that was highly dominated by a single potentially aerobic species Micrococcus sp., closely related to M. flavus. The results pointed to the fact that, at least for the juvenile S. aurata studied, most of the microbes in the gut were transient and highly dependent on the feed source, and that only after fasting for at least 2 days could the resident microbiome in the intestinal mucosa be determined. Since an important role of this transient microbiome in relation to fish metabolism could not be discarded, the methodological approach needs to be well designed in order not to bias the results. The results have important implications for fish gut studies that could explain the diversity and occasional contradictory results published in relation to the stability of marine fish gut microbiomes, and might provide important information for feed formulation in the aquaculture industry., Competing Interests: Declaration of competing interest The authors declare that there are no competing interests., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

17. Disparate behavioral types in wild and reared juveniles of gilthead seabream.

Author

Sanllehi J, Signaroli M, Pons A, Martorell-Barceló M, Mulet J, Lana A, Barcelo-Serra M, Aspillaga E, Grau A, Catalán IA, Viver T, and Alós J

Subjects

Animals, Aggression, Shyness, Algorithms, Aquaculture, Sea Bream

Abstract

Fish differ consistently in behavior within the same species and population, reflecting distinct behavioral types (BTs). Comparing the behavior of wild and reared individuals provides an excellent opportunity to delve into the ecological and evolutionary consequences of BTs. In this work, we evaluated the behavioral variation of wild and reared juvenile gilthead seabreams, Sparus aurata, a highly relevant species for aquaculture and fisheries. We quantified behavioral variation along the five major axes of fish behavioral traits (exploration-avoidance, aggressiveness, sociability, shyness-boldness, and activity) using standardized behavioral tests and a deep learning tracking algorithm for behavioral annotation. Results revealed significant repeatability in all five behavior traits, suggesting high consistency of individual behavioral variation across the different axes in this species. We found reared fish to be more aggressive, social and active compared to their wild conspecifics. Reared individuals also presented less variance in their aggressiveness, lacking very aggressive and very tame individuals. Phenotypic correlation decomposition between behavioral types revealed two different behavioral syndromes: exploration-sociability and exploration-activity. Our work establishes the first baseline of repeatability scores in wild and reared gilthead seabreams, providing novel insight into the behavior of this important commercial species with implications for fisheries and aquaculture., (© 2023. The Author(s).)

Published

2023

18. Thermocaproicibacter melissae gen. nov., sp. nov., a thermophilic chain-elongating bacterium, producing n -caproate from polymeric carbohydrates.

Author

Nguyen TV, Viver T, Smets I, Bernaerts K, Faust K, Lavigne R, Poughon L, Dussap CG, and Springael D

Subjects

Humans, Phylogeny, RNA, Ribosomal, 16S genetics, Caproates, Base Composition, Bacterial Typing Techniques, DNA, Bacterial genetics, Sequence Analysis, DNA, Phospholipids analysis, Bacteria, Anaerobic, Polymers, Fatty Acids chemistry, Lactobacillales genetics

Abstract

Strain MDTJ8 T is a chain-elongating thermophilic bacterium isolated from a thermophilic acidogenic anaerobic digestor treating human waste while producing the high commodity chemical n -caproate. The strain grows and produces formate, acetate, n -butyrate, n -caproate and lactate from mono-, di- and polymeric saccharides at 37-60 °C (optimum, 50-55 °C) and at pH 5.0-7.0 (optimum, pH 6.5). The organism is an obligate anaerobe, is motile and its cells form rods (0.3-0.5×1.0-3.0 µm) that stain Gram-positive and occur primarily as chains. Phylogenetic analysis of both the 16S rRNA gene and full genome sequence shows that strain MDTJ8 T belongs to a group that consists of mesophylic chain-elongating bacteria within the family Oscillospiraceae , being nearest to Caproicibacter fermentans EA1 T (94.8 %) and Caproiciproducens galactitolivorans BS-1 T (93.7 %). Its genome (1.96 Mbp) with a G+C content of 49.6 mol% is remarkably smaller than those of other chain-elongating bacteria of the family Oscillospiraceae . Pairwise average nucleotide identity and DNA-DNA hybridization values between strain MDJT8 T and its mesophilic family members are less than 70 and 35 %, respectively, while pairwise average amino acid identity values are less than 68 %. In addition, strain MDJT8 T uses far less carbohydrate and non-carbohydrate substrates compared to its nearest family members. The predominant cellular fatty acids of strain MDTJ8 T are C 14 : 0 , C 14 : 0 DMA (dimethyl acetal) and C 16 : 0 , while its polar lipid profile shows three unidentified glycophospholipids, 11 glycolipids, 13 phospholipids and six unidentified lipids. No respiratory quinones and polyamines are detected. Based on its phylogenetic, genotypic, morphological, physiological, biochemical and chemotaxonomic characteristics, strain MDTJ8 T represents a novel species and novel genus of the family Oscillospiraceae and Thermocaproicibacter melissae gen. nov., sp. nov. is proposed as its name. The type strain is MDTJ8 T (=DSM 114174 T =LMG 32615 T =NCCB 100883 T ).

Published

2023

19. Description of two cultivated and two uncultivated new Salinibacter species, one named following the rules of the bacteriological code: Salinibacter grassmerensis sp. nov.; and three named following the rules of the SeqCode: Salinibacter pepae sp. nov., Salinibacter abyssi sp. nov., and Salinibacter pampae sp. nov.

Author

Viver T, Conrad RE, Lucio M, Harir M, Urdiain M, Gago JF, Suárez-Suárez A, Bustos-Caparros E, Sanchez-Martinez R, Mayol E, Fassetta F, Pang J, Mădălin Gridan I, Venter S, Santos F, Baxter B, Llames ME, Cristea A, Banciu HL, Hedlund BP, Stott MB, Kämpfer P, Amann R, Schmitt-Kopplin P, Konstantinidis KT, and Rossello-Mora R

Subjects

RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Phylogeny, DNA, Bacterial genetics, Bacterial Typing Techniques, Bacteroidetes, Fatty Acids analysis

