Biological and Environmental Research - Earth and Environmental System Sciences
Earth and Environmental System Modeling
26 June 2019

Efficient Earth System Model for Analysis of Energy, Water, and Land Resources and Dynamics

Improved MIT Earth System Model an effective tool for analyzing climate risk to energy, water and land resources


The future of the Earth’s energy, water and land resources will depend, in part, on how the climate will change in coming decades. To generate meaningful projections of global climate change, one must take into account two major sources of uncertainty—first, in the level of external forcings to the climate system; and second, in the magnitude of the climate system’s response to those forcings. The MIT Earth System Model (MESM) provides the flexibility and computational speed required to analyze/account for climate system uncertainty while also representing the detailed physics, chemistry and biology that’s typical of more computationally intensive Earth system models—all at significantly less cost. 


The computational efficiency of this model allows researchers to run large ensembles of simulations for robust uncertainty quantification within a short time frame. The MESM thus provides an effective tool for modeling the climate system and quantifying uncertainty of its response to external forcings. MESM simulations can be used as a basis for climate risk assessment to energy, water, and land resources.


Recently upgraded, the MESM consists of three main components—land, ocean, and atmosphere—and represents the processes that shape each component’s evolution and the interactions among these components, essentially serving as an Earth simulator. Despite simplifications made in the model to make it faster and cheaper to run, such as a zonally averaged atmospheric sub-model, the MESM shows generally comparable results to those of more complex models. Comparing the performance of the MESM with that of more computationally intensive Earth system models, researchers at the MIT Joint Program on the Science and Policy of Global Change and collaborating institutions show that the MESM effectively simulates changes in the observed climate system since the mid-19th century as well as the main features of the present-day climate system. In simulations of the impact of varying levels of external forcings on the climate system, the MESM’s results also compares favorably with those produced by more computationally intensive models.

Andrei Sokolov
Massachusetts Institute of Technology (MIT)
Sokolov, A, D Kicklighter, A Schlosser, C Wang, E Monier, B Brown-Steiner, R Prinn, et al.  2018.  "Description and Evaluation of the MIT Earth System Model (MESM)."  Journal of Advances in Modeling Earth Systems 10(8): 1759-1789.