A Polyphasic Approach To Study the Diversity and Vertical Distribution of Sulfur-Oxidizing ThiomicrospiraSpecies in Coastal Sediments of the German Wadden Sea

Abstract

ABSTRACTRecently, fourThiomicrospirastrains were isolated from a coastal mud flat of the German Wadden Sea (T. Brinkhoff and G. Muyzer, Appl. Environ. Microbiol. 63:3789–3796, 1997). Here we describe the use of a polyphasic approach to investigate the functional role of these closely related bacteria. Microsensor measurements showed that there was oxygen penetration into the sediment to a depth of about 2.0 mm. The pH decreased from 8.15 in the overlaying water to a minimum value of 7.3 at a depth of 1.2 mm. Further down in the sediment the pH increased to about 7.8 and remained constant. Most-probable-number (MPN) counts of chemolithoautotrophic sulfur-oxidizing bacteria revealed nearly constant numbers along the vertical profile; the cell concentration ranged from 0.93 × 105to 9.3 × 105cells per g of sediment. A specific PCR was used to detect the presence ofThiomicrospiracells in the MPN count preparations and to determine their 16S rRNA sequences. The concentration ofThiomicrospiracells did not decrease with depth. It was found thatThiomicrospirastrains were not dominant sulfur-oxidizing bacteria in this habitat. Denaturing gradient gel electrophoresis (DGGE) of PCR-amplified 16S ribosomal DNA fragments followed by hybridization analysis with a genus-specific oligonucleotide probe revealed the diversity ofThiomicrospirastrains in the MPN cultures. Sequence analysis of the highest MPN dilutions in which the genusThiomicrospirawas detected revealed that there were four clusters of several closely related sequences. Only one of the 10Thiomicrospirasequences retrieved was related to sequences of known isolates from the same habitat. Slot blot hybridization of rRNA isolated from different sediment layers showed that, in contrast to the concentration ofThiomicrospiracells, the concentration ofThiomicrospira-specific rRNA decreased rapidly in the region below the oxic layer of the sediment. This study revealed the enormous sequence diversity of closely related microorganisms present in one habitat, which so far has been found only by sequencing molecular isolates. In addition, it showed that most of theThiomicrospirapopulations in the sediment studied were quiescent.