Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.

Soda lakes are intriguing ecosystems harboring extremely productive microbial communities in spite of their extreme environmental conditions. This makes them valuable model systems for studying the connection between community structure and abiotic parameters such as pH and salinity. For the first t...

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Main Authors: Anders Lanzén, Addis Simachew, Amare Gessesse, Dominika Chmolowska, Inge Jonassen, Lise Øvreås
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023625/pdf/?tool=EBI
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spelling doaj-664893d31de3408e8a2bf66f602f1a932021-03-03T22:56:49ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0188e7257710.1371/journal.pone.0072577Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.Anders LanzénAddis SimachewAmare GessesseDominika ChmolowskaInge JonassenLise ØvreåsSoda lakes are intriguing ecosystems harboring extremely productive microbial communities in spite of their extreme environmental conditions. This makes them valuable model systems for studying the connection between community structure and abiotic parameters such as pH and salinity. For the first time, we apply high-throughput sequencing to accurately estimate phylogenetic richness and composition in five soda lakes, located in the Ethiopian Rift Valley. The lakes were selected for their contrasting pH, salinities and stratification and several depths or spatial positions were covered in each lake. DNA was extracted and analyzed from all lakes at various depths and RNA extracted from two of the lakes, analyzed using both amplicon- and shotgun sequencing. We reveal a surprisingly high biodiversity in all of the studied lakes, similar to that of freshwater lakes. Interestingly, diversity appeared uncorrelated or positively correlated to pH and salinity, with the most "extreme" lakes showing the highest richness. Together, pH, dissolved oxygen, sodium- and potassium concentration explained approximately 30% of the compositional variation between samples. A diversity of prokaryotic and eukaryotic taxa could be identified, including several putatively involved in carbon-, sulfur- or nitrogen cycling. Key processes like methane oxidation, ammonia oxidation and 'nitrifier denitrification' were also confirmed by mRNA transcript analyses.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023625/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Anders Lanzén
Addis Simachew
Amare Gessesse
Dominika Chmolowska
Inge Jonassen
Lise Øvreås
spellingShingle Anders Lanzén
Addis Simachew
Amare Gessesse
Dominika Chmolowska
Inge Jonassen
Lise Øvreås
Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
PLoS ONE
author_facet Anders Lanzén
Addis Simachew
Amare Gessesse
Dominika Chmolowska
Inge Jonassen
Lise Øvreås
author_sort Anders Lanzén
title Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
title_short Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
title_full Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
title_fullStr Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
title_full_unstemmed Surprising prokaryotic and eukaryotic diversity, community structure and biogeography of Ethiopian soda lakes.
title_sort surprising prokaryotic and eukaryotic diversity, community structure and biogeography of ethiopian soda lakes.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Soda lakes are intriguing ecosystems harboring extremely productive microbial communities in spite of their extreme environmental conditions. This makes them valuable model systems for studying the connection between community structure and abiotic parameters such as pH and salinity. For the first time, we apply high-throughput sequencing to accurately estimate phylogenetic richness and composition in five soda lakes, located in the Ethiopian Rift Valley. The lakes were selected for their contrasting pH, salinities and stratification and several depths or spatial positions were covered in each lake. DNA was extracted and analyzed from all lakes at various depths and RNA extracted from two of the lakes, analyzed using both amplicon- and shotgun sequencing. We reveal a surprisingly high biodiversity in all of the studied lakes, similar to that of freshwater lakes. Interestingly, diversity appeared uncorrelated or positively correlated to pH and salinity, with the most "extreme" lakes showing the highest richness. Together, pH, dissolved oxygen, sodium- and potassium concentration explained approximately 30% of the compositional variation between samples. A diversity of prokaryotic and eukaryotic taxa could be identified, including several putatively involved in carbon-, sulfur- or nitrogen cycling. Key processes like methane oxidation, ammonia oxidation and 'nitrifier denitrification' were also confirmed by mRNA transcript analyses.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023625/pdf/?tool=EBI
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