Your search keyword '"Sandra P. Story"' showing total 2 results

1. Identification of Members of the Metabolically Active Microbial Populations Associated with Beggiatoa Species Mat Communities from Gulf of Mexico Cold-Seep Sediments

Author

Sandra P. Story, Heath J. Mills, Patricia A. Sobecky, and Robert J. Martinez

Subjects

Geologic Sediments, Microorganism, Molecular Sequence Data, Beggiatoa, Applied Microbiology and Biotechnology, Microbial Ecology, Botany, Seawater, Microbial mat, Mexico, Ribosomal DNA, Phylogeny, DNA Primers, Thiotrichaceae, Base Sequence, Ecology, biology, Reverse Transcriptase Polymerase Chain Reaction, biology.organism_classification, Cold seep, RNA, Bacterial, RNA, Ribosomal, Proteobacteria, Polymorphism, Restriction Fragment Length, Food Science, Biotechnology, Archaea

Abstract

In this study, the composition of the metabolically active fraction of the microbial community occurring in Gulf of Mexico marine sediments (water depth, 550 to 575 m) with overlying filamentous bacterial mats was determined. The mats were mainly composed of either orange- or white-pigmented Beggiatoa spp. Complementary 16S ribosomal DNA (crDNA) was obtained from rRNA extracted from three different sediment depths (0 to 2, 6 to 8, and 10 to 12 cm) that had been subjected to reverse transcription-PCR amplification. Domain-specific 16S PCR primers were used to construct 12 different 16S crDNA libraries containing 333 Archaea and 329 Bacteria clones. Analysis of the Archaea clones indicated that all sediment depths associated with overlying orange- and white-pigmented microbial mats were almost exclusively dominated by ANME-2 (95% of total Archaea clones), a lineage related to the methanogenic order Methanosarcinales . In contrast, bacterial diversity was considerably higher, with the dominant phylotype varying by sediment depth. An equivalent number of clones detected at 0 to 2 cm, representing a total of 93%, were related to the γ and δ classes of Proteobacteria , whereas clones related to δ- Proteobacteria dominated the metabolically active fraction of the bacterial community occurring at 6 to 8 cm (79%) and 10 to 12 cm (85%). This is the first phylogenetics-based evaluation of the presumptive metabolically active fraction of the Bacteria and Archaea community structure investigated along a sediment depth profile in the northern Gulf of Mexico, a hydrocarbon-rich cold-seep region.

Published

2004

2. Characterization of microbial community structure in Gulf of Mexico gas hydrates: comparative analysis of DNA- and RNA-derived clone libraries

Author

Sandra P. Story, Patricia A. Sobecky, Heath J. Mills, and Robert J. Martinez

Subjects

DNA, Bacterial, Geologic Sediments, Clathrate hydrate, Molecular Sequence Data, RNA, Archaeal, Applied Microbiology and Biotechnology, Microbial Ecology, Phylogenetics, RNA, Ribosomal, 16S, Botany, Seawater, Cloning, Molecular, Ecosystem, Phylogeny, Gene Library, Ecology, biology, Bacteria, Sequence Analysis, DNA, Ribosomal RNA, biology.organism_classification, 16S ribosomal RNA, Archaea, Hydrocarbons, RNA, Bacterial, DNA, Archaeal, Microbial population biology, Hydrate, Methane, Food Science, Biotechnology

Abstract

The characterization of microbial assemblages within solid gas hydrate, especially those that may be physiologically active under in situ hydrate conditions, is essential to gain a better understanding of the effects and contributions of microbial activities in Gulf of Mexico (GoM) hydrate ecosystems. In this study, the composition of the Bacteria and Archaea communities was determined by 16S rRNA phylogenetic analyses of clone libraries derived from RNA and DNA extracted from sediment-entrained hydrate (SEH) and interior hydrate (IH). The hydrate was recovered from an exposed mound located in the northern GoM continental slope with a hydrate chipper designed for use on the manned-submersible Johnson Sea Link (water depth, 550 m). Previous geochemical analyses indicated that there was increased metabolic activity in the SEH compared to the IH layer (B. N. Orcutt, A. Boetius, S. K. Lugo, I. R. Macdonald, V. A. Samarkin, and S. Joye, Chem. Geol. 205:239-251). Phylogenetic analysis of RNA- and DNA-derived clones indicated that there was greater diversity in the SEH libraries than in the IH libraries. A majority of the clones obtained from the metabolically active fraction of the microbial community were most closely related to putative sulfate-reducing bacteria and anaerobic methane-oxidizing archaea. Several novel bacterial and archaeal phylotypes for which there were no previously identified closely related cultured isolates were detected in the RNA- and DNA-derived clone libraries. This study was the first phylogenetic analysis of the metabolically active fraction of the microbial community extant in the distinct SEH and IH layers of GoM gas hydrate.

Published

2005