Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor

Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor

Seabed sediments of commercial ports are often characterized by high pollution levels. Differences in number and distribution of bacteria in such areas can be related to distribution of pollutants in the port and to sediment conditions. In this study, the bacterial communities of five sites from Leg...

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Main Authors: Carolina Chiellini, Renato Iannelli, Franco Verni, Giulio Petroni
Format: Article
Language:English
Published: Hindawi Limited 2013-01-01
Series:The Scientific World Journal
Online Access:http://dx.doi.org/10.1155/2013/165706
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spelling doaj-6dd246034d0b4bfd97ef47c8bf2810392020-11-24T21:28:52ZengHindawi LimitedThe Scientific World Journal1537-744X2013-01-01201310.1155/2013/165706165706Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn HarborCarolina Chiellini0Renato Iannelli1Franco Verni2Giulio Petroni3Department of Biology, Unit of Protistology-Zoology, University of Pisa, via Luca Ghini 13, 56126 Pisa, ItalyDepartment of Engineering for Energy, Systems, Territory and Constructions, University of Pisa, via Carlo Francesco Gabba 22, 56122 Pisa, ItalyDepartment of Biology, Unit of Protistology-Zoology, University of Pisa, via Luca Ghini 13, 56126 Pisa, ItalyDepartment of Biology, Unit of Protistology-Zoology, University of Pisa, via Luca Ghini 13, 56126 Pisa, ItalySeabed sediments of commercial ports are often characterized by high pollution levels. Differences in number and distribution of bacteria in such areas can be related to distribution of pollutants in the port and to sediment conditions. In this study, the bacterial communities of five sites from Leghorn Harbor seabed were characterized, and the main bacterial groups were identified. T-RFLP was used for all samples; two 16S rRNA libraries and in silico digestion of clones were used to identify fingerprint profiles. Library data, phylogenetic analysis, and T-RFLP coupled with in silico digestion of the obtained sequences evidenced the dominance of Proteobacteria and the high percentage of Bacteroidetes in all sites. The approach highlighted similar bacterial communities between samples coming from the five sites, suggesting a modest differentiation among bacterial communities of different harbor seabed sediments and hence the capacity of bacterial communities to adapt to different levels and types of pollution.http://dx.doi.org/10.1155/2013/165706
collection DOAJ
language English
format Article
sources DOAJ
author Carolina Chiellini
Renato Iannelli
Franco Verni
Giulio Petroni
spellingShingle Carolina Chiellini
Renato Iannelli
Franco Verni
Giulio Petroni
Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
The Scientific World Journal
author_facet Carolina Chiellini
Renato Iannelli
Franco Verni
Giulio Petroni
author_sort Carolina Chiellini
title Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
title_short Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
title_full Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
title_fullStr Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
title_full_unstemmed Bacterial Communities in Polluted Seabed Sediments: A Molecular Biology Assay in Leghorn Harbor
title_sort bacterial communities in polluted seabed sediments: a molecular biology assay in leghorn harbor
publisher Hindawi Limited
series The Scientific World Journal
issn 1537-744X
publishDate 2013-01-01
description Seabed sediments of commercial ports are often characterized by high pollution levels. Differences in number and distribution of bacteria in such areas can be related to distribution of pollutants in the port and to sediment conditions. In this study, the bacterial communities of five sites from Leghorn Harbor seabed were characterized, and the main bacterial groups were identified. T-RFLP was used for all samples; two 16S rRNA libraries and in silico digestion of clones were used to identify fingerprint profiles. Library data, phylogenetic analysis, and T-RFLP coupled with in silico digestion of the obtained sequences evidenced the dominance of Proteobacteria and the high percentage of Bacteroidetes in all sites. The approach highlighted similar bacterial communities between samples coming from the five sites, suggesting a modest differentiation among bacterial communities of different harbor seabed sediments and hence the capacity of bacterial communities to adapt to different levels and types of pollution.
url http://dx.doi.org/10.1155/2013/165706
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AT renatoiannelli bacterialcommunitiesinpollutedseabedsedimentsamolecularbiologyassayinleghornharbor
AT francoverni bacterialcommunitiesinpollutedseabedsedimentsamolecularbiologyassayinleghornharbor
AT giuliopetroni bacterialcommunitiesinpollutedseabedsedimentsamolecularbiologyassayinleghornharbor
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