Your search keyword '"Polynucleobacter"' showing total 161 results

1. Bacterioplankton Communities in Dissolved Organic Carbon-Rich Amazonian Black Water

Author

François-Étienne Sylvain, Sidki Bouslama, Aleicia Holland, Nicolas Leroux, Pierre-Luc Mercier, Adalberto Luis Val, and Nicolas Derome

Subjects

Acinetobacter, Methylobacterium, Polynucleobacter, bacterioplankton, carbon cycle, dissolved organic carbon, Microbiology, QR1-502

Abstract

ABSTRACT The Amazon River basin sustains dramatic hydrochemical gradients defined by three water types: white, clear, and black waters. In black water, important loads of allochthonous humic dissolved organic matter (DOM) result from the bacterioplankton degradation of plant lignin. However, the bacterial taxa involved in this process remain unknown, since Amazonian bacterioplankton has been poorly studied. Its characterization could lead to a better understanding of the carbon cycle in one of the Earth’s most productive hydrological systems. Our study characterized the taxonomic structure and functions of Amazonian bacterioplankton to better understand the interplay between this community and humic DOM. We conducted a field sampling campaign comprising 15 sites distributed across the three main Amazonian water types (representing a gradient of humic DOM), and a 16S rRNA metabarcoding analysis based on bacterioplankton DNA and RNA extracts. Bacterioplankton functions were inferred using 16S rRNA data in combination with a tailored functional database from 90 Amazonian basin shotgun metagenomes from the literature. We discovered that the relative abundances of fluorescent DOM fractions (humic-, fulvic-, and protein-like) were major drivers of bacterioplankton structure. We identified 36 genera for which the relative abundance was significantly correlated with humic DOM. The strongest correlations were found in the Polynucleobacter, Methylobacterium, and Acinetobacter genera, three low abundant but omnipresent taxa that possessed several genes involved in the main steps of the β-aryl ether enzymatic degradation pathway of diaryl humic DOM residues. Overall, this study identified key taxa with DOM degradation genomic potential, the involvement of which in allochthonous Amazonian carbon transformation and sequestration merits further investigation. IMPORTANCE The Amazon basin discharge carries an important load of terrestrially derived dissolved organic matter (DOM) to the ocean. The bacterioplankton from this basin potentially plays important roles in transforming this allochthonous carbon, which has consequences on marine primary productivity and global carbon sequestration. However, the structure and function of Amazonian bacterioplanktonic communities remain poorly studied, and their interactions with DOM are unresolved. In this study, we (i) sampled bacterioplankton in all the main Amazon tributaries, (ii) combined information from the taxonomic structure and functional repertory of Amazonian bacterioplankton communities to understand their dynamics, (iii) identified the main physicochemical parameters shaping bacterioplanktonic communities among a set of >30 measured environmental parameters, and (iv) characterized how bacterioplankton structure varies according to the relative abundance of humic compounds, a by-product from the bacterial degradation process of allochthonous DOM.

Published

2023

2. Polynucleobacter meluiroseus sp. nov., a bacterium isolated from a lake located in the mountains of the Mediterranean island of Corsica

Author

Pitt, Alexandra, Schmidt, Johanna, Lang, Elke, Whitman, William B, Woyke, Tanja, and Hahn, Martin W

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Bacterial Typing Techniques, Base Composition, Burkholderiaceae, DNA, Bacterial, France, Islands, Lakes, Mediterranean Islands, Phylogeny, Pigmentation, RNA, Ribosomal, 16S, Sequence Analysis, DNA, Polynucleobacter, cryptic species complex, genome, whole genome average nucleotide identity, freshwater lake, Evolutionary Biology, Medical Microbiology, Evolutionary biology

Abstract

Strain AP-Melu-1000-B4 was isolated from a lake located in the mountains of the Mediterranean island of Corsica (France). Phenotypic, chemotaxonomic and genomic traits were investigated. Phylogenetic analyses based on 16S rRNA gene sequencing referred the strain to the cryptic species complex PnecC within the genus Polynucleobacter. The strain encoded genes for biosynthesis of proteorhodopsin and retinal. When pelleted by centrifugation the strain showed an intense rose colouring. Major fatty acids were C16 : 1ω7c, C16 : 0, C18 : 1ω7c and summed feature 2 (C16 : 1 isoI and C14 : 0-3OH). The sequence of the 16S rRNA gene contained an indel which was not present in any previously described Polynucleobacter species. Genome sequencing revealed a genome size of 1.89 Mbp and a G+C content of 46.6 mol%. In order to resolve the phylogenetic position of the new strain within subcluster PnecC, its phylogeny was reconstructed from sequences of 319 shared genes. To represent all currently described Polynucleobacter species by whole genome sequences, three type strains were additionally sequenced. Our phylogenetic analysis revealed that strain AP-Melu-100-B4 occupied a basal position compared with previously described PnecC strains. Pairwise determined whole genome average nucleotide identity (gANI) values suggested that strain AP-Melu-1000-B4 represents a new species, for which we propose the name Polynucleobacter meluiroseus sp. nov. with the type strain AP-Melu-1000-B4T (=DSM 103591T=CIP 111329T).

Published

2018

3. Reclassification of a Polynucleobacter cosmopolitanus strain isolated from tropical Lake Victoria as Polynucleobacter victoriensis sp. nov.

Author

Hahn, Martin W, Schmidt, Johanna, Asiyo, Grace Ssanyu, Kyrpides, Nikos C, Woyke, Tanja, and Whitman, William B

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Africa, Eastern, Bacterial Typing Techniques, Burkholderiaceae, DNA, Bacterial, Lakes, Phylogeny, RNA, Ribosomal, 16S, Sequence Analysis, DNA, Polynucleobacter, subcluster PnecD, cryptic species complex, freshwater, genome, average nucleotide identity, Evolutionary Biology, Medical Microbiology, Evolutionary biology

Abstract

The genus Polynucleobacter (family Burkholderiaceae) is phylogenetically subdivided into at least four subclusters. One of those, subcluster PnecC, was recognized as a cryptic species complex. Here we test by comparative genome analyses whether subcluster PnecD, currently solely represented by the species Polynucleobactercosmopolitanus, also represents such a cryptic species complex. The genome sequences of the two P. cosmopolitanus strains, MWH-MoIso2T and MWH-VicM1, were determined. The latter strain was also characterized in the previous description of P. cosmopolitanus. These two strains originate from a temperate lake located in Austria and from the large tropical Lake Victoria located in East Africa, respectively. Strains MWH-MoIso2T and MWH-VicM1 possess quite small genomes of 1.78 and 1.63 Mbp, respectively, and share similar G+C values of 44.1 and 43.1 mol%, respectively. Both strains encode only a single copy of the ribosomal operon, and their 16S rRNA genes differ only in four positions, equalling a sequence similarity of 99.74 %. Both genomes possess characteristics indicating evolutionary genome streamlining, such as high coding densities of 93.9 and 94.6 % of bases, respectively. Average nucleotide identity (ANI) comparisons of the genomes of the two strains resulted in a value of 78.4 %, suggesting that each of the strains represents a separate species. Our investigation suggests that PnecD represents an additional cryptic species complex within the genus Polynucleobacter that was not resolved by 16S rRNA gene sequence analyses. We propose reclassification of strain MWH-VicM1 as Polynucleobacter victoriensis sp. nov., with type strain MWH-VicM1T(=DSM 21486T=JCM 32005T).

Published

2017

4. The Light-to-Nutrient Ratio in Alpine Lakes: Different Scenarios of Bacterial Nutrient Limitation and Community Structure in Lakes Above and Below the Treeline.

Author

Su, Yaling, Du, Yingxun, and Xing, Peng

Subjects

*DISSOLVED organic matter, *TIMBERLINE, *LAKES, *MOUNTAIN ecology, *ATTENUATION coefficients, *ECOSYSTEMS, *CLIMATE change

Abstract

The light-to-nutrient hypothesis proposes that under high light-to-nutrient conditions, bacteria tend to be limited by phosphorus (P), while under relatively low light-to-nutrient conditions, bacteria are likely driven towards carbon (C) limitation. Exploring whether this light-to-nutrient hypothesis is fitting for alpine lakes has profound implications for predicting the impacts of climatic and environmental changes on the structures and processes of aquatic ecosystems in climate-sensitive regions. We investigated the environmental conditions and bacterioplankton community compositions of 15 high-elevation lakes (7 above and 8 below treeline). High light-to-nutrient conditions (denoted by the reciprocal value of the attenuation coefficient (1/K) to total phosphorus (TP)), high chlorophyll a (Chl a) concentrations, low TP concentrations and low ratios of the dissolved organic carbon concentration to the dissolved total nitrogen concentration (DOC:DTN) were detected in above-treeline lakes. Significant positive correlations between the bacterioplankton community compositions with 1/K:TP ratios and Chl a concentrations indicated that not only high light energy but also nutrient competition between phytoplankton and bacteria could induce P limitation for bacteria. In contrast, low light-to-nutrient conditions and high allochthonous DOC input in below-treeline lakes lessen P limitation and C limitation. The most abundant genus, Polynucleobacter, was significantly enriched, and more diverse oligotypes of Polynucleobacter operational taxonomic units were identified in the below-treeline lakes, indicating the divergence of niche adaptations among Polynucleobacter oligotypes. The discrepancies in the light-to-P ratio and the components of organic matter between the above-treeline and below-treeline lakes have important implications for the nutrient limitation of bacterioplankton and their community compositions. [ABSTRACT FROM AUTHOR]

Published

2022

5. Opening a next‐generation black box: Ecological trends for hundreds of species‐like taxa uncovered within a single bacterial >99% 16S rRNA operational taxonomic unit.

Author

Hahn, Martin W., Huemer, Andrea, Pitt, Alexandra, and Hoetzinger, Matthias

Subjects

*BACTERIAL diversity, *RIBOSOMAL RNA, *FRESHWATER habitats, *BACTERIAL evolution, *ENVIRONMENTAL literacy, *BACTERIAL communities, *PLANT species

Abstract

Current knowledge on environmental distribution and taxon richness of free‐living bacteria is mainly based on cultivation‐independent investigations employing 16S rRNA gene sequencing methods. Yet, 16S rRNA genes are evolutionarily rather conserved, resulting in limited taxonomic and ecological resolutions provided by this marker. The faster evolving protein‐encoding gene priB was used to reveal ecological patterns hidden within a single operational taxonomic unit (OTU) defined by >99% 16S rRNA sequence similarity. The studied subcluster PnecC of the genus Polynucleobacter represents a ubiquitous group of abundant freshwater bacteria with cosmopolitan distribution, which is very frequently detected by diversity surveys of freshwater systems. Based on genome taxonomy and a large set of genome sequences, a sequence similarity threshold for delineation of species‐like taxa could be established. In total, 600 species‐like taxa were detected in 99 freshwater habitats scattered across three regions representing a latitudinal range of 3,400 km (42°N to 71°N) and a pH gradient of 4.2 to 8.6. In addition to the unexpectedly high richness, the increased taxonomic resolution revealed structuring of Polynucleobacter communities by a couple of macroecological trends, which was previously only demonstrated for phylogenetically much broader groups of bacteria. An unexpected pattern was the almost complete compositional separation of Polynucleobacter communities of Ca2+‐rich and Ca2+‐poor habitats. This compositional pattern strongly resembled the vicariance of plant species on silicate and limestone soils. The new cultivation‐independent approach presented opened a window to an incredible, previously unseen diversity, and enables investigations aiming on deeper understanding of how environmental conditions shape bacterial communities and drive evolution of free‐living bacteria. [ABSTRACT FROM AUTHOR]

Published

2021

6. Continental-Scale Gene Flow Prevents Allopatric Divergence of Pelagic Freshwater Bacteria.

Author

Hoetzinger, Matthias, Pitt, Alexandra, Huemer, Andrea, and Hahn, Martin W

Subjects

*FRESH water, *LAKES, *COMPARATIVE genomics, *GENE flow, *GENETIC transformation, *FRESHWATER biodiversity, *BACTERIA

Abstract

Allopatric divergence is one of the principal mechanisms for speciation of macro-organisms. Microbes by comparison are assumed to disperse more freely and to be less limited by dispersal barriers. However, thermophilic prokaryotes restricted to geothermal springs have shown clear signals of geographic isolation, but robust studies on this topic for microbes with less strict habitat requirements are scarce. Furthermore, it has only recently been recognized that homologous recombination among conspecific individuals provides species coherence in a wide range of prokaryotes. Recombination barriers thus may define prokaryotic species boundaries, yet, the extent to which geographic distance between populations gives rise to such barriers is an open question. Here, we investigated gene flow and population structure in a widespread species of pelagic freshwater bacteria, Polynucleobacter paneuropaeus. Through comparative genomics of 113 conspecific strains isolated from freshwater lakes and ponds located across a North–South range of more than 3,000 km, we were able to reconstruct past gene flow events. The species turned out to be highly recombinogenic as indicated by significant signs of gene transfer and extensive genome mosaicism. Although genomic differences increased with spatial distance on a regional scale (<170 km), such correlations were mostly absent on larger scales up to 3,400 km. We conclude that allopatric divergence in European P. paneuropaeus is minor, and that effective gene flow across the sampled geographic range in combination with a high recombination efficacy maintains species coherence. [ABSTRACT FROM AUTHOR]

Published

2021

7. Ecological Differentiation in Two Major Freshwater Bacterial Taxa Along Environmental Gradients

Author

Julia K. Nuy, Matthias Hoetzinger, Martin W. Hahn, Daniela Beisser, and Jens Boenigk

Subjects

freshwater bacteria, Polynucleobacter, Limnohabitans, biogeography, ecological differentiation, physicochemical characteristics, Microbiology, QR1-502

Abstract

Polynucleobacter (Burkholderiaceae, Betaproteobacteria) and Limnohabitans (Comamonadaceae, Betaproteobacteria) are abundant freshwater bacteria comprising large genetic and taxonomic diversities, with species adapted to physico-chemically distinct types of freshwater systems. The relative importance of environmental drivers, i.e., physico-chemistry, presence of microeukaryotes and geographic position for the diversity and prevalence has not been investigated for both taxa before. Here, we present the first pan-European study on this topic, comprising 255 freshwater lakes. We investigated Limnohabitans and Polynucleobacter using an amplicon sequencing approach of partial 16S rRNA genes along environmental gradients. We show that physico-chemical factors had the greatest impact on both genera. Analyses on environmental gradients revealed an exceptionally broad ecological spectrum of operational taxonomic units (OTUs). Despite the coarse resolution of the genetic marker, we found OTUs with contrasting environmental preferences within Polynucleobacter and Limnohabitans subclusters. Such an ecological differentiation has been characterized for PnecC and LimC before but was so far unknown for less well studied subclusters such as PnecA and PnecB. Richness and abundance of OTUs are geographically clustered, suggesting that geographic diversity patterns are attributable to region-specific physico-chemical characteristics (e.g., pH and temperature) rather than latitudinal gradients or lake sizes.

