Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology

Research output: Contribution to journalJournal articleResearchpeer-review

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Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology. / Gios, Emilie; Verbruggen, Erik; Audet, Joachim; Burns, Rachel; Butterbach-Bahl, Klaus; Espenberg, Mikk; Fritz, Christian; Glatzel, Stephan; Jurasinski, Gerald; Larmola, Tuula; Mander, Ülo; Nielsen, Claudia; Rodriguez, Andres F.; Scheer, Clemens; Zak, Dominik; Silvennoinen, Hanna M.

In: Biogeochemistry, Vol. 167, 2024, p. 609–629.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Gios, E, Verbruggen, E, Audet, J, Burns, R, Butterbach-Bahl, K, Espenberg, M, Fritz, C, Glatzel, S, Jurasinski, G, Larmola, T, Mander, Ü, Nielsen, C, Rodriguez, AF, Scheer, C, Zak, D & Silvennoinen, HM 2024, 'Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology', Biogeochemistry, vol. 167, pp. 609–629. https://doi.org/10.1007/s10533-024-01122-6

APA

Gios, E., Verbruggen, E., Audet, J., Burns, R., Butterbach-Bahl, K., Espenberg, M., Fritz, C., Glatzel, S., Jurasinski, G., Larmola, T., Mander, Ü., Nielsen, C., Rodriguez, A. F., Scheer, C., Zak, D., & Silvennoinen, H. M. (2024). Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology. Biogeochemistry, 167, 609–629. https://doi.org/10.1007/s10533-024-01122-6

Vancouver

Gios E, Verbruggen E, Audet J, Burns R, Butterbach-Bahl K, Espenberg M et al. Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology. Biogeochemistry. 2024;167:609–629. https://doi.org/10.1007/s10533-024-01122-6

Author

Gios, Emilie ; Verbruggen, Erik ; Audet, Joachim ; Burns, Rachel ; Butterbach-Bahl, Klaus ; Espenberg, Mikk ; Fritz, Christian ; Glatzel, Stephan ; Jurasinski, Gerald ; Larmola, Tuula ; Mander, Ülo ; Nielsen, Claudia ; Rodriguez, Andres F. ; Scheer, Clemens ; Zak, Dominik ; Silvennoinen, Hanna M. / Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology. In: Biogeochemistry. 2024 ; Vol. 167. pp. 609–629.

Bibtex

@article{8210be59c6864e4aa1d509959e69674f,
title = "Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology",
abstract = "Restoration of drained peatlands through rewetting has recently emerged as a prevailing strategy to mitigate excessive greenhouse gas emissions and re-establish the vital carbon sequestration capacity of peatlands. Rewetting can help to restore vegetation communities and biodiversity, while still allowing for extensive agricultural management such as paludiculture. Belowground processes governing carbon fluxes and greenhouse gas dynamics are mediated by a complex network of microbial communities and processes. Our understanding of this complexity and its multi-factorial controls in rewetted peatlands is limited. Here, we summarize the research regarding the role of soil microbial communities and functions in driving carbon and nutrient cycling in rewetted peatlands including the use of molecular biology techniques in understanding biogeochemical processes linked to greenhouse gas fluxes. We emphasize that rapidly advancing molecular biology approaches, such as high-throughput sequencing, are powerful tools helping to elucidate the dynamics of key biogeochemical processes when combined with isotope tracing and greenhouse gas measuring techniques. Insights gained from the gathered studies can help inform efficient monitoring practices for rewetted peatlands and the development of climate-smart restoration and management strategies.",
keywords = "Biogeochemical processes, Climate change mitigation, Microbial communities, Molecular biology, Peatland rewetting",
author = "Emilie Gios and Erik Verbruggen and Joachim Audet and Rachel Burns and Klaus Butterbach-Bahl and Mikk Espenberg and Christian Fritz and Stephan Glatzel and Gerald Jurasinski and Tuula Larmola and {\"U}lo Mander and Claudia Nielsen and Rodriguez, {Andres F.} and Clemens Scheer and Dominik Zak and Silvennoinen, {Hanna M.}",
note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",
year = "2024",
doi = "10.1007/s10533-024-01122-6",
language = "English",
volume = "167",
pages = "609–629",
journal = "Biogeochemistry",
issn = "0168-2563",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - Unraveling microbial processes involved in carbon and nitrogen cycling and greenhouse gas emissions in rewetted peatlands by molecular biology

AU - Gios, Emilie

AU - Verbruggen, Erik

AU - Audet, Joachim

AU - Burns, Rachel

AU - Butterbach-Bahl, Klaus

AU - Espenberg, Mikk

AU - Fritz, Christian

AU - Glatzel, Stephan

AU - Jurasinski, Gerald

AU - Larmola, Tuula

AU - Mander, Ülo

AU - Nielsen, Claudia

AU - Rodriguez, Andres F.

AU - Scheer, Clemens

AU - Zak, Dominik

AU - Silvennoinen, Hanna M.

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024

Y1 - 2024

N2 - Restoration of drained peatlands through rewetting has recently emerged as a prevailing strategy to mitigate excessive greenhouse gas emissions and re-establish the vital carbon sequestration capacity of peatlands. Rewetting can help to restore vegetation communities and biodiversity, while still allowing for extensive agricultural management such as paludiculture. Belowground processes governing carbon fluxes and greenhouse gas dynamics are mediated by a complex network of microbial communities and processes. Our understanding of this complexity and its multi-factorial controls in rewetted peatlands is limited. Here, we summarize the research regarding the role of soil microbial communities and functions in driving carbon and nutrient cycling in rewetted peatlands including the use of molecular biology techniques in understanding biogeochemical processes linked to greenhouse gas fluxes. We emphasize that rapidly advancing molecular biology approaches, such as high-throughput sequencing, are powerful tools helping to elucidate the dynamics of key biogeochemical processes when combined with isotope tracing and greenhouse gas measuring techniques. Insights gained from the gathered studies can help inform efficient monitoring practices for rewetted peatlands and the development of climate-smart restoration and management strategies.

AB - Restoration of drained peatlands through rewetting has recently emerged as a prevailing strategy to mitigate excessive greenhouse gas emissions and re-establish the vital carbon sequestration capacity of peatlands. Rewetting can help to restore vegetation communities and biodiversity, while still allowing for extensive agricultural management such as paludiculture. Belowground processes governing carbon fluxes and greenhouse gas dynamics are mediated by a complex network of microbial communities and processes. Our understanding of this complexity and its multi-factorial controls in rewetted peatlands is limited. Here, we summarize the research regarding the role of soil microbial communities and functions in driving carbon and nutrient cycling in rewetted peatlands including the use of molecular biology techniques in understanding biogeochemical processes linked to greenhouse gas fluxes. We emphasize that rapidly advancing molecular biology approaches, such as high-throughput sequencing, are powerful tools helping to elucidate the dynamics of key biogeochemical processes when combined with isotope tracing and greenhouse gas measuring techniques. Insights gained from the gathered studies can help inform efficient monitoring practices for rewetted peatlands and the development of climate-smart restoration and management strategies.

KW - Biogeochemical processes

KW - Climate change mitigation

KW - Microbial communities

KW - Molecular biology

KW - Peatland rewetting

U2 - 10.1007/s10533-024-01122-6

DO - 10.1007/s10533-024-01122-6

M3 - Journal article

C2 - 38707517

AN - SCOPUS:85184474079

VL - 167

SP - 609

EP - 629

JO - Biogeochemistry

JF - Biogeochemistry

SN - 0168-2563

ER -

ID: 389922920