Characterization of the microbial community of lotic organic aggregates (‘river snow’) in the Elbe River of Germany by cultivation and molecular methods

Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity and physiological versatility of lotic microbial aggregates (‘river snow’) obtained from the river Elbe. In the course of the year the ‘river...

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Published in	FEMS microbiology ecology Vol. 33; no. 2; pp. 157 - 170
Main Authors	Böckelmann, Uta, Manz, Werner, Neu, Thomas R., Szewzyk, Ulrich
Format	Journal Article
Language	English
Published	Oxford Elsevier B.V 01.08.2000 Blackwell
Subjects	Animal, plant and microbial ecology Biological and medical sciences Cultivation Fluorescent in situ hybridization Freshwater Fundamental and applied biological sciences. Psychology Lotic system Microbial dynamics Microbial ecology Molecular microbial ecology River Elbe River snow Various environments (extraatmospheric space, air, water) Europe Germany Molecular microbial ecology Lotic system Cultivation Fluorescent in situ hybridization River Elbe Microbial dynamics River snow Genetic variability Algae Ribosomal DNA Population structure Phylogeny Biodiversity Freshwater environment Seasonal variation 16S-RNA Bacteria Stream Aggregate Microbial community Thallophyta
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Abstract	Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity and physiological versatility of lotic microbial aggregates (‘river snow’) obtained from the river Elbe. In the course of the year the ‘river snow’ community changed. It was characterized by a great bacterial diversity in spring, the predominant occurrence of algae in summer and reduction of the total bacterial cell count in autumn and winter. In all ‘river snow’ samples, more than 70% of the bacteria counted with the general DNA stain DAPI also hybridized with the Bacteria-specific probe EUB338. In situ analysis of the bacterial ‘river snow’ community with a comprehensive suite of specific rRNA-targeted probes revealed population dynamics to be governed by seasonal factors. During all seasons, β- Proteobacteria constituted the numerically most important bacterial group forming up to 54% of the total cell counts. In contrast to this, the relative abundance of other major bacterial lineages ranged from 2% for the order Planctomycetales to 36% for Cytophaga- Flavobacteria. Cultivation of ‘river snow’ under aerobic and anaerobic conditions with a variety of different media resulted in the isolation of 40 new bacterial strains. Phenotypic and phylogenetic analyses revealed these new strains to be mostly unknown organisms affiliated to different bacterial phyla. Application of newly developed specific oligonucleotide probes proved the cultivated bacteria, including clostridia and the numerically abundant β- Proteobacteria, as relevant in situ members of the ‘river snow’ community.
AbstractList	Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity and physiological versatility of lotic microbial aggregates ('river snow') obtained from the river Elbe. In the course of the year the 'river snow' community changed. It was characterized by a great bacterial diversity in spring, the predominant occurrence of algae in summer and reduction of the total bacterial cell count in autumn and winter. In all 'river snow' samples, more than 70% of the bacteria counted with the general DNA stain DAPI also hybridized with the Bacteria-specific probe EUB338. In situ analysis of the bacterial 'river snow' community with a comprehensive suite of specific rRNA-targeted probes revealed population dynamics to be governed by seasonal factors. During all seasons, beta-Proteobacteria constituted the numerically most important bacterial group forming up to 54% of the total cell counts. In contrast to this, the relative abundance of other major bacterial lineages ranged from 2% for the order Planctomycetales to 36% for Cytophaga-Flavobacteria. Cultivation of 'river snow' under aerobic and anaerobic conditions with a variety of different media resulted in the isolation of 40 new bacterial strains. Phenotypic and phylogenetic analyses revealed these new strains to be mostly unknown organisms affiliated to different bacterial phyla. Application of newly developed specific oligonucleotide probes proved the cultivated bacteria, including clostridia and the numerically abundant beta-Proteobacteria, as relevant in situ members of the 'river snow' community. Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity and physiological versatility of lotic microbial aggregates ('river snow') obtained from the river Elbe. In the course of the year the 'river snow' community changed. It was characterized by a great bacterial diversity in spring, the predominant occurrence of algae in summer and reduction of the total bacterial cell count in autumn and winter. In all 'river snow' samples, more than 70% of the bacteria counted with the general DNA stain DAPI also hybridized with the Bacteria-specific probe UEB338. In situ analysis of the bacterial 'river snow' community with a comprehensive suite of specific rRNA-targeted probes revealed population dynamics to be governed by seasonal factors. During all seasons, beta -Proteobacteria constituted the numerically most important bacterial group forming up to 54% of the total cells counts. In contrast to this, the relative abundance of other major bacterial lineages ranged from 2% for the order Planctomycetales to 36% for Cytophaga-Flavobacteria. Cultivation of 'river snow' under aerobic and anaerobic conditions with a variety of different media resulted in the isolation of 40 new bacterial strains. Phenotypic and phylogenetic analyses revealed these new strains to be mostly unknown organisms affiliated to different bacterial phyla. Application of newly developed specific oligonucleotide probes proved the cultivated bacteria, including clostridia and the numerically abundant beta -Proteobacteria, as relevant in situ members of the 'river snow' community. Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity and physiological versatility of lotic microbial aggregates (‘river snow’) obtained from the river Elbe. In the course of the year the ‘river snow’ community changed. It was characterized by a great bacterial diversity in spring, the predominant occurrence of algae in summer and reduction of the total bacterial cell count in autumn and winter. In all ‘river snow’ samples, more than 70% of the bacteria counted with the general DNA stain DAPI also hybridized with the Bacteria-specific probe EUB338. In situ analysis of the bacterial ‘river snow’ community with a comprehensive suite of specific rRNA-targeted probes revealed population dynamics to be governed by seasonal factors. During all seasons, β- Proteobacteria constituted the numerically most important bacterial group forming up to 54% of the total cell counts. In contrast to this, the relative abundance of other major bacterial lineages ranged from 2% for the order Planctomycetales to 36% for Cytophaga- Flavobacteria. Cultivation of ‘river snow’ under aerobic and anaerobic conditions with a variety of different media resulted in the isolation of 40 new bacterial strains. Phenotypic and phylogenetic analyses revealed these new strains to be mostly unknown organisms affiliated to different bacterial phyla. Application of newly developed specific oligonucleotide probes proved the cultivated bacteria, including clostridia and the numerically abundant β- Proteobacteria, as relevant in situ members of the ‘river snow’ community.
Author	Böckelmann, Uta Manz, Werner Szewzyk, Ulrich Neu, Thomas R.
Author_xml	– sequence: 1 givenname: Uta surname: Böckelmann fullname: Böckelmann, Uta organization: Technische Universität Berlin, Institut für Technischen Umweltschutz, Fachgebiet Ökologie der Mikroorganismen, Sekretariat OE 5, Franklinstraße 29, D-10587 Berlin, Germany – sequence: 2 givenname: Werner surname: Manz fullname: Manz, Werner email: manz0654@mailszrz.zrz.tu-berlin.de organization: Technische Universität Berlin, Institut für Technischen Umweltschutz, Fachgebiet Ökologie der Mikroorganismen, Sekretariat OE 5, Franklinstraße 29, D-10587 Berlin, Germany – sequence: 3 givenname: Thomas R. surname: Neu fullname: Neu, Thomas R. organization: UFZ Umweltforschungszentrum Leipzig-Halle, Sektion Gewässerforschung Magdeburg, D-39114 Magdeburg, Germany – sequence: 4 givenname: Ulrich surname: Szewzyk fullname: Szewzyk, Ulrich organization: Technische Universität Berlin, Institut für Technischen Umweltschutz, Fachgebiet Ökologie der Mikroorganismen, Sekretariat OE 5, Franklinstraße 29, D-10587 Berlin, Germany
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Keywords	Molecular microbial ecology Lotic system Cultivation Fluorescent in situ hybridization River Elbe Microbial dynamics River snow Genetic variability Algae Ribosomal DNA Population structure Phylogeny Biodiversity Freshwater environment Seasonal variation 16S-RNA Bacteria Stream Aggregate Microbial community Thallophyta
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Snippet	Aerobic and anaerobic cultivation techniques, 16S rDNA-based phylogeny, and fluorescent in situ hybridization were used to describe the phylogenetic diversity...
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SubjectTerms	Animal, plant and microbial ecology Biological and medical sciences Cultivation Fluorescent in situ hybridization Freshwater Fundamental and applied biological sciences. Psychology Lotic system Microbial dynamics Microbial ecology Molecular microbial ecology River Elbe River snow Various environments (extraatmospheric space, air, water)
Title	Characterization of the microbial community of lotic organic aggregates (‘river snow’) in the Elbe River of Germany by cultivation and molecular methods
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