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Main Authors: Montemagno, Francesco, Cascone, Martina, Cardellini, Carlo, Pasotti, Jacopo, Manini, Elena, Baldrighi, Elisa, Maiero, Enrico, Segato, Delia, Cerrato, Riccardo, Mazzola, Mauro, Vardè, Massimiliano, Cordone, Angelina, Caliro, Stefano, Rudnik, Iain, Cramm, Margaret, Bradley, James, Giovannelli, Donato
Format: Artículo científico
Language:en
Published: Open research Europe 2024
Online Access:https://pubmed.ncbi.nlm.nih.gov/39906179/
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author Montemagno, Francesco
Cascone, Martina
Cardellini, Carlo
Pasotti, Jacopo
Manini, Elena
Baldrighi, Elisa
Maiero, Enrico
Segato, Delia
Cerrato, Riccardo
Mazzola, Mauro
Vardè, Massimiliano
Cordone, Angelina
Caliro, Stefano
Rudnik, Iain
Cramm, Margaret
Bradley, James
Giovannelli, Donato
author_facet Montemagno, Francesco
Cascone, Martina
Cardellini, Carlo
Pasotti, Jacopo
Manini, Elena
Baldrighi, Elisa
Maiero, Enrico
Segato, Delia
Cerrato, Riccardo
Mazzola, Mauro
Vardè, Massimiliano
Cordone, Angelina
Caliro, Stefano
Rudnik, Iain
Cramm, Margaret
Bradley, James
Giovannelli, Donato
Montemagno, Francesco
Cascone, Martina
Cardellini, Carlo
Pasotti, Jacopo
Manini, Elena
Baldrighi, Elisa
Maiero, Enrico
Segato, Delia
Cerrato, Riccardo
Mazzola, Mauro
Vardè, Massimiliano
Cordone, Angelina
Caliro, Stefano
Rudnik, Iain
Cramm, Margaret
Bradley, James
Giovannelli, Donato
collection PubMed - marine biology
contents PRA Melting-ICE Project: Svalbard 2022 Expeditions Report. Montemagno, Francesco Cascone, Martina Cardellini, Carlo Pasotti, Jacopo Manini, Elena Baldrighi, Elisa Maiero, Enrico Segato, Delia Cerrato, Riccardo Mazzola, Mauro Vardè, Massimiliano Cordone, Angelina Caliro, Stefano Rudnik, Iain Cramm, Margaret Bradley, James Giovannelli, Donato Arctic regions are among the fastest warming areas of the planet. Increasing average temperatures over the last five decades have deepened the thawing of the upper-most layer of permafrost across the Arctic, which contains significant amounts of organic carbon. The progressive deepening of seasonal thawing releases carbon that is used by active microorganisms which also produce greenhouse gases, potentially onsetting a positive feedback on global warming. Despite their importance in controlling organic matter degradation and greenhouse gas fluxes to the atmosphere, there is a lack of data on activity and dynamics of microbial communities in High Arctic soils in response to seasonal thaw. This report describes three specific expeditions performed on the Svalbard archipelago, carried out within the framework of the PRA (Italian Arctic Research Program) project Melting-ICE, performed between February and October 2022, reporting site characteristics and samples collected. The project aims to investigate the diversity and activity of active layer microbial communities across a full season thaw cycle, correlating microbial diversity with gas fluxes and composition. During these expeditions, a total of eight different sites were selected to investigate the microbiology and geochemistry of soils, as well as to estimate the gas fluxes from the soil to the atmosphere. The data collected in the field, combined with the results obtained in the laboratory, will provide a snapshot of the seasonal activity of the microbial communities present in the permafrost's active layer. The three campaigns will provide data to estimate the impact of permafrost melting on the carbon cycle and the role of microorganisms in the release of greenhouse gases.
format Artículo científico
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institution PubMed
language en
publishDate 2024
publisher Open research Europe
record_format pubmed
spellingShingle PRA Melting-ICE Project: Svalbard 2022 Expeditions Report.
Montemagno, Francesco
Cascone, Martina
Cardellini, Carlo
Pasotti, Jacopo
Manini, Elena
Baldrighi, Elisa
Maiero, Enrico
Segato, Delia
Cerrato, Riccardo
Mazzola, Mauro
Vardè, Massimiliano
Cordone, Angelina
Caliro, Stefano
Rudnik, Iain
Cramm, Margaret
Bradley, James
Giovannelli, Donato
PRA Melting-ICE Project: Svalbard 2022 Expeditions Report. Montemagno, Francesco Cascone, Martina Cardellini, Carlo Pasotti, Jacopo Manini, Elena Baldrighi, Elisa Maiero, Enrico Segato, Delia Cerrato, Riccardo Mazzola, Mauro Vardè, Massimiliano Cordone, Angelina Caliro, Stefano Rudnik, Iain Cramm, Margaret Bradley, James Giovannelli, Donato Arctic regions are among the fastest warming areas of the planet. Increasing average temperatures over the last five decades have deepened the thawing of the upper-most layer of permafrost across the Arctic, which contains significant amounts of organic carbon. The progressive deepening of seasonal thawing releases carbon that is used by active microorganisms which also produce greenhouse gases, potentially onsetting a positive feedback on global warming. Despite their importance in controlling organic matter degradation and greenhouse gas fluxes to the atmosphere, there is a lack of data on activity and dynamics of microbial communities in High Arctic soils in response to seasonal thaw. This report describes three specific expeditions performed on the Svalbard archipelago, carried out within the framework of the PRA (Italian Arctic Research Program) project Melting-ICE, performed between February and October 2022, reporting site characteristics and samples collected. The project aims to investigate the diversity and activity of active layer microbial communities across a full season thaw cycle, correlating microbial diversity with gas fluxes and composition. During these expeditions, a total of eight different sites were selected to investigate the microbiology and geochemistry of soils, as well as to estimate the gas fluxes from the soil to the atmosphere. The data collected in the field, combined with the results obtained in the laboratory, will provide a snapshot of the seasonal activity of the microbial communities present in the permafrost's active layer. The three campaigns will provide data to estimate the impact of permafrost melting on the carbon cycle and the role of microorganisms in the release of greenhouse gases.
title PRA Melting-ICE Project: Svalbard 2022 Expeditions Report.
url https://pubmed.ncbi.nlm.nih.gov/39906179/