Published

2020

8. Ecological Differentiation in Two Major Freshwater Bacterial Taxa Along Environmental Gradients.

Author

Nuy, Julia K., Hoetzinger, Matthias, Hahn, Martin W., Beisser, Daniela, and Boenigk, Jens

Subjects

LAKES, GENETIC markers, FRESH water, FRESHWATER biodiversity, ENVIRONMENTAL chemistry, RIBOSOMAL RNA

Abstract

Polynucleobacter (Burkholderiaceae , Betaproteobacteria) and Limnohabitans (Comamonadaceae , Betaproteobacteria) are abundant freshwater bacteria comprising large genetic and taxonomic diversities, with species adapted to physico-chemically distinct types of freshwater systems. The relative importance of environmental drivers, i.e., physico-chemistry, presence of microeukaryotes and geographic position for the diversity and prevalence has not been investigated for both taxa before. Here, we present the first pan-European study on this topic, comprising 255 freshwater lakes. We investigated Limnohabitans and Polynucleobacter using an amplicon sequencing approach of partial 16S rRNA genes along environmental gradients. We show that physico-chemical factors had the greatest impact on both genera. Analyses on environmental gradients revealed an exceptionally broad ecological spectrum of operational taxonomic units (OTUs). Despite the coarse resolution of the genetic marker, we found OTUs with contrasting environmental preferences within Polynucleobacter and Limnohabitans subclusters. Such an ecological differentiation has been characterized for PnecC and LimC before but was so far unknown for less well studied subclusters such as PnecA and PnecB. Richness and abundance of OTUs are geographically clustered, suggesting that geographic diversity patterns are attributable to region-specific physico-chemical characteristics (e.g., pH and temperature) rather than latitudinal gradients or lake sizes. [ABSTRACT FROM AUTHOR]

Published

2020

9. Planktonic Bacterial Communities in Mountain Lake Ecosystems

Author

Fujii, Masanori, Hirao, Toshihide, Kojima, Hisaya, Fukui, Manabu, Iwasa, Yoh, Series editor, and Kudo, Gaku, editor

Published

2016

10. Genomic divergence and cohesion in a species of pelagic freshwater bacteria

Author

Matthias Hoetzinger and Martin W. Hahn

Subjects

Polynucleobacter, Freshwater bacteria, Homologous recombination, Gene flow, Population structure, Genomic cohesion, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background In many prokaryotic genera a clustered phylogeny is observed, akin to the occurrence of species in sexually reproducing organisms. For some taxa, homologous recombination has been invoked as the underlying mechanism providing genomic cohesion among conspecific individuals. Whether this mechanism is applicable to prokaryotes in freshwaters with low habitat connectivity – i.e. elevated geographic barriers to gene flow – is unclear. To investigate further we studied genomic trends within the globally abundant PnecC cluster (genus Polynucleobacter, Betaproteobacteria) and analyzed homologous recombination within the affiliated species P. asymbioticus. Results Comparisons among 20 PnecC genomes revealed a clearly discontinuous distribution of nucleotide sequence similarities. Among the nine conspecific individuals (P. asymbioticus) all average nucleotide identity (ANI) values were greater than 97%, whereas all other comparisons exhibited ANI values lower than 85%. The reconstruction of recombination and mutation events for the P. asymbioticus core genomes yielded an r/m ratio of 7.4, which is clearly above estimated thresholds for recombination to act as a cohesive force. Hotspots of recombination were found to be located in the flanking regions of genomic islands. Even between geographically separated habitats a high flux of recombination was evident. While a biogeographic population structure was suggested from MLST data targeting rather conserved loci, such a structure was barely visible when whole genome data was considered. However, both MLST and whole genome data showed evidence of differentiation between two lineages of P. asymbioticus. The ratios of non-synonymous to synonymous substitution rates as well as growth rates in transplantation experiments suggested that this divergence was not selectively neutral. Conclusions The high extent of homologous recombination among P. asymbioticus bacteria can act as a cohesive force that effectively counteracts genetic divergence. At least on a regional scale, homologous recombination can act across geographically separated ecosystems and therefore plays an important role in the evolution and consistency of bacterial freshwater species. A species model akin to the biological species concept may be applicable for P. asymbioticus. Nonetheless, two genetically distinct lineages have emerged and further research may clarify if their divergence has been initiated by reinforced geographical barriers or has been evolving in sympatry.

Published

2017

11. Opening a next‐generation black box: Ecological trends for hundreds of species‐like taxa uncovered within a single bacterial >99% 16S rRNA operational taxonomic unit

Author

Martin W. Hahn, Alexandra Pitt, Andrea Huemer, and Matthias Hoetzinger

Subjects

DNA, Bacterial, 0106 biological sciences, 0301 basic medicine, Operational taxonomic unit, Range (biology), 010603 evolutionary biology, 01 natural sciences, Article, 03 medical and health sciences, RNA, Ribosomal, 16S, Genetics, Vicariance, Phylogeny, Ecology, Evolution, Behavior and Systematics, Bacteria, biology, Burkholderiaceae, Ecology, Sequence Analysis, DNA, biology.organism_classification, 030104 developmental biology, Taxon, Cosmopolitan distribution, Taxonomy (biology), Species richness, Biotechnology, Polynucleobacter

Abstract

Current knowledge on environmental distribution and taxon richness of free-living bacteria is mainly based on cultivation-independent investigations employing 16S rRNA gene sequencing methods. Yet, 16S rRNA genes are evolutionarily rather conserved, resulting in limited taxonomic and ecological resolutions provided by this marker. The faster evolving protein-encoding gene priB was used to reveal ecological patterns hidden within a single operational taxonomic unit (OTU) defined by >99% 16S rRNA sequence similarity. The studied subcluster PnecC of the genus Polynucleobacter represents a ubiquitous group of abundant freshwater bacteria with cosmopolitan distribution, which is very frequently detected by diversity surveys of freshwater systems. Based on genome taxonomy and a large set of genome sequences, a sequence similarity threshold for delineation of species-like taxa could be established. In total, 600 species-like taxa were detected in 99 freshwater habitats scattered across three regions representing a latitudinal range of 3,400 km (42 degrees N to 71 degrees N) and a pH gradient of 4.2 to 8.6. In addition to the unexpectedly high richness, the increased taxonomic resolution revealed structuring of Polynucleobacter communities by a couple of macroecological trends, which was previously only demonstrated for phylogenetically much broader groups of bacteria. An unexpected pattern was the almost complete compositional separation of Polynucleobacter communities of Ca2+-rich and Ca2+-poor habitats. This compositional pattern strongly resembled the vicariance of plant species on silicate and limestone soils. The new cultivation-independent approach presented opened a window to an incredible, previously unseen diversity, and enables investigations aiming on deeper understanding of how environmental conditions shape bacterial communities and drive evolution of free-living bacteria.

Published

2021

12. Genomic divergence and cohesion in a species of pelagic freshwater bacteria.

Author

Hoetzinger, Matthias and Hahn, Martin W.

Subjects

*FRESHWATER bacteria, *GENE flow, *POPULATION, *NUCLEOTIDE sequence, *GENE expression

Abstract

Background: In many prokaryotic genera a clustered phylogeny is observed, akin to the occurrence of species in sexually reproducing organisms. For some taxa, homologous recombination has been invoked as the underlying mechanism providing genomic cohesion among conspecific individuals. Whether this mechanism is applicable to prokaryotes in freshwaters with low habitat connectivity - i.e. elevated geographic barriers to gene flow – is unclear. To investigate further we studied genomic trends within the globally abundant PnecC cluster (genus Polynucleobacter, Betaproteobacteria) and analyzed homologous recombination within the affiliated species P. asymbioticus. Results: Comparisons among 20 PnecC genomes revealed a clearly discontinuous distribution of nucleotide sequence similarities. Among the nine conspecific individuals (P. asymbioticus) all average nucleotide identity (ANI) values were greater than 97%, whereas all other comparisons exhibited ANI values lower than 85%. The reconstruction of recombination and mutation events for the P. asymbioticus core genomes yielded an r/m ratio of 7.4, which is clearly above estimated thresholds for recombination to act as a cohesive force. Hotspots of recombination were found to be located in the flanking regions of genomic islands. Even between geographically separated habitats a high flux of recombination was evident. While a biogeographic population structure was suggested from MLST data targeting rather conserved loci, such a structure was barely visible when whole genome data was considered. However, both MLST and whole genome data showed evidence of differentiation between two lineages of P. asymbioticus. The ratios of non-synonymous to synonymous substitution rates as well as growth rates in transplantation experiments suggested that this divergence was not selectively neutral. Conclusions: The high extent of homologous recombination among P. asymbioticus bacteria can act as a cohesive force that effectively counteracts genetic divergence. At least on a regional scale, homologous recombination can act across geographically separated ecosystems and therefore plays an important role in the evolution and consistency of bacterial freshwater species. A species model akin to the biological species concept may be applicable for P. asymbioticus. Nonetheless, two genetically distinct lineages have emerged and further research may clarify if their divergence has been initiated by reinforced geographical barriers or has been evolving in sympatry. [ABSTRACT FROM AUTHOR]

Published

2017

13. High degree of specificity in the association between symbiotic betaproteobacteria and the host Euplotes (Ciliophora, Euplotia).

Author

Vannini, Claudia, Sigona, Cristiana, Hahn, Martin, Petroni, Giulio, and Fujishima, Masahiro

Subjects

PROTEOBACTERIA, CILIATA, MICROINJECTION (Cytology), PHAGOCYTOSIS, EVOLUTIONARY algorithms

Abstract

The Betaproteobacteria - Euplotes association is an obligatory symbiotic system involving a monophyletic group of ciliate species and two betaproteobacteria species which can be alternatively present. Recent data showed that this relationship has been established more than once and that several symbiont-substitution events took place, revealing a complex and intriguing evolutionary path. Due to the different evolutionary pathways followed by the different symbionts, each bacterial strain could have differentially evolved and/or lost functional traits. Therefore, we performed re-infection experiments, both by phagocytosis and by microinjection, to test the possible functional role of the different bacteria towards the ciliates. Our results confirm that the growth capacity of the host is indissolubly linked to the presence of its original symbionts. Results of the attempts of re-infection by phagocytosis showed that none of the bacteria is able to successfully colonize the host cytoplasm in this way, even if regularly ingested. Re-infection by microinjection succeed only in one case. Such results point to a high degree of specificity in the interactions between bacteria and Euplotes even after the invasion step. Due to a co-evolutive pathway of reciprocal adaptation, different degree of re-colonization ability could have been conserved by the different species and strains of the symbionts. [ABSTRACT FROM AUTHOR]

Published

2017

14. Microdiversification of a Pelagic Polynucleobacter Species Is Mainly Driven by Acquisition of Genomic Islands from a Partially Interspecific Gene Pool.

Author

Hoetzinger, Matthias, Schmidt, Johanna, Jezberová, Jitka, Koll, Ulrike, and Hahn, Martin W.

