Microbial community composition along a 50 000-year lacustrine sediment sequence

For decades, microbial community composition in subseafloor sediments has been the focus of extensive studies. In deep lacustrine sediments, however, the taxonomic composition of microbial communities remains undercharacterized. Greater knowledge on microbial diversity in lacustrine sediments would...

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Detalles Bibliográficos
Autores principales: Vuillemin, A., Ariztegui, D., Horn, F., Kallmeyer, J., Orsi, W.D., Anselmetti, F., Corbella, H., Francus, P., Lücke, A., Maidana, N.I., Ohlendorf, C., Zolitschka, B., Schabitz, F., Wastegård, S.
Formato: JOUR
Materias:
16S rRNA gene high-throughput sequencing
Deep biosphere
Laguna Potrok Aike
Lake sediment
Microbial communities
Species selection
bacterium
biosphere
community composition
environmental factor
Holocene
lacustrine deposit
Last Glacial-Interglacial
marine sediment
microbial community
paleoenvironment
prokaryote
seafloor
sedimentary sequence
taxonomy
Argentina
Santa Cruz [Argentina]
RNA 16S
aquatic species
archaeon
classification
genetics
high throughput sequencing
microbiology
microflora
phylogeny
salinity
sediment
Aquatic Organisms
Archaea
Bacteria
Geologic Sediments
High-Throughput Nucleotide Sequencing
Microbiota
Phylogeny
RNA, Ribosomal, 16S
Salinity
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_01686496_v94_n4_p_Vuillemin
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_01686496_v94_n4_p_Vuillemin
record_format dspace
spelling todo:paper_01686496_v94_n4_p_Vuillemin2023-10-03T15:06:38Z Microbial community composition along a 50 000-year lacustrine sediment sequence Vuillemin, A. Ariztegui, D. Horn, F. Kallmeyer, J. Orsi, W.D. Anselmetti, F. Corbella, H. Francus, P. Lücke, A. Maidana, N.I. Ohlendorf, C. Zolitschka, B. Schabitz, F. Wastegård, S. 16S rRNA gene high-throughput sequencing Deep biosphere Laguna Potrok Aike Lake sediment Microbial communities Species selection bacterium biosphere community composition environmental factor Holocene lacustrine deposit Last Glacial-Interglacial marine sediment microbial community paleoenvironment prokaryote seafloor sedimentary sequence taxonomy Argentina Laguna Potrok Aike Santa Cruz [Argentina] RNA 16S aquatic species archaeon Argentina bacterium classification genetics high throughput sequencing microbiology microflora phylogeny salinity sediment Aquatic Organisms Archaea Argentina Bacteria Geologic Sediments High-Throughput Nucleotide Sequencing Microbiota Phylogeny RNA, Ribosomal, 16S Salinity For decades, microbial community composition in subseafloor sediments has been the focus of extensive studies. In deep lacustrine sediments, however, the taxonomic composition of microbial communities remains undercharacterized. Greater knowledge on microbial diversity in lacustrine sediments would improve our understanding of how environmental factors, and resulting selective pressures, shape subsurface biospheres in marine and freshwater sediments. Using high-throughput sequencing of 16S rRNA genes across high-resolution climate intervals covering the last 50 000 years in Laguna Potrok Aike, Argentina, we identified changes in microbial populations in response to both past environmental conditions and geochemical changes of the sediment during burial. Microbial communities in Holocene sediments were most diverse, reflecting a layering of taxa linked to electron acceptors availability. In deeper intervals, the data show that salinity, organic matter and the depositional conditions over the Last Glacial-interglacial cycle were all selective pressures in the deep lacustrine assemblage resulting in a genetically distinct biosphere from the surface dominated primarily by Bathyarchaeota and Atribacteria groups. However, similar to marine sediments, some dominant taxa in the shallow subsurface persisted into the subsurface as minor fraction of the community. The subsequent establishment of a deep subsurface community likely results from a combination of paleoenvironmental factors that have shaped the pool of available substrates, together with substrate depletion and/or reworking of organic matter with depth. © FEMS 2018. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_01686496_v94_n4_p_Vuillemin
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic 16S rRNA gene high-throughput sequencing
Deep biosphere
Laguna Potrok Aike
Lake sediment
Microbial communities
Species selection
bacterium
biosphere
community composition
environmental factor
Holocene
lacustrine deposit
Last Glacial-Interglacial
marine sediment
microbial community
paleoenvironment
prokaryote
seafloor
sedimentary sequence
taxonomy
Argentina
Laguna Potrok Aike
Santa Cruz [Argentina]
RNA 16S
aquatic species
archaeon
Argentina
bacterium
classification
genetics
high throughput sequencing
microbiology
microflora
phylogeny
salinity
sediment
Aquatic Organisms
Archaea
Argentina
Bacteria
Geologic Sediments
High-Throughput Nucleotide Sequencing
Microbiota
Phylogeny
RNA, Ribosomal, 16S
Salinity
spellingShingle 16S rRNA gene high-throughput sequencing
Deep biosphere
Laguna Potrok Aike
Lake sediment
Microbial communities
Species selection
bacterium
biosphere
community composition
environmental factor
Holocene
lacustrine deposit
Last Glacial-Interglacial
marine sediment
microbial community
paleoenvironment
prokaryote
seafloor
sedimentary sequence
taxonomy
Argentina
Laguna Potrok Aike
Santa Cruz [Argentina]
RNA 16S
aquatic species
archaeon
Argentina
bacterium
classification
genetics
high throughput sequencing
microbiology
microflora
phylogeny
salinity
sediment
Aquatic Organisms
Archaea
Argentina
Bacteria
Geologic Sediments
High-Throughput Nucleotide Sequencing
Microbiota
Phylogeny
RNA, Ribosomal, 16S
Salinity
Vuillemin, A.