Abstract

Current -omics methods allow the collection of a large amount of information that helps in describing the microbial diversity in nature. Here, and as a result of a culturomic approach that rendered the collection of thousands of isolates from 5 different hypersaline sites (in Spain, USA and New Zealand), we obtained 21 strains that represent two new Salinibacter species. For these species we propose the names Salinibacter pepae sp. nov. and Salinibacter grassmerensis sp. nov. (showing average nucleotide identity (ANI) values < 95.09% and 87.08% with Sal. ruber M31 T , respectively). Metabolomics revealed species-specific discriminative profiles. Sal. ruber strains were distinguished by a higher percentage of polyunsaturated fatty acids and specific N-functionalized fatty acids; and Sal. altiplanensis was distinguished by an increased number of glycosylated molecules. Based on sequence characteristics and inferred phenotype of metagenome-assembled genomes (MAGs), we describe two new members of the genus Salinibacter. These species dominated in different sites and always coexisted with Sal. ruber and Sal. pepae. Based on the MAGs from three Argentinian lakes in the Pampa region of Argentina and the MAG of the Romanian lake Fără Fund, we describe the species Salinibacter pampae sp. nov. and Salinibacter abyssi sp. nov. respectively (showing ANI values 90.94% and 91.48% with Sal. ruber M31 T , respectively). Sal. grassmerensis sp. nov. name was formed according to the rules of the International Code for Nomenclature of Prokaryotes (ICNP), and Sal. pepae, Sal. pampae sp. nov. and Sal. abyssi sp. nov. are proposed following the rules of the newly published Code of Nomenclature of Prokaryotes Described from Sequence Data (SeqCode). This work constitutes an example on how classification under ICNP and SeqCode can coexist, and how the official naming a cultivated organism for which the deposit in public repositories is difficult finds an intermediate solution., (Copyright © 2023 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2023

20. Discovery of the Streamlined Haloarchaeon Halorutilus salinus , Comprising a New Order Widespread in Hypersaline Environments across the World.

Author

Durán-Viseras A, Sánchez-Porro C, Viver T, Konstantinidis KT, and Ventosa A

Subjects

Phylogeny, RNA, Ribosomal, 16S genetics, Ecosystem, Ribulose-Bisphosphate Carboxylase genetics, Sequence Analysis, DNA, Euryarchaeota genetics, Halobacteriales genetics

Abstract

The class Halobacteria is one of the most diverse groups within the Euryarchaeota phylum, whose members are ubiquitously distributed in hypersaline environments, where they often constitute the major population. Here, we report the discovery and isolation of a new halophilic archaeon, strain F3-133 T exhibiting ≤86.3% 16S rRNA gene identity to any previously cultivated archaeon, and, thus, representing a new order. Analysis of available 16S rRNA gene amplicon and metagenomic data sets showed that the new isolate represents an abundant group in intermediate-to-high salinity ecosystems and is widely distributed across the world. The isolate presents a streamlined genome, which probably accounts for its ecological success in nature and its fastidious growth in culture. The predominant osmoprotection mechanism appears to be the typical salt-in strategy used by other haloarchaea. Furthermore, the genome contains the complete gene set for nucleotide monophosphate degradation pathway through archaeal RuBisCO, being within the first halophilic archaea representatives reported to code this enzyme. Genomic comparisons with previously described representatives of the phylum Euryarchaeota were consistent with the 16S rRNA gene data in supporting that our isolate represents a novel order within the class Halobacteria for which we propose the names Halorutilales ord. nov., Halorutilaceae fam. nov., Halorutilus gen. nov. and Halorutilus salinus sp. nov. IMPORTANCE The discovery of the new halophilic archaeon, Halorutilus salinus , representing a novel order, family, genus, and species within the class Halobacteria and phylum Euryarchaeota clearly enables insights into the microbial dark matter, expanding the current taxonomical knowledge of this group of archaea. The in-depth comparative genomic analysis performed on this new taxon revealed one of the first known examples of an Halobacteria representative coding the archaeal RuBisCO gene and with a streamlined genome, being ecologically successful in nature and explaining its previous non-isolation. Altogether, this research brings light into the understanding of the physiology of the Halobacteria class members, their ecological distribution, and capacity to thrive in hypersaline environments.

Published

2023

21. Microbiota Phenotype Promotes Anastomotic Leakage in a Model of Rats with Ischemic Colon Resection.

Author

Zamorano D, Ivulic D, Viver T, Morales F, López-Kostner F, and Vidal RM

Abstract

Anastomotic leakage (AL) is a major cause of morbidity and mortality after colorectal surgery, but the mechanism behind this complication is still not fully understood. Despite the advances in surgical techniques and perioperative care, the complication rates have remained steady. Recently, it has been suggested that colon microbiota may be involved in the development of complications after colorectal surgery. The aim of this study was to evaluate the association of gut microbiota in the development of colorectal AL and their possible virulence strategies to better understand the phenomenon. Using 16S rRNA sequencing of samples collected on the day of surgery and the sixth day following surgery, we analyzed the changes in tissue-associated microbiota at anastomotic sites created in a model of rats with ischemic colon resection. We discovered a trend for lower microbial diversity in the AL group compared to non-leak anastomosis (NLA). There were no differences in relative abundance in the different types of microbial respiration between these groups and the high abundance of the facultative anaerobic Gemella palaticanis is a marker species that stands out as a distinctive feature.

Published

2023

22. Microbial Motility at the Bottom of North America: Digital Holographic Microscopy and Genomic Motility Signatures in Badwater Spring, Death Valley National Park.

Author

Snyder C, Centlivre JP, Bhute S, Shipman G, Friel AD, Viver T, Palmer M, Konstantinidis KT, Sun HJ, Rossello-Mora R, Nadeau J, and Hedlund BP

Subjects

Phylogeny, RNA, Ribosomal, 16S genetics, Metagenome, Metagenomics methods, North America, Microscopy, Parks, Recreational

Abstract

Motility is widely distributed across the tree of life and can be recognized by microscopy regardless of phylogenetic affiliation, biochemical composition, or mechanism. Microscopy has thus been proposed as a potential tool for detection of biosignatures for extraterrestrial life; however, traditional light microscopy is poorly suited for this purpose, as it requires sample preparation, involves fragile moving parts, and has a limited volume of view. In this study, we deployed a field-portable digital holographic microscope (DHM) to explore microbial motility in Badwater Spring, a saline spring in Death Valley National Park, and complemented DHM imaging with 16S rRNA gene amplicon sequencing and shotgun metagenomics. The DHM identified diverse morphologies and distinguished run-reverse-flick and run-reverse types of flagellar motility. PICRUSt2- and literature-based predictions based on 16S rRNA gene amplicons were used to predict motility genotypes/phenotypes for 36.0-60.1% of identified taxa, with the predicted motile taxa being dominated by members of Burkholderiaceae and Spirochaetota. A shotgun metagenome confirmed the abundance of genes encoding flagellar motility, and a Ralstonia metagenome-assembled genome encoded a full flagellar gene cluster. This study demonstrates the potential of DHM for planetary life detection, presents the first microbial census of Badwater Spring and brine pool, and confirms the abundance of mobile microbial taxa in an extreme environment.