Subjects

*BACTERIAL diversity, *BACTERIAL genomes, *PLANT gene banks, *ECOPHYSIOLOGY

Abstract

Microdiversification of a planktonic freshwater bacterium was studied by comparing 37 Polynucleobacter asymbioticus strains obtained from three geographically separated sites in the Austrian Alps. Genome comparison of nine strains revealed a core genome of 1.8 Mb, representing 81% of the average genome size. Seventy-five percent of the remaining flexible genome is clustered in genomic islands (GIs). Twenty-four genomic positions could be identified where GIs are potentially located. These positions are occupied strain specifically from a set of 28 GI variants, classified according to similarities in their gene content. One variant, present in 62% of the isolates, encodes a pathway for the degradation of aromatic compounds, and another, found in 78% of the strains, contains an operon for nitrate assimilation. Both variants were shown in ecophysiological tests to be functional, thus providing the potential for microniche partitioning. In addition, detected interspecific horizontal exchange of GIs indicates a large gene pool accessible to Polynucleobacter species. In contrast to core genes, GIs are spread more successfully across spatially separated freshwater habitats. The mobility and functional diversity of GIs allow for rapid evolution, which may be a key aspect for the ubiquitous occurrence of Polynucleobacter bacteria. [ABSTRACT FROM AUTHOR]

Published

2017

15. Bacterioplankton Communities in Dissolved Organic Carbon-Rich Amazonian Black Water.

Author

Sylvain FÉ, Bouslama S, Holland A, Leroux N, Mercier PL, Val AL, and Derome N

Subjects

RNA, Ribosomal, 16S genetics, Aquatic Organisms, Carbon analysis, Water, Dissolved Organic Matter

Abstract

The Amazon River basin sustains dramatic hydrochemical gradients defined by three water types: white, clear, and black waters. In black water, important loads of allochthonous humic dissolved organic matter (DOM) result from the bacterioplankton degradation of plant lignin. However, the bacterial taxa involved in this process remain unknown, since Amazonian bacterioplankton has been poorly studied. Its characterization could lead to a better understanding of the carbon cycle in one of the Earth's most productive hydrological systems. Our study characterized the taxonomic structure and functions of Amazonian bacterioplankton to better understand the interplay between this community and humic DOM. We conducted a field sampling campaign comprising 15 sites distributed across the three main Amazonian water types (representing a gradient of humic DOM), and a 16S rRNA metabarcoding analysis based on bacterioplankton DNA and RNA extracts. Bacterioplankton functions were inferred using 16S rRNA data in combination with a tailored functional database from 90 Amazonian basin shotgun metagenomes from the literature. We discovered that the relative abundances of fluorescent DOM fractions (humic-, fulvic-, and protein-like) were major drivers of bacterioplankton structure. We identified 36 genera for which the relative abundance was significantly correlated with humic DOM. The strongest correlations were found in the Polynucleobacter, Methylobacterium, and Acinetobacter genera, three low abundant but omnipresent taxa that possessed several genes involved in the main steps of the β-aryl ether enzymatic degradation pathway of diaryl humic DOM residues. Overall, this study identified key taxa with DOM degradation genomic potential, the involvement of which in allochthonous Amazonian carbon transformation and sequestration merits further investigation. IMPORTANCE The Amazon basin discharge carries an important load of terrestrially derived dissolved organic matter (DOM) to the ocean. The bacterioplankton from this basin potentially plays important roles in transforming this allochthonous carbon, which has consequences on marine primary productivity and global carbon sequestration. However, the structure and function of Amazonian bacterioplanktonic communities remain poorly studied, and their interactions with DOM are unresolved. In this study, we (i) sampled bacterioplankton in all the main Amazon tributaries, (ii) combined information from the taxonomic structure and functional repertory of Amazonian bacterioplankton communities to understand their dynamics, (iii) identified the main physicochemical parameters shaping bacterioplanktonic communities among a set of >30 measured environmental parameters, and (iv) characterized how bacterioplankton structure varies according to the relative abundance of humic compounds, a by-product from the bacterial degradation process of allochthonous DOM., Competing Interests: The authors declare no conflict of interest.

Published

2023

16. Reconstruction of Metagenome-Assembled Genomes from Aquaria

Author

Jordan Bryan, Jonathan A. Eisen, Guillaume Jospin, David A. Coil, Sima Tokajian, Cassandra L. Ettinger, and Cameron Thrash, J

Subjects

biology, Phylum, Genome Sequences, Roseobacter, biology.organism_classification, Genome, Octadecabacter, Immunology and Microbiology (miscellaneous), Evolutionary biology, Metagenomics, Genetics, Anaerolinea, Molecular Biology, Flavobacteriia, Polynucleobacter

Abstract

Here, we report 11 metagenome-assembled genomes (MAGs) reconstructed from freshwater and saltwater aquaria, including representatives of Polynucleobacter , Anaerolinea , Roseobacter , Flavobacteriia , Octadecabacter , Mycobacterium , and Candidate Phyla Radiation (CPR) members. These MAGs can serve as a resource for aquatic research and elucidating the role of CPR taxa in the built environment.

Published

2021

17. Spatiotemporal and seasonal dynamics in the microbial communities of a landfill-leachate contaminated aquifer

Author

Harald Klempe, Daniel Abiriga, Andrew Jenkins, Live S. Vestgarden, and Kristian Alfsnes

Subjects

0301 basic medicine, Environmental remediation, 030106 microbiology, Aquifer, microbial ecology, Applied Microbiology and Biotechnology, Microbiology, municipal landfill, 03 medical and health sciences, Microbial ecology, RNA, Ribosomal, 16S, Leachate, Groundwater, aquifer sediment, Hydrology, AcademicSubjects/SCI01150, geography, geography.geographical_feature_category, Ecology, biology, Microbiota, aquifer recharge, contaminated groundwater, Groundwater recharge, biology.organism_classification, Aquabacterium, Waste Disposal Facilities, multivariate analysis, 030104 developmental biology, Seasons, Water Pollutants, Chemical, Research Article, Polynucleobacter

Abstract

The microbiome of an aquifer contaminated by landfill leachate and undergoing intrinsic remediation was characterised using 16S rRNA metabarcoding. The archaeal/bacterial V3–V4 hypervariable region of the 16S rRNA gene was sequenced using Illumina MiSeq, and multivariate statistics were applied to make inferences. Results indicate that the aquifer recharge and aquifer sediment samples harbour different microbial communities compared to the groundwater samples. While Proteobacteria dominated both the recharge and groundwater samples, Acidobacteria dominated the aquifer sediment. The most abundant genera detected from the contaminated aquifer were Polynucleobacter, Rhodoferax, Pedobacter, Brevundimonas, Pseudomonas, Undibacterium, Sulfurifustis, Janthinobacterium, Rhodanobacter, Methylobacter and Aquabacterium. The result also shows that the microbial communities of the groundwater varied spatially, seasonally and interannually, although the interannual variation was significant for only one of the wells. Variation partitioning analysis indicates that water chemistry and well distance are intercorrelated and they jointly accounted for most of the variation in microbial composition. This implies that the species composition and water chemistry characteristics have a similar spatial structuring, presumably caused by the landfill leachate plume. The study improves our understanding of the dynamics in subsurface microbial communities in space and time., Spatiotemporal dynamics of microbial communities were discovered in a landfill-leachate contaminated aquifer.

Published

2021

18. Characterization of the blood and neutrophil-specific microbiomes and exploration of potential bacterial biomarkers for sepsis in surgical patients

Author

Chenyang Wang, Qin He, Chun Tang, Xiaofan Zhao, Qiurong Li, Xingming Tang, and Jianan Ren

Subjects

Firmicutes, Neutrophils, Immunology, Sepsis, sepsis, Agrococcus, medicine, Immunology and Allergy, Humans, Microbiome, biology, Bacteria, Septic shock, business.industry, Acidovorax, Microbiota, neutrophil‐specific microbiome, high‐throughput sequencing, Bacteroidetes, Original Articles, RC581-607, medicine.disease, biology.organism_classification, blood microbiome, septic shock, Original Article, Immunologic diseases. Allergy, business, Biomarkers, Polynucleobacter

Abstract

Introduction Recent studies have demonstrated the presence of a circulating microbiome in the blood of healthy subjects and chronic inflammatory patients. However, our knowledge regarding the blood microbiome and its potential roles in surgical patients remains very limited. The objective of this study was to determine the blood microbial landscape in surgical patients and to explore its potential associations with postoperative sepsis. Materials and Methods 2825 patients who underwent surgical treatments were screened for enrollment and 204 cases were recruited in this study. The patients were sub‐grouped into noninfected, infected, sepsis, and septic shock according to postoperative clinical manifestations. A total of 222 blood samples were obtained for neutrophil isolation, DNA extraction and high‐throughput sequencing, quantitative proteomics analysis, and flow cytometric analyses. Results Blood and neutrophils in surgical patients and healthy controls contained highly diverse microbiomes, mainly comprising Proteobacteria, Actinobacteria, Firmicutes and Bacteroidetes. The majority (80.7%–91.5%) of the microbiomes were composed of gut‐associated bacteria. The microbiomes in septic patients were significantly distinct from those of healthy controls, and marked differences in microbiome composition were observed between sepsis and septic shock groups. Several specific bacterial genera, including Flavobacterium, Agrococcus, Polynucleobacter, and Acidovorax, could distinguish patients with septic shock from those with sepsis, with higher area under curve values. Moreover, Agrococcus, Polynucleobacter, and Acidovorax were positively associated with the sequential (sepsis‐related) organ failure assessment scores and/or acute physiology and chronic health examination scores in septic shock patients. The proteins involved in bactericidal activities of neutrophils were downregulated in septic patients. Conclusions We present evidence identifying significant changes of blood and neutrophil‐specific microbiomes across various stages of sepsis, which might be associated with the progression of sepsis after surgical treatments. Several certain bacterial genera in blood microbiome could have potential as microbial markers for early detection of sepsis., (1) This study characterized for the first time the compositional features of the blood and neutrophli‐specific microbiomes in surgical patients and associated the microbiome alterations with the progression of postoperative sepsis. (2) Several certain bacterial genera in blood microbiome could have potential as microbial markers for early detection of sepsis. (3) The functional abnormality of neutrophils might play potentially intrinsic effectors in remodeling blood microbiome toward a disease‐provoking state in sepsis.

Published

2021

19. Variation in microbial community structure in surface seawater from Pearl River Delta: Discerning the influencing factors

Author

Qi Wang, Paul K.S. Lam, Lianguo Chen, Bingsheng Zhou, James Lam, Mirabelle M.P. Tsui, and Chenyan Hu

Subjects

China, Environmental Engineering, 010504 meteorology & atmospheric sciences, Nitrosopumilus, 010501 environmental sciences, 01 natural sciences, Phytoplankton, Environmental Chemistry, Seawater, Waste Management and Disposal, 0105 earth and related environmental sciences, Fluorocarbons, Bacteria, biology, Chemistry, Microbiota, biology.organism_classification, Pollution, Microbial population biology, Limnohabitans, Environmental chemistry, Prochlorococcus, Proteobacteria, Estuaries, Water Pollutants, Chemical, Environmental Monitoring, Polynucleobacter

Abstract

Contamination of perfluoroalkyl acids (PFAAs) is ubiquitously detected in various environments. However, their potential effects on microbial communities remain largely unknown. In this study, surface seawater of the Pearl River Delta (PRD) is sampled to measure PFAA concentrations and profile the structure of free-living microbial community. Total PFAAs concentrations range from 131 to 1563 pg L−1 in surface seawater. PFOS (16–470 pg L−1), PFOA (27–272 pg L−1), PFHpA (18–201 pg L−1) and PFBA (25–152 pg L−1) are the major homologues, indicating continued industrial application or release of PFOS and a gradual shift towards using shorter-chain PFAAs. Concentrations of PFAAs from this recent cruise are much lower than previous reports, which may be due to the effective management of PFAA usage around PRD region. In addition, the microbial community in PRD surface seawater is predominantly colonized by the Proteobacteria phylum (27.2 to 61.5%) and the Synechococcus genus (5.6 to 38.6%). The structure of the microbial communities varies among stations, mainly resulting from different abundances of Synechococcus, Prochlorococcus and Nitrosopumilus. Geochemical parameters (e.g., nutrients and salinity) and phytoplankton are significantly associated with the microbial community dynamics in surface seawater. In the interactive network of microbiota, a subset of bacteria (i.e., Fluviicola, Nitrosopumilus, Limnohabitans, Sediminibacterium, C39 and Polynucleobacter) shows significantly positive correlations with PFAAs (R > 0.6; P

Published

2019

20. Resistance and resilience of representative low nucleic acid-content bacteria to free chlorine exposure

Author

Mark Bartlam, Guanghai Gao, Guannan Mao, Yuhao Song, and Yingying Wang

Subjects

Environmental Engineering, Halogenation, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Bioreactors, Nucleic Acids, Drug Resistance, Bacterial, polycyclic compounds, Chlorine, medicine, Environmental Chemistry, Water Pollutants, Food science, Waste Management and Disposal, Escherichia coli, Cell damage, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Bacteria, biology, Strain (chemistry), Pseudomonas aeruginosa, biology.organism_classification, medicine.disease, Pollution, chemistry, Nucleic acid, Water Microbiology, Disinfectants, Polynucleobacter

Abstract

Two representative low nucleic acid-content (LNA) bacterial strains, Polynucleobacter sp. CB and Sphingopyxis sp. 15Y-HN, and two commonly used microbial indicators of drinking water disinfection efficiency, Escherichia coli and Pseudomonas aeruginosa, were used to investigate the effects of chlorine disinfection. LNA bacteria were found to be more tolerant than microbial indicator strains at the same free chlorine concentrations in batch experiments. Three-stage chlorination experiments were carried out for two strains (15Y-HN and E. coli K12) to compare their responses to long-term chlorine exposure. Results from the first stage (increasing chlorine exposure from 0.0 to 0.6 mg/L and 1.2 mg/L for strain K12 and strain 15Y-HN, respectively) showed the rate constants of 99% cell damage were 10-fold lower for strain 15Y-HN than for strain K12. A second regrowth stage at low free chlorine concentrations (0.3 mg/L for 140 h) facilitated the regrowth of chlorine-resistant populations of strains 15Y-HN and K12 in the presence of assimilable organic carbon (AOC). In the third stage, during which bacteria were exposed to increasing chlorine from 0.0 to 0.5-0.6 mg/L, strain 15Y-HN was maintained at 80% and 10