Ariztegui, D.
Horn, F.
Kallmeyer, J.
Orsi, W.D.
Anselmetti, F.
Corbella, H.
Francus, P.
Lücke, A.
Maidana, N.I.
Ohlendorf, C.
Zolitschka, B.
Schabitz, F.
Wastegård, S.
Microbial community composition along a 50 000-year lacustrine sediment sequence
topic_facet 16S rRNA gene high-throughput sequencing
Deep biosphere
Laguna Potrok Aike
Lake sediment
Microbial communities
Species selection
bacterium
biosphere
community composition
environmental factor
Holocene
lacustrine deposit
Last Glacial-Interglacial
marine sediment
microbial community
paleoenvironment
prokaryote
seafloor
sedimentary sequence
taxonomy
Argentina
Laguna Potrok Aike
Santa Cruz [Argentina]
RNA 16S
aquatic species
archaeon
Argentina
bacterium
classification
genetics
high throughput sequencing
microbiology
microflora
phylogeny
salinity
sediment
Aquatic Organisms
Archaea
Argentina
Bacteria
Geologic Sediments
High-Throughput Nucleotide Sequencing
Microbiota
Phylogeny
RNA, Ribosomal, 16S
Salinity
description For decades, microbial community composition in subseafloor sediments has been the focus of extensive studies. In deep lacustrine sediments, however, the taxonomic composition of microbial communities remains undercharacterized. Greater knowledge on microbial diversity in lacustrine sediments would improve our understanding of how environmental factors, and resulting selective pressures, shape subsurface biospheres in marine and freshwater sediments. Using high-throughput sequencing of 16S rRNA genes across high-resolution climate intervals covering the last 50 000 years in Laguna Potrok Aike, Argentina, we identified changes in microbial populations in response to both past environmental conditions and geochemical changes of the sediment during burial. Microbial communities in Holocene sediments were most diverse, reflecting a layering of taxa linked to electron acceptors availability. In deeper intervals, the data show that salinity, organic matter and the depositional conditions over the Last Glacial-interglacial cycle were all selective pressures in the deep lacustrine assemblage resulting in a genetically distinct biosphere from the surface dominated primarily by Bathyarchaeota and Atribacteria groups. However, similar to marine sediments, some dominant taxa in the shallow subsurface persisted into the subsurface as minor fraction of the community. The subsequent establishment of a deep subsurface community likely results from a combination of paleoenvironmental factors that have shaped the pool of available substrates, together with substrate depletion and/or reworking of organic matter with depth. © FEMS 2018.
format JOUR
author Vuillemin, A.
Ariztegui, D.
Horn, F.
Kallmeyer, J.
Orsi, W.D.
Anselmetti, F.
Corbella, H.
Francus, P.
Lücke, A.
Maidana, N.I.
Ohlendorf, C.
Zolitschka, B.
Schabitz, F.
Wastegård, S.
author_facet Vuillemin, A.
Ariztegui, D.
Horn, F.
Kallmeyer, J.
Orsi, W.D.
Anselmetti, F.
Corbella, H.
Francus, P.
Lücke, A.
Maidana, N.I.
Ohlendorf, C.
Zolitschka, B.
Schabitz, F.
Wastegård, S.
author_sort Vuillemin, A.
title Microbial community composition along a 50 000-year lacustrine sediment sequence
title_short Microbial community composition along a 50 000-year lacustrine sediment sequence
title_full Microbial community composition along a 50 000-year lacustrine sediment sequence
title_fullStr Microbial community composition along a 50 000-year lacustrine sediment sequence
title_full_unstemmed Microbial community composition along a 50 000-year lacustrine sediment sequence
title_sort microbial community composition along a 50 000-year lacustrine sediment sequence
url http://hdl.handle.net/20.500.12110/paper_01686496_v94_n4_p_Vuillemin
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