Published

2023

23. Isolation and characterization of a thermophilic chain elongating bacterium that produces the high commodity chemical n-caproate from polymeric carbohydrates.

Author

Van Nguyen T, Viver T, Mortier J, Liu B, Smets I, Bernaerts K, Faust K, Lavigne R, Poughon L, Dussap CG, and Springael D

Subjects

Humans, RNA, Ribosomal, 16S genetics, Fermentation, Hexoses, Caproates, Bacteria genetics

Abstract

A thermophilic chain elongating bacterium, strain MDTJ8, was isolated from a thermophilic acidogenic anaerobic digestor producing n-caproate from human waste, growing optimally at 50-55 °C and pH 6.5. 16S rRNA gene analysis suggests that MDTJ8 represents a new species/genus within a group currently composed of mesophilic chain elongators of the Oscillospiraceae family. Genome analysis showed that strain MDTJ8 contains homologues of genes encoding for chain elongation and energy conservation but also indicated n-caproate production from carbohydrates including polymeric substances. This was confirmed by culturing experiments in which MDTJ8 converted, at pH 6.5 and 55 °C, mono-, di- and polymeric carbohydrates (starch and hemicellulose) to n-caproate reaching concentrations up to 283 mg/L and accounting for up to 10 % of the measured fermentation products. MDTJ8 is the first axenic organism that thermophilically performs chain elongation, opening doors to understand and intensify thermophilic bioprocesses targeting anaerobic digestion towards the production of the value-added chemical n-caproate., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

24. Toward quantifying the adaptive role of bacterial pangenomes during environmental perturbations.

Author

Conrad RE, Viver T, Gago JF, Hatt JK, Venter SN, Rossello-Mora R, and Konstantinidis KT

Subjects

Bacteria genetics, Metagenome, Metagenomics, Genome, Bacterial, Microbiota

Abstract

Metagenomic surveys have revealed that natural microbial communities are predominantly composed of sequence-discrete, species-like populations but the genetic and/or ecological processes that maintain such populations remain speculative, limiting our understanding of population speciation and adaptation to perturbations. To address this knowledge gap, we sequenced 112 Salinibacter ruber isolates and 12 companion metagenomes from four adjacent saltern ponds in Mallorca, Spain that were experimentally manipulated to dramatically alter salinity and light intensity, the two major drivers of this ecosystem. Our analyses showed that the pangenome of the local Sal. ruber population is open and similar in size (~15,000 genes) to that of randomly sampled Escherichia coli genomes. While most of the accessory (noncore) genes were isolate-specific and showed low in situ abundances based on the metagenomes compared to the core genes, indicating that they were functionally unimportant and/or transient, 3.5% of them became abundant when salinity (but not light) conditions changed and encoded for functions related to osmoregulation. Nonetheless, the ecological advantage of these genes, while significant, was apparently not strong enough to purge diversity within the population. Collectively, our results provide an explanation for how this immense intrapopulation gene diversity is maintained, which has implications for the prokaryotic species concept., (© 2021. The Author(s), under exclusive licence to International Society for Microbial Ecology.)

Published

2022

25. Litter Management Strategies and Their Impact on the Environmental and Respiratory Microbiome Might Influence Health in Poultry.

Author

Ivulic D, Rossello-Mora R, Viver T, Montero DA, Vidal S, Aspee F, Hidalgo H, and Vidal R

Abstract

Aerial and respiratory tract-associated bacterial diversity has been scarcely studied in broiler production systems. This study examined the relationship between the environmental air and birds’ respiratory microbiome, considering a longitudinal sampling. Total viable bacteria and coliforms in the air were quantified, and the 16S rRNA gene was sequenced from tracheal and air samples obtained through a novelty protocol. Air results showed a decrease in coliforms over time. However, at week 3, we reported an increase in coliforms (from 143 to 474 CFUc/m3) associated with litter management. Additionally, 16S rRNA gene results indicated a distinctive air microbial community, associated primarily with Bacillota phylum particularly of the Bacilli class (>58%), under all conditions. Tracheal results indicated a predominance of Escherichia coli/Shigella at the beginning of the productive cycle, shifting toward the middle and end of the cycle to Gallibacterium. However, at week 3, the dominance of Escherichia coli/Shigella (>99.5%) associated with litter aeration by tumbling stood out. Tracheal and air samples displayed a statistically different community structure, but shared differentially abundant features through time: Enterococcus, Gallibacterium, and Romboutsia ilealis. These results indicate the impact of production management protocols on the birds’ respiratory system that should be considered a breakpoint in poultry farm health.

Published

2022

26. Solar salterns as model systems to study the units of bacterial diversity that matter for ecosystem functioning.

Author

Konstantinidis KT, Viver T, Conrad RE, Venter SN, and Rossello-Mora R

Subjects

Archaea genetics, Bacteria genetics, Metagenomics, Phylogeny, RNA, Ribosomal, 16S genetics, Ecosystem, Microbiota genetics

Abstract

Microbial communities often harbor overwhelming species and gene diversity, making it challenging to determine the important units to study this diversity. We argue that the reduced, and thus tractable, microbial diversity of manmade salterns provides an ideal system to advance this cornerstone issue. We review recent time-series genomic and metagenomic studies of the saltern-dominating bacterial and archaeal taxa to show that these taxa form persistent, sequence-discrete, species-like populations. While these populations harbor extensive intra-population gene diversity, even within a single saltern site, only a small minority of these genes appear to be functionally important during environmental perturbations. We outline an approach to detect and track such populations and their ecologically important genes that should be broadly applicable., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

27. Comparative genome analysis of the genus Hydrotalea and proposal of the novel species Hydrotalea lipotrueae sp. nov., isolated from a groundwater aquifer in the south of Mallorca Island, Spain.

