2006
DOI: 10.1111/j.1574-6941.2006.00049.x
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Multivariate analysis of microbial communities in the River Elbe (Germany) on different phylogenetic and spatial levels of resolution

Abstract: The microbial communities of three different habitat types and from two sediment depths in the River Elbe were investigated by fluorescence in situ hybridization at various levels of complexity. Differences in the microbial community composition of free-flowing river water, water within the hyporheic interstitial and sediment-associated bacteria were quantitatively analyzed using domain- and group-specific oligonucleotide probes. Qualitative data on the presence/absence of specific bacterial taxa were gathered… Show more

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Cited by 15 publications
(10 citation statements)
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“…We provide additional evidence that molecular techniques, such as TRFLP, were useful in testing hypotheses on seasonal community composition and physicochemical parameters (Battin, 2000;Feris et al, 2003a;Findlay et al, 2003). Some evidence suggests a clear separation in microbial community composition between sediment, river, and hyporheic water (Kloep et al, 2006), however, we show that the use of colonization corers to collect integrated sediment samples reflect the subsurface dynamics that occurred at each site. This approach ensures that the communities described using molecular techniques accurately represent bacteria that have colonized the cores as opposed to lysed or dead bacterial cells among the sediments.…”
Section: Sediment Microbial Communities and Seasonal Physicochemistrymentioning
confidence: 77%
“…We provide additional evidence that molecular techniques, such as TRFLP, were useful in testing hypotheses on seasonal community composition and physicochemical parameters (Battin, 2000;Feris et al, 2003a;Findlay et al, 2003). Some evidence suggests a clear separation in microbial community composition between sediment, river, and hyporheic water (Kloep et al, 2006), however, we show that the use of colonization corers to collect integrated sediment samples reflect the subsurface dynamics that occurred at each site. This approach ensures that the communities described using molecular techniques accurately represent bacteria that have colonized the cores as opposed to lysed or dead bacterial cells among the sediments.…”
Section: Sediment Microbial Communities and Seasonal Physicochemistrymentioning
confidence: 77%
“…Whole-cell hybridization techniques have routinely been applied for the molecular characterization of complex microbial communities for more than a decade, and they also provide quantitative data on the cellular level in terms of relative or even absolute abundances of selected populations (3). Recently, FISH analysis was also adapted to the characterization of microbial communities in lotic freshwater sediments (15,17). Moreover, identical RNA-targeting probes can be used in both formats, enabling high comparability of the two data sets.…”
Section: Vol 72 2006 Dna Microarray Analysis Of Sediment-related Bamentioning
confidence: 99%
“…, 2005), in the hyporheic zone (Feris et al. , 2004; Kloep et al. , 2006) or on leaf litter (this study).…”
Section: Discussionmentioning
confidence: 55%
“…However, the catchment influence is often masked by in‐stream variation of microbial communities among habitats. Thus, bacterial community structure in river sediments strongly varies with sediment depth, clearly indicating habitat‐specific impacts while, on a large‐scale over several hundred kilometres, variation in bacterial community structure in the upper sediment layer was minor (Kloep et al. , 2006).…”
Section: Discussionmentioning
confidence: 99%
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