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07.Jan
15:15
CN, Gebäude 435, Raum 2.05
Freia F. Østerstrøm1, Aarhus University, Denmark
The stratospheric ozone layer is essential in protecting life on Earth from harmful UV irradiation, and even small changes in ozone layer thickness can cause significant damage to human health and agriculture. Knowing the methods and causes for ozone depletion is therefore critical. As the atmospheric halogen loading moves towards pre-industrial levels in the future, the largest perturbation to the ozone layer could be caused by volcanic eruptions. Large explosive volcanic eruptions have the potential to alter the spatiotemporal profiles of the ozone column through changes in trace gas composition and aerosol loading of the stratosphere. Along with sulfur compounds, volcanic eruptions can inject halogens or water into the stratosphere, potentially leading to sudden and dramatic ozone losses on a hemispheric to global scale. A recent example is the January 15, 2022, Hunga volcanic eruption – the largest eruption in 30 years – injecting a significant amount of water into the stratosphere along with sulfur dioxide, SO2, peaking at a record-high >50 km above the surface.
A 3-D chemistry-climate-aerosol model – SOCOL-AERv2 model (SOCOL = modeling tools for studies of SOlar Climate Ozone Links, AER = 2D aerosol model) – has been used to determine the response of stratospheric ozone to different types of volcanic eruptions in a contemporary atmosphere: water-rich Hunga-like eruptions, eruptions injecting SO2, and eruptions co-injecting halogens into the stratosphere. The dependence on latitude, season, and halogen and water content is discussed as well as the differences in the results for hemispherical and global impacts, comparing the impact of each eruption scenario on the aerosol loading of the atmosphere and stratospheric ozone layer. Changing the climate scenarios, the stratospheric impact of future volcanic eruptions is compared to the contemporary cases as well as comparing the differences between varying climate scenarios for eruptions occurring in the future toward the end of the century.
13.Jan
10:30
KIT Campus Nord, IMK-ASF, Gebäude 435, Raum 2.05 & via Zoom
Deepanshu Malik, KIT Campus Nord, IPF
14.Jan
15:15
CS, Geb. 30.23, 13. OG, Raum 13-02
Dr. Joachim Fallmannn, Stadt Heidelberg
Since October 2023, a high-resolution urban climate analysis – based on the air flow model FITNAH-3D has been available for Heidelberg, which covers the city area with a spatial resolution of 5 x 5 m.  The results can be used to derive statements about the current microclimatic state and the expected change in the quality of living and local climate comfort for citizens and residents. 
The new screening tool (the so-called climate scanner) allows the display of microclimatic effects of individual measures (tree planting, green facades, etc.) or changes to the position of existing buildings "instantly" via a GIS-interface - without the need for high-performance computing. This enables a fact-based assessment of climate adaptation measures even before the planning process, which in turn prevents costly subsequent adjustments.
The tool is based on an artificial intelligence which is built on a neural network that combines the results of the Heidelberg urban climate analysis with a large number of different urban climate analyses in Germany.
16.Jan
15:00
Seminar
TRO-Seminar
CS, Geb. 30.23, 13. OG, Raum 13-02
(1) Tabea Unser (2) Elias Hühn (3) Mathis Tonn (4) Miraim Simm, Chair: Andreas Baer
(1) Physical constraints on the stratospheric injection of trace gases from wildfires (2) tbd (3) Assessing the Impacts of Hailstorms in a future climate - first results (4) tbd
20.Jan
11:00
KIT Campus Nord, IMK-AAF
Gebäude 326, Raum 150 …
Martin Krüger, KIT, IMK-AAF
 
 
21.Jan
15:15
CN, Geb. 435, Raum 2.05
Jun.-Prof. Dr. Katharina Schröer, Universität Freiburg
tbd
27.Jan
10:30
Seminar
Titel folgt!
KIT Campus Nord, IMK-ASF, Gebäude 435, Raum 2.05 & via Zoom
Stefan Hinz, KIT Campus Nord, IPF
28.Jan
15:45
Colloquium
tbd
CS, Geb. 30.23, 13.OG, Zimmer 13-02
Prof. Dr. Jan Härter, Universität Potsdam
tbd
04.Feb
15:45
CS, Geb. 30.23, 13. OG, Raum 13-02
Prof. Dr. Martin Weissmann, Universität Wien
tbd
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