conditions in the vast pan-Arctic region. Consequently, intensified thawing of land snow/ice and permafrost and more precipitation over the river basin (45–75°N) substantially multiplied river heat discharge
Common Grounds – Permafrost Sonification The circumpolar region of the arctic is the fastest warming place on earth. While finally acknowledged by the public, and already felt as more frequent extreme [...] Halperin-Kaddari of the Sono-Choreographic Collective in collaboration with Tobias Grewenig and the Permafrost research group led by Julia Boike at Alfred-Wegener-Institut Potsdam. Common Grounds ATD Documentation [...] Participants (extern) Kerstin Ergenzinger, Bnaya Halperin-Kaddari, Tobias Grewenig Section (AWI) Permafrost Research
Isotope and Geochemistry of PermafrostPermafrost Monitoring and Modelling in the Context of Global Change Coastal and Offshore Permafrost PA WG on Coastal and Offshore Permafrost, IPA-IASC project Arctic [...] Themes Conference Theme Organized in association with Permafrost Records of Past Climate and Environments IPA Antarctic Permafrost WG Permafrost Affected Soils, Microbiology and Trace Gas Releases IPA [...] and Environment Permafrost as Analog for Extraterrestrial Systems Hydrology and Sediment Fluxes in Permafrost Regions ESF project SEDIFLUX Mineralogy, Geochemistry and Isotopes in Permafrost Research PA WG
and develop new project ideas and collaborations in permafrost research and permafrost engineering. The theme of the conference was "Exploring Permafrost in a Future Earth". Konferenz Abstracts Konferenzbericht [...] 11th International Conference on Permafrost The 11th International Permafrost Conference (ICOP 2016) took place in Potsdam from 20-24 June 2016. 739 participants from more than 36 nations attended the
Canada, near the communities of Inuvik and Tuktoyaktuk. Our goal is to study the current state of permafrost as part of the MOSES (Modular Observation Solutions for Earth Systems) project. Our research in [...] “Lake 3” we conducted Electrical Resistivity Tomography surveys in an effort to map the depth to permafrost under the lake. As part of our outreach activities, some members of our team joined a summer camp
Sep. 2022 on Disko Island and in Ilulissat, Greenland. Our goal is to study the current state of permafrost as part of the MOMENT (Die Permafrostforschung auf dem Weg zur integrierten Beobachtung und MO
Spitsbergen. We had two main goals: Firstly, we maintained the Bayelva permafrost observatory where multiple air, snow, soil, and permafrost parameters have been measured since 1998. And secondly, we measured [...] elevations using a high-accuracy GPS antenna to estimate surface subsidence resulting from thawing permafrost. In addition, we visited research sites of local and international partners and discussed scientific
in WP5. Methods will include quantification of land to ocean carbon transport from glacier and permafrost melting and analysis of POC degradability and POC/DOC concentration and composition, organic matter
sea ice, thawing of permafrost is mostly taking place in the hidden depths of the ground. By causing profound ecological upheaval and destabilizing infrastructure, thawing permafrost has a direct impact [...] Landscapes is indicated by altering polygonal structures and permafrost thaw. Polygons in Northwest Canada indicating the presence and state of permafrost City of Aklavik in the Mackenzie Delta, September 2022 [...] Education and Research (BMBF) is gathering reliable and up-to-date data on the state and rate of permafrost thaw to provide better insights on landscape disturbances and the impact on people living in the
Methane Emissions from Arctic Wetlands (AirMeth) Fig.6: Polar5 flying at low lever over Arctic permafrost. (Photo: Alfred-Wegener-Institut) The atmospheric concentration of methane, a potent greenhouse [...] pattern is shown in Fig. 3. Starting from Barrow, long low level flight legs are flown over the permafrost wetland with ascents and descents interspersed for vertical soundings of the boundary layer structure [...] east to west during which the methane concentration accummulates in the boundary layer. Fig.1: Permafrost wetland of the Arctic Coastal Plain near Barrow (Alaska) (Photo: Alfred-Wegener-Institut) Fig.2: