Statistical approaches to estimating bacterial diversity in marine sediments
Statistical approaches to estimating bacterial diversity in marine sediments
Bacterial diversity in a deep-sea sediment was investigated by constructing actinobacterium-specific 16S ribosomal DNA (rDNA) clone libraries from sediment sections taken 5 to 12, 15 to 18, and 43 to 46 cm below the sea floor at a depth of 3,814 m. Clones were placed into operational taxonomic unit (OTU) groups with 99% 16S rDNA sequence similarity; the cutoff value for an OTU was derived by comparing 16S rRNA homology with DNA-DNA reassociation values for members of the class Actinobacteria. Diversity statistics were used to determine how the level of dominance, species richness, and genetic diversity varied with sediment depth. The reciprocal of Simpson's index (1/D) indicated that the pattern of diversity shifted toward dominance from uniformity with increasing sediment depth. Nonparametric estimation of the species richness in the 5- to 12-, 15- to 18-, and 43- to 46-cm sediment sections revealed a trend of decreasing species number with depth, 1,406, 308, and 212 OTUs, respectively. Application of the LIBSHUFF program indicated that the 5- to 12-cm clone library was composed of OTUs significantly (P = 0.001) different from those of the 15- to 18- and 43- to 46-cm libraries. FST and phylogenetic grouping of taxa (P tests) were both significant (P < 0.00001 and P < 0.001, respectively), indicating that genetic diversity decreased with sediment depth and that each sediment community harbored unique phylogenetic lineages. It was also shown that even nonconservative OTU definitions result in severe underestimation of species richness; unique phylogenetic clades detected in one OTU group suggest that OTUs do not correspond to real ecological groups sensu Palys (T. Palys, L. K. Nakamura, and F. M. Cohan, Int. J. Syst. Bacteriol. 47:1145-1156, 1997). Mechanisms responsible for diversity and their implications are discussed.
6189-6200
Stach, J.E.M.
5db72cc3-c9e4-44fc-95bb-e5521cf85d2c
Maldonado, L.A.
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Masson, D.G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Ward, A.C.
1a7d9754-41d1-448c-8265-a2bfb348c9a4
Goodfellow, M.
dc826847-b76b-4fbf-924b-57562d60a3ee
Bull, A.T.
13734efa-001d-4dd9-8491-b91b75976c08
2003
Stach, J.E.M.
5db72cc3-c9e4-44fc-95bb-e5521cf85d2c
Maldonado, L.A.
971d0d00-9b0f-4fcf-902f-73f11227f4aa
Masson, D.G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Ward, A.C.
1a7d9754-41d1-448c-8265-a2bfb348c9a4
Goodfellow, M.
dc826847-b76b-4fbf-924b-57562d60a3ee
Bull, A.T.
13734efa-001d-4dd9-8491-b91b75976c08
Stach, J.E.M., Maldonado, L.A., Masson, D.G., Ward, A.C., Goodfellow, M. and Bull, A.T.
(2003)
Statistical approaches to estimating bacterial diversity in marine sediments.
Applied and Environmental Microbiology, 69 (10), .
(doi:10.1128/AEM.69.10.6189-6200.2003).
Abstract
Bacterial diversity in a deep-sea sediment was investigated by constructing actinobacterium-specific 16S ribosomal DNA (rDNA) clone libraries from sediment sections taken 5 to 12, 15 to 18, and 43 to 46 cm below the sea floor at a depth of 3,814 m. Clones were placed into operational taxonomic unit (OTU) groups with 99% 16S rDNA sequence similarity; the cutoff value for an OTU was derived by comparing 16S rRNA homology with DNA-DNA reassociation values for members of the class Actinobacteria. Diversity statistics were used to determine how the level of dominance, species richness, and genetic diversity varied with sediment depth. The reciprocal of Simpson's index (1/D) indicated that the pattern of diversity shifted toward dominance from uniformity with increasing sediment depth. Nonparametric estimation of the species richness in the 5- to 12-, 15- to 18-, and 43- to 46-cm sediment sections revealed a trend of decreasing species number with depth, 1,406, 308, and 212 OTUs, respectively. Application of the LIBSHUFF program indicated that the 5- to 12-cm clone library was composed of OTUs significantly (P = 0.001) different from those of the 15- to 18- and 43- to 46-cm libraries. FST and phylogenetic grouping of taxa (P tests) were both significant (P < 0.00001 and P < 0.001, respectively), indicating that genetic diversity decreased with sediment depth and that each sediment community harbored unique phylogenetic lineages. It was also shown that even nonconservative OTU definitions result in severe underestimation of species richness; unique phylogenetic clades detected in one OTU group suggest that OTUs do not correspond to real ecological groups sensu Palys (T. Palys, L. K. Nakamura, and F. M. Cohan, Int. J. Syst. Bacteriol. 47:1145-1156, 1997). Mechanisms responsible for diversity and their implications are discussed.
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Published date: 2003
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Local EPrints ID: 1404
URI: http://eprints.soton.ac.uk/id/eprint/1404
ISSN: 0099-2240
PURE UUID: 5b44e5e3-5d91-4bc2-9f49-298854be2249
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Date deposited: 26 Apr 2004
Last modified: 15 Mar 2024 04:43
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Author:
J.E.M. Stach
Author:
L.A. Maldonado
Author:
D.G. Masson
Author:
A.C. Ward
Author:
M. Goodfellow
Author:
A.T. Bull
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