The atmosphere is the Earth's thin protective layer that shields us from harmful radiation, moderates temperature differences, and redistributes thermal energy, water, and pollutants: Almost all life depends on it. This protective function is maintained by delicate balances and is vulnerable to global changes in climate and land use. The main drivers of climate change are the radiative effects of greenhouse gases and aerosols, which affect the composition and impact of the atmosphere on all aspects of societal activities.
We are developing seamless observational and modeling techniques to unravel the complex interactions of climate change between the atmosphere, land surface, and ocean. As focal areas, we are investigating changes in air quality - globally and in urban areas - the internal causes and effects of climate change through feedbacks, and what kinds of weather and extremes we will need to prepare for in the future. Advances in these areas are paramount for reliably assessing the state of the Earth system and for predicting and projecting global changes on our future living conditions.
Our research follows a holistic approach: we develop cross-scale observational and modeling solutions for improved atmospheric forecasts and regional climate projections with unprecedented resolution. We strive to observe, understand, and predict atmospheric phenomena and process chains from their origin to climate change impacts in the atmosphere, particularly in their interactions and feedbacks with the land surface, biosphere, cryosphere, oceans, and near-Earth space. Through our work, we can assess the physical, chemical, and socio-ecological consequences of atmospheric change and its impact on climate, extreme weather, and land ecosystem functioning.
In doing so, we increase knowledge to address societal challenges such as global warming, growing world population, land use change, air quality, water availability, and energy and mobility change. Our atmospheric and climate observation and modeling activities provide the scientific basis of sustainable development strategies for the benefit of society, ecosystems, and climate mitigation and adaptation combined with economic risk reduction.
Eventsto event calendar
Seven KIT researchers are among the most cited scientists worldwide this year. Evaluation from 2010 to 2020.more
When the climate changes, it is also affecting the weather. Hans Schipper from the South German Climate Office explained at TEDx KIT how one is connected to the other and what all this has to do with the cuckoo.more
International field campaign investigates emission, transport and composition of dust in Icelandmore
KIT Researchers Investigate the Effect of Land Use Changes on European Bumblebee Species under a Changing Climatemore
KIT Researchers and Partners jointly investigate Relationships in the Earth System in High Air Layersmore
Atmospheric research in Germany significantly expanded with ACTRIS-D - KIT extends its capabilities to solve current climate issuesmore