Reports

Biodiversity in hot springs at Þeistareykir and Gjástykki / Biodiversity in hot springs at Þeistareykir and Gjástykki

Published:

01/12/2008

Authors:

Sólveig K. Pétursdóttir, Snædís Huld Björnsdóttir, Sólveig Ólafsdóttir, Guðmundur Óli Hreggviðsson

Supported by:

Þeistareykir ehf

Contact

Guðmundur Óli Hreggviðsson

Strategic Scientist

gudmundo@matis.is

Biodiversity in hot springs at Þeistareykir and Gjástykki / Biodiversity in hot springs at Þeistareykir and Gjástykki

The project was part of an environmental assessment for the planned geothermal utilization and involved a study of the ecosystem in the hot springs at Þeistareykir and Gjástykki. A total of 27 samples were taken. Temperatures and acidity at the sampling points ranged from 33-96 ° C to pH 1.9-8.6. The species composition of the micro-organisms and their proportions were determined by nucleic acid amplification and sequencing of the 16S rRNA species-determining gene using bacterial and antimicrobial markers. A total of 21 bacteria and / or ancient bacteria were detected in 21 samples. DNA sequences were classified into species according to 98% affinities and compared with Genbank sequences for species analysis. In acidic hot springs at Þeistareykir, species within the bacterial assemblages β-, δ-, and γ-Proteobacteria and Aquificae were most common, especially acidic and / or primitive species that use sulfur and iron compounds and bind CO2. In vapors in lava caves at Þeistareykir at higher acidity levels (pH 6.7-8.6), the species Acidobacteria, Actinobacteria, Chloroflexi and Deinococcus-Thermus were prominent. Deinococcus-Thermus and Verrucomicrobium were the most common in samples from the hot springs in Gjástykki (pH 4.4-6.9). Many of these species are non-primitive. Ancient bacteria were found mainly in acidic areas at Þeistareykir, and in all samples from Gjástykki, but not in steam eyes in lava at Þeistareykir, as the acidity level is higher there. Species within the Crenarchaeota group were found in all of these samples, but species within the Euryarchaeota were bound to samples from the surface formations and acid soils. Most ancient bacteria can live primitive life. Biodiversity (Nt / Nmax) bacteria was most often between 1-3 and 1-2 among ancient bacteria. These low values are typical of peripheral ecosystems, where one species is in a very high proportion. Numerous new species were found in the samples, especially bacteria in steam eyes in lava at Þeistareykir and in hot springs in Gjástykki. Also, species of Euryarchaeota within ancient bacteria often showed a low kinship percentage and are therefore considered new species.

Due to future plans for utilizing the geothermal power at Þeistareykir and Gjástykki, an environmental assessment of the biodiversity in hot springs from these sites was carried out. A total of 27 samples were taken from various sites at temperatures of 33-96 ° C and pH 1.9-8.6. The species composition and ratios of thermophiles were estimated by PCR and sequencing of the 16S rRNA genes using bacterial and archaeal primers. Microbial species were detected in 21 samples. DNA sequences were grouped at the 98% similarity species level and compared with available sequences in Genbank for species determination. Species belonging to the bacterial phyla of β-, δ-, and γ-Proteobacteria and Aquificae were dominating in samples from the solfatara fields of Þeistareykir. These were mainly acidophiles and autotrophs capable of utilizing sulfur- and iron compounds and fixing CO2. A totally different pattern of species composition was observed in samples from fumaroles at the lava fields of Þeistareykir at higher pH (6,7-8,6) than in the solfataras. These were mainly Acidobacteria, Actinobacteria, Chloroflexi and DeinococcusThermus. In Gjástykki, (pH 4.4-6.9) Deinococcus-Thermus and Verrucomicrobium sp. were dominating. These are mainly heterotrophs. Archeal species were found as well in the solfatara fields at Þeistareykir and also in hot springs at Gjástykki, but not in the high pH fumaroles at Þeistareykir lava fields. Species from the Crenarchaeota group were found in the samples, but species belonging to the Euryarchaeota group were only detected in solfatara soil samples and sulfur / iron precipitates. These were mainly autotrophs. Biodiversity (Nt / Nmax) was calculated for all samples and estimated at 1-3 among the Bacteria and 1-2 among the Archaea. These low values are typical for extreme environments where one species is highly dominating. Many novel species were found in the samples, especially in soil from fumaroles at the lava field at Þeistareykir and in hot springs at Gjástykki. Euryarchaeal species within the Archaea domain often showed low similarity to known species and most likely represent new species.