Author

Gago JF, Viver T, Urdiain M, Pastor S, Kämpfer P, Robledo PA, Ferreira E, and Rosselló-Móra R

Subjects

Bacterial Typing Techniques, DNA, Bacterial genetics, Fatty Acids analysis, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Spain, Genomics, Groundwater

Abstract

From a collection of > 140 strains isolated from groundwater with thermal anomalies for the purpose of obtaining good candidates with applications in the cosmetic industry, two strains were selected because of their taxonomic novelty. Among the isolates, strains TMF&#95;100 T and TFM&#95;099 stood out for their potential biotechnological relevance, and a comparative analysis of 16S rRNA gene sequences indicated that these strains represented a new species of the genus Hydrotalea. In addition, from the public genomic databases, metagenome-assembled genomes (MAGs) and single-cell amplified genomes (SAGs) could be retrieved that affiliated with this genus. These MAGs and SAGs had been obtained from different environmental samples, such as acid mine drainage or marine sediments. In addition to the description of the new species, the ecological relevance of the members of this genus was demonstrated by means of denitrification, CRISPR-Cas system diversity and heavy metal resistance, as well as their wide geographical distribution and environmental versatility. Supported by the taxonomic study, together with physiological and morphological differences and ecological features, we concluded that strain TMF&#95;100 T represented a novel species within the genus Hydrotalea, for which we propose the name Hydrotalea lipotrueae sp. nov., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2021

28. Cultivable Winogradskyella species are genomically distinct from the sympatric abundant candidate species.

Author

Alejandre-Colomo C, Francis B, Viver T, Harder J, Fuchs BM, Rossello-Mora R, and Amann R

Abstract

Winogradskyella is a genus within the phylum Bacteroidetes with a clear marine origin. Most members of this genus have been found associated with marine animals and algae, but also with inorganic surfaces such as sand. In this study, we analyzed genomes of eleven species recently isolated from surface seawater samples from the North Sea during a single spring algae bloom. Corresponding metagenomes yielded a single Candidatus species for this genus. All species in culture, with the exception of W. ursingii, affiliated with a Winogradskyella lineage characterized by large genomes (~4.3 ± 0.4 Mb), with high complexity in their carbohydrate and protein degradation genes. Specifically, the polysaccharide utilization loci (PULs) were diverse within each individual strain, indicating large substrate versatility. Although present in the North Sea, the abundances of these strains were at, or below, the detection limit of the metagenomes. In contrast, the single species, classified as Candidatus W. atlantica, to which all North Sea MAGs belonged, affiliated with a lineage in which the cultivated representatives showed small genomes of ~3.0-3.5 Mb, with the MAGs having ~2.3 Mb. In Ca. W. atlantica, genome streamlining has apparently resulted in the loss of biosynthesis pathways for several amino acids including arginine, methionine, leucine and valine, and the PUL loci were reduced to a single one for utilizing laminarin. This as-yet uncultivated species seems to capitalize on sporadically abundant substrates that are released by algae blooms, mainly laminarin. We also suggest that this streamlined genome might be responsible for the lack of growth on plates for this Candidatus species, in contrast to growth of the less abundant but coexisting members of the genus., (© 2021. The Author(s).)

Published

2021

29. Inverted microbial community stratification and spatial-temporal stability in hypersaline anaerobic sediments from the S'Avall solar salterns.

Author

Font-Verdera F, Liébana R, Aldeguer-Riquelme B, Gangloff V, Santos F, Viver T, and Rosselló-Móra R

Subjects

Anaerobiosis, Geologic Sediments, Methane, Phylogeny, RNA, Ribosomal, 16S genetics, Spatio-Temporal Analysis, Archaea classification, Archaea metabolism, Bacteria classification, Bacteria metabolism, Microbiota, Salinity

Abstract

The anaerobic hypersaline sediments of an ephemeral pond from the S'Avall solar salterns constituted an excellent study system because of their easy accessibility, as well as the analogy of their microbial assemblages with some known deep-sea hypersaline anaerobic brines. By means of shotgun metagenomics and 16S rRNA gene amplicon sequencing, the microbial composition of the sediment was shown to be stable in time and space. The communities were formed by prokaryote representatives with a clear inferred anaerobic metabolism, mainly related to the methane, sulfur and nitrate cycles. The most conspicuous finding was the inverted nature of the vertical stratification. Contrarily to what could be expected, a methanogenic archaeal metabolism was found to dominate in the upper layers, whereas Bacteria with fermentative and anaerobic respiration metabolisms increased with depth. We could demonstrate the methanogenic nature of the members of candidate lineages DHVE2 and MSBL1, which were present in high abundance in this system, and described, for the first time, viruses infecting these lineages. Members of the putatively active aerobic genera Salinibacter and Halorubrum were detected especially in the deepest layers for which we hypothesize that either oxygen could be sporadically available, or they could perform anaerobic metabolisms. We also report a novel repertoire of virus species thriving in these sediments, which had special relevance because of their lysogenic lifestyles., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

30. Description of three new Alteromonas species Alteromonas antoniana sp. nov., Alteromonas lipotrueae sp. nov. and Alteromonas lipotrueiana sp. nov. isolated from marine environments, and proposal for reclassification of the genus Salinimonas as Alteromonas.

Author

Gago JF, Viver T, Urdiain M, Pastor S, Kämpfer P, Ferreira E, and Rossello-Mora R

Subjects

Alteromonadaceae, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Alteromonas classification, Alteromonas isolation & purification, Phylogeny, Seawater microbiology

Abstract

In the course of a bioprospective study of marine prokaryotes for cosmetic purposes, four strains, MD&#95;567 T , MD&#95;652 T , MD&#95;674 and PS&#95;109 T , were isolated that 16S rRNA gene affiliation indicated could represent three new species within the family Alteromonadaceae. A thorough phylogenetic, genomic and phenotypic taxonomic study confirmed that the isolates could be classified as three new taxa for which we propose the names Alteromonas antoniana sp. nov., Alteromonas lipotrueae sp. nov. and Alteromonas lipotrueiana sp. nov. In addition, the consistent monophyletic nature of the members of the genera Alteromonas and Salinimonas showed that both taxa should be unified, and therefore we also propose the reclassification of the genus Salinimonas within Alteromonas, as well as new combinations for the species of the former. As the specific epithets profundi and sediminis are already used for Alteromonas species, we created the nomina nova "Alteromonas alteriprofundi" nom. nov. and Alteromonas alterisediminis nom. nov. to accommodate the new names for "Salinimonas profundi" and Salinimonas sediminis. Whole genome comparisons also allowed us to detect the unexpected codification of aromatic hydrocarbon biodegradative compounds, such as benzoate and catechol, whose activity was then demonstrated phenotypically. Finally, the high genomic identity between the type strains of Alteromonas stellipolaris and Alteromonas addita indicated that the latter is a junior heterotypic synonym of Alteromonas stellipolaris., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

