ISIMIP2a Simulation Data from the Global Biomes Sector

Cite as

Christopher P.O. Reyer, Almut Arneth, Ghassem Asrar, Richard Betts, Jinfeng Chang, Min Chen, Philippe Ciais, Marie Dury, Matthew Forrest, Louis François, Alexandra Henrot, Thomas Hickler, Akihiko Ito, Ingrid Jacquemin, Wolfgang Lucht, Mikhail Mishurov, Catherine Morfopoulos, Guy Munhoven, Kazuya Nishina, Sebastian Ostberg, Shufen Pan, Rafique Rashid, Sibyll Schaphoff, Jörg Steinkamp, Hanqin Tian, Jia Yang, Ning Zeng, Fang Zhao, Matthias Büchner (2023): ISIMIP2a Simulation Data from the Global Biomes Sector (v2.0). ISIMIP Repository. https://doi.org/10.48364/ISIMIP.721480

Metadata

DOI:
https://doi.org/10.48364/ISIMIP.721480
Title:
ISIMIP2a Simulation Data from the Global Biomes Sector
Version:
2.0
Creators:
Contact person:

For inquiries concerning this dataset, please contact info@isimip.org.

Abstract:

This dataset contains ISIMIP2a (https://www.isimip.org, Schewe et al. 2019) simulation data from 8 biomes models: CARAIB (Dury et al. 2011), DLEM (Tian et al. 2014, Tian et al. 2015, Pan et al. 2014, Yang et al. 2015), JULES-B1 (Clark et al. 2013, Best et al. 2013, Harper et al. 2016), LPJ-GUESS (Smith et al. 2014), LPJmL (Sitch et al. 2003, Schaphoff et al. 2013, Bondeau et al. 2007), ORCHIDEE, VEGAS (Zeng et al. 2013, Zeng et al. 2005), and VISIT (Ito et al. 2002, Ito et al. 2012).

With version 2.0 of this dataset, the DOI page has been moved to the new ISIMIP repository.

Methods:

The ISIMIP2a biomes outputs are based on simulations from biomes models according to the ISIMIP2a protocol (https://www.isimip.org/protocol/2a/). A more detailed description of the models and model-specific amendments of the protocol are available at https://www.isimip.org/impactmodels.

Publication date:
May 23, 2023
Publisher:
ISIMIP Repository
Contributors:

Here we list the persons and organizations, who are responsible for the collection, the management, and the publication of this dataset.

Rights

When using ISIMIP data for your research, please appropriately credit the data providers, e.g. either by citing the DOI for the dataset, or by appropriate acknowledgment. We strongly encourage to offer co-authorship to at least a representative of the data providers. Further information can be found in our terms of use.

