KARAKTERISASI DAN IDENTIFIKASI BAKTERI PELARUT FOSFAT DARI LAHAN YANG TERKENA ERUPSI MERAPI 2010

The research on phosphate solubilizing bacteria was carried out to understand the role of the soil microbial community encompassing to mobilization activities of the phosphate from the effect of changing physicochemical conditions caused by volcanic eruption Mount Merapi. The study was focused on isolation of phosphate solubilizing bacteria (PSB) and bacterial community structural analyses of soil as affected by volcanic materials at sampling site. The soil and volcanic material were collected from Merapi areas within interval of 1, 3, and 6 months. Hydrolytic activities of soil bacteria were detected with fluorescein diacetat technique (FDA). Samples which were positively detected of FDA method, were subsequently analysed for diversity of soil bacteria by using Denaturing Gel Gradien Electrophoresis (DGGE). In addition, from the same sample, PSB were selectively isolated by using Pikovskaya medium based on the clear zone index value. The selected bacterial isolates were tested for their activities in solubilizing phosphate using different phosphate (Ca-P and Al-P) and in producing auxin. Based on phosphate solubilizing and in producing auxin, the isolates were subquently selected. There genetic characters as biofertilizer agents were also determined by detecting 4 functional genes involved in solubilizing phosphate, auxin production, nitrogen fixation, and nitrification. The selected isolates were characterize molecularly based on 16S rRNA gene sequences. The results of the study showed that community of soil bacteria on Merapi eruption-affected area was susceptible to physicochemical of environment and it took 6 months for it recovery. A total of 23 isolates of bacterial colonies were isolated and only 9 isolates which were able to demonstrate solubilizing phosphate (Al-P) medium and or producing auxin of the isolates namely BS1F, BS2K, BS3ML2, BS4ML4, BS6TM1, BS7TM2, BS14E601 and BS15E032. The nine isolates were detected to have a variety of 4 functional genes and only BS2K was found to have all the 4 functional gene. Based on 16S rRNA molecular analysis, the selected isolates were identified to be member of genus Burkholderia (BS1F, BS2K, BS3ML2, BS6TM1, BS7TM2), Enterobacter (BS14E601 & BS15EO32), Klebsiella (BS13E301) and Bacillus (BS4ML4). Therefore, the phosphate solubilizing and auxin producing bacteria could be obtained from samples collected from Mount Merapi eruption-affected area. Furthemore, it was also observed bacterial comunity could only recovery require 6 months.