31. Release LTP&#95;12&#95;2020, featuring a new ARB alignment and improved 16S rRNA tree for prokaryotic type strains.

Author

Ludwig W, Viver T, Westram R, Francisco Gago J, Bustos-Caparros E, Knittel K, Amann R, and Rossello-Mora R

Subjects

RNA, Ribosomal, 16S genetics, Sequence Alignment, Terminology as Topic, Bacteria classification, Phylogeny

Abstract

The new release of the All-Species Living Tree Project (LTP) represents an important step forward in the reconstruction of 16S rRNA gene phylogenies, since we not only provide an updated set of type strain sequences until December 2020, but also a series of improvements that increase the quality of the database. An improved universal alignment has been introduced that is implemented in the ARB format. In addition, all low-quality sequences present in the previous releases have been substituted by new entries with higher quality, many of them as a result of whole genome sequencing. Altogether, the improvements in the dataset and 16S rRNA sequence alignment allowed us to reconstruct robust phylogenies. The trees made available through this current LTP release feature the best topologies currently achievable. The given nomenclature and taxonomic hierarchy reflect all the changes available up to December 2020. The aim is to regularly update the validly published nomenclatural classification changes and new taxa proposals. The new release can be found at the following URL: https://imedea.uib-csic.es/mmg/ltp/., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

32. Ancient saltern metagenomics: tracking changes in microbes and their viruses from the underground to the surface.

Author

Ramos-Barbero MD, Viver T, Zabaleta A, Senel E, Gomariz M, Antigüedad I, Santos F, Martínez-García M, Rosselló-Móra R, and Antón J

Subjects

Metagenome genetics, Phylogeny, Salinity, Metagenomics, Viruses genetics

Abstract

Microbial communities in hypersaline underground waters derive from ancient organisms trapped within the evaporitic salt crystals and are part of the poorly known subterranean biosphere. Here, we characterized the viral and prokaryotic assemblages present in the hypersaline springs that dissolve Triassic-Keuper evaporite rocks and feed the Añana Salt Valley (Araba/Alava, Basque Country, Spain). Four underground water samples (around 23% total salinity) with different levels of exposure to the open air were analysed by means of microscopy and metagenomics. Cells and viruses in the spring water had lower concentrations than what are normally found in hypersaline environments and seemed to be mostly inactive. Upon exposure to the open air, there was an increase in activity of both cells and viruses as well as a selection of phylotypes. The underground water was inhabited by a rich community harbouring a diverse set of genes coding for retinal binding proteins. A total of 35 viral contigs from 15 to 104 kb, representing partial or total viral genomes, were assembled and their evolutionary changes through the spring system were followed by SNP analysis and metagenomic island tracking. Overall, both the viral and the prokaryotic assemblages changed quickly upon exposure to the open air conditions., (© 2021 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2021

33. Distinct ecotypes within a natural haloarchaeal population enable adaptation to changing environmental conditions without causing population sweeps.

Author

Viver T, Conrad RE, Orellana LH, Urdiain M, González-Pastor JE, Hatt JK, Amann R, Antón J, Konstantinidis KT, and Rosselló-Móra R

Subjects

Adaptation, Physiological, Metagenome, Salinity, Ecotype, Microbiota

Abstract

Microbial communities thriving in hypersaline brines of solar salterns are highly resistant and resilient to environmental changes, and salinity is a major factor that deterministically influences community structure. Here, we demonstrate that this resilience occurs even after rapid osmotic shocks caused by a threefold change in salinity (a reduction from 34 to 12% salts) leading to massive amounts of archaeal cell lysis. Specifically, our temporal metagenomic datasets identified two co-occurring ecotypes within the most dominant archaeal population of the brines Haloquadratum walsbyi that exhibited different salt concentration preferences. The dominant ecotype was generally more abundant and occurred in high-salt conditions (34%); the low abundance ecotype always co-occurred but was enriched at salinities around 20% or lower and carried unique gene content related to solute transport and gene regulation. Despite their apparent distinct ecological preferences, the ecotypes did not outcompete each other presumably due to weak functional differentiation between them. Further, the osmotic shock selected for a temporal increase in taxonomic and functional diversity at both the Hqr. walsbyi population and whole-community levels supporting the specialization-disturbance hypothesis, that is, the expectation that disturbance favors generalists. Altogether, our results provide new insights into how intraspecies diversity is maintained in light of substantial gene-content differences and major environmental perturbations.

Published

2021

34. Taxonomic study of nine new Winogradskyella species occurring in the shallow waters of Helgoland Roads, North Sea. Proposal of Winogradskyella schleiferi sp. nov., Winogradskyella costae sp. nov., Winogradskyella helgolandensis sp. nov., Winogradskyella vidalii sp. nov., Winogradskyella forsetii sp. nov., Winogradskyella ludwigii sp. nov., Winogradskyella ursingii sp. nov., Winogradskyella wichelsiae sp. nov., and Candidatus "Winogradskyella atlantica" sp. nov.

Author

Alejandre-Colomo C, Viver T, Urdiain M, Francis B, Harder J, Kämpfer P, Amann R, and Rosselló-Móra R

Subjects

Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids, Flavobacteriaceae isolation & purification, Metagenome, North Sea, Phytoplankton, Pigmentation, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Flavobacteriaceae classification, Phylogeny, Seawater microbiology

Abstract

Evaluation of bacterial succession with cultivation-dependent strategies during a spring phytoplankton bloom in the North Sea led to the isolation of 41 strains that affiliated with the genus Winogradskyella. Fifteen of the strains were selected for a taxonomic study after discarding clonal cultures. A thorough phylogenetic, genomic and phenotypic analysis of the isolates indicated that they represented eight new species that coexisted in North Sea waters. Molecular data revealed the existence of an as yet uncultivated novel species recurrently binned from the North Sea metagenomes. The metagenome-assembled genomes (MAGs) of this new Winogradskyella were used to classify it as a new Candidatus species. This study represented a new example of the use of the tandem approach of whole cell mass spectrometry linked to 16S rRNA gene sequencing in order to facilitate the discovery of new taxa by high-throughput cultivation, which increases the probability of finding more than a single isolate for new species. In addition, we demonstrated the reasons for classifying MAGs representing recurrently retrieved heterotrophic species that evade cultivation even after an important high-throughput effort. The taxonomic study resulted in the classification of eight new species and one new Candidatus species of the genus Winogradskyella for which we propose the names W. schleiferi sp. nov., W. costae sp. nov., W. helgolandensis sp. nov., W. vidalii sp. nov., W. forsetii sp. nov., W. ludwigii sp. nov., W. ursingii sp. nov., W. wichelsiae sp. nov., and Candidatus "W. atlantica" sp. nov., Competing Interests: Declaration of Competing Interest The authors report no declarations of interest., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

35. Flavobacterium pokkalii sp. nov., a novel plant growth promoting native rhizobacteria isolated from pokkali rice grown in coastal saline affected agricultural regions of southern India, Kerala.

