Mechanisms behind the phenomenon of Arctic amplification are widely discussed. To
contribute to this debate, the (AC) 3 project was established in 2016 (www. ac3-tr. de/). It …

The Pan-Eurasian Experiment (PEEX) Science Plan, released in 2015, addressed a need
for a holistic system understanding and outlined the most urgent research needs for the …

The Arctic environment is rapidly changing due to accelerated warming in the