Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming

Abstract: How soil microorganisms respond to global warming is key to infer future soil-climate feedbacks, yet poorly understood. Here, we applied metatranscriptomics to investigate microbial physiological responses to medium-term ( 8 years) and long-term (>50 years) subarctic grassland soil warm...

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Published in:Science Advances
Main Authors: Sollinger, Andrea, Seneca, Joana, Dahl, Mathilde Borg, Motleleng, Liabo L., Prommer, Judith, Verbruggen, Erik, Sigurdsson, Bjarni D., Janssens, Ivan, Penuelas, Josep, Urich, Tim, Richter, Andreas, Tveit, Alexander T.
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Biology
Subarctic
Online Access:https://hdl.handle.net/10067/1887460151162165141
https://repository.uantwerpen.be/docstore/d:irua:12850
id ftunivantwerpen:c:irua:188746
record_format openpolar
spelling ftunivantwerpen:c:irua:188746 2023-07-16T04:01:04+02:00 Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming Sollinger, Andrea Seneca, Joana Dahl, Mathilde Borg Motleleng, Liabo L. Prommer, Judith Verbruggen, Erik Sigurdsson, Bjarni D. Janssens, Ivan Penuelas, Josep Urich, Tim Richter, Andreas Tveit, Alexander T. 2022 https://hdl.handle.net/10067/1887460151162165141 https://repository.uantwerpen.be/docstore/d:irua:12850 eng eng info:eu-repo/semantics/altIdentifier/doi/10.1126/SCIADV.ABM3230 info:eu-repo/semantics/altIdentifier/isi/000800334900014 info:eu-repo/semantics/openAccess 2375-2548 Science Advances Biology info:eu-repo/semantics/article 2022 ftunivantwerpen https://doi.org/10.1126/SCIADV.ABM3230 2023-06-26T22:35:37Z Abstract: How soil microorganisms respond to global warming is key to infer future soil-climate feedbacks, yet poorly understood. Here, we applied metatranscriptomics to investigate microbial physiological responses to medium-term ( 8 years) and long-term (>50 years) subarctic grassland soil warming of +6 degrees C. Besides indications for a community-wide up-regulation of centralmetabolic pathways and cell replication, we observed a down-regulation of the bacterial protein biosynthesis machinery in the warmed soils, coinciding with a lower microbial biomass, RNA, and soil substrate content. We conclude that permanently accelerated reaction rates at higher temperatures and reduced substrate concentrations result in cellular reduction of ribosomes, the macromolecular complexes carrying out protein biosynthesis. Later efforts to test this, including a short- term warming experiment (6 weeks, +6 degrees C), further supported our conclusion. Down-regulating the protein biosynthesis machinery liberates energy and matter, allowing soil bacteria to maintain high metabolic activities and cell division rates even after decades of warming. Article in Journal/Newspaper Subarctic IRUA - Institutional Repository van de Universiteit Antwerpen Science Advances 8 12
institution Open Polar
collection IRUA - Institutional Repository van de Universiteit Antwerpen
op_collection_id ftunivantwerpen
language English
topic Biology
spellingShingle Biology
Sollinger, Andrea
Seneca, Joana
Dahl, Mathilde Borg
Motleleng, Liabo L.
Prommer, Judith
Verbruggen, Erik
Sigurdsson, Bjarni D.
Janssens, Ivan
Penuelas, Josep
Urich, Tim
Richter, Andreas
Tveit, Alexander T.
Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
topic_facet Biology
description Abstract: How soil microorganisms respond to global warming is key to infer future soil-climate feedbacks, yet poorly understood. Here, we applied metatranscriptomics to investigate microbial physiological responses to medium-term ( 8 years) and long-term (>50 years) subarctic grassland soil warming of +6 degrees C. Besides indications for a community-wide up-regulation of centralmetabolic pathways and cell replication, we observed a down-regulation of the bacterial protein biosynthesis machinery in the warmed soils, coinciding with a lower microbial biomass, RNA, and soil substrate content. We conclude that permanently accelerated reaction rates at higher temperatures and reduced substrate concentrations result in cellular reduction of ribosomes, the macromolecular complexes carrying out protein biosynthesis. Later efforts to test this, including a short- term warming experiment (6 weeks, +6 degrees C), further supported our conclusion. Down-regulating the protein biosynthesis machinery liberates energy and matter, allowing soil bacteria to maintain high metabolic activities and cell division rates even after decades of warming.
format Article in Journal/Newspaper
author Sollinger, Andrea
Seneca, Joana
Dahl, Mathilde Borg
Motleleng, Liabo L.
Prommer, Judith
Verbruggen, Erik
Sigurdsson, Bjarni D.
Janssens, Ivan
Penuelas, Josep
Urich, Tim
Richter, Andreas
Tveit, Alexander T.
author_facet Sollinger, Andrea
Seneca, Joana
Dahl, Mathilde Borg
Motleleng, Liabo L.
Prommer, Judith
Verbruggen, Erik
Sigurdsson, Bjarni D.
Janssens, Ivan
Penuelas, Josep
Urich, Tim
Richter, Andreas
Tveit, Alexander T.
author_sort Sollinger, Andrea
title Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
title_short Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
title_full Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
title_fullStr Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
title_full_unstemmed Down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
title_sort down-regulation of the bacterial protein biosynthesis machinery in response to weeks, years, and decades of soil warming
publishDate 2022
url https://hdl.handle.net/10067/1887460151162165141
https://repository.uantwerpen.be/docstore/d:irua:12850
genre Subarctic
genre_facet Subarctic
op_source 2375-2548
Science Advances
op_relation info:eu-repo/semantics/altIdentifier/doi/10.1126/SCIADV.ABM3230
info:eu-repo/semantics/altIdentifier/isi/000800334900014
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1126/SCIADV.ABM3230
container_title Science Advances
container_volume 8
container_issue 12
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