Publications

The project adopts the FAIR principles, with data-sharing agreements from the outset. The main product will be model code, including new model components and analytics, and new datasets, maintained as open-access during development using Github, then released DOI-referenced for community access through Zenodo. Papers documenting code development will be published in open-access peer-reviewed journals and will be made available on this website. New datasets will be published as data-papers with DOIs (e.g., in Scientific Data, ESSD) and available to the community.

Challenge 1: Tree Biomass

Zhe Zhao, Philippe Ciais, Jean-Pierre Wigneron, Maurizio Santoro, Martin Brandt, Fritz Kleinschroth, Simon L. Lewis, Jerome Chave, Rasmus Fensholt, Nadine Laporte, Denis Jean Sonwa, Sassan S. Saatchi, Lei Fan, Hui Yang, Xiaojun Li, Mengjia Wang, Lei Zhu, Yidi Xu, Jiaying He, Wei Li, Central African biomass carbon losses and gains during 2010–2019, One Earth, Volume 7, Issue 3, 2024.

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Bowring, S.P.K., Li, W., Mouillot, F., Rosan, T.M., Ciais, P. (2024). Road fragment edges both increase tropical forest fires and suppress global burned area, Nature Communications, in review.

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Challenge 2: Soil Carbon

Li X., Leizeaga A., Rousk J., Zhou S., Hugelius G., and S. Manzoni (2024). Recovery of soil microbial metabolism after rewetting depends on interacting environmental conditions and changes in functional groups and life history strategies. Global Change Biology 30, e17522.

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Li X., Leizeaga A., Hicks L., Cordero I., Li J.-T., Tang Y., Winterfeldt S., Brangarí A. C., Meisner A., Manzoni S., and J. Rousk (2024). Time series of soil microbial growth and respiration rates after rewetting of dry soils. Dataset version 1. Bolin Centre Database

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He, X., Abs, E., Allison, S.D. et al. Emerging multiscale insights on microbial carbon use efficiency in the land carbon cycle. Nat Commun 15, 8010 (2024).

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Abs E, Chase A, Manzoni S, Ciais P, Allison S (2024). Microbial evolution—An under-appreciated driver of soil carbon cycling. Global Change Biology, 30(4).

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He, Xianjin, Rose Z. Abramoff, Elsa Abs, Katerina Georgiou, Haicheng Zhang, and Daniel S. Goll. “Model Uncertainty Obscures Major Driver of Soil Carbon” Nature 627, (2024): E1–3.

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Xi, Y., Qiu, C., Zhang, Y., Zhu, D., Peng, S., Hugelius, G., Chang, J., Salmon, E., and Ciais, P.: Assessment of a multi-tiling energy budget approach in a land surface model ORCHIDEE-MICT (r8205), Geosci. Model Dev. Discuss. [preprint]

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Challenge 3: Marine Biota

Corentin Clerc, Laurent Bopp, Fabio Benedetti, et al. Effects of mesozooplankton growth and reproduction on plankton and organic carbon dynamics in a marine biogeochemical model. ESS Open Archive . March 07, 2024. Preprint
DOI

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T Panaïotis, J Wilson & BB Cael, A machine learning-based dissolved organic carbon climatology

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Krishna S, Lemmen C, Örey S, Rehren J, Pane JD, Mathis M, Püts M, Hokamp S, Pradhan HK, Hasenbein M, Scheffran J and Wirtz KW (2025) Interactive effects of multiple stressors in coastal ecosystems.
Front. Mar. Sci. 11:1481734.
doi: 10.3389/fmars.2024.1481734

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Challenge 4: Cross Challenges and Integration

Coming soon.