Two French climate models consistently predict a pronounced global warming

Source(s): Centre National de la Recherche Scientifique

The international climate science community is undertaking an extensive programme of numerical simulations of past and future climates. Its conclusions will contribute significantly to part one of the IPCC1 Sixth Assessment Report, which is expected to be published in 2021. The French scientists involved in the work, in particular at the CNRS, the CEA and Météo-France, were the first to submit their contributions, and they have now revealed the broad outlines of their findings. Specifically, their new models predict that warming by 2100 will be more severe than forecast in earlier versions. They are also making progress in describing climate at the regional level.

French scientists working together in the CLIMERI-France2 platform participated in the World Climate Research Programme (CMIP6)3 using two climate models, one developed by the CNRM4 together with CERFACS5, and the other at the IPSL6. CMIP6 brings together over twenty climate centres around the world that have developed some thirty models.

Simulations with the two new French models, as well as with models from other countries that are already available, predict that by 2100 warming will be more severe than that forecast in previous versions in 2012, especially for the most pessimistic emission scenarios. This could be explained by a more pronounced climate response to the increase in human-induced greenhouse gases than in the 2012 simulations. However, the reasons for this increased sensitivity and the degree of confidence to be attributed have yet to be assessed.

In the most pessimistic scenario (SSP5 8.5 – rapid economic growth driven by fossil fuels), the rise in mean global temperature7 is likely to reach 6 to 7 °C by 2100, which is 1 °C higher than in previous estimates.  Only one of the socio-economic scenarios (SSP1 1.9 - marked by strong international cooperation and giving priority to sustainable development) enables temperatures to remain below the 2°C global warming target, at the cost of very significant mitigation efforts and of temporarily exceeding this target during the course of the century.

The climate models are also being used as a basis for higher-resolution climate modelling for mainland France and its overseas territories. For instance, several simulations carried out as part of CMIP6 ‘zoomed in’ on Europe and the Indian Ocean. At these resolutions, the scientists successfully reproduced phenomena such as heat waves, tropical cyclones and dust transport more realistically than ever before.

These results were obtained thanks to improvements made to climate models since the previous programme.  Their spatial resolution is greater, the modelling of the different physical compartments of the climate system (ocean, atmosphere, land surfaces, ice, etc.) is more advanced, and ongoing assessments show that the French models simulate observed climate characteristics better than older versions.

The work carried out by the French community involved some 100 scientists from a number of different disciplines (climatologists, oceanographers, glaciologists, specialists in the atmosphere, vegetation and soils, experts in intensive computing), and required significant computer resources, namely  500 million computing hours on GENCI8 and Météo-France’s supercomputers, with 20 petabytes of data generated.

Notes

  1. IPCC: Intergovernmental Panel on Climate Change.
  2. A French climate modelling research infrastructure bringing together the CEA, CNRS and Météo-France, with support especially from Sorbonne Université, the IRD and CERFACS.
  3. Coupled Model Intercomparison Project, phase six
  4. CNRM: Centre National de Recherches Météorologiques (Météo-France/CNRS).
  5. CERFACS: Centre Européen de Recherche et de Formation Avancée en Calcul Scientifique (European Centre for Research and Advanced Training in Scientific Computing).
  6. IPSL: Institut Pierre-Simon Laplace, which brings together nine environmental science laboratories in the Paris region, five of which took part in the programme.
  7. The extent of warming is expressed relative to pre-industrial temperatures (over the period 1850-1899).
  8. Grand Équipement National de Calcul Intensif (French National High-Performance Computing Organisation). Its computing resources are installed in three computing centres, including the CNRS’s Institut du Développement et des Ressources en Informatique Scientifique (IDRIS) at Orsay, and the CEA’s Très Grand Centre de Calcul (TGCC) at Bruyères-le-Châtel (Essonne).

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