UGent Biblio |

UGent Biblio

Matches in UGent Biblio for { <https://biblio.ugent.be/publication/2112140#aggregation> ?p ?o. }

Showing items 1 to 39 of 39 with 100 items per page.

aggregation classification "A1".
aggregation creator B452380.
aggregation creator B452381.
aggregation creator B452382.
aggregation creator person.
aggregation creator person.
aggregation creator person.
aggregation creator person.
aggregation date "2012".
aggregation format "application/pdf".
aggregation hasFormat 2112140.bibtex.
aggregation hasFormat 2112140.csv.
aggregation hasFormat 2112140.dc.
aggregation hasFormat 2112140.didl.
aggregation hasFormat 2112140.doc.
aggregation hasFormat 2112140.json.
aggregation hasFormat 2112140.mets.
aggregation hasFormat 2112140.mods.
aggregation hasFormat 2112140.rdf.
aggregation hasFormat 2112140.ris.
aggregation hasFormat 2112140.txt.
aggregation hasFormat 2112140.xls.
aggregation hasFormat 2112140.yaml.
aggregation isPartOf urn:issn:0722-4060.
aggregation language "eng".
aggregation rights "I have transferred the copyright for this publication to the publisher".
aggregation subject "Biology and Life Sciences".
aggregation title "Heterotrophic bacterial diversity in aquatic microbial mat communities from Antarctica".
aggregation abstract "Heterotrophic bacteria isolated from five aquatic microbial mat samples from different locations in continental Antarctica and the Antarctic Peninsula were compared to assess their biodiversity. A total of 2,225 isolates obtained on different media and at different temperatures were included. After an initial grouping by whole-genome fingerprinting, partial 16S rRNA gene sequence analysis was used for further identification. These results were compared with previously published data obtained with the same methodology from terrestrial and aquatic microbial mat samples from two additional Antarctic regions. The phylotypes recovered in all these samples belonged to five major phyla, Actinobacteria, Bacteroidetes, Proteobacteria, Firmicutes and Deinococcus-Thermus, and included several potentially new taxa. Ordination analyses were performed in order to explore the variance in the diversity of the samples at genus level. Habitat type (terrestrial vs. aquatic) and specific conductivity in the lacustrine systems significantly explained the variation in bacterial community structure. Comparison of the phylotypes with sequences from public databases showed that a considerable proportion (36.9%) is currently known only from Antarctica. This suggests that in Antarctica, both cosmopolitan taxa and taxa with limited dispersal and a history of long-term isolated evolution occur.".
aggregation authorList BK787449.
aggregation endPage "554".
aggregation issue "4".
aggregation startPage "543".
aggregation volume "35".
aggregation aggregates 2112194.
aggregation aggregates 2118064.
aggregation isDescribedBy 2112140.
aggregation similarTo s00300-011-1100-4.
aggregation similarTo LU-2112140.