Author

Menon RR, Kumari S, Viver T, and Rameshkumar N

Subjects

DNA, Bacterial genetics, Flavobacterium classification, Flavobacterium genetics, India, Multilocus Sequence Typing, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Rhizosphere, Soil Microbiology, Flavobacterium isolation & purification, Flavobacterium physiology, Oryza growth & development, Oryza microbiology, Plant Development

Abstract

Nine plant-associated bacterial strains designated as L1I52 T , NRK F1, NRK F15, NRK F16, NRK F41, NRK F42, NRK F47, NRK F49, and NRK F50 originating from the roots and rhizosphere region of a coastal saline tolerant pokkali rice were taxonomically characterized in this study. Genomic fingerprinting using Enterobacterial Repetitive Intergenic Consensus (ERIC) primers discriminated the nine strains based on the DNA fingerprint patterns indicating that they were not clonal in origin. Phylogenetic analysis using 16S rRNA and other five housekeeping genes (gyrB, glyA, atpA, dnaK and murG) revealed that the novel strains constituted a single novel species within the genus Flavobacterium. In all tree construction methods, the novel strains formed a distinct phylogenetic branch, with Flavobacterium daejeonense GH1-10 T , F. sufflavum BBQ-12 T , and F. glycines Gm-149 T as their nearest phylogenetic neighbours. However, average nucleotide identity (ANI), average amino acid identity (AAI) and digital DNA-DNA hybridization (dDDH) comparison between the draft genomes of L1I52 T (representative isolate) and it's nearest phylogenetic neighbours were well below the proposed threshold values (<95 % and <70 %) used for species discrimination. Thus, based on the phenotypic, genotypic and chemotaxonomic data obtained in this study, we describe a novel Flavobacterium species for which we propose the name Flavobacterium pokkalii sp.nov., with strain L1I52 T (=MTCC 12454 T =KCTC 42429 T ) as the type strain. In addition, L1I52 T is a potential plant growth promoting rhizobacteria as they can promote pokkali rice growth and we identified several plant associated gene features in the genome of L1I52 T that are potentially involved in plant microbe interactions., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

36. Corrigendum to "Recovering microbial genomes from metagenomes in hypersaline environments: The Good, the Bad and the Ugly" [Syst. Appl. Microbiol. 42 (2019) 30-40].

Author

Ramos-Barbero MD, Martin-Cuadrado AB, Viver T, Santos F, Martinez-Garcia M, and Antón J

Published

2020

37. Complete mitochondrial genome of the pearly razorfish Xyrichtys novacula: phylogenetic analysis of its placement within the Labridae family.

Author

Barcelo-Serra M, Pons J, Viver T, Rosselló-Mora R, and Alós J

Abstract

In this paper, we report the complete mitochondrial genome (17,306 bp) of the pearly razorfish Xyrichtys novacula Linnaeus, 1758, a labrid that inhabits tropical and temperate Atlantic waters and the Mediterranean Sea. The circular double-stranded sequence contains the typical teleost gene order with 13 protein-coding genes, 22 tRNA, 2 rRNA, 1 control region, and 2 intergenic spacers between the rRNAs. Using the sequences of all protein-coding genes, we inferred the phylogeny for the Labriade family using 24 labrids and 3 outgroup species that placed X. novacula in a monophyletic group including species from the Pseudocheilines, Pseudolabrines, and Julidines., Competing Interests: No potential conflict of interest was reported by the authors., (© 2020 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published

2020

38. Erratum to "First description of two moderately halophilic and psychrotolerant Mycoplasma species isolated from cephalopods and proposal of Mycoplasma marinum sp. nov. and Mycoplasma todarod is sp. nov" [Syst. Appl. Microbiol. 42 (2019) 457-467].

Author

Ramírez AS, Vega-Orellana OM, Viver T, Poveda JB, Rosales RS, Poveda CG, Spergser J, Szostak MP, Caballero MJ, Ressel L, Bradbury JM, Tavío MM, Karthikeyan S, Amann R, Konstantinidis KT, and Rosselló-Móra R

Published

2020

39. Predominance of deterministic microbial community dynamics in salterns exposed to different light intensities.

Author

Viver T, Orellana LH, Díaz S, Urdiain M, Ramos-Barbero MD, González-Pastor JE, Oren A, Hatt JK, Amann R, Antón J, Konstantinidis KT, and Rosselló-Móra R

Subjects

Bacteria genetics, Bacteria radiation effects, Metagenome, Photosynthesis, Salinity, Stochastic Processes, Light, Microbiota radiation effects

Abstract

While the dynamics of microbial community assembly driven by environmental perturbations have been extensively studied, our understanding is far from complete, particularly for light-induced perturbations. Extremely halophilic communities thriving in coastal solar salterns are mainly influenced by two environmental factors-salt concentrations and high sunlight irradiation. By experimentally manipulating light intensity through the application of shading, we showed that light acts as a deterministic factor that ultimately drives the establishment of recurrent microbial communities under near-saturation salt concentrations. In particular, the stable and highly change-resistant communities that established under high-light intensities were dominated (>90% of metagenomic reads) by Haloquadratum spp. and Salinibacter spp. On the other hand, under 37-fold lower light intensity, different, less stable and change-resistant communities were established, mainly dominated by yet unclassified haloarchaea and relatively diverse photosynthetic microorganisms. These communities harboured, in general, much lower carotenoid pigment content than their high-irradiation counterparts. Both assemblage types appeared to be highly resilient, re-establishing when favourable conditions returned after perturbation (i.e. high-irradiation for the former communities and low-irradiation for the latter ones). Overall, our results revealed that stochastic processes were of limited significance to explain these patterns., (© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2019

40. First description of two moderately halophilic and psychrotolerant Mycoplasma species isolated from cephalopods and proposal of Mycoplasma marinum sp. nov. and Mycoplasma todarodis sp. nov.

