Author
Listed:
- Joshua F. Dean
(Vrije Universiteit Amsterdam
University of Liverpool)
- Ove H. Meisel
(Vrije Universiteit Amsterdam)
- Melanie Martyn Rosco
(Vrije Universiteit Amsterdam)
- Luca Belelli Marchesini
(Department of Sustainable Agro-ecosystems and Bioresources, Research and Innovation Centre, Fondazione Edmund Mach
RUDN University)
- Mark H. Garnett
(Natural Environment Research Council Radiocarbon Facility)
- Henk Lenderink
(Vrije Universiteit Amsterdam)
- Richard van Logtestijn
(Vrije Universiteit Amsterdam)
- Alberto V. Borges
(University of Liège)
- Steven Bouillon
(Katholieke Universiteit Leuven)
- Thibault Lambert
(University of Liège)
- Thomas Röckmann
(Utrecht University)
- Trofim Maximov
(Institute for Biological Problems of the Cryolithozone, Siberian Branch Russian Academy of Sciences
North-Eastern Federal University)
- Roman Petrov
(Institute for Biological Problems of the Cryolithozone, Siberian Branch Russian Academy of Sciences
North-Eastern Federal University)
- Sergei Karsanaev
(Institute for Biological Problems of the Cryolithozone, Siberian Branch Russian Academy of Sciences
North-Eastern Federal University)
- Rien Aerts
(Vrije Universiteit Amsterdam)
- Jacobus van Huissteden
(Vrije Universiteit Amsterdam)
- Jorien E. Vonk
(Vrije Universiteit Amsterdam)
- A. Johannes Dolman
(Vrije Universiteit Amsterdam)
Abstract
Inland waters (rivers, lakes and ponds) are important conduits for the emission of terrestrial carbon in Arctic permafrost landscapes. These emissions are driven by turnover of contemporary terrestrial carbon and additional pre-aged (Holocene and late-Pleistocene) carbon released from thawing permafrost soils, but the magnitude of these source contributions to total inland water carbon fluxes remains unknown. Here we present unique simultaneous radiocarbon age measurements of inland water CO2, CH4 and dissolved and particulate organic carbon in northeast Siberia during summer. We show that >80% of total inland water carbon was contemporary in age, but pre-aged carbon contributed >50% at sites strongly affected by permafrost thaw. CO2 and CH4 were younger than dissolved and particulate organic carbon, suggesting emissions were primarily fuelled by contemporary carbon decomposition. Our findings reveal that inland water carbon emissions from permafrost landscapes may be more sensitive to changes in contemporary carbon turnover than the release of pre-aged carbon from thawing permafrost.
Suggested Citation
Joshua F. Dean & Ove H. Meisel & Melanie Martyn Rosco & Luca Belelli Marchesini & Mark H. Garnett & Henk Lenderink & Richard van Logtestijn & Alberto V. Borges & Steven Bouillon & Thibault Lambert & T, 2020.
"East Siberian Arctic inland waters emit mostly contemporary carbon,"
Nature Communications, Nature, vol. 11(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15511-6
DOI: 10.1038/s41467-020-15511-6
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Cited by:
- Liwei Zhang & Sibo Zhang & Xinghui Xia & Tom J. Battin & Shaoda Liu & Qingrui Wang & Ran Liu & Zhifeng Yang & Jinren Ni & Emily H. Stanley, 2022.
"Unexpectedly minor nitrous oxide emissions from fluvial networks draining permafrost catchments of the East Qinghai-Tibet Plateau,"
Nature Communications, Nature, vol. 13(1), pages 1-8, December.
- Guibiao Yang & Zhihu Zheng & Benjamin W. Abbott & David Olefeldt & Christian Knoblauch & Yutong Song & Luyao Kang & Shuqi Qin & Yunfeng Peng & Yuanhe Yang, 2023.
"Characteristics of methane emissions from alpine thermokarst lakes on the Tibetan Plateau,"
Nature Communications, Nature, vol. 14(1), pages 1-11, December.
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