Uncovering diversity and abundance patterns of CO2-fixing microorganisms in peatlands

Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO 2 -fixing microorganisms (CFMs) remained largely overlooked, while...

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Vydáno v:	Npj Biodiversity Ročník 4; číslo 1; s. 30 - 12
Hlavní autoři:	Le Geay, Marie, Mayers, Kyle, Sytiuk, Anna, Dorrepaal, Ellen, Küttim, Martin, Lamentowicz, Mariusz, Tuittila, Eeva-Stiina, Lauga, Béatrice, Jassey, Vincent E. J.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	London Nature Publishing Group UK 04.08.2025 Springer Nature B.V Nature Nature Portfolio
Témata:	631/158/2452 631/158/853 631/158/855 Abundance Animal Systematics/Taxonomy/Biogeography Biodiversity Biodiversity and Ecology Biomedical and Life Sciences Carbon Carbon dioxide Climate Change/Climate Change Impacts Community structure Decomposition Discriminant analysis Ecology Ecology, environment Ecosystems Emissions Environmental Management Environmental Sciences Fixing Genes Geographical distribution Heterotrophic microorganisms Life Sciences Metabolism Metabolites Microbiology and Parasitology Microbiomes Microorganisms Nutrients Peatlands Plant Systematics/Taxonomy/Biogeography Precipitation Principal components analysis Respiration
ISSN:	2731-4243, 2731-4243
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Abstract	Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO 2 -fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO 2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs.
AbstractList	Abstract Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO2-fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs. Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO 2 -fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO 2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs. Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO2-fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs. Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO 2 -fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO 2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs. Microorganisms play a crucial role in the carbon (C) dynamics of peatlands - a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO2-fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs.Microorganisms play a crucial role in the carbon (C) dynamics of peatlands - a major terrestrial C reservoir. Because of their role in C emissions, heterotrophic microorganisms have attracted much attention over the past decades. CO2-fixing microorganisms (CFMs) remained largely overlooked, while they could attenuate C emissions. Here, we use metabarcoding and digital droplet PCR to survey microorganisms that potentially fix CO2 in different peatlands. We demonstrate that CFMs are abundant and diverse in peatlands, with on average 1021 CFMs contributing up to 40% of the total bacterial abundance. Using a joint-species distribution model, we identified a core and a specific CFM microbiome, the latter being influenced by temperature and nutrients. Our findings highlight that ASV richness and community structure were direct drivers of CFM abundance, while environmental parameters were indirect drivers. These results provide the basis for a better understanding of the role of CFMs in peatland C cycle inputs.
ArticleNumber	30
Author	Le Geay, Marie Sytiuk, Anna Jassey, Vincent E. J. Tuittila, Eeva-Stiina Dorrepaal, Ellen Lamentowicz, Mariusz Lauga, Béatrice Mayers, Kyle Küttim, Martin
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Snippet	Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions,... Microorganisms play a crucial role in the carbon (C) dynamics of peatlands - a major terrestrial C reservoir. Because of their role in C emissions,... Abstract Microorganisms play a crucial role in the carbon (C) dynamics of peatlands — a major terrestrial C reservoir. Because of their role in C emissions,...
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SubjectTerms	631/158/2452 631/158/853 631/158/855 Abundance Animal Systematics/Taxonomy/Biogeography Biodiversity Biodiversity and Ecology Biomedical and Life Sciences Carbon Carbon dioxide Climate Change/Climate Change Impacts Community structure Decomposition Discriminant analysis Ecology Ecology, environment Ecosystems Emissions Environmental Management Environmental Sciences Fixing Genes Geographical distribution Heterotrophic microorganisms Life Sciences Metabolism Metabolites Microbiology and Parasitology Microbiomes Microorganisms Nutrients Peatlands Plant Systematics/Taxonomy/Biogeography Precipitation Principal components analysis Respiration
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Title	Uncovering diversity and abundance patterns of CO2-fixing microorganisms in peatlands
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