Author

Ramírez AS, Vega-Orellana OM, Viver T, Poveda JB, Rosales RS, Poveda CG, Spergser J, Szostak MP, Caballero MJ, Ressel L, Bradbury JM, Mar Tavío M, Karthikeyan S, Amann R, Konstantinidis KT, and Rossello-Mora R

Subjects

Animals, Cephalopoda classification, DNA, Bacterial genetics, Genome, Bacterial genetics, Marine Biology, Mycoplasma cytology, Phenotype, RNA, Ribosomal, 16S genetics, Salinity, Sequence Analysis, DNA, Species Specificity, Temperature, Cephalopoda microbiology, Mycoplasma classification, Mycoplasma physiology, Phylogeny

Abstract

Two moderately halophilic and psychrotolerant new Mycoplasma species were isolated from common cephalopods. Three strains were isolated in pure culture from two individual European flying squid (Todarodes sagittatus), and two individual octopuses (Octopus vulgaris). The strains showed optimal growth at 25 °C and a salinity of 3% (w/v) NaCl. Molecular analyses revealed that the isolates belonged to two new, but phylogenetically related species, divergent from all previously described Mollicutes, representing the first marine isolates of the class, and also the first Mycoplasma strains for which NaCl requirement has been demonstrated. A genome search against all available marine metagenomes and 16S rRNA gene databases indicated that these two species represent a novel non-free-living marine lineage of Mollicutes, specifically associated with marine animals. Morphology and physiology were compatible with other members of this group, and genomic and phenotypic analyses demonstrated that these organisms represent two novel species of the genus Mycoplasma, for which the names Mycoplasma marinum sp. nov. and Mycoplasma todarodis sp. nov. are proposed; the type strains are PE T (DSM 105487 T , CIP 111404 T ) and 5H T (DSM 105,488 T , CIP 111405 T ), respectively., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

41. Transfer of Meiothermus chliarophilus (Tenreiro et al.1995) Nobre et al. 1996, Meiothermus roseus Ming et al. 2016, Meiothermus terrae Yu et al. 2014 and Meiothermus timidus Pires et al. 2005, to Calidithermus gen. nov., as Calidithermus chliarophilus comb. nov., Calidithermus roseus comb. nov., Calidithermus terrae comb. nov. and Calidithermus timidus comb. nov., respectively, and emended description of the genus Meiothermus.

Author

Raposo P, Viver T, Albuquerque L, Froufe H, Barroso C, Egas C, Rosselló-Móra R, and da Costa MS

Subjects

Bacterial Typing Techniques, Base Composition, Canthaxanthin biosynthesis, DNA, Bacterial genetics, Pigmentation, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria classification, Phylogeny

Abstract

Chemotaxonomic parameters, phylogenetic analysis of the 16S rRNA gene, phylogenetic analysis of 90 housekeeping genes and 855 core genes, amino acid identity (AAI), average nucleotide identity (ANI) and genomic characteristics were used to examine the 13 species of the genus Meiothermuswith validly published names to reclassify this genus. The results indicate that the species of the genus Meiothermus can be divided into three lineages on the basis of the results of the phylogenetic analysis, AAI, the guanine+cytosine (G+C) mole ratio, the ability to synthesize the red-pigmented carotenoid canthaxanthin and the colony colour, as well as other genomic characteristics. The results presented in this study circumscribe the genus Meiothermus to the species Meithermus ruber, Meiothermus cateniformans, Meiothermus taiwanensis, Meiothermus cerbereus, Meiothermus hypogaeus, Meiothermus luteus, Meiothermus rufus and Meiothermus granaticius, for which it is necessary to emend the genus Meiothermus. The species Meiothermus silvanus, which clearly represents a separate genus level lineage was not reclassified in this study for lack of any distinctive phenotypic or genotypic characteristics. The results of this study led us to reclassify the species Meiothermus chliarophilus, Meiothermus timidus, Meiothermus roseus and Meiothermus terrae as species of a novel genus for which we propose the epithet Calidithermus gen. nov.

Published

2019

42. Recovering microbial genomes from metagenomes in hypersaline environments: The Good, the Bad and the Ugly.

Author

Ramos-Barbero MD, Martin-Cuadrado AB, Viver T, Santos F, Martinez-Garcia M, and Antón J

Subjects

Archaea genetics, Archaea isolation & purification, Bacteria genetics, Bacteria isolation & purification, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Genome, Microbial, Metagenomics methods, Salinity, Water Microbiology

Abstract

Current metagenomic tools allow the recovery of microbial genomes directly from the environment. This can be accomplished by binning metagenomic contigs according to their coverage and tetranucleotide frequency, followed by an estimation of the bin quality. The public availability of bioinformatics tools, together with the decreasing cost of next generation sequencing, are democratizing this powerful approach that is spreading from specialized research groups to the general public. Using metagenomes from hypersaline environments, as well as mock metagenomes composed of Archaea and Bacteria frequently found in these systems, we have analyzed the advantages and difficulties of the binning process in these extreme environments to tackle microbial population diversity. These extreme systems harbor relatively low species diversity but high intraspecific diversity, which can compromise metagenome assembly and therefore the whole binning process. The main goal is to compare the output of the binning process with what is previously known from the analyzed samples, based on years of study using different approaches. Several scenarios have been analyzed in detail: (i) a good quality bin from a species highly abundant in the environment; (ii) an intermediate quality bin with incongruences that can be solved by further analyses and manual curation, and (iii) a low-quality bin to investigate the failure to recover a very abundant microbial genome as well as some possible solutions. The latter can be considered the "great metagenomics anomaly" and is mainly due to assembly problems derived from the microdiversity of naturally co-existing populations in nature., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2019

43. Temperature modulates Fischerella thermalis ecotypes in Porcelana Hot Spring.

Author

Alcorta J, Espinoza S, Viver T, Alcamán-Arias ME, Trefault N, Rosselló-Móra R, and Díez B

Subjects

Chile, Cyanobacteria isolation & purification, DNA, Bacterial genetics, Evolution, Molecular, Metagenome, Phylogeny, Proteome genetics, RNA, Ribosomal, 16S genetics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cyanobacteria genetics, Ecotype, Hot Springs microbiology, Hot Temperature

