A new initiative at KIT is developing a modular AI world model that integrates climate, weather, and environmental processes, providing deeper insights into nonlinear Earth system interactions and ...

Earth system models (ESMs) integrate the interactions of atmosphere, ocean, land, ice, and biosphere to estimate the state of regional and global climate under a wide variety of conditions. A model ...

Weather, climate and hydrometeorology forecasts require accurate surface–atmosphere coupled modeling. This requires the use ...

CLIMES is an interdisciplinary, collaborative space for regional, intersectoral modeling of Earth’s systems. The lab provides quantitative, computational projections of regionally relevant human and ...

In a time of increasing climate variability, researchers Pengfei Xue and Miraj B. Kayastha have developed regional Earth system models to better understand and predict extreme weather and ...

Earth system models (ESMs) help us understand climate and environmental changes. With advances in computing power, ESMs can now be run at kilometer-scale (k-scale) resolutions, capturing very fine ...

A developing pyrocumulonimbus cloud above Oregon's Gulch Fire, part of the Beaver Complex Fire, in 2014. On September 5, 2020, California’s Creek Fire grew so severe that it began producing it’s own ...

Earth system models have been overestimating natural nitrogen fixation by about 50%, overstating the strength of Earth’s future carbon sink.