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  The Earth system model CLIMBER-X v1.0 – Part 2: The global carbon cycle

Willeit, M., Ilyina, T., Liu, B., Heinze, C., Perrette, M., Heinemann, M., Dalmonech, D., Brovkin, V., Munhoven, G., Börker, J., Hartmann, J., Romero-Mujalli, G., Ganopolski, A. (2023): The Earth system model CLIMBER-X v1.0 – Part 2: The global carbon cycle. - Geoscientific Model Development, 16, 12, 3501-3534.
https://doi.org/10.5194/gmd-16-3501-2023

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 Creators:
Willeit, Matteo1, Author              
Ilyina, T.2, Author
Liu, B.2, Author
Heinze, C.2, Author
Perrette, Mahé1, Author              
Heinemann, M.2, Author
Dalmonech, D.2, Author
Brovkin, V.2, Author
Munhoven, G.2, Author
Börker, J.2, Author
Hartmann, J.2, Author
Romero-Mujalli, G.2, Author
Ganopolski, Andrey1, Author              
Affiliations:
1Potsdam Institute for Climate Impact Research, ou_persistent13              
2External Organizations, ou_persistent22              

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 Abstract: The carbon cycle component of the newly developed Earth System Model of intermediate complexity CLIMBER-X is presented. The model represents the cycling of carbon through atmosphere, vegetation, soils, seawater and marine sediments. Exchanges of carbon with geological reservoirs occur through sediment burial, rock weathering and volcanic degassing. The state-of-the-art HAMOCC6 model is employed to simulate ocean biogeochemistry and marine sediments processes. The land model PALADYN simulates the processes related to vegetation and soil carbon dynamics, including permafrost and peatlands. The dust cycle in the model allows for an interactive determination of the input of the micro-nutrient iron into the ocean. A rock weathering scheme is implemented into the model, with the weathering rate depending on lithology, runoff and soil temperature. CLIMBER-X includes a simple representation of the methane cycle, with explicitly modelled natural emissions from land and the assumption of a constant residence time of CH4 in the atmosphere. Carbon isotopes 13C and 14C are tracked through all model compartments and provide a useful diagnostic for model-data comparison. A comprehensive evaluation of the model performance for present–day and the historical period shows that CLIMBER-X is capable of realistically reproducing the historical evolution of atmospheric CO2 and CH4, but also the spatial distribution of carbon on land and the 3D structure of biogeochemical ocean tracers. The analysis of model performance is complemented by an assessment of carbon cycle feedbacks and model sensitivities compared to state-of-the-art CMIP6 models. Enabling interactive carbon cycle in CLIMBER-X results in a relatively minor slow-down of model computational performance by ~20 %, compared to a throughput of ~10,000 simulation years per day on a single node with 16 CPUs on a high performance computer in a climate–only model setup. CLIMBER-X is therefore well suited to investigate the feedbacks between climate and the carbon cycle on temporal scales ranging from decades to >100,000 years.

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Language(s): eng - English
 Dates: 2022-12-202023-05-242023-06-272023-06-27
 Publication Status: Finally published
 Pages: 34
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: DOI: 10.5194/gmd-16-3501-2023
PIKDOMAIN: RD1 - Earth System Analysis
Organisational keyword: RD1 - Earth System Analysis
Research topic keyword: Ecosystems
Research topic keyword: Paleoclimate
Regional keyword: Global
Model / method: CLIMBER
Working Group: Long-Term Dynamics of the Earth System
MDB-ID: yes - 3484
OATYPE: Gold Open Access
 Degree: -

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Title: Geoscientific Model Development
Source Genre: Journal, SCI, Scopus, p3, oa
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Pages: - Volume / Issue: 16 (12) Sequence Number: - Start / End Page: 3501 - 3534 Identifier: CoNE: https://publications.pik-potsdam.de/cone/journals/resource/journals185
Publisher: Copernicus