Detectable land use impact on methanotrophs and methanogens in kettle hole sediments but not on net methane production potentials

Kettle holes (KHs) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings, governed by land use. Matter inputs include inorganic solutes tha...

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Published inFEMS microbiology ecology Vol. 101; no. 6
Main Authors Kynast, Danica, Reverey, Florian, Ganzert, Lars, Grossart, Hans-Peter, Lischeid, Gunnar, Kolb, Steffen
Format Journal Article
LanguageEnglish
Published England Oxford University Press 01.06.2025
Subjects
Agriculture
Archaea - classification
Archaea - genetics
Archaea - isolation & purification
Archaea - metabolism
Bacteria - classification
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Biodiversity
Forests
Geologic Sediments - microbiology
Methane - metabolism
Microbiota
Soil - chemistry
Soil Microbiology
methane
land use
kettle hole
methanogens
methanotrophs
sediments
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Abstract Kettle holes (KHs) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings, governed by land use. Matter inputs include inorganic solutes that are alternative electron acceptors and impact on methanotrophs and methanogens. Thus, they might affect methane net production. We sampled 10 kettle hole sediments embedded in landscapes with either agricultural or forest land use and determined their (i) potential net methane production rates, (ii) the composition of their microbial communities, and (iii) physicochemical soil parameters. Potential net methane production did not significantly differ by land use type but between single KHs. However, land use type had a strong impact on methanotroph and methanogen and on total bacterial and archaeal microbiota structure. Relative abundances of methanotrophs and methanogens were significantly higher in agricultural KHs, and their relative abundances were among the most influential variables projecting net methane production potentials along with nutrient status and water content. Land use type was thus identified as a major factor that impacts the structure and biodiversity of general and methane-cycling microbiota, but it did not affect net methane production potentials.
AbstractList Kettle holes (KH) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings governed by land use. Matter inputs include inorganic solutes that are alternative electron acceptors and impact on methanotrophs and methanogens. Thus, they might affect methane net production. We sampled 10 kettle hole sediments embedded in landscapes with either agricultural or forest land use and determined their (i) potential net methane production rates, (ii) the composition of their microbial communities and (iii) physicochemical soil parameters. Potential net methane production did not significantly differ by land use type but between single KHs. However, land use type had a strong impact on methanotroph and methanogen and on total bacterial and archaeal microbiota structure. Relative abundances of methanotrophs and methanogens were significantly higher in agricultural KHs and their relative abundances were among the most influential variables projecting net methane production potentials along with nutrient status and water content. Land use type was thus identified a major factor that impacts on the structure and biodiversity of general and methane-cycling microbiota, but it did not affect net methane production potentials.Kettle holes (KH) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings governed by land use. Matter inputs include inorganic solutes that are alternative electron acceptors and impact on methanotrophs and methanogens. Thus, they might affect methane net production. We sampled 10 kettle hole sediments embedded in landscapes with either agricultural or forest land use and determined their (i) potential net methane production rates, (ii) the composition of their microbial communities and (iii) physicochemical soil parameters. Potential net methane production did not significantly differ by land use type but between single KHs. However, land use type had a strong impact on methanotroph and methanogen and on total bacterial and archaeal microbiota structure. Relative abundances of methanotrophs and methanogens were significantly higher in agricultural KHs and their relative abundances were among the most influential variables projecting net methane production potentials along with nutrient status and water content. Land use type was thus identified a major factor that impacts on the structure and biodiversity of general and methane-cycling microbiota, but it did not affect net methane production potentials.
Kettle holes (KHs) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings, governed by land use. Matter inputs include inorganic solutes that are alternative electron acceptors and impact on methanotrophs and methanogens. Thus, they might affect methane net production. We sampled 10 kettle hole sediments embedded in landscapes with either agricultural or forest land use and determined their (i) potential net methane production rates, (ii) the composition of their microbial communities, and (iii) physicochemical soil parameters. Potential net methane production did not significantly differ by land use type but between single KHs. However, land use type had a strong impact on methanotroph and methanogen and on total bacterial and archaeal microbiota structure. Relative abundances of methanotrophs and methanogens were significantly higher in agricultural KHs, and their relative abundances were among the most influential variables projecting net methane production potentials along with nutrient status and water content. Land use type was thus identified as a major factor that impacts the structure and biodiversity of general and methane-cycling microbiota, but it did not affect net methane production potentials.
Kettle holes (KHs) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to inorganic and organic matter input from their terrestrial surroundings, governed by land use. Matter inputs include inorganic solutes that are alternative electron acceptors and impact on methanotrophs and methanogens. Thus, they might affect methane net production. We sampled 10 kettle hole sediments embedded in landscapes with either agricultural or forest land use and determined their (i) potential net methane production rates, (ii) the composition of their microbial communities, and (iii) physicochemical soil parameters. Potential net methane production did not significantly differ by land use type but between single KHs. However, land use type had a strong impact on methanotroph and methanogen and on total bacterial and archaeal microbiota structure. Relative abundances of methanotrophs and methanogens were significantly higher in agricultural KHs, and their relative abundances were among the most influential variables projecting net methane production potentials along with nutrient status and water content. Land use type was thus identified as a major factor that impacts the structure and biodiversity of general and methane-cycling microbiota, but it did not affect net methane production potentials. The land use type around kettle holes, small, dynamic freshwater systems, impacts the general and methane-cycling microbiota composition in the sediments, but does not affect the potential net methane production rates.
Author Kynast, Danica
Reverey, Florian
Lischeid, Gunnar
Grossart, Hans-Peter
Ganzert, Lars
Kolb, Steffen
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  fullname: Kynast, Danica
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Issue 6
Keywords methane
land use
kettle hole
methanogens
methanotrophs
sediments
Language English
License https://creativecommons.org/licenses/by/4.0
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Snippet Kettle holes (KHs) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to...
Kettle holes (KH) are dynamic freshwater systems and potential sources of the greenhouse gas methane. Due to their small size (<1 hectare), KHs are subject to...
SourceID pubmedcentral
proquest
pubmed
crossref
SourceType Open Access Repository
Aggregation Database
Index Database
SubjectTerms Agriculture
Archaea - classification
Archaea - genetics
Archaea - isolation & purification
Archaea - metabolism
Bacteria - classification
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Biodiversity
Forests
Geologic Sediments - microbiology
Methane - metabolism
Microbiota
Soil - chemistry
Soil Microbiology
Title Detectable land use impact on methanotrophs and methanogens in kettle hole sediments but not on net methane production potentials
URI https://www.ncbi.nlm.nih.gov/pubmed/40312782
https://www.proquest.com/docview/3199461431
https://pubmed.ncbi.nlm.nih.gov/PMC12089754
Volume 101
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