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- Title
Hydrogen-Producing Microflora and Fe-Fe Hydrogenase Diversities in Seaweed Bed Associated with Marine Hot Springs of Kalianda, Indonesia.
- Authors
Xu, Shou-Ying; He, Pei-Qing; Dewi, Seswita-Zilda; Zhang, Xue-Lei; Ekowati, Chasanah; Liu, Tong-Jun; Huang, Xiao-Hang
- Abstract
Microbial fermentation is a promising technology for hydrogen (H) production. H producers in marine geothermal environments are thermophilic and halotolerant. However, no one has surveyed an environment specifically for thermophilic bacteria that produce H through Fe-Fe hydrogenases (Hase). Using heterotrophic medium, several microflora from a seaweed bed associated with marine hot springs were enriched and analyzed for H production. A H-producing microflora was obtained from Sargassum sp., 16S rRNA genes and Fe-Fe Hase diversities of this enrichment were also analyzed. Based on 16S rRNA genes analysis, 10 phylotypes were found in the H-producing microflora showing 90.0-99.5 % identities to known species, and belonged to Clostridia, Gammaproteobacteria, and Bacillales. Clostridia were the most abundant group, and three Clostridia phylotypes were most related to known H producers such as Anaerovorax odorimutans (94.0 % identity), Clostridium papyrosolvens (98.4 % identity), and Clostridium tepidiprofundi (93.1 % identity). For Fe-Fe Hases, seven phylotypes were obtained, showing 63-97 % identities to known Fe-Fe Hases, and fell into four distinct clusters. Phylotypes HW55-3 and HM55-1 belonged to thermophilic and salt-tolerant H-producing Clostridia, Halothermothrix orenii-like Fe-Fe Hases (80 % identity), and cellulolytic H-producing Clostridia, C. papyrosolvens-like Fe-Fe Hases (97 % identity), respectively. The results of both 16S rRNA genes and Fe-Fe Hases surveys suggested that the thermophilic and halotolerant H-producing microflora in seaweed bed of hot spring area represented previously unknown H producers, and have potential application for H production.
- Subjects
INDONESIA; MARINE algae; CLOSTRIDIUM; THERMOPHILIC microorganisms; FUNGUS-bacterium relationships
- Publication
Current Microbiology, 2013, Vol 66, Issue 5, p499
- ISSN
0343-8651
- Publication type
Article
- DOI
10.1007/s00284-013-0302-0