Abstract
The bacterial communities of sponges have been studied using molecular techniques as well as culture-based techniques, but the communities described by these two methods are remarkably distinct. Culture-based methods describe communities dominated by Proteobacteria, and Actinomycetes while molecular methods describe communities dominated by predominantly uncultivated groups such as the Chloroflexi, Acidobacteria, and Acidimicrobidae. In this study, we used a wide range of culture media to increase the diversity of cultivable bacteria from the closely related giant barrel sponges, Xestospongia muta collected from the Florida Keys, Atlantic Ocean and Xestospongia testudinaria, collected from Indonesia, Pacific Ocean. Over 400 pure cultures were isolated and identified from X. muta and X. testudinaria and over 90 bacterial species were represented. Over 16,000 pyrosequences were analyzed and assigned to 976 OTUs. We employed both cultured-based methods and pyrosequencing to look for patterns of overlap between the culturable and molecular communities. Only one OTU was found in both the molecular and culturable communities, revealing limitations inherent in both approaches.
Highlights
Marine sponges (Phylum Porifera) and their microbial symbionts have garnered great interest in recent decades
We found that only one operational taxonomic units (OTUs), classified as a Gammaproteobacteria, was present in the cultured and non-cultured bacterial community of Materials and Methods
From X. testudinaria samples, 50 isolates from three isolation media were identified from 5 sponges collected in 2005
Summary
Marine sponges (Phylum Porifera) and their microbial symbionts have garnered great interest in recent decades Two reasons for this interest are 1) the study of sponge-microbe interactions as a model of complex symbioses and 2) pharmaceutical leads from natural products derived from sponges [1]. Several studies have contributed to sponge symbiont function including nitrogen cycling [1,4,5,6], carbon fixation, and vitamin B12 metabolism [7,8]. All of these studies suggest bacteria living in association with sponges can provide specific nutrients.
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