Abstract

In the Porcelana Hot Spring (Northern Patagonia), true-branching cyanobacteria are the dominant primary producers in microbial mats, and they are mainly responsible for carbon and nitrogen fixation. However, little is known about their metabolic and genomic adaptations at high temperatures. Therefore, in this study, a total of 81 Fischerella thermalis strains (also known as Mastigocladus laminosus) were isolated from mat samples in a thermal gradient between 61-46°C. The complementary use of proteomic comparisons from these strains, and comparative genomics of F. thermalis pangenomes, suggested that at least two different ecotypes were present within these populations. MALDI-TOF MS analysis separated the strains into three clusters; two with strains obtained from mats within the upper temperature range (61 and 54°C), and a third obtained from mats within the lower temperature range (51 and 46°C). Both groups possessed different but synonymous nifH alleles. The main proteomic differences were associated with the abundance of photosynthesis-related proteins. Three F. thermalis metagenome assembled genomes (MAGs) were described from 66, 58 and 48°C metagenomes. These pangenomes indicated a divergence of orthologous genes and a high abundance of exclusive genes at 66°C. These results improved the current understanding of thermal adaptation of F. thermalis and the evolution of these thermophilic cyanobacterial species., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

44. Genomic comparison between members of the Salinibacteraceae family, and description of a new species of Salinibacter (Salinibacter altiplanensis sp. nov.) isolated from high altitude hypersaline environments of the Argentinian Altiplano.

Author

Viver T, Orellana L, González-Torres P, Díaz S, Urdiain M, Farías ME, Benes V, Kaempfer P, Shahinpei A, Ali Amoozegar M, Amann R, Antón J, Konstantinidis KT, and Rosselló-Móra R

Subjects

Altitude, Argentina, Bacterial Typing Techniques, Bacteroidetes genetics, Bacteroidetes isolation & purification, CRISPR-Cas Systems, DNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Rhodopsin genetics, Sequence Analysis, DNA, Type VI Secretion Systems genetics, Water Microbiology, Bacteroidetes classification, Genome, Bacterial, Lakes microbiology, Phylogeny, Salinity

Abstract

The application of tandem MALDI-TOF MS screening with 16S rRNA gene sequencing of selected isolates has been demonstrated to be an excellent approach for retrieving novelty from large-scale culturing. The application of such methodologies in different hypersaline samples allowed the isolation of the culture-recalcitrant Salinibacter ruber second phylotype (EHB-2) for the first time, as well as a new species recently isolated from the Argentinian Altiplano hypersaline lakes. In this study, the genome sequences of the different species of the phylum Rhodothermaeota were compared and the genetic repertoire along the evolutionary gradient was analyzed together with each intraspecific variability. Altogether, the results indicated an open pan-genome for the family Salinibacteraceae, as well as the codification of relevant traits such as diverse rhodopsin genes, CRISPR-Cas systems and spacers, and one T6SS secretion system that could give ecological advantages to an EHB-2 isolate. For the new Salinibacter species, we propose the name Salinibacter altiplanensis sp. nov. (the designated type strain is AN15 T =CECT 9105 T =IBRC-M 11031 T )., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

45. The low diverse gastric microbiome of the jellyfish Cotylorhiza tuberculata is dominated by four novel taxa.

Author

Viver T, Orellana LH, Hatt JK, Urdiain M, Díaz S, Richter M, Antón J, Avian M, Amann R, Konstantinidis KT, and Rosselló-Móra R

Subjects

Animals, Biodiversity, Chlamydia genetics, Chlamydia isolation & purification, Female, Gastrointestinal Microbiome, In Situ Hybridization, Fluorescence, Male, Mediterranean Sea, Mycoplasma genetics, Mycoplasma isolation & purification, RNA, Ribosomal, 16S genetics, Spiroplasma genetics, Spiroplasma isolation & purification, Tenacibaculum genetics, Tenacibaculum isolation & purification, Chlamydia classification, Mycoplasma classification, Scyphozoa microbiology, Spiroplasma classification, Tenacibaculum classification

Abstract

Cotylorhiza tuberculata is an important scyphozoan jellyfish producing population blooms in the Mediterranean probably due to pelagic ecosystem's decay. Its gastric cavity can serve as a simple model of microbial-animal digestive associations, yet poorly characterized. Using state-of-the-art metagenomic population binning and catalyzed reporter deposition fluorescence in situ hybridization (CARD-FISH), we show that only four novel clonal phylotypes were consistently associated with multiple jellyfish adults. Two affiliated close to Spiroplasma and Mycoplasma genera, one to chlamydial 'Candidatus Syngnamydia', and one to bacteroidetal Tenacibaculum, and were at least one order of magnitude more abundant than any other bacteria detected. Metabolic modelling predicted an aerobic heterotrophic lifestyle for the chlamydia, which were found intracellularly in Onychodromopsis-like ciliates. The Spiroplasma-like organism was predicted to be an anaerobic fermenter associated to some jellyfish cells, whereas the Tenacibaculum-like as free-living aerobic heterotroph, densely colonizing the mesogleal axis inside the gastric filaments. The association between the jellyfish and its reduced microbiome was close and temporally stable, and possibly related to food digestion and protection from pathogens. Based on the genomic and microscopic data, we propose three candidate taxa: 'Candidatus Syngnamydia medusae', 'Candidatus Medusoplasma mediterranei' and 'Candidatus Tenacibaculum medusae'., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2017

46. Diversity of extremely halophilic cultivable prokaryotes in Mediterranean, Atlantic and Pacific solar salterns: Evidence that unexplored sites constitute sources of cultivable novelty.

Author

Viver T, Cifuentes A, Díaz S, Rodríguez-Valdecantos G, González B, Antón J, and Rosselló-Móra R

Subjects

Phylogeny, Halobacteriales classification, Halobacteriales genetics, Oceans and Seas, Seawater microbiology

Abstract

The culturable fraction of aerobic, heterotrophic and extremely halophilic microbiota retrieved from sediment and brine samples of eight sampling sites in the Mediterranean, Canary Islands and Chile was studied by means of a tandem approach combining large-scale cultivation, MALDI-TOF MS targeting whole cell biomass, and phylogenetic reconstruction based on 16S rRNA gene analysis. The approach allowed the identification of more than 4200 strains and a comparison between different sampling sites. The results indicated that the method constituted an excellent tool for the discovery of taxonomic novelty. Four new genera and nine new species could be identified within the archaeal family Halobacteriaceae, as well as one new bacterial species, and a representative of Salinibacter ruber phylotype II, a group that had been refractory to isolation for the last fifteen years. Altogether, the results indicated that in order to provide better yields for the retrieval of novel taxa from the environment, performance of non-redundant environment sampling is recommended together with the screening of large sets of strains., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2015