Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy

Ulrike Braeckman et al. use in situ benthic community and benthic biogeochemistry measurements in Potter Cove on the Antarctic Peninsula to show that climate-related glacial melt disturbance shifts benthic communities from net autotrophy to heterotrophy. This study sheds light on how future glacial...

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Autores principales: Ulrike Braeckman, Francesca Pasotti, Ralf Hoffmann, Susana Vázquez, Angela Wulff, Irene R. Schloss, Ulrike Falk, Dolores Deregibus, Nene Lefaible, Anders Torstensson, Adil Al-Handal, Frank Wenzhöfer, Ann Vanreusel
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/07a664c91db443b7a5c90d34551be8f2
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spelling oai:doaj.org-article:07a664c91db443b7a5c90d34551be8f22021-12-02T13:57:58ZGlacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy10.1038/s42003-021-01673-62399-3642https://doaj.org/article/07a664c91db443b7a5c90d34551be8f22021-01-01T00:00:00Zhttps://doi.org/10.1038/s42003-021-01673-6https://doaj.org/toc/2399-3642Ulrike Braeckman et al. use in situ benthic community and benthic biogeochemistry measurements in Potter Cove on the Antarctic Peninsula to show that climate-related glacial melt disturbance shifts benthic communities from net autotrophy to heterotrophy. This study sheds light on how future glacial melt and run-off may affect the metabolic balance of Antarctic benthic communities.Ulrike BraeckmanFrancesca PasottiRalf HoffmannSusana VázquezAngela WulffIrene R. SchlossUlrike FalkDolores DeregibusNene LefaibleAnders TorstenssonAdil Al-HandalFrank WenzhöferAnn VanreuselNature PortfolioarticleBiology (General)QH301-705.5ENCommunications Biology, Vol 4, Iss 1, Pp 1-11 (2021)
institution DOAJ
collection DOAJ
language EN
topic Biology (General)
QH301-705.5
spellingShingle Biology (General)
QH301-705.5
Ulrike Braeckman
Francesca Pasotti
Ralf Hoffmann
Susana Vázquez
Angela Wulff
Irene R. Schloss
Ulrike Falk
Dolores Deregibus
Nene Lefaible
Anders Torstensson
Adil Al-Handal
Frank Wenzhöfer
Ann Vanreusel
Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
description Ulrike Braeckman et al. use in situ benthic community and benthic biogeochemistry measurements in Potter Cove on the Antarctic Peninsula to show that climate-related glacial melt disturbance shifts benthic communities from net autotrophy to heterotrophy. This study sheds light on how future glacial melt and run-off may affect the metabolic balance of Antarctic benthic communities.
format article
author Ulrike Braeckman
Francesca Pasotti
Ralf Hoffmann
Susana Vázquez
Angela Wulff
Irene R. Schloss
Ulrike Falk
Dolores Deregibus
Nene Lefaible
Anders Torstensson
Adil Al-Handal
Frank Wenzhöfer
Ann Vanreusel
author_facet Ulrike Braeckman
Francesca Pasotti
Ralf Hoffmann
Susana Vázquez
Angela Wulff
Irene R. Schloss
Ulrike Falk
Dolores Deregibus
Nene Lefaible
Anders Torstensson
Adil Al-Handal
Frank Wenzhöfer
Ann Vanreusel
author_sort Ulrike Braeckman
title Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
title_short Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
title_full Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
title_fullStr Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
title_full_unstemmed Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy
title_sort glacial melt disturbance shifts community metabolism of an antarctic seafloor ecosystem from net autotrophy to heterotrophy
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/07a664c91db443b7a5c90d34551be8f2
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