Published

2019

21. Adaptive shifts of bacterioplankton communities in response to nitrogen enrichment in a highly polluted river

Author

Aibin Zhan, Ping Ni, Ye Deng, Xuena Huang, Yuzhan Yang, Yangchun Gao, and Yueni Wu

Subjects

Pollution, Aquatic Organisms, China, 010504 meteorology & atmospheric sciences, Nitrogen, Health, Toxicology and Mutagenesis, media_common.quotation_subject, 010501 environmental sciences, Toxicology, 01 natural sciences, Rivers, Nitrogen cycle, Ecosystem, Betaproteobacteria, 0105 earth and related environmental sciences, Environmental gradient, media_common, biology, Ecology, Microbiota, Community structure, General Medicine, Bacterioplankton, Eutrophication, biology.organism_classification, Nutrient pollution, Environmental science, Gammaproteobacteria, Water Pollutants, Chemical, Environmental Monitoring, Polynucleobacter

Abstract

Anthropogenic activity-mediated nutrient pollution, especially nitrogen enrichment, poses one of the major threats to river ecosystems. However, it remains unclear how and to which extent it affects aquatic microbial communities, especially in heavily polluted rivers. In this study, a significant environmental gradient, particularly nitrogen gradient, was observed along a wastewater receiving river, the North Canal River (NCR). The pollution level was highest, moderate, and lowest in the up-, middle, and down-streams, respectively. The community composition of bacterioplankton transitioned from being Betaproteobacteria-dominated upstream to Gammaproteobacteria-dominated downstream. Copiotrophic groups, such as Polynucleobacter (Betaproteobacteria) and Hydrogenophaga (Betaproteobacteria), were dominant in the upstream. Multiple statistical analyses indicated that total nitrogen (TN) was the most important factor driving the adaptive shifts of community structure. Analyses of co-occurrence networks showed that the complexity of networks was disrupted in the up- and middle streams, while enhanced in the downstream. Our findings here suggested that microbial interactions were reduced in response to the aggravation of nutrient pollution. Similar to these changes, we observed significant dissimilarity of composition of functional groups, with highest abundance of nitrogen metabolism members under the highest level of nitrogen enrichment. Further analyses indicated that most of these functional groups belonged to Betaproteobacteria, suggesting the potential coupling of community composition and function diversity. In summary, adaptive shifts of bacterioplankton community composition, as well as species interactions, occurred in response to nutrient pollution in highly polluted water bodies.

Published

2019

22. Polynucleobacter paneuropaeus sp. nov., characterized by six strains isolated from freshwater lakes located along a 3000 km north–south cross-section across Europe

Author

Ulrike Koll, Elke Lang, Martin W. Hahn, Matthias Hoetzinger, Johanna Schmidt, and Alexandra Pitt

Subjects

DNA, Bacterial, 0106 biological sciences, 0301 basic medicine, Species complex, Burkholderiaceae, Range (biology), 010603 evolutionary biology, 01 natural sciences, Microbiology, Article, 03 medical and health sciences, Monophyly, RNA, Ribosomal, 16S, Phylogeny, Ecology, Evolution, Behavior and Systematics, Betaproteobacteria, Genetics, Base Composition, Comparative Genomic Hybridization, biology, Phylogenetic tree, Fatty Acids, Sequence Analysis, DNA, General Medicine, biology.organism_classification, 16S ribosomal RNA, Bacterial Typing Techniques, Europe, Lakes, Phenotype, 030104 developmental biology, Genes, Bacterial, Polynucleobacter

Abstract

Six Polynucleobacter ( Burkholderiaceae , Betaproteobacteria ) strains isolated from different freshwater lakes located across Europe were taxonomically investigated. Phylogenetic analyses based on 16S rRNA gene sequences assigns all six strains to the cryptic species complex PnecC within the genus Polynucleobacter . Analyses of partial glutamine synthetase (glnA) genes suggests that all six strains belong to the species-like taxon designated F15 in previous papers. Comparative genome analyses reveal that the six strains form a genomically coherent group characterized by whole-genome average nucleotide identity (gANI) values of >98 % but separated by gANI values of

Published

2019

23. Opening a next-generation black box: ecological trends for hundreds of species-like taxa uncovered within a single bacterial >99% 16S rRNA operational taxonomic unit

Author

Andrea Huemer, Martin W. Hahn, Matthias Hoetzinger, and Alexandra Pitt

Subjects

Operational taxonomic unit, Taxon, Range (biology), Ecology, Vicariance, Cosmopolitan distribution, Taxonomy (biology), Species richness, Biology, biology.organism_classification, Polynucleobacter

Abstract

Current knowledge on environmental distribution and taxon richness of free-living bacteria is mainly based on cultivation-independent investigations employing 16S rRNA gene sequencing methods. Yet, 16S rRNA genes are evolutionarily rather conserved, resulting in limited taxonomic and ecological resolutions provided by this marker. We used a faster evolving protein-encoding marker to reveal ecological patterns hidden within a single OTU defined by >99% 16S rRNA sequence similarity. The studied taxon, subcluster PnecC of the genus Polynucleobacter, represents a ubiquitous group of planktonic freshwater bacteria with cosmopolitan distribution, which is very frequently detected by diversity surveys of freshwater systems. Based on genome taxonomy and a large set of genome sequences, a sequence similarity threshold for delineation of species-like taxa could be established. In total, 600 species-like taxa were detected in 99 freshwater habitats scattered across three regions representing a latitudinal range of 3400 km (42°N to 71°N) and a pH gradient of 4.2 to 8.6. Besides the unexpectedly high richness, the increased taxonomic resolution revealed structuring of Polynucleobacter communities by a couple of macroecological trends, which was previously only demonstrated for phylogenetically much broader groups of bacteria. A unexpected pattern was the almost complete compositional separation of Polynucleobacter communities of Ca-rich and Ca-poor habitats, which strongly resembled the vicariance of plant species on silicate and limestone soils. The presented new cultivation-independent approach opened a window to an incredible, previously unseen diversity, and enables investigations aiming on deeper understanding of how environmental conditions shape bacterial communities and drive evolution of free-living bacteria.

Published

2021

24. Continental-Scale Gene Flow Prevents Allopatric Divergence of Pelagic Freshwater Bacteria

Author

Matthias, Hoetzinger, Alexandra, Pitt, Andrea, Huemer, and Martin W, Hahn

Subjects

Gene Flow, AcademicSubjects/SCI01140, Bacteria, Whole Genome Sequencing, Burkholderiaceae, AcademicSubjects/SCI01130, Fresh Water, homologous recombination, Biodiversity, Genomics, pelagic freshwater bacteria, Evolution, Molecular, Lakes, Phylogeography, Species Specificity, Polynucleobacter, Humans, gene flow, microbial evolutionary ecology, Ecosystem, Genome, Bacterial, Phylogeny, Research Article, allopatric speciation

Abstract

Allopatric divergence is one of the principal mechanisms for speciation of macro-organisms. Microbes by comparison are assumed to disperse more freely and to be less limited by dispersal barriers. However, thermophilic prokaryotes restricted to geothermal springs have shown clear signals of geographic isolation, but robust studies on this topic for microbes with less strict habitat requirements are scarce. Furthermore, it has only recently been recognized that homologous recombination among conspecific individuals provides species coherence in a wide range of prokaryotes. Recombination barriers thus may define prokaryotic species boundaries, yet, the extent to which geographic distance between populations gives rise to such barriers is an open question. Here, we investigated gene flow and population structure in a widespread species of pelagic freshwater bacteria, Polynucleobacter paneuropaeus. Through comparative genomics of 113 conspecific strains isolated from freshwater lakes and ponds located across a North–South range of more than 3,000 km, we were able to reconstruct past gene flow events. The species turned out to be highly recombinogenic as indicated by significant signs of gene transfer and extensive genome mosaicism. Although genomic differences increased with spatial distance on a regional scale (

Published

2021

25. Sediment Metagenomes as Time Capsules of Lake Microbiomes

Author

Rebecca E. Garner, Irene Gregory-Eaves, and David A. Walsh

Subjects

0301 basic medicine, DNA preservation, Canada, Geologic Sediments, 030106 microbiology, Ecological and Evolutionary Science, Paleolimnology, Microbiology, shotgun sequencing, 03 medical and health sciences, viruses, Bacteriophages, 14. Life underwater, Molecular Biology, Phylogeny, metagenomics, biology, paleolimnology, Bacteria, Ecology, bacterioplankton, Microbiota, Lake ecosystem, Sediment, Genetic Variation, Bacterioplankton, Sequence Analysis, DNA, 15. Life on land, biology.organism_classification, Editor's Pick, 6. Clean water, QR1-502, Lakes, 030104 developmental biology, paleogenomics, 13. Climate action, Metagenomics, Limnohabitans, Environmental science, Metagenome, Surface water, Polynucleobacter, Research Article

Abstract

Lakes are critical freshwater resources under mounting pressure from climate change and other anthropogenic stressors. The reconstruction of ecological time series from sediment archives with paleolimnological techniques has been shown to be an effective means of understanding how humans are modifying lake ecosystems over extended timescales. In this study, we combined shotgun DNA sequencing with a novel comparative analysis of surface water and sediment metagenomes to expose the diversity of microorganisms preserved in lake sediments. The detection of DNA from a broad diversity of preserved microbes serves to more fully reconstruct historical microbiomes and describe preimpact lake conditions., The reconstruction of ecological time series from lake sediment archives can retrace the environmental impact of human activities. Molecular genetic approaches in paleolimnology have provided unprecedented access to DNA time series, which record evidence of the microbial ecologies that underlaid historical lake ecosystems. Such studies often rely on single-gene surveys, and consequently, the full diversity of preserved microorganisms remains unexplored. In this study, we probed the diversity archived in contemporary and preindustrial sediments by comparative shotgun metagenomic analysis of surface water and sediment samples from three eastern Canadian lakes. In a strategy that was aimed at disentangling historical DNA from the indigenous sediment background, microbial preservation signals were captured by mapping sequence similarities between sediment metagenome reads and reference surface water metagenome assemblies. We detected preserved Cyanobacteria, diverse bacterioplankton, microeukaryotes, and viruses in sediment metagenomes. Among the preserved microorganisms were important groups never before reported in paleolimnological reconstructions, including bacteriophages (Caudovirales) and ubiquitous freshwater Betaproteobacteria (Polynucleobacter and Limnohabitans). In contrast, ultramicroscopic Actinobacteria (“Candidatus Nanopelagicales”) and Alphaproteobacteria (Pelagibacterales) were apparently not well preserved in sediment metagenomes even though they were numerically dominant in surface water metagenomes. Overall, our study explored a novel application of whole-metagenome shotgun sequencing for discovering the DNA remains of a broad diversity of microorganisms preserved in lake sediments. The recovery of diverse microbial time series supports the taxonomic expansion of microbiome reconstructions and the development of novel microbial paleoindicators. IMPORTANCE Lakes are critical freshwater resources under mounting pressure from climate change and other anthropogenic stressors. The reconstruction of ecological time series from sediment archives with paleolimnological techniques has been shown to be an effective means of understanding how humans are modifying lake ecosystems over extended timescales. In this study, we combined shotgun DNA sequencing with a novel comparative analysis of surface water and sediment metagenomes to expose the diversity of microorganisms preserved in lake sediments. The detection of DNA from a broad diversity of preserved microbes serves to more fully reconstruct historical microbiomes and describe preimpact lake conditions.

Published

2020

26. Polynucleobacter hirudinilacicola sp. nov. and Polynucleobacter campilacus sp. nov., both isolated from freshwater systems

Author

Johanna Schmidt, Elke Lang, Ulrike Koll, Martin W. Hahn, Gerlinde Karbon, and Lesley R. Huymann

Subjects

DNA, Bacterial, 0301 basic medicine, Species complex, Burkholderiaceae, Fresh Water, Microbiology, Genome, Article, DNA sequencing, 03 medical and health sciences, Phylogenetics, Germany, RNA, Ribosomal, 16S, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genetics, Base Composition, Phylogenetic tree, biology, Fatty Acids, Sequence Analysis, DNA, General Medicine, 16S ribosomal RNA, biology.organism_classification, Bacterial Typing Techniques, Lakes, 030104 developmental biology, Austria, Polynucleobacter

Abstract

Strains MWH-EgelM1-30-B4T and MWH-Feld-100T were isolated from the water columns of two freshwater systems. Both strains represent delicate bacteria not easy to work with in laboratory experiments. Phylogenetic analyses of the 16S rRNA genes suggested that both strains were affiliated with the genus Polynucleobacter . Both strains share 16S rRNA gene sequence similarities of >99 % with eight free-living Polynucleobacter type strains, all affiliated with the cryptic species complex PnecC. The full-length 16S rRNA gene sequences of the two strains differ only in two and three positions, respectively, from the sequence of the closest related Polynucleobacter type strain. Genome sequencing of both strains revealed relatively small genome sizes of 2.0 Mbp and G+C contents of 45 mol%. Phylogenetic analyses based on nucleotide sequences of 319 shared protein-encoding genes consistently placed the two strains in taxon PnecC but did not suggest an affiliation with one of the previously described species. Pairwise analyses of whole genome average nucleotide identities (gANI) with representatives of all previously described Polynucleobacter species resulted in both cases throughout in values

Published

2018

27. Cryptophyta as major bacterivores in freshwater summer plankton

Author

Karel Šimek, Jens Boenigk, Tanja Shabarova, Manfred Jensen, Michaela M. Salcher, Julia K. Nuy, Vojtech Kasalicky, Vesna Grujčić, University of Zurich, and Grujcic, Vesna