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Reports

Lífríki í kalkríkum hverum á Ölkelduháls / Microbial ecology of calcium rich hot springs at Ölkelduháls geothermal area

Published:

01/10/2008

Authors:

Sólveig K. Pétursdóttir, Snædís Björnsdóttir, Alexandra Klonowski, Sólveig Ólafsdóttir, Guðmundur Óli Hreggviðsson

Supported by:

The Environmental and Energy Research Fund of Orkuveita Reykjavíkur

Contact

Alexandra María Klonowski

Project Manager

alex@matis.is

Lífríki í kalkríkum hverum á Ölkelduháls / Microbial ecology of calcium rich hot springs at Ölkelduháls geothermal area

The ecology of calcareous hot springs is little studied. This study involved analyzing the ecosystem in calcareous hot springs at Ölkelduháls and assessing whether it had a special position compared to the ecosystem of other hot springs in the same area with the same temperature and acidity. Bacteria were isolated from thermal samples by conventional culture methods. Genetic analysis methods were used to analyze the species composition. Many species found in samples from calcareous hot springs are also found in other hot springs. It is noteworthy, however, that species within the Aquificae party were not found in the samples, but they are very common in hot springs and widely prevalent. Elemental measurements showed differences in the concentration of sulfur, iron, carbon and arsenic in calcareous water and other hot springs, which may be an explanation for this. Cultivated methods identified mainly known bacterial species of the genera Thermus and Bacillus. One new species of the Meiothermus genus was isolated. Using genetic analysis methods, 195 true bacterial clones were obtained from calcareous hot springs, which were classified into 60 species based on 98% affinity. These 60 species are spread over nine camps. The species found in the samples were the same between the hot springs, but also unique to the sample from which they came. No ancient bacteria were found in the samples. Biodiversity in samples from calcareous hot springs at Ölkelduháls was slightly higher than comparable values from hot springs with similar properties in the same area. The high proportion of unknown species and genera in samples taken in calcareous hot springs at Ölkelduháls is noteworthy. Of the 60 species found in the samples, a sufficiently close relative of the same species was found in 25 cases. The other 35 species were so closely related to close relatives that they could not be classified except into genera, tribes, clans, or families. Ecosystems in calcareous hot springs at Ölkelduháls must therefore be considered very special.

The ecology of calcium rich hot springs is not well documented. In this study an attempt was made to estimate if microbial species composition in calcium rich hot springs in Ölkelduháls in Iceland was special compared to species composition in other hot springs with similar temperature and pH in the same geothermal area. Isolation methods as well as culture independent methods were used to analyze species composition in the samples. Many species found in the calcium rich hot springs are also found in other hot springs. It is noteworthy that Aquificae species were totally absent in samples from calcium rich hot springs, but these species were abundant and dominating in other hot spring samples. Elemental analysis of hot spring water revealed a difference in the concentration of sulfur, iron, carbon and arsenate between calcium rich hot springs and other hot springs in the area. Known species of Thermus and Bacillus genera were isolated from the samples. A novel Meiothermus species was isolated. Approximately 60 species belonging to nine phyla were identified in the samples using culture independent methods. The species identified in the calcium rich samples were identical between samples but also unique for the sample investigated. No archaea were detected in the samples. Biodiversity calculated for the samples from calcium rich hot springs was slightly higher than in samples from other hot springs. A high ratio of unknown species and genera in the samples from calcium rich hot springs in Ölkelduháls is remarkable. Of the total of 60 species identified only 25 had a close relative from the same species according to Genbank. The remaining 35 species were only distantly related to their closest relative and could only be classified to genera, families, orders or classes. Thus, the ecology of calcium rich hot springs appears to be quite unique.

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