Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities

Active microbial lineages inhabit the deep terrestrial subsurface (Fry et al. 1997, Lopez-Fernandez et al. 2018) with estimates suggesting deep subsurface ecosystems to host ca. 90% of the total bacterial and archaeal biomass on Earth and about 10-20% of all terrestrial biomass (McMahon and Parnell...

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Published in:	ARPHA Conference Abstracts
Main Authors:	González-Rosales,Carolina, Rezaei Somee,Maryam, Bertilsson,Stefan, Mehrshad,Maliheh, Dopson,Mark
Format:	Conference Object
Language:	English
Published:	Pensoft Publishers 2023
Subjects:	deep terrestrial biosphere (meta)genomic extremophiles Lopez Fernandez McMahon Fennoscandian
Online Access:	https://doi.org/10.3897/aca.6.e106966 https://aca.pensoft.net/article/106966/

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spelling	ftpensoft:10.3897/aca.6.e106966 2023-11-12T04:17:05+01:00 Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities González-Rosales,Carolina Rezaei Somee,Maryam Bertilsson,Stefan Mehrshad,Maliheh Dopson,Mark 2023 text/html https://doi.org/10.3897/aca.6.e106966 https://aca.pensoft.net/article/106966/ en eng Pensoft Publishers info:eu-repo/semantics/altIdentifier/eissn/2603-3925 info:eu-repo/semantics/openAccess CC BY 4.0 ARPHA Conference Abstracts 6: e106966 deep terrestrial biosphere (meta)genomic extremophiles Conference Abstract 2023 ftpensoft https://doi.org/10.3897/aca.6.e106966 2023-10-17T00:07:14Z Active microbial lineages inhabit the deep terrestrial subsurface (Fry et al. 1997, Lopez-Fernandez et al. 2018) with estimates suggesting deep subsurface ecosystems to host ca. 90% of the total bacterial and archaeal biomass on Earth and about 10-20% of all terrestrial biomass (McMahon and Parnell 2014, Bar-On et al. 2018, Magnabosco et al. 2018, Drake and Reiners 2021). This highlights deep subsurface ecosystems as a vast reservoir of genetic innovation that remains poorly characterized. The biological diversity of deep subsurface ecosystems seem to be influenced by parameters such as temperature, pressure, water residence times, and geochemistry (Drake and Reiners 2021).The deep subsurface environment remains underrepresented in metagenomic databases, and yet the publicly available datasets are not synoptically analyzed in an integrated way. In this project, we collected a large set of publicly available and published metagenomes, published metagenome assembled genomes (MAGs) as well as single cell amplified genomes (SAGs) originating from global deep oligotrophic terrestrial subsurface samples (>70 m). Reconstructed MAGs/SAGs from this survey were integrated in to our own existing Fennoscandian Shield Genomic Database (FSGD) (Holmfeldt et al. 2021, Mehrshad et al. 2021). This expanded global database of the deep oligotrophic terrestrial subsurface contains >4000 MAGs/SAGs. In this dataset, representatives of phyla Firmicutes, Desulfobacterota, Patescibacteria, and Chlroflexota were the most prevalent taxa. The presence of Candidatus Desulforudis audaxviator across different continents and samples highlighted its adaptation to different deep biosphere environments. In addition, novel bacterial lineages at the class level were identified in several locations, pointing to the importance and necessity of further studies to characterize deep biosphere microbial diversity.This extensive study of the global deep oligotrophic terrestrial subsurface will reveal whether deep terrestrial populations are ... Conference Object Fennoscandian Pensoft Publishers Lopez ENVELOPE(-63.567,-63.567,-64.850,-64.850) Fernandez ENVELOPE(-62.233,-62.233,-63.250,-63.250) McMahon ENVELOPE(65.148,65.148,-70.835,-70.835) ARPHA Conference Abstracts 6
institution	Open Polar
collection	Pensoft Publishers
op_collection_id	ftpensoft
language	English
topic	deep terrestrial biosphere (meta)genomic extremophiles
spellingShingle	deep terrestrial biosphere (meta)genomic extremophiles González-Rosales,Carolina Rezaei Somee,Maryam Bertilsson,Stefan Mehrshad,Maliheh Dopson,Mark Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
topic_facet	deep terrestrial biosphere (meta)genomic extremophiles
description	Active microbial lineages inhabit the deep terrestrial subsurface (Fry et al. 1997, Lopez-Fernandez et al. 2018) with estimates suggesting deep subsurface ecosystems to host ca. 90% of the total bacterial and archaeal biomass on Earth and about 10-20% of all terrestrial biomass (McMahon and Parnell 2014, Bar-On et al. 2018, Magnabosco et al. 2018, Drake and Reiners 2021). This highlights deep subsurface ecosystems as a vast reservoir of genetic innovation that remains poorly characterized. The biological diversity of deep subsurface ecosystems seem to be influenced by parameters such as temperature, pressure, water residence times, and geochemistry (Drake and Reiners 2021).The deep subsurface environment remains underrepresented in metagenomic databases, and yet the publicly available datasets are not synoptically analyzed in an integrated way. In this project, we collected a large set of publicly available and published metagenomes, published metagenome assembled genomes (MAGs) as well as single cell amplified genomes (SAGs) originating from global deep oligotrophic terrestrial subsurface samples (>70 m). Reconstructed MAGs/SAGs from this survey were integrated in to our own existing Fennoscandian Shield Genomic Database (FSGD) (Holmfeldt et al. 2021, Mehrshad et al. 2021). This expanded global database of the deep oligotrophic terrestrial subsurface contains >4000 MAGs/SAGs. In this dataset, representatives of phyla Firmicutes, Desulfobacterota, Patescibacteria, and Chlroflexota were the most prevalent taxa. The presence of Candidatus Desulforudis audaxviator across different continents and samples highlighted its adaptation to different deep biosphere environments. In addition, novel bacterial lineages at the class level were identified in several locations, pointing to the importance and necessity of further studies to characterize deep biosphere microbial diversity.This extensive study of the global deep oligotrophic terrestrial subsurface will reveal whether deep terrestrial populations are ...
format	Conference Object
author	González-Rosales,Carolina Rezaei Somee,Maryam Bertilsson,Stefan Mehrshad,Maliheh Dopson,Mark
author_facet	González-Rosales,Carolina Rezaei Somee,Maryam Bertilsson,Stefan Mehrshad,Maliheh Dopson,Mark
author_sort	González-Rosales,Carolina
title	Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
title_short	Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
title_full	Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
title_fullStr	Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
title_full_unstemmed	Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities
title_sort	integrative genomics sheds light on global deep terrestrial biosphere communities
publisher	Pensoft Publishers
publishDate	2023
url	https://doi.org/10.3897/aca.6.e106966 https://aca.pensoft.net/article/106966/
long_lat	ENVELOPE(-63.567,-63.567,-64.850,-64.850) ENVELOPE(-62.233,-62.233,-63.250,-63.250) ENVELOPE(65.148,65.148,-70.835,-70.835)
geographic	Lopez Fernandez McMahon
geographic_facet	Lopez Fernandez McMahon
genre	Fennoscandian
genre_facet	Fennoscandian
op_source	ARPHA Conference Abstracts 6: e106966
op_relation	info:eu-repo/semantics/altIdentifier/eissn/2603-3925
op_rights	info:eu-repo/semantics/openAccess CC BY 4.0
op_doi	https://doi.org/10.3897/aca.6.e106966
container_title	ARPHA Conference Abstracts
container_volume	6
_version_	1782334062497628160

Integrative Genomics Sheds Light on Global Deep Terrestrial Biosphere Communities

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