Media coverage
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Media coverage
Title Improving Models for Solar Climate Intervention Research Degree of recognition International Media name/outlet EOS Media type Web Duration/Length/Size 2 pag. Date 19/03/21 Description Modern climate models were designed to simulate natural systems and changes mainly due to atmospheric carbon dioxide, rather than to predict effects of deliberate climate interventions. Producer/Author S. Eastham, S. Doherty, D. Keith, J. H. Richter and L. Xia URL https://doi.org/10.1029/2021EO156087 Persons F. Glassmeier Title No es tan fácil modificar nubes para refrescar el clima Degree of recognition International Media name/outlet Meteored Media type Web Duration/Length/Size 1 pag. Country/Territory Spain Date 8/02/21 Description Los estratocúmulos son la nube más frecuente en nuestro planeta. Siempre se pensó que sumar aerosoles para que se formen nubes más densas y brillantes ayudaría a enfriar el clima. Ahora se comprobó que ese proceso hasta podría ser contraproducente. Producer/Author Enzo Campetella URL https://www.meteored.com.ar/noticias/ciencia/no-es-tan-facil-modificar-nubes-para-refrescar-el-clima.html Persons F. Glassmeier Title Ship exhaust studies overestimate cooling from pollution-altered clouds Degree of recognition International Media name/outlet Science News Media type Web Duration/Length/Size 1 pag. Date 1/02/21 Description Among the biggest questions for climate change forecasters is how atmospheric aerosols shape clouds, which can help cool the planet. Now, a new study finds that one promising strategy for understanding how aerosols and clouds interact can overestimate the cooling ability of pollution-generated clouds by up to 200 percent, researchers report in the Jan. 29 Science. Producer/Author Carolyn Gramling URL https://www.sciencenews.org/article/ship-tracks-exhaust-studies-overestimate-cooling-pollution-clouds Persons F. Glassmeier Title Các hạt sol khí làm mát khí hậu ít hơn chúng ta nghĩ Degree of recognition International Media name/outlet Thiennhien Media type Web Duration/Length/Size 1 pag. Country/Territory Viet Nam Date 1/02/21 Description Klimaatkoelende aerosolen zijn er minder dan we dachten
De effecten van aërosoldeeltjes in wolken in de atmosfeer en het klimaat kunnen complexer zijn dan eerder bekend. Dat is de conclusie van de wolkenonderzoekerProducer/Author Anh Vu URL https://www.thiennhien.net/2021/02/01/cac-hat-sol-khi-lam-mat-khi-hau-it-hon-chung-ta-nghi/ Persons F. Glassmeier Title Aerosol particles cool the climate less than we thought Degree of recognition International Media name/outlet EurekAlert Media type Web Duration/Length/Size 1 pag. Country/Territory Netherlands Date 28/01/21 Description The impact of atmospheric aerosols on clouds and climate may be different than previously thought. That is the conclusion of cloud researcher Franziska Glassmeier from TU Delft. The results of her study will be published in Science on Friday, January 29th. URL https://www.eurekalert.org/news-releases/665545 Persons F. Glassmeier Title Aerosole kühlen die Atmosphäre weniger als gedacht Degree of recognition International Media name/outlet Wissenschaft Media type Web Duration/Length/Size 1 pag. Country/Territory Germany Date 28/01/21 Description Winzige Partikel in der Luft, sogenannte Aerosole, entstehen beispielsweise durch Abgase und beeinflussen in der Atmosphäre die Wolkenbildung. Dabei können sie sowohl kühlende als auch wärmende Effekte der Wolken verstärken. Um diese Effekte abzuschätzen, galten bisher sogenannte Ship-Track-Studien als geeignet, die die Auswirkungen von Schiffsabgasen untersuchen. Eine neue Studie deutet nun aber darauf hin, dass diese Studien den Kühleffekt systematisch überschätzen. Das könnte bedeuten, dass Aerosole die Klimaerwärmung weniger abfangen als gedacht – dafür aber auch die Erwärmung durch Treibhausgase geringer ausfällt als angenommen. Producer/Author Elena Bernard URL https://www.wissenschaft.de/erde-umwelt/aerosole-kuehlen-die-atmosphaere-weniger-als-gedacht/ Persons F. Glassmeier