European Geosciences Union
www.egu.eu
Thanks to the enthusiastic efforts of our members and volunteers, EGU25 was another record breaking year with an incredible 20,984 people participating in the General Assembly, both in Vienna and online!
Giorgia Stasi will be the first ever EGU volunteer to serve as Early Career Scientist Representative and be elected to lead her division, Energy, Resources and Environment, as Division President, whilst still in the Early Career Scientist stage.
EGU stands behind our sibling American scientific societies, providing our support for them and all their members in the face of recent changes to US scientific policy.
The Union restates our support for a geoscience community that is diverse as an essential feature of conducting cutting edge, innovative science research. In order to support this, we share a list of EGU’s tools, resources and policies that our community can use to broaden access to science, both in Europe and around the globe.
Following a vote by EGU’s volunteer Council, the Union will no longer be posting on X, formerly known as Twitter.
Some humans are racing to map the moon, Mars, and the stars, yet the very ground beneath our oceans remains largely unknown. What does it say about us, that we can chart the craters of distant planets before we bother to understand the seafloor that feeds us, cools us, and regulates our climate? In an age of climate breakdown, ecological collapse, and blue economy buzzwords, the seabed has become a paradox: out of sight, but increasingly in demand. Governments and …
We’re excited to invite you to the fifth edition of the Geochemistry, Mineralogy, Petrology and Volcanology Campfires of the 2024/2025 season! Join us on Thursday June 26th at 4 pm CEST on Zoom for a Scientific Campfire, during which three Early Career Scientists will present their research to the community. Our speakers for this edition are: Karoline Bruckel, PostDoc @ Laboratoire Magmas et Volcans, France on: “Coupling diffusion timescales in olivine with real-time monitoring data to decipher the magmatic processes …
The original goal of this study was to understand how the local dimension of the attractor of a dynamical system could be used to estimate the predictability of the future state of the system, and apply this in the case of radar images of rain. The local dimension using Extreme Value Theory (EVT) has been introduced and used in Faranda et al. (2017) to infer the current predictability of different dynamical systems from data. As other definitions of the dimension …