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References

  • Best M, Pryor M, Clark D, Rooney G, Essery R, Ménard C, Edwards J, Hendry M, Porson A, Gedney N, Mercado L, Sitch S, Blyth E, Boucher O, Cox P, Grimmond C, Harding R et al. The Joint UK Land Environment Simulator (JULES), Model description – Part 1: Energy and water fluxes. Geoscientific Model Development Discussions, 4, 595-640, 2011. https://doi.org/10.5194/gmdd-4-595-2011
  • Bondeau A., Smith P., Zaehle S., Schaphoff S., Lucht W., Cramer W., Gerten D., Lotze-Campen H., Müller C., Reichstein M., Smith B. et al. Modelling the role of agriculture for the 20th century global terrestrial carbon balance. Global Change Biology, 13, 679-706, 2007. https://doi.org/10.1111/j.1365-2486.2006.01305.x
  • Clark D, Mercado L, Sitch S, Jones C, Gedney N, Best M, Pryor M, Rooney G, Essery R, Blyth E, Boucher O, Harding R, Huntingford C, Cox P et al. The Joint UK Land Environment Simulator (JULES), model description – Part 2: Carbon fluxes and vegetation dynamics. Geoscientific Model Development, 4, 701-722, 2011. https://doi.org/10.5194/gmd-4-701-2011
  • Dury M, Hambuckers A, Warnant P, Henrot A, Favre E, Ouberdous M, François L (2011). Responses of European forest ecosystems to 21st century climate: assessing changes in interannual variability and fire intensity. iForest 4: 82-99. - https://doi.org/10.3832/ifor0572-004
  • Harper A, Cox P, Friedlingstein P, Wiltshire A, Jones C, Sitch S, Mercado L, Groenendijk M, Robertson E, Kattge J, Bönisch G, Atkin O, Bahn M, Cornelissen J, Niinemets Ü, Onipchenko V, Peñuelas J, Poorter L, Reich P, Soudzilovskaia N, van Bodegom P et al. Improved representation of plant functional types and physiology in the Joint UK Land Environment Simulator (JULES v4.2) using plant trait information. Geoscientific Model Development Discussions, 1-64, 2016. https://doi.org/10.5194/gmd-2016-22
  • Ito A, Inatomi M et al. Water-use efficiency of the terrestrial biosphere: a model analysis on interactions between the global carbon and water cycles. Journal of Hydrometeorology, 13, 681–694, 2012. https://doi.org/10.1175/JHM-D-10-05034.1
  • Ito A, Oikawa T et al. A simulation model of the carbon cycle in land ecosystems (Sim-CYCLE): a description based on dry-matter production theory and plot-scale validation. Ecological Modelling, 151, 143-176, 2002. https://doi.org/10.1016/s0304-3800(01)00473-2
  • Pan, S., Tian, H., Dangal, S.R.S. et al. Impacts of climate variability and extremes on global net primary production in the first decade of the 21st century. J. Geogr. Sci. 25, 1027–1044 (2015). https://doi.org/10.1007/s11442-015-1217-4
  • Pan, Shufen, Hanqin Tian, Shree RS Dangal, Qichun Yang, Jia Yang, Chaoqun Lu, Bo Tao, Wei Ren, and Zhiyun Ouyang et al. Responses of global terrestrial evapotranspiration to climate change and increasing atmospheric CO 2 in the 21st century . Earth's Future, 3, 15-35, 2014. https://doi.org/10.1002/2014ef000263
  • Schaphoff S, Heyder U, Ostberg S, Gerten D, Heinke J, Lucht W et al. Contribution of permafrost soils to the global carbon budget. Environmental Research Letters, 8, 014026, 2013. https://doi.org/10.1088/1748-9326/8/1/014026
  • Schewe, J., Gosling, S.N., Reyer, C. et al. State-of-the-art global models underestimate impacts from climate extremes. Nat Commun 10, 1005 (2019). https://doi.org/10.1038/s41467-019-08745-6
  • Sitch S, Smith B, Prentice I, Arneth A, Bondeau A, Cramer W, Kaplan J, Levis S, Lucht W, Sykes M, Thonicke K, Venevsky S et al. Evaluation of ecosystem dynamics, plant geography and terrestrial carbon cycling in the LPJ dynamic global vegetation model. Global Change Biology, 9, 161-185, 2003. https://doi.org/10.1046/j.1365-2486.2003.00569.x
  • Smith et al. et al. Implications of incorporating N-cycling and {N} limitations on primary production in an individual-based dynamic vegetation model. 2014. https://doi.org/10.5194/bg-11-2027-2014
  • Tian, H., Chen, G., Lu, C. et al. North American terrestrial CO2 uptake largely offset by CH4 and N2O emissions: toward a full accounting of the greenhouse gas budget. Climatic Change 129, 413–426 (2015). https://doi.org/10.1007/s10584-014-1072-9
  • Yang, Jia, Hanqin Tian, Bo Tao, Wei Ren, Chaoqun Lu, Shufen Pan, Yuhang Wang, and Yongqiang Liu et al. Century-scale patterns and trends of global pyrogenic carbon emissions and fire influences on terrestrial carbon balance. Global Biogeochem. Cycles, 29, 1549-1566, 2015. https://doi.org/10.1002/2015gb005160
  • Zeng, N., Mariotti, A., and Wetzel, P. (2005), Terrestrial mechanisms of interannual CO2 variability, Global Biogeochem. Cycles, 19, GB1016, https://doi.org/10.1029/2004gb002273
  • Zeng, N., Zhao, F., Collatz, G. et al. Agricultural Green Revolution as a driver of increasing atmospheric CO2 seasonal amplitude. Nature 515, 394–397 (2014). https://doi.org/10.1038/nature13893

Additional documentation

This DOI is a new version of

  • Reyer, Christopher; Asrar, Gassem; Betts, Richard; Chang, Jinfeng; Chen, Min; Ciais, Philippe; Dury, Marie; Francois, Louis; Henrot, Alexandra; Hickler, Thomas; Ito, Akihiko; Jacquemin, Ingrid; Nishina, Kazuya; Mishurov, Mikhail; Morfopoulos, Catherine; Munhoven, Guy; Ostberg, Sebastian; Pan, Shufen; Rafique, Rashid; Schaphoff, Sibyll; Steinkamp, Jörg; Tian, Hanqin; Ren, Wei; Yang, Jia; Zeng, Ning; Zhao, Fang; Büchner, Matthias (2019): ISIMIP2a Simulation Data from Biomes Sector (V. 1.1). GFZ Data Services. https://doi.org/10.5880/PIK.2019.005

GCMD Keywords

  • EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS
  • EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS
  • EARTH SCIENCE > BIOSPHERE > VEGETATION
  • EARTH SCIENCE > HUMAN DIMENSIONS > ENVIRONMENTAL IMPACTS
  • Global Change Master Directory (GCMD) Keywords are a hierarchical set of controlled vocabularies maintained by NASA (more information).

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