Microbial community of a volcanic mudspring in the Philippines as revealed by 16S rDNA sequence analysis and fluorescence in situ hybridization

Mt. Makiling Mudspring in Laguna, Philippines is a thermophilic, acidophilic environment that previously has been shown to harbor novel microorganisms. We assessed the microbial community that exists at this volcanic mudspring using 16S rRNA-based approaches. DNA was extracted from solfataric soils and sediments taken from Mudspring. The 16S rDNA was PCR amplified using universal (519F-1392R) and archaeal-specific (23FPL-1391R) primer pairs, cloned, and sequenced. Phylogenetic analysis of the cloned 16S rDNA showed that eleven clones clustered with, and therefore related to Sulfolobus tokodaii 7 and two clones clustered with S. solfataricu, S. shibatae and S. islandicus. Three clone sequences were related to those found in thermophilic chalcopyrite (CuFeS2), a copper sulfuric ore from bioleaching reactors. One clone had low similarity (95% identity) with uncultured archaeon clone KOZ184. Fluorescence in situ hybridization (FISH) analysis revealed that about 71% of the microbial community present in the Mudspring belong to domain Archaea of which 63% were Crenarchaeota and 8% were Euryarchaeota. Seventeen percent (17%) of the population consisted of bacteria as indicated by the positive hybridization with the BACT338 probe, and the remaining 12% are unidentified. This study is the first attempt to use molecular techniques in any environment in the Philippines.