Subjects

0301 basic medicine, Bacterivore, Food Chain, Evolution, Fresh Water, 580 Plants (Botany), Microbiology, Article, 03 medical and health sciences, 10126 Department of Plant and Microbial Biology, Behavior and Systematics, Microbial ecology, Cryptophyta, In Situ Hybridization, Fluorescence, Phylogeny, Ecology, Evolution, Behavior and Systematics, Trophic level, Ecology, Bacteria, biology, Phylum, 2404 Microbiology, Heterotrophic Processes, Plankton, biology.organism_classification, 1105 Ecology, Evolution, Behavior and Systematics, 030104 developmental biology, Limnohabitans, Seasons, Biologie, Polynucleobacter

Abstract

Small bacterivorous eukaryotes play a cardinal role in aquatic food webs and their taxonomic classification is currently a hot topic in aquatic microbial ecology. Despite increasing interest in their diversity, core questions regarding predator–prey specificity remain largely unanswered, e.g., which heterotrophic nanoflagellates (HNFs) are the main bacterivores in freshwaters and which prokaryotes support the growth of small HNFs. To answer these questions, we fed natural communities of HNFs from Římov reservoir (Czech Republic) with five different bacterial strains of the ubiquitous betaproteobacterial genera Polynucleobacter and Limnohabitans. We combined amplicon sequencing and catalyzed reporter deposition fluorescence in situ hybridization (CARD-FISH) targeting eukaryotic 18 S rRNA genes to track specific responses of the natural HNF community to prey amendments. While amplicon sequencing provided valuable qualitative data and a basis for designing specific probes, the number of reads was insufficient to accurately quantify certain eukaryotic groups. We also applied a double-hybridization technique that allows simultaneous phylogenetic identification of both predator and prey. Our results show that community composition of HNFs is strongly dependent upon prey type. Surprisingly, Cryptophyta were the most abundant bacterivores, although this phylum has been so far assumed to be mainly autotrophic. Moreover, the growth of a small lineage of Cryptophyta (CRY1 clade) was strongly stimulated by one Limnohabitans strain in our experiment. Thus, our study is the first report that colorless Cryptophyta are major bacterivores in summer plankton samples and can play a key role in the carbon transfer from prokaryotes to higher trophic levels.

Published

2018

28. Symbiont replacement between bacteria of different classes reveals additional layers of complexity in the evolution of symbiosis in the ciliate Euplotes

Author

Patrick J. Keeling, Vittorio Boscaro, Sergei I. Fokin, Franco Verni, Claudia Vannini, and Giulio Petroni

Subjects

0301 basic medicine, Devosia, Cytoplasm, Hyphomicrobiaceae, SSU rRNA gene, Biology, phylogeny, biology.organism_classification, Biological Evolution, Microbiology, 03 medical and health sciences, Monophyly, 030104 developmental biology, Symbiosis, Evolutionary biology, transmission electron microscopy, Candidatus, Ciliophora, Candidatus Devosia euplotis, Clade, fluorescence in situ hybridization, Betaproteobacteria, Polynucleobacter

Abstract

Symbiosis is a diverse and complex phenomenon requiring diverse model systems. The obligate relationship between a monophyletic group of Euplotes species ("clade B") and the betaproteobacteria Polynucleobacter and "Candidatus Protistobacter" is among the best-studied in ciliates, and provides a framework to investigate symbiont replacements. Several other Euplotes-bacteria relationships exist but are less understood, such as the co-dependent symbiosis between Euplotes magnicirratus (which belongs to "clade A") and the alphaproteobacterium "Candidatus Devosia euplotis". Here we describe a new Devosia inhabiting the cytoplasm of a strain of Euplotes harpa, a clade B species that usually depends on Polynucleobacter for survival. The novel bacterial species, "Candidatus Devosia symbiotica", is closely related to the symbiont of E. magnicirratus, casting a different light on the history of bacteria colonizing ciliates of this genus. The two Devosia species may have become symbionts independently or as the result of a symbiont exchange between hosts, in either case replacing a previous essential bacterium in E. harpa. Alternatively, both may be remnants of an ancient symbiotic relationship between Euplotes and Devosia, in which case Polynucleobacter and "Ca. Protistobacter" are recent invaders. Either way, symbiont replacement between bacteria belonging to different classes must be evoked to explain this fascinating system.

Published

2018

29. Biofouling by ultra-low pressure filtration of surface water: The paramount role of initial available biopolymers

Author

Nicolas Derlon, Li Zhang, Muhammad Saboor Siddique, Nigel Graham, Lei Xu, Youneng Tang, and Wenzheng Yu

Subjects

chemistry.chemical_classification, biology, Biofilm, Filtration and Separation, Polysaccharide, biology.organism_classification, Biochemistry, law.invention, Biofouling, Membrane, chemistry, Chemical engineering, law, Permeability (electromagnetism), General Materials Science, Physical and Theoretical Chemistry, Filtration, Bacteria, Polynucleobacter

Abstract

Biofouling layer (i.e., biofilm) is an inevitable presence for the membrane filtration processes. In this study, we elucidated biofouling formation from the perspective of affecting the attachment of bacteria for the first time, whereby the role of initial available biopolymers was revealed. Results demonstrated that the presence of initial available biopolymers increased the abundance of the genus Caulobacter, which was capable of mineralizing biopolymers; whereas, for the typically oligotrophic species of Polynucleobacter, it exhibited low abundance. Greater concentrations of polysaccharides and proteins were accumulated in the biofouling layer, when provided with initial biopolymers, and the biofilm structure was more heterogeneous with larger pore size and higher thickness. Thereby, the corresponding filtration system exhibited greater permeability and better removal performance of organics. Collectively, the initial available biopolymers altered the attachment conditions for the bacteria, which subsequently impacted the bacterial community, and in turn biofilm composition, physical structure and filtration performance.

Published

2021

30. Bacterial prey food characteristics modulate community growth response of freshwater bacterivorous flagellates

Author

Karel Horňák, Tanja Shabarova, Karel Šimek, Jitka Jezberová, Michaela M. Salcher, Vojtěch Kasalický, Jiří Nedoma, Vesna Grujčić, and Martin W. Hahn

Subjects

0301 basic medicine, Bacterivore, Ecology, Bacterioplankton, Aquatic Science, Biology, Oceanography, biology.organism_classification, digestive system, Zooplankton, 03 medical and health sciences, Food chain, 030104 developmental biology, Limnohabitans, embryonic structures, Flagellate, Polynucleobacter, Trophic level

Abstract

Different bacterioplankton species represent different food quality resources for heterotrophic nanoflagellate (HNF) communities, potentially affecting HNF growth, community dynamics and carbon flow to higher trophic levels. However, our knowledge of such dynamics is still very limited. Here, we describe the results of 11 experiments with natural HNF communities from distinct seasonal phases in two freshwater habitats. The HNF communities were released from predation pressure of zooplankton and incubated with 16 distinct ecologically relevant prey bacterial strains from important Betaproteobacteria genera (Limnohabitans, Polynucleobacter, and Methylopumilus) and one Actinobacteria strain from the Luna 2 cluster. We observed remarkable prey- and season-specific variability in community HNF growth parameters, i.e., doubling time, volumetric gross growth efficiency (GGE), and length of lag phase. All strains, except for the actinobacterium, supported rapid HNF population growth with an average doubling time of 10 h and GGE of 29%. Our analysis revealed that 59% of the variability in flagellate GGE data was explained by the length of lag phase after prey amendments. This indicates a considerable “adaptation time,” during which the predator communities undergo compositional shifts toward flagellate bacterivores best adapted to grow on the offered prey. Importantly, the rapid HNF growth detected on various bacteria tightly corresponds to doubling times reported for fast growing bacterioplankton groups. We propose a conceptual model explaining the tight linkages between rapid bacterial community shifts and succeeding HNF community shifts, which optimize prey utilization rates and carbon flow from various bacteria to the microbial food chain.

Published

2017

31. Reclassification of a Polynucleobacter cosmopolitanus strain isolated from tropical Lake Victoria as Polynucleobacter victoriensis sp. nov

Author

Johanna Schmidt, Martin W. Hahn, Nikos C. Kyrpides, Grace Ssanyu Asiyo, William B. Whitman, and Tanja Woyke

Subjects

DNA, Bacterial, 0301 basic medicine, 16S, Species complex, Operon, Eastern, cryptic species complex, Microbiology, Genome, Article, 03 medical and health sciences, RNA, Ribosomal, 16S, Genetics, freshwater, genome, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Ribosomal, Evolutionary Biology, biology, Burkholderiaceae, Strain (biology), Human Genome, Bacterial, average nucleotide identity, Sequence Analysis, DNA, DNA, subcluster PnecD, General Medicine, Africa, Eastern, Ribosomal RNA, biology.organism_classification, 16S ribosomal RNA, Bacterial Typing Techniques, Lakes, 030104 developmental biology, Medical Microbiology, Polynucleobacter, Africa, RNA, Sequence Analysis

Abstract

The genus Polynucleobacter (family Burkholderiaceae ) is phylogenetically subdivided into at least four subclusters. One of those, subcluster PnecC, was recognized as a cryptic species complex. Here we test by comparative genome analyses whether subcluster PnecD, currently solely represented by the species Polynucleobacter cosmopolitanus , also represents such a cryptic species complex. The genome sequences of the two P. cosmopolitanus strains, MWH-MoIso2T and MWH-VicM1, were determined. The latter strain was also characterized in the previous description of P. cosmopolitanus . These two strains originate from a temperate lake located in Austria and from the large tropical Lake Victoria located in East Africa, respectively. Strains MWH-MoIso2T and MWH-VicM1 possess quite small genomes of 1.78 and 1.63 Mbp, respectively, and share similar G+C values of 44.1 and 43.1 mol%, respectively. Both strains encode only a single copy of the ribosomal operon, and their 16S rRNA genes differ only in four positions, equalling a sequence similarity of 99.74 %. Both genomes possess characteristics indicating evolutionary genome streamlining, such as high coding densities of 93.9 and 94.6 % of bases, respectively. Average nucleotide identity (ANI) comparisons of the genomes of the two strains resulted in a value of 78.4 %, suggesting that each of the strains represents a separate species. Our investigation suggests that PnecD represents an additional cryptic species complex within the genus Polynucleobacter that was not resolved by 16S rRNA gene sequence analyses. We propose reclassification of strain MWH-VicM1 as Polynucleobacter victoriensis sp. nov., with type strain MWH-VicM1T(=DSM 21486T=JCM 32005T).

Published

2017

32. Filterable microbial forms in the Rybinsk water reservoir.

Author

Fedotova, A., Serkebaeva, Yu., Sorokin, V., and Dedysh, S.

Subjects

*RIBOSOMAL RNA, *MICROORGANISMS, *BACTERIA, *MARINE ecology, *RESERVOIRS, RYBINSK Reservoir (Russia)

Abstract

Molecular identification of the filterable forms of microorganisms in the water of the Rybinsk reservoir, one of the largest open water bodies in European Russia, was carried out. The number of ultrasmall microbial cells passing through 0.22 μm filters was 104 cells/mL. These were represented by both bacteria and archaea. Most bacterial 16S rRNA gene sequences retrieved from filtered water affiliated with the Betaproteobacteria and exhibited high similarity (99.0-99.5%) to those of bacteria of the genus Polynucleobacter. The archaeal 16S rRNA gene clone library was composed of the sequences from members of the Euryarchaeota, including the orders Methanobacteriales and Methanomicrobiales, as well as two archaeal groups (LDS and RC-V) with no characterized representatives. The species composition of filterable bacteria from reservoir water was different from that revealed previously in bogs and small lakes at catchment areas. By contrast, the pool of filterable archaea in the reservoir exhibited significant similarity to that at boggy catchment areas and was characterized by predominance of the clade LDS. Available data indicate that this archaeal group is typical of the northern freshwater ecosystems, and the organisms of this group are represented by ultrasmall cells. [ABSTRACT FROM AUTHOR]

Published

2013

33. Fourteen new Polynucleobacter species: P. brandtiae sp. nov., P. kasalickyi sp. nov., P. antarcticus sp. nov., P. arcticus sp. nov., P. tropicus sp. nov., P. bastaniensis sp. nov., P. corsicus sp. nov., P. finlandensis sp. nov., P. ibericus sp. nov., P. hallstattensis sp. nov., P. alcilacus sp. nov., P. nymphae sp. nov., P. paludilacus sp. nov. and P. parvulilacunae sp. nov.

