Thiobacillus sajanensis sp. nov., a new obligately autotrophic sulfur-oxidizing bacterium isolated from Khito-Gol hydrogen-sulfide springs, Buryatia

Dul’tseva, N. M.; Turova, T P; Spiridonova, Elizaveta M.; Колганова, Т. В.; Осипов, Г. А.; Горленко, В. М.

doi:10.1134/s0026261706050080

Cited by 22 publications

(12 citation statements)

References 13 publications

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“…1. DSM 505, DSM 15147, and DSM 18155 possessed both the cbbL and cbbM genes, while DSM 506 possessed only the cbbM gene, which is in accordance with previous studies [2,[26][27][28][29].…”

Section: The Transcription Characteristics Of the Cbb Gene Of Each Basupporting

confidence: 92%

Response of cbb gene transcription levels of four typical sulfur-oxidizing bacteria to the CO 2 concentration and its effect on their carbon fixation efficiency during sulfur oxidation

Wang

Tsang

et al. 2016

Enzyme and Microbial Technology

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“…1. DSM 505, DSM 15147, and DSM 18155 possessed both the cbbL and cbbM genes, while DSM 506 possessed only the cbbM gene, which is in accordance with previous studies [2,[26][27][28][29].…”

Section: The Transcription Characteristics Of the Cbb Gene Of Each Basupporting

confidence: 92%

Response of cbb gene transcription levels of four typical sulfur-oxidizing bacteria to the CO 2 concentration and its effect on their carbon fixation efficiency during sulfur oxidation

Wang

Tsang

et al. 2016

Enzyme and Microbial Technology

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“…Similar to variation in H 2 S concentrations, springs substantially vary in temperature, with reported values ranging from around 5 °C to over 100 °C [35,40,41,47,48,57,76,81]. Temperature variation appears to be related in part to the geographic location of springs as well as the ultimate sources of H 2 S production.…”

Section: Freshwater Sulphide Springs: Occurrence and Environmental Vamentioning

confidence: 98%

“…During this process, groundwater is being enriched in H 2 S and ultimately discharged through surface springs [40,43]. Table 1 and [35,40,41,[44][45][46][47][48][49][50][51][52][53][54][55][56][57][58][59] [76], but even such low concentrations are biologically relevant and considered toxic for most metazoans [16]. Conversely, peak concentrations of H 2 S have been reported to exceed 7000 μM in some springs [79].…”

Section: Freshwater Sulphide Springs: Occurrence and Environmental Vamentioning

confidence: 99%

“…Conversely, peak concentrations of H 2 S have been reported to exceed 7000 μM in some springs [79]. Currently available data suggest that H 2 S concentrations in most springs lie in between these extremes, with a large number of springs having concentrations towards the lower end of the spectrum (i.e., <2500 μM H 2 S [40,41,44,47,76,78,80]). …”

Section: Freshwater Sulphide Springs: Occurrence and Environmental Vamentioning

confidence: 99%

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Patterns of Macroinvertebrate and Fish Diversity in Freshwater Sulphide Springs

Greenway

Arias‐Rodríguez²,

Diaz³

et al. 2014

Diversity

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Extreme environments are characterised by the presence of physicochemical stressors and provide unique study systems to address problems in evolutionary ecology research. Sulphide springs provide an example of extreme freshwater environments; because hydrogen sulphide's adverse physiological effects induce mortality in metazoans even at micromolar concentrations. Sulphide springs occur worldwide, but while microbial communities in sulphide springs have received broad attention, little is known about macroinvertebrates and fish inhabiting these toxic environments. We reviewed qualitative occurrence records of sulphide spring faunas on a global scale and present a quantitative case study comparing diversity patterns in sulphidic and adjacent non-sulphidic habitats across replicated river drainages in Southern Mexico. While detailed studies in most regions of the world remain scarce, available data suggests that sulphide spring faunas are characterised by low species richness. Dipterans (among macroinvertebrates) and cyprinodontiforms (among fishes) appear to dominate the communities in these habitats. At least in fish, there is evidence for the presence of highly endemic species and populations exclusively inhabiting sulphide springs. We provide a detailed discussion of traits that might predispose certain taxonomic groups to colonize sulphide springs, how colonizers subsequently adapt to cope with sulphide toxicity, and how adaptation may be linked to speciation processes. OPEN ACCESSDiversity 2014, 6 598

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“…Eighty-nine percent of the sequences from the MBBRs grouped with T. thioparus (28.0%), Thiobacillus thiophilus (13.7%), Thiobacillus denitrificans (21.3%) or Thiobacillus sp. 4HG (26.0%), referred as Thiobacillus sajenensis (Dul'tseva et al, 2006) (Fig. 5).…”

Section: Diversity Of Thiobacillus Spp In the Mbbrs And Rbcsmentioning

confidence: 99%

Development of four-stage moving bed biofilm reactor train with a pre-denitrification configuration for the removal of thiocyanate and cyanate

Villemur

Juteau

Bougie

et al. 2015

Bioresource Technology

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Thiobacillus sajanensis sp. nov., a new obligately autotrophic sulfur-oxidizing bacterium isolated from Khito-Gol hydrogen-sulfide springs, Buryatia

Cited by 22 publications

References 13 publications

Response of cbb gene transcription levels of four typical sulfur-oxidizing bacteria to the CO 2 concentration and its effect on their carbon fixation efficiency during sulfur oxidation

Response of cbb gene transcription levels of four typical sulfur-oxidizing bacteria to the CO 2 concentration and its effect on their carbon fixation efficiency during sulfur oxidation

Patterns of Macroinvertebrate and Fish Diversity in Freshwater Sulphide Springs

Development of four-stage moving bed biofilm reactor train with a pre-denitrification configuration for the removal of thiocyanate and cyanate

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