Black Band Disease Microbial Community Variation on Corals in Three Regions of the Wider Caribbean

Joshua D. Voss; DeEtta K. Mills; Jamie L. Myers; Elizabeth R. Remily; Laurie L. Richardson

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Black Band Disease Microbial Community Variation on Corals in Three Regions of the Wider Caribbean

Joshua D. Voss ^[1] ^[2] ; DeEtta K. Mills ^[1] ^[4] ; Jamie L. Myers ^[1] ; Elizabeth R. Remily ^[1] ^[3] ; Laurie L. Richardson ^[1]
1. [1] Florida International University
  
  Florida International University
  
  Estados Unidos
2. [2] Eckerd College
  
  Eckerd College
  
  Estados Unidos
3. [3] University of South Florida
  
  University of South Florida
  
  Estados Unidos
4. [4] International Forensic Research Institute, Florida International University, USA
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Localización: Microbial ecology, ISSN-e 1432-184X, ISSN 0095-3628, Vol. 54, Nº. 4, 2007, págs. 730-739
Idioma: inglés
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Resumen
- Black band disease (BBD) is a pathogenic consortium of microorganisms that primarily affects massive framework-building scleractinian corals on reefs worldwide. There has been considerable debate concerning the microbial community composition of BBD. The aim of this study was to utilize microbial profiling to assess overall patterns of variation in the BBD bacterial community with respect to geographic location, host coral species, time, and nutrient regime. Length heterogeneity polymerase chain reaction (LH-PCR) was employed to differentiate BBD communities based on the natural variation in the sequence lengths within hypervariable domains of the 16S rRNA gene. Analysis of LH-PCR profiles of 97 BBD samples using multivariate ordination methods and analysis of similarity revealed significant clustering with respect to geographic region when comparing BBD sampled from reefs near Lee Stocking Island in the Bahamas’ Exuma Chain, the Northern Florida Keys (NFK), and St. John in the US Virgin Islands. There was much variability in BBD community composition on a regional basis, between sites in the NFK, and in terms of coral host species. The observed differences among BBD microbial community profiles were driven primarily by variation in relative abundance of 313–316-bp amplicons, which correspond to cyanobacteria and α-proteobacteria. The results obtained in this study support previous reports of intrinsic variability and complexity of the BBD microbial community but also suggest that this variability has biogeographic patterns.