Author

Hahn MW, Pitt A, Schmidt J, and Camacho A

Subjects

Animals, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids chemistry, Lakes, MAP Kinase Kinase Kinases genetics, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Burkholderiaceae, Coleoptera

Abstract

Fourteen strains, all isolated from the surface of freshwater habitats, were genomically, phylogenetically and phenotypically characterized. The strains were obtained from geographically and climatically broadly scattered sites. This included two lakes in Antarctica, one arctic pond located on the Svalbard archipelago (Norway), a tropical habitat located in Uganda, some lakes in Southern Europe (Spain and France), lakes, ponds and a puddle in Central Europe (Austria, Czech Republic and Germany), and lakes in Northern Europe (Finland). Most of the investigated strains were characterized by rather small cell sizes and rather slow growth on media such as nutrient broth-soyotone-yeast extract (NSY) medium. Phylogenomic analyses indicated that all fourteen strains are affiliated with the genus Polynucleobacter ( Burkholderiaceae , Pseudomonadota ). Thirteen of the strains were found to be affiliated with subcluster PnecC of the genus. All these strains were characterized by genome sizes in the range of 1.7-2.3 Mbp and G+C values of 44.9-46.5 mol%. Furthermore, all PnecC-affiliated strains shared 16S rRNA gene sequence similarities >99 %. Only one strain characterized by a larger genome size of 2.9 Mbp and a lower G+C value of 41.0 mol% was found to be affiliated with subcluster PnecA. Whole genome sequence comparisons revealed that all 14 strains shared among each other, as well as with the type strains of the previously described 17 Polynucleobacter species, whole-genome average nucleotide identities values <95 %. This suggested that the 14 investigated strains represent 14 different new species. We propose the establishment of 14 new Polynucleobacter species represented by the following type strains: UB-Domo-W1 T (=DSM 103491 T =CIP 111598 T =JCM 32562 T ), VK13 T (=DSM 103488 T =JCM 32564 T ), LimPoW16 T (=DSM 24085 T =CIP 111098 T ), UK-Long2-W17 T (=DSM 103489 T =CIP 111328 T =JCM 32563 T ), UK-Pondora-W15 T (=DSM 103423 T =JCM 32939 T ), MWH-Mekk-B1 T (=DSM 106779 T =JCM 32556 T ), MWH-Mekk-C3 T (=DSM 103415 T =JCM 32557 T ), Ross1-W9 T (=DSM 103416 T =JCM 32561 T ), MWH-Hall10 T (=DSM 107042 T =JCM 32938 T ), AP-Basta-1000A-D1 T (=DSM 107039 T =JCM 32933 T ), AP-Melu-1000-A1 T (=DSM 107036 T =JCM 32935 T ), es-MAR-2 T (=DSM 103424 T =JCM 32554 T ), AP-Mumm-500A-B3 T (=DSM 107037 T =JCM 32936 T ), MWH-UH21B T (=DSM 23884 T =LMG 29707 T ).

Published

2022

34. Contrasting trends in distribution of four major planktonic betaproteobacterial groups along a p H gradient of epilimnia of 72 freshwater habitats.

Author

Jezbera, Jan, Jezberová, Jitka, Koll, Ulrike, Horňák, Karel, Šimek, Karel, and Hahn, Martin W.

Subjects

*PROTEOBACTERIA, *PLANKTON, *HYDROGEN-ion concentration, *FRESHWATER habitats, *FLUORESCENCE in situ hybridization, *FRESHWATER bacteria, *COMPETITION (Biology)

Abstract

The distribution and abundance of Betaproteobacteria and three of its genera - Limnohabitans ( R-BT065 lineage), Polynucleobacter (including subclusters Polynucleobacter necessarius and Polynucleobacter acidiphobus/ Polynucleobacter difficilis), and Methylophilus - across the epilimnia of 72 limnologically diverse freshwater habitats were investigated using fluorescence in situ hybridization. Moreover, seasonal development of Betaproteobacteria subgroups along the longitudinal axis of a reservoir was followed. Betaproteobacteria comprised on average 29.1%, Polynucleobacter 11.6%, P. necessarius 10.1%, P. acidiphobus/ difficilis 0.5%, Limnohabitans 8.9%, and Methylophilus 0.9% of total bacterioplankton cells in the investigated habitats. Polynucleobacter necessarius and Limnohabitans coexisted in the majority of habitats but showed contrasting abundance patterns along the p H gradient of habitats (p H, 3.8-8.5). The observed distribution patterns could theoretically be explained by different preferences for substrate sources, that is, substances of humic origin in acidic waters and algal-derived substances in alkaline waters. However, substrate utilization patterns observed in laboratory experiments indicate no coherent group-specific differences in substrate preferences. Interestingly, similar distribution patterns were revealed for Limnohabitans and P. acidiphobus/ difficilis, suggesting similar ecological adaptations of these distantly related taxa. Our findings further emphasize that at least two taxa of freshwater Betaproteobacteria represent ecologically diversified groups. Investigations at higher phylogenetic resolution are required for obtaining further insights into their ecology. [ABSTRACT FROM AUTHOR]

Published

2012

35. Effective isolation of bacterioplankton genus Polynucleobacter from freshwater environments grown on photochemically degraded dissolved organic matter.

Author

Watanabe, Keiji, Komatsu, Nobuyuki, Ishii, Yuichi, and Negishi, Masami

Subjects

*PLANKTON, *AQUATIC biology, *ORGANIC compounds, *PYRUVATES, *GLUCOSE, *DISSOLVED organic matter, *MEMBRANE separation, *WATER filtration

Abstract

Effective isolation of freshwater bacterioplankton belonging to genus Polynucleobacter from a shallow eutrophic lake and its tributary was achieved by size-selective filtration with a 0.7-μm pore filter and cultivation on R2A agar medium. Partial 16S rRNA gene analysis showed that over 80% of all the strains were highly similar to the Polynucleobacter cluster. Essential medium components for effective cultivation are pyruvate, yeast extract and peptone, whereas soluble starch and glucose are not necessary. Isolate KF001 (affiliated with Polynucleobacter subcluster D) has a strict requirement for organic acids as carbon sources, and we hypothesize that the Polynucleobacter cluster of bacteria could utilize compounds formed via photochemically dissolved organic matter (DOM) degradation for growth. Because organic acids form from solar radiation of DOM in aquatic environments, carbon sources that are typical products of DOM photochemical degradation were added to the medium. These compounds were readily utilized by KF001 in this study. Finally, we observed the stimulation of strain KF001 activity by photochemical degradation of natural lake water. Our findings suggest a carbon flow of DOM photoproducts to Polynucleobacter in the freshwater microbial loop. [ABSTRACT FROM AUTHOR]

Published

2009

36. New insights into the spatial variability of biofilm communities and potentially negative bacterial groups in hydraulic concrete structures

Author

Wenlong Zhang, Peifang Wang, Yi Li, Wei Cai, Lihua Niu, Chao Wang, and Fangang Meng

Subjects

0301 basic medicine, Cyanobacteria, Environmental Engineering, Firmicutes, 030106 microbiology, 010501 environmental sciences, 01 natural sciences, 03 medical and health sciences, Rivers, Water Supply, RNA, Ribosomal, 16S, Proteobacteria, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, biology, Ecology, Phylum, Ecological Modeling, Biofilm, biology.organism_classification, Pollution, Chloroflexi (class), Microbial population biology, Biofilms, Polynucleobacter

Abstract

The composition and distribution characteristics of bacterial communities in biofilms attached to hydraulic concrete structure (HCS) surfaces were investigated for the first time in four reservoirs in the middle and lower reaches of the Yangtze River Basin using 16S rRNA Miseq sequencing. High microbial diversity was found in HCS biofilms, and notable differences were observed in different types of HCS. Proteobacteria, Cyanobacteria and Chloroflexi were the predominant phyla, with respective relative abundances of 35.3%, 25.4% and 13.0%. The three most abundant genera were Leptolyngbya, Anaerolineaceae and Polynucleobacter. The phyla Beta-proteobacteria and Firmicutes and genus Lyngbya were predominant in CGP, whereas the phyla Cyanobacteria and Chloroflexi and genera Leptolyngbya, Anaerolinea and Polynucleobacter survived better in land walls and bank slopes. Dissolved oxygen, ammonia nitrogen and temperature were characterized as the main factors driving the bacterial community composition. The most abundant groups of metabolic functions were also identified as ammonia oxidizers, sulphate reducers, and dehalogenators. Additionally, functional groups related to biocorrosion were found to account for the largest proportion (14.0% of total sequences) in gate piers, followed by those in land walls (11.5%) and bank slopes (10.2%). Concrete gate piers were at the greatest risk of biocorrosion with the most abundant negative bacterial groups, especially for sulphate reducers. Thus, it should be paid high attention to the biocorrosion prevention of concrete gate piers. Overall, this study contributed to the optimization of microbial control and the improvement of the safety management for water conservation structures.

Published

2017

37. Strain-specific consumption and transformation of alga-derived dissolved organic matter by members of theLimnohabitans-C andPolynucleobacter-B clusters ofBetaproteobacteria

Author

Karel Šimek, Vojtěch Kasalický, Hans-Peter Grossart, and Karel Horňák

Subjects

0301 basic medicine, 030106 microbiology, Chlamydomonas, Biology, biology.organism_classification, Microbiology, 6. Clean water, 03 medical and health sciences, Coelastrum, 030104 developmental biology, Limnohabitans, Botany, Rhodomonas, Axenic, Ecology, Evolution, Behavior and Systematics, Bacteria, Betaproteobacteria, Polynucleobacter

Abstract

Summary We investigated changes in quality and quantity of extracellular and biomass-derived organic matter (OM) from three axenic algae (genera Rhodomonas, Chlamydomonas, Coelastrum) during growth of Limnohabitans parvus, Limnohabitans planktonicus and Polynucleobacter acidiphobus representing important clusters of freshwater planktonic Betaproteobacteria. Total extracellular and biomass-derived OM concentrations from each alga were approximately 20 mg l−1 and 1 mg l−1 respectively, from which up to 9% could be identified as free carbohydrates, polyamines, or free and combined amino acids. Carbohydrates represented 54%–61% of identified compounds of the extracellular OM from each alga. In biomass-derived OM of Rhodomonas and Chlamydomonas 71%–77% were amino acids and polyamines, while in that of Coelastrum 85% were carbohydrates. All bacteria grew on alga-derived OM of Coelastrum, whereas only Limnohabitans strains grew on OM from Rhodomonas and Chlamydomonas. Bacteria consumed 24%–76% and 38%–82% of all identified extracellular and biomass-derived OM compounds respectively, and their consumption was proportional to the concentration of each OM compound in the different treatments. The bacterial biomass yield was higher than the total identifiable OM consumption indicating that bacteria also utilized other unidentified alga-derived OM compounds. Bacteria, however, also produced specific OM compounds suggesting enzymatic polymer degradation or de novo exudation.

Published

2017

38. Water metagenomic analysis reveals low bacterial diversity and the presence of antimicrobial residues and resistance genes in a river containing wastewater from backyard aquacultures in the Mekong Delta, Vietnam

Author

Kazumasa Hirata, Tatsuya Nakayama, Megumi Asayama, Tran Thi Tuyet Hoa, Joon Won Lee, Kazuo Harada, Atsushi Hinenoya, Tran Minh Phu, Minae Warisaya, Yoshimasa Yamamoto, Nguyen Thanh Phuong, Shuhei Ueda, and Yoshinori Sumimura

Subjects

0301 basic medicine, Sulfamethoxazole, Health, Toxicology and Mutagenesis, Zoology, Aquaculture, Wastewater, 010501 environmental sciences, Real-Time Polymerase Chain Reaction, Toxicology, 01 natural sciences, Actinobacteria, 03 medical and health sciences, Rivers, Tandem Mass Spectrometry, RNA, Ribosomal, 16S, 0105 earth and related environmental sciences, Bacteria, biology, Ecology, Bacteroidetes, Drug Resistance, Microbial, General Medicine, biology.organism_classification, 16S ribosomal RNA, Antimicrobial, Pollution, Anti-Bacterial Agents, RNA, Bacterial, 030104 developmental biology, Vietnam, Metagenomics, Limnohabitans, Proteobacteria, Water Pollutants, Chemical, Polynucleobacter

Abstract

The environmental pathways for the dissemination of antibiotic resistance have recently received increased attention. Aquatic environments act as reservoirs or sources of antimicrobial-resistant bacteria, antimicrobial residues, and antimicrobial resistance genes (ARGs). Therefore, it is imperative to identify the role of polluted water in the dissemination of antimicrobial resistance. The aim of this study was to evaluate the antimicrobial residues, ARGs, and microbiota in the freshwater systems of the Mekong Delta. We selected 12 freshwater sites from aquacultures and rivers in Can Tho, Vietnam and analyzed them for 45 antimicrobial residues and 8 ARGs by LC/MS/MS and real-time PCR, respectively. A 16S rDNA-based metagenomic analysis was conducted to characterize the water microbiota. Residues of sulfamethoxazole (10/12) and sulfadimidine (7/12) were widely detected, together with the sulfa-resistance genes sul1 (11/12) and sul2 (9/12). Additionally, sulfamethoxazole residues and the β-lactamase-resistance gene blaCTX-M-1 were detected in eight freshwater systems (8/12), suggesting that these freshwater systems may have been polluted by human activity. The metagenomic analysis showed that all the tested freshwater systems contained the phyla Proteobacteria, Actinobacteria, and Bacteroidetes, representing 64% of the total microbiota. Moreover, the Cai Rang River site (Ri-E), which is located at the merge point of wastewaters from backyard-based aquacultures, contained the genera Polynucleobacter, Variovorax, and Limnohabitans, representing more than 78.4% of the total microbiota. Bacterial diversity analysis showed that the Ri-E exhibited the lowest diversity compared with other regions. Principal coordinate analysis showed that the differences among water microbiotas in backyard-based aquacultures could be explained by the farmers' aquaculture techniques. In conclusion, this study demonstrated a collapse of bacterial diversity at the merge point of wastewaters from backyard-based aquacultures in the Mekong Delta.

