Project description:Spongia officinalis overview

Project description:Spongia lamella

Project description:Spongia officinalis Raw sequence reads

Project description:Spongia lamella genome assembly, odSpoOffi2

Project description:Microbial metagenomes of Spongia agaricina

Project description:Spongia lamella, genomic and transcriptomic data

Project description:Spongia lamella genome assembly, odSpoOffi2, alternate haplotype

Project description:Microbial metagenome sequencing from marine sponges (Spongia sp.), seawater and sediments

Project description:Genome sequences of bacteria isolated from the marine sponge Spongia officinalis on R2A medium

Project description:The intra-specific diversity in secondary metabolites can provide crucial information for understanding species ecology and evolution but has received limited attention in marine chemical ecology. The complex nature of diversity is partially responsible for the lack of studies, which often target a narrow number of major compounds. Here, we investigated the intra-specific chemical diversity of the Mediterranean sponge Spongia lamella. The chemical profiles of seven populations spreading over 1200 km in the Western Mediterranean were obtained by a straightforward SPE-HPLC-DAD-ELSD process whereas the identity of compounds was assessed by comparison between HPLC-MS spectra and literature data. Chemical diversity calculated by richness and Shannon indexes differed significantly between sponge populations but not at a larger regional scale. We used factor analysis, analysis of variance, and regression analysis to examine the chemical variability of this sponge at local and regional scales, to establish general patterns of variation in chemical diversity. The abundance of some metabolites varied significantly between sponge populations. Despite these significant differences between populations, we found a clear pattern of increasing chemical dissimilarity with increasing geographic distance. Additional large spatial scale studies on the chemical diversity of marine organisms will validate the universality or exclusivity of this pattern.