Portal de Periódicos da CAPES

Enumeration of Thermophilic Bacillus species in Composts and Identification with a Random Amplification Polymorphic DNA (RAPD) Protocol

2002; Elsevier BV; Volume: 25; Issue: 4 Linguagem: Inglês

10.1078/07232020260517760

1618-0984

Yunqiao C. Zhang, Ron S. Ronimus, Nicola J. Turner, Y.i. Zhang, Hugh W. Morgan,

Bacterial biofilms and quorum sensing

The thermophilic microbial flora of general garden and domestic wastes composts, derived from thermogenic, post-thermogenic and maturation phases, was analysed using spore and total plate counts in combination with an optimised RAPD protocol. A total of 459 isolates were recovered obtained at 55 degrees C, and another 56 at 70 degrees C using tryptic soy-starch agar plates, with near-equal numbers being derived from total plate counts or spore preparations. The isolates were obtained from 11 compost samples and were assigned to eighteen different RAPD fingerprint types, with 76.1% of these ultimately being positively assigned by their RAPD profiles to just 2 species including Bacillus thermodenitrificans and B. licheniformis. Viable cell numbers ranged from 1.4 to 150 x 10(6) colony forming units per gram compost (wet weight), with the highest two counts being from 2 week and 4 week old compost samples with temperatures of 70 degrees C and 55 degrees C, respectively. B. thermodenitrificans was a dominant isolate (representing more than 50% of isolates from total plate counts) in 7 of the 11 individual compost total plate count samples between 30 degrees C to 73 degrees C, and accounted for 68.9% of all isolates overall. Another relatively common Bacillus species that was identified with RAPDs in significant numbers included B. licheniformis (7.2% of all isolates and dominant isolate in 1 sample). Three other relatively common RAPD profiles could not be identified by comparison with known species in a RAPD profile database but were tentatively identified using 16S rDNA sequence comparisons. These were B. sporothermodurans (4.9% of all isolates and dominant in 1 sample), B. thermosphaericus (7.4% and dominant in 1 sample) and Terrabacter tumescens (5.0%). Overall, based on the vegetative and spore count results and the subsequent RAPD-based identification, the data strongly support a significant role for B. thermodenitrificans in the composting process, and casts doubt on the notion that B. stearothermophilus sensu strictu (DSMZ 22) is a prominent member within compost ecology.