Published

2017

39. Polynucleobacter Bacteria in the Brackish-Water Species Euplotes harpa (Ciliata Hypotrichia).

Author

Vannini, Claudia, Petroni, Giulio, Verni, Franco, and Rosati, Giovanna

Subjects

*BACTERIA, *PROKARYOTES, *EUPLOTES, *CILIATA, *SYMBIOSIS, *BRACKISH waters

Abstract

Reports on the discovery of a Polynucleobacter bacterium in the cytoplasm of Euplotes harpa, a species living in a brackish-water habitat. Cirral pattern which does not correspond to that of freshwater Euplotes species known to harbor this bacteria; Antibiotic experiments; Indication that the elimination of the bacteria stops the reproductive cycle of E. harpa.

Published

2005

40. Integrative description of bisexual Paramacrobiotus experimentalis sp. nov. (Macrobiotidae) from republic of Madagascar (Africa) with microbiome analysis

Author

Kamil Janelt, Milena Roszkowska, Edyta Fiałkowska, Łukasz Kaczmarek, Izabela Poprawa, Magdalena Gawlak, Monika Mioduchowska, and Hanna Kmita

Subjects

0106 biological sciences, 0301 basic medicine, DNA, Bacterial, Male, Firmicutes, Zoology, microbiome, 010603 evolutionary biology, 01 natural sciences, operational taxonomic units, Electron Transport Complex IV, 03 medical and health sciences, taxonomy, stomatognathic system, RNA, Ribosomal, 16S, parasitic diseases, Proteobacteria, Genetics, Madagascar, RNA, Ribosomal, 18S, Tardigrada, Animals, Bacteroides, Microbiome, Symbiosis, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, biology, Phylum, Microbiota, gonochorism, biology.organism_classification, 16S ribosomal RNA, Mitochondria, 030104 developmental biology, Eutardigrada, Taxonomy (biology), Female, Rickettsiales, Polynucleobacter

Abstract

In a moss samples collected on Madagascar two populations of Paramacrobiotus experimentalis sp. nov. were found. Paramacrobiotus experimentalis sp. nov. with the presence of a microplacoid and areolatus type of eggs is similar to Pam. danielae, Pam. garynahi, Pam. hapukuensis, Pam. peteri, Pam. rioplatensis and Pam. savai, but it differs from them by some morphological and morphometric characters of the eggs. The p-distance between two COI haplotypes of Pam. experimentalis sp. nov. was 0.17%. In turn, the ranges of uncorrected genetic p-distances of all Paramacrobiotus species available in GenBank was from 18.27% (for Pam. lachowskae) to 25.26% (for Pam. arduus) with an average distance of 20.67%. We also found that Pam. experimentalis sp. nov. is bisexual. This observation was congruent on three levels: (i) morphological – specimen size dimorphism; (ii) structural (primary sexual characteristics) – females have an unpaired ovary while males have an unpaired testis and (iii) molecular – heterozygous and homozygous strains of the ITS-2 marker. Although symbiotic associations of hosts with bacteria (including endosymbiotic bacteria) are common in nature and these interactions exert various effects on the evolution, biology and reproductive ecology of hosts, there is still very little information on the bacterial community associated with tardigrades. To fill this gap and characterise the bacterial community of Pam. experimentalis sp. nov. populations and microbiome of its microhabitat, high throughput sequencing of the V3-V4 hypervariable regions in the bacterial 16S rRNA gene fragment was performed. The obtained 16S rRNA gene sequences ranged from 92,665 to 131,163. In total, 135 operational taxonomic units (OTUs) were identified across the rarefied dataset. Overall, both Pam. experimentalis sp. nov. populations were dominated by OTUs ascribed to the phylum Proteobacteria (89–92%) and Firmicutes (6–7%). In the case of samples from tardigrades’ laboratory habitat, the most abundant bacterial phylum was Proteobacteria (51–90%) and Bacteroides (9–48%). In all compared microbiome profiles, only 16 of 137 OTUs were shared. We found also significant differences in beta diversity between the partly species-specific microbiome of Pam. experimentalis sp. nov. and its culturing environment. Two OTUs belonging to a putative bacterial endosymbiont were identified – Rickettsiales and Polynucleobacter. We also demonstrated that each bacterial community was rich in genes involved in membrane transport, amino acid metabolism, and carbohydrate metabolism.

Published

2019

41. Symbionts of the ciliate Euplotes: Diversity, patterns and potential as models for bacteria-eukaryote endosymbioses

Author

Vittorio Boscaro, Filip Husnik, Claudia Vannini, and Patrick J. Keeling

Subjects

Evolution, Tree of life (biology), Devosia, Euplotes, Francisellaceae, Holosporales, Prokaryote-eukaryote symbioses, Rickettsiales, Context (language use), General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, RNA, Ribosomal, 16S, Symbiosis, Phylogeny, 030304 developmental biology, General Environmental Science, Ciliate, 0303 health sciences, General Immunology and Microbiology, biology, Obligate, Burkholderiaceae, 030306 microbiology, Microbiota, General Medicine, biology.organism_classification, RNA, Bacterial, Metagenomics, Evolutionary biology, Eukaryote, Evolutionary ecology, General Agricultural and Biological Sciences, Polynucleobacter

Abstract

Endosymbioses between bacteria and eukaryotes are enormously important in ecology and evolution, and as such are intensely studied. Despite this, the range of investigated hosts is narrow in the context of the whole eukaryotic tree of life: most of the information pertains to animal hosts, while most of the diversity is found in unicellular protists. A prominent case study is the ciliate Euplotes , which has repeatedly taken up the bacterium Polynucleobacter from the environment, triggering its transformation into obligate endosymbiont. This multiple origin makes the relationship an excellent model to understand recent symbioses, but Euplotes may host bacteria other than Polynucleobacter , and a more detailed knowledge of these additional interactions is needed in order to correctly interpret the system. Here, we present the first systematic survey of Euplotes endosymbionts, adopting a classical as well as a metagenomic approach, and review the state of knowledge. The emerging picture is indeed quite complex, with some Euplotes harbouring rich, stable prokaryotic communities not unlike those of multicellular animals. We provide insights into the distribution, evolution and diversity of these symbionts (including the establishment of six novel bacterial taxa), and outline differences and similarities with the most well-understood group of eukaryotic hosts: insects.

Published

2019

42. Reclassification of four Polynucleobacter necessarius strains as representatives of Polynucleobacter asymbioticus comb. nov., Polynucleobacter duraquae sp. nov., Polynucleobacter yangtzensis sp. nov. and Polynucleobacter sinensis sp. nov., and emended description of Polynucleobacter necessarius

Author

Hahn, Martin W., Schmidt, Johanna, Pitt, Alexandra, Taipale, Sami J., and Lang, Elke

Subjects

DNA, Bacterial, revision, Base Composition, New Taxa, Burkholderiaceae, Fatty Acids, average nucleotide identity, Sequence Analysis, DNA, Note, New species, Bacterial Typing Techniques, RNA, Ribosomal, 23S, Polynucleobacter, RNA, Ribosomal, 16S, Proteobacteria, ANI, endosymbiont, Phylogeny, Multilocus Sequence Typing

Abstract

Genome comparisons based on average nucleotide identity (ANI) values of four strains currently classified as Polynucleobacter necessarius subsp. asymbioticus resulted in ANI values of 75.7–78.4 %, suggesting that each of those strains represents a separate species. The species P. necessarius was proposed by Heckmann and Schmidt in 1987 to accommodate obligate endosymbionts of ciliates affiliated with the genus Euplotes. The required revision of this species is, however, hampered by the fact, that this species is based only on a description and lacks a type strain available as pure culture. Furthermore, the ciliate culture Euplotes aediculatus ATCC 30859, on which the description of the species was based, is no longer available. We found another Euplotes aediculatus culture (Ammermann) sharing the same origin with ATCC 30859 and proved the identity of the endosymbionts contained in the two cultures. A multilocus sequence comparison approach was used to estimate if the four strains currently classified as Polynucleobacter necessarius subsp. asymbioticus share ANI values with the endosymbiont in the Ammermann culture above or below the threshold for species demarcation. A significant correlation (R2 0.98, P

Published

2016

43. Variations in Bacterial Community in a Temperate Lake Associated with an Agricultural Watershed

Author

Liyan Song and Lei Li

Subjects

DNA, Bacterial, 0301 basic medicine, Michigan, Watershed, Rain, Heterotroph, Soil Science, Mycobacterium, 03 medical and health sciences, Nutrient, Microbial ecology, parasitic diseases, Dissolved organic carbon, Ecology, Evolution, Behavior and Systematics, Nitrates, Bacteria, Ecology, biology, Burkholderiaceae, Community structure, Agriculture, Biodiversity, Sequence Analysis, DNA, Hydrogen-Ion Concentration, biology.organism_classification, Carbon, Lakes, Terminal restriction fragment length polymorphism, 030104 developmental biology, Multivariate Analysis, Seasons, Water Microbiology, Environmental Monitoring, Polynucleobacter

Abstract

Terrestrially derived carbon and nutrients are washed into lakes, providing nutritional drivers for both microbial heterotrophy and phototrophy. Changes in the quantity and diversity of carbon and nutrients exported from watersheds in response to alterations in long-term land use have led to a need for evaluation of the linkage between watershed-exported carbon and nutrients and bacterial community structure in watershed associated lakes. To learn more about these interactions, we investigated Muskrat Lake in Michigan, which has a well-defined moderately sized watershed dominated by agriculture. We measured the water chemistry, characterized the dissolved organic carbon, and determined the structure of the bacterial communities at the inlet and center of this lake (five depths per site) over the summer and fall of 2008. The lake had temporal and rain event-based fluctuations in water chemistry, as well as temporal and rain event-dependent shifts in bacterial communities as measured by terminal restriction fragment length polymorphism. Agricultural watershed inputs were observed in the lake during and after rain events. Terminal restriction fragment length polymorphism and 454 pyrosequencing of the bacterial communities indicated that there were differences over time and that the dominant phylotypes shifted between summer and late fall. Some populations (e.g., Polynucleobacter and Mycobacterium) increased during fall, while others (e.g., Gemmatimonas) diminished. Redundancy and partitioning analyses showed that water chemistry is highly correlated with variations in the bacterial community of the lake, which explained 34 % of the variations in the bacterial community. Dissolved organic carbon had the greatest effects on variations in the Muskrat Lake bacterial community (2 %). The results of this study provide information that will enable a better understanding of the interaction between the bacterial community of lakes and changes in chemical properties as a result of nutrient importation from the surrounding watershed.

Published

2016

44. Ultramicrobacteria from Nitrate- and Radionuclide-Contaminated Groundwater

Author

A. B. Poltaraus, Kenji Kato, Alexander P. Novikov, Denis S. Grouzdev, Alexey Safonov, Tamara N. Nazina, Nadezhda K. Kostryukova, Tatyana P. Tourova, Diyana S. Sokolova, Elena V. Zakharova, Nikolai V. Ravin, Ruslan R. Abdullin, T. L. Babich, Stepan N. Kalmykov, Andrey V. Mardanov, and Vitaly V. Kadnikov

Subjects

chryseobacterium, Thaumarchaeota, lcsh:TJ807-830, Geography, Planning and Development, Microbacterium, lcsh:Renewable energy sources, ultramicrobacteria, Chryseobacterium, Management, Monitoring, Policy and Law, salinibacterium, 03 medical and health sciences, chemistry.chemical_compound, Nitrate, Pusillimonas, Ultramicrobacteria, nitrate- and radionuclide-contaminated groundwater, Salinibacterium, lcsh:Environmental sciences, 030304 developmental biology, lcsh:GE1-350, 0303 health sciences, biology, 030306 microbiology, Renewable Energy, Sustainability and the Environment, Phylum, Chemistry, lcsh:Environmental effects of industries and plants, Janibacter, biology.organism_classification, Roseomonas, lcsh:TD194-195, pyrosequencing, Environmental chemistry, pusillimonas, 16S rRNA gene, janibacter, Polynucleobacter

Abstract

The goal of the present work was to investigate the physicochemical and radiochemical conditions and the microbial diversity in groundwater collected near the Lake Karachai (Russia), which was formerly used for the disposal of liquid radioactive waste, to isolate the dominant bacteria, and to determine their taxonomy and the physiological characteristics responsible for their adaptation to this environment. Groundwater samples contained high concentrations of acetate, oxalate, nitrate, and sulfate, as well as radionuclides. High-throughput sequencing and analysis of the clone libraries revealed lower microbial diversity in the most strongly contaminated groundwater and a predominance of bacteria of the genera Polynucleobacter, Pusillimonas, Candidatus Pelagibacter, and of the candidate phylum Parcubacteria, these groups include species with an ultra small cell size. Archaeal sequences in the libraries belonged to ammonium oxidizers of the phylum Thaumarchaeota and methanogens of the phylum Euryarchaeota. Pure cultures of obligate and facultative ultramicrobacteria belonging to the genera Chryseobacterium, Microbacterium, Salinibacterium, Pusillimonas, Roseomonas, and Janibacter were isolated from water samples. In genomes of Pusillimonas and Roseomonas strains the genes associated with nitrate reduction, resistance to heavy metals and metalloids were revealed. Several isolates are able to participate in the geochemical process of nitrate conversion to N2 using acetate, this results in decreasing redox potential, which in turn may stimulate radionuclide reduction and decrease radionuclide migration in groundwater.

