The tropical rain belts with an annual cycle and a continent model 
intercomparison project: TRACMIP

Voigt, Aiko; Biasutti, Michela; Scheff, Jacob; Bader, Juergen; Bordoni, Simona; Codron, Francis; Dixon, Ross D.; Jonas, Jeffrey; Kang, Sarah M.; Klingaman, Nicholas P.; Leung, Ruby; Lu, Jian; Mapes, Brian; Maroon, Elizabeth A.; McDermid, Sonali; Park, Jong-Yeon; Roehrig, Romain; Rose, Brian E. J.; Russell, Gary L.; Seo, Jeongbin; Toniazzo, Thomas; Wei, Ho-Hsuan; Yoshimori, Masakazu; Zeppetello, Lucas R. Vargas

doi:10.1002/2016MS000748

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The tropical rain belts with an annual cycle and a continent model intercomparison project: TRACMIP

MPG-Autoren

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Bader, Juergen
Director’s Research Group LES, The Land in the Earth System, MPI for Meteorology, Max Planck Society;

Kang, Sarah M.
External Author, MPI for Meteorology, Max Planck Society;
School of Urban and Environmental Engineering, Ulsan National Institute of Science and Technology, Ulsan, South Korea;

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Park, Jong-Yeon
Climate Dynamics, The Atmosphere in the Earth System, MPI for Meteorology, Max Planck Society;

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Zitation

Voigt, A., Biasutti, M., Scheff, J., Bader, J., Bordoni, S., Codron, F., et al. (2016). The tropical rain belts with an annual cycle and a continent model intercomparison project: TRACMIP. Journal of Advances in Modeling Earth Systems, 8, 1868-1891. doi:10.1002/2016MS000748.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002C-8382-8

Zusammenfassung

This paper introduces the Tropical Rain belts with an Annual cycle and a Continent Model Intercomparison Project (TRACMIP). TRACMIP studies the dynamics of tropical rain belts and their response to past and future radiative forcings through simulations with 13 comprehensive and one simplified atmosphere models coupled to a slab ocean and driven by seasonally varying insolation. Five idealized experiments, two with an aquaplanet setup and three with a setup with an idealized tropical continent, fill the space between prescribed-SST aquaplanet simulations and realistic simulations provided by CMIP5/6. The simulations reproduce key features of present-day climate and expected future climate change, including an annual-mean intertropical convergence zone (ITCZ) that is located north of the equator and Hadley cells and eddy-driven jets that are similar to present-day climate. Quadrupling CO2 leads to a northward ITCZ shift and preferential warming in Northern high latitudes. The simulations show interesting CO2-induced changes in the seasonal excursion of the ITCZ and indicate a possible state dependence of climate sensitivity. The inclusion of an idealized continent modulates both the control climate and the response to increased CO2; for example, it reduces the northward ITCZ shift associated with warming and, in some models, climate sensitivity. In response to eccentricity-driven seasonal insolation changes, seasonal changes in oceanic rainfall are best characterized as a meridional dipole, while seasonal continental rainfall changes tend to be symmetric about the equator. This survey illustrates TRACMIP's potential to engender a deeper understanding of global and regional climate and to address questions on past and future climate change.