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Creator:: Haddad, Michael Alexander
Abstract:: Symbiotic relationships of bacteria with higher organisms are commonly observed in nature; however, the functional role of these relationships is only rarely understood. This is particularly evident in epibiotic bacterial associations in the marine environment where the bacteria are often a diverse ensemble of microorganisms, thus complicating the identification of...
Resource Type:: Masters Thesis
Full Text:: the marine environment where the bacteria are often a diverse ensemble of microorganisms, thus

Creator:: Suzuki, Marcelino
Resource Type:: Dissertation
Full Text:: colony forming bacteria dominates the marine bacterioplankton. Sequence analysis of the SSU rDNA of the

Creator:: Douillet, Philippe A.
Resource Type:: Dissertation
Full Text:: ). Abstract approved: 1 Redacted for Privacy --Chris J. Lghgdon Effects of marine bacteria on axenic, algal

Creator:: Wright, Terah Diana
Resource Type:: Masters Thesis
Full Text:: of bacteria with a wide variety of metabolic capabilities are known to live in marine habitats

Creator:: Lanoil, Brian D.
Abstract:: A series of experiments was performed to determine the feasibility of genomic DNA-based methods for ecological and physiological studies of dominant bacteria from complex natural systems. Two approaches, bacterial chromosomal painting (BCP) and environmental genomics (EG), were evaluated for the potential to identify and enumerate specific bacterial groups in situ...
Resource Type:: Dissertation

Creator:: Britschgi, Theresa Baden
Abstract:: The objective of this project was to use ribosomal RNA genes, cloned from natural populations of Sargasso Sea bacterioplankton, as markers for picoplankton diversity. It is widely recognised that a majority of microorganisms have yet to be cultivated, and therefore much of extant microbial diversity remains unknown (50). The method...
Resource Type:: Masters Thesis
Full Text:: structure within bacterial species, suggests that populations of marine bacteria are very ancient. An

Creator:: Rappé, Michael Stephen
Abstract:: The phylogenetic diversity of two continental shelf picoplankton communities was examined by analyzing SSU (16S) ribosomal RNA (rRNA) genes amplified from environmental DNA with bacterial-specific primers and the polymerase chain reaction (PCR). Picoplankton populations collected from the pycnocline (10 m) over the eastern continental shelf of the United States near...
Resource Type:: Dissertation
Full Text:: role heterotrophic bacteria play in marine food webs and oceanic biogeochemical cycles has received

ScholarsArchive@OSU