Published

2020

45. Antibiotic resistome profile based on metagenomics in raw surface drinking water source and the influence of environmental factor: A case study in Huaihe River Basin, China

Author

Xiaohong Ruan, Zhongyue Yan, Xianchuan Xie, and Ying Bai

Subjects

Pollution, China, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Drainage basin, Aquifer, 010501 environmental sciences, Toxicology, beta-Lactams, 01 natural sciences, Flavobacterium, Bacitracin, Rivers, Verrucomicrobia, Humans, 0105 earth and related environmental sciences, media_common, geography, geography.geographical_feature_category, biology, Ecology, Burkholderiaceae, Drinking Water, Microbiota, Drug Resistance, Microbial, General Medicine, biology.organism_classification, Resistome, Anti-Bacterial Agents, Water resources, Microbial population biology, Metagenomics, Genes, Bacterial, Tetracyclines, Environmental science, Polynucleobacter

Abstract

The contamination with antibiotic resistance genes (ARGs) in raw drinking water source may pose a direct threat to human health. In this study, metagenomics sequencing and analysis were applied to investigate the ARG pattern in 12 drinking water sources in upper and middle reach of Huaihe River Basin, China. Based on the redundant analysis and multi-linear regression model, location, specific microbial taxa, number of livestock and health facilities significantly influenced the ARG profile in drinking water sources. Besides the cluster effect of ARG in samples from plain and bedrock mountain areas, the samples from fracture aquifer areas also showed a distinctive biogeographic pattern with that from porous aquifer areas. Putative ARGs host Opitutus and Flavobacterium were the enriched biomarkers in plain and fracture aquifer area respectively, which mainly carried bacitracin, multidrug, beta-lactam and tetracycline ARGs. This result illuminated that both natural background and anthropogenic activities in the watershed influenced the ARG profile in natural freshwater system significantly. The low MGEs abundance and absence of pathogen revealed a low ARG dissemination risk in sampled drinking water sources, while Polynucleobacter was an abundant ARGs host and was significantly related to the ARG profile, which indicated that specific bacteria was responsible for ARGs propagation and accumulation in surface freshwater system. Further researches are needed to assess human exposure to raw drinking water source and the potential risk, as well as the species interaction in microbial community and its impact on ARG propagation under oligotrophic condition.

Published

2018

46. Polynucleobacter meluiroseus sp. nov., a bacterium isolated from a lake located in the mountains of the Mediterranean island of Corsica

Author

Elke Lang, Johanna Schmidt, Martin W. Hahn, William B. Whitman, Alexandra Pitt, and Tanja Woyke

Subjects

0301 basic medicine, DNA, Bacterial, Species complex, 16S, freshwater lake, cryptic species complex, Genome, Microbiology, DNA sequencing, Article, 03 medical and health sciences, Mediterranean Islands, Phylogenetics, RNA, Ribosomal, 16S, Genetics, Indel, Genome size, genome, Ecology, Evolution, Behavior and Systematics, Phylogeny, Ribosomal, Islands, Base Composition, Evolutionary Biology, biology, Phylogenetic tree, whole genome average nucleotide identity, Burkholderiaceae, Pigmentation, Human Genome, Bacterial, General Medicine, Sequence Analysis, DNA, DNA, biology.organism_classification, Bacterial Typing Techniques, Lakes, 030104 developmental biology, Medical Microbiology, Polynucleobacter, RNA, France, Sequence Analysis

Abstract

Strain AP-Melu-1000-B4 was isolated from a lake located in the mountains of the Mediterranean island of Corsica (France). Phenotypic, chemotaxonomic and genomic traits were investigated. Phylogenetic analyses based on 16S rRNA gene sequencing referred the strain to the cryptic species complex PnecC within the genus Polynucleobacter . The strain encoded genes for biosynthesis of proteorhodopsin and retinal. When pelleted by centrifugation the strain showed an intense rose colouring. Major fatty acids were C16 : 1ω7c, C16 : 0, C18 : 1ω7c and summed feature 2 (C16 : 1 isoI and C14 : 0-3OH). The sequence of the 16S rRNA gene contained an indel which was not present in any previously described Polynucleobacter species. Genome sequencing revealed a genome size of 1.89 Mbp and a G+C content of 46.6 mol%. In order to resolve the phylogenetic position of the new strain within subcluster PnecC, its phylogeny was reconstructed from sequences of 319 shared genes. To represent all currently described Polynucleobacter species by whole genome sequences, three type strains were additionally sequenced. Our phylogenetic analysis revealed that strain AP-Melu-100-B4 occupied a basal position compared with previously described PnecC strains. Pairwise determined whole genome average nucleotide identity (gANI) values suggested that strain AP-Melu-1000-B4 represents a new species, for which we propose the name Polynucleobacter meluiroseus sp. nov. with the type strain AP-Melu-1000-B4T (=DSM 103591T=CIP 111329T)

Published

2018

47. Succession of Bacterial Communities in a Seasonally Stratified Lake with an Anoxic and Sulfidic Hypolimnion

Author

Muhe Diao, Karsten Kalbitz, Jef Huisman, Gerard Muyzer, Ruben Sinnige, Freshwater and Marine Ecology (IBED, FNWI), and Ecosystem and Landscape Dynamics (IBED, FNWI)

Subjects

0301 basic medicine, Microbiology (medical), Biogeochemical cycle, stratified lake, lcsh:QR1-502, ecological succession, Microbiology, lcsh:Microbiology, 03 medical and health sciences, co-occurrence analysis, 16S Amplicon sequencing, Epilimnion, Gammaproteobacteria, 14. Life underwater, Betaproteobacteria, Original Research, Epsilonproteobacteria, biology, Ecology, anoxia, 15. Life on land, biology.organism_classification, Anoxic waters, 6. Clean water, freshwater bacteria, 030104 developmental biology, 13. Climate action, Environmental science, Hypolimnion, Polynucleobacter

Abstract

Although bacteria play key roles in aquatic food webs and biogeochemical cycles, information on the seasonal succession of bacterial communities in lakes is still far from complete. Here, we report results of an integrative study on the successional trajectories of bacterial communities in a seasonally stratified lake with an anoxic hypolimnion. The bacterial community composition of epilimnion, metalimnion, and hypolimnion diverged during summer stratification and converged when the lake was mixed. In contrast, bacterial communities in the sediment remained relatively stable over the year. Phototrophic Cyanobacteria and heterotrophic Actinobacteria, Alphaproteobacteria and Planktomycetes were abundant in the aerobic epilimnion, Gammaproteobacteria (mainly Chromatiaceae) dominated in the metalimnion, and Chlorobi, Betaproteobacteria, Deltaproteobacteria, and Firmicutes were abundant in the anoxic sulfidic hypolimnion. Anoxic but nonsulfidic conditions expanded to the surface layer during fall turnover, when the epilimnion, metalimnion and upper hypolimnion mixed. During this period, phototrophic sulfur bacteria (Chromatiaceae and Chlorobi) disappeared, Polynucleobacter (Betaproteobacteria) and Methylobacter (Gammaproteobacteria) spread out from the former meta- and hypolimnion to the surface layer, and Epsilonproteobacteria dominated in the bottom water layer. Cyanobacteria and Planktomycetes regained dominance in early spring, after the oxygen concentration was restored by winter mixing. In total, these results show large spatio-temporal changes in bacterial community composition, especially during transitions from oxic to anoxic and from sulfidic to nonsulfidic conditions.

Published

2017

48. Polynucleobacter aenigmaticus sp. nov. isolated from the permanently anoxic monimolimnion of a temperate meromictic lake

Author

Johanna Schmidt, Gerlinde Karbon, Martin W. Hahn, Ulrike Koll, and Elke Lang

Subjects

0301 basic medicine, DNA, Bacterial, Species complex, Sequence analysis, Microbiology, Article, 03 medical and health sciences, RNA, Ribosomal, 16S, Genome size, Ecology, Evolution, Behavior and Systematics, Phylogeny, Genetics, Strain (chemistry), biology, Phylogenetic tree, Burkholderiaceae, Fatty Acids, General Medicine, Sequence Analysis, DNA, 16S ribosomal RNA, biology.organism_classification, Bacterial Typing Techniques, Lakes, 030104 developmental biology, Genes, Bacterial, Austria, Polynucleobacter necessarius, Polynucleobacter, Multilocus Sequence Typing

Abstract

The bacterial strain MWH-K35W1T was isolated from a permanently anoxic water layer of a meromictic lake located in the Austrian Salzkammergut area. The basically chemo-organoheterotrophic strain was isolated and maintained under aerobic conditions. Phylogenetic analyses of the 16S rRNA gene and the glutamine synthetase gene (glnA) of the strain suggested an affiliation to the genus Polynucleobacter and the cryptic species complex PnecC. Strain MWH-K35W1T shares with the type strains of the six free-living species of the genus Polynucleobacter affiliated with this species complex 16S rRNA gene sequence similarities of 99.6–99.9 %, while the type material of the obligate endosymbiont Polynucleobacter necessarius, which is also affiliated with this species complex, shares a gene sequence similarity of 99.1 %. Genome sequencing resulted in a genome size of 2.14 Mbp and a DNA G+C content of 45.98 mol%. Major fatty acids were C16 : 1ω7c, C18 : 1ω7c and C16 : 0. This strain is the first strain of the genus Polynucleobacter found to encode a proteorhodopsin-like protein but, in contrast to some other strains affiliated to this genus, it does not encode a putative anoxygenic photosynthesis system. Multilocus sequence analysis based on partial sequences of eight housekeeping genes, as well as average nucleotide identity (ANI) analyses, did not suggest that strain MWH-K35W1T belongs to a previously described species. We propose the name Polynucleobacter aenigmaticus for a novel species with strain MWH-K35W1T (=DSM 24006T=LMG 29706T) as the type strain.

Published

2017

49. A snapshot on prokaryotic diversity of the Solimões River basin (Amazon, Brazil)

Author

Luciano Takeshi Kishi, Célio Dias Santos-Júnior, J W Garcia, T C S Oliveira, Hugo Sarmento, Fernando Pellon de Miranda, Danyelle Toyama, and Flávio Henrique-Silva

Subjects

0106 biological sciences, Thaumarchaeota, Drainage basin, Biodiversity, 010603 evolutionary biology, 01 natural sciences, Diversity index, Rivers, RNA, Ribosomal, 16S, Genetics, Molecular Biology, geography, geography.geographical_feature_category, biology, Bacteria, Ecology, Amazon rainforest, 010604 marine biology & hydrobiology, Microbiota, fungi, General Medicine, respiratory system, biology.organism_classification, Archaea, Lakes, Taxon, Alpha diversity, human activities, Brazil, Polynucleobacter

Abstract

The Amazon region has the largest hydrographic basin on the planet and is well known for its huge biodiversity of plants and animals. However, there is a lack of studies on aquatic microbial biodiversity in the Solimoes River, one of its main water courses. To investigate the microbial biodiversity of this region, we performed 16S rRNA gene clone libraries from Solimoes River and adjacent rivers and lakes. Our question was which microorganisms inhabit the different types of aquatic environments in this part of the basin, and how diversity varies among these environments (rivers and lakes). The microbial diversity generating 13 clone libraries of the bacterial 16S rRNA gene and 5 libraries of the archaeal 16S rRNA gene was assessed. Diversity measured by several alpha diversity indices (ACE, Chao, Shannon and Simpson) revealed significant differences in diversity indices between lake and river samples. The site with higher microbial diversity was in the Solimoes River (4S), downstream the confluence with Purus River. The most common bacterial taxon was the cosmopolitan Polynucleobacter genus, widely observed in all samples. The phylum Thaumarchaeota was the prevailing archaeal taxon. Our results provide the first insight into the microbial diversity of the world's largest river basin.

Published

2017

50. Contribution of aerobic anoxygenic phototrophic bacteria to total organic carbon pool in aquatic system of subtropical karst catchments, Southwest China: evidence from hydrochemical and microbiological study

Author

Ang Song, Qiang Li, Zhen-Jiang Jin, Werner E.G. Müller, Wenjie Peng, and Xiaohong Wang

Subjects

0301 basic medicine, Aquatic Organisms, China, Nitrogen, 030106 microbiology, Biology, Global Warming, Applied Microbiology and Biotechnology, Microbiology, Carbon cycle, 03 medical and health sciences, RNA, Ribosomal, 16S, Groundwater, Total organic carbon, Ecology, Aquatic ecosystem, Betaproteobacteria, Bacterioplankton, biology.organism_classification, Carbon, Bacteria, Aerobic, Oxygen, Phototrophic Processes, 030104 developmental biology, Aerobic anoxygenic phototrophic bacteria, Proteobacteria, Bacteria, Polynucleobacter

Abstract

Aerobic anoxygenic phototrophic bacteria may play a particular role in carbon cycling of aquatic systems. However, little is known about the interaction between aerobic anoxygenic phototrophic bacteria and hydrochemistry in groundwater-surface water exchange systems of subtropical karst catchments. We carried out a detailed study on the abundance of aerobic anoxygenic phototrophic bacteria and bacterioplankton, hydrochemistry and taxonomy of bacterioplankton in the Maocun watershed, Southwest China, an area with karst geological background. Our results revealed that bacteria are the important contributors to total organic carbon source/sequestration in the groundwater-surface water of this area. The aerobic anoxygenic phototrophic bacteria, including β-Proteobacteria, also appear in the studied water system. In addition to that, the genus Polynucleobacter of the phototropic β-Proteobacteria shows a close link with those sampling sites by presenting bacterial origin organic carbon on CCA biplot and is found to be positively correlated with total nitrogen, dissolved oxygen and pH (r = 0.860, 0.747 and 0.813, respectively) in the Maocun watershed. The results suggest that Polynucleobacter might be involved in the production of organic carbon and might act as the negative feedback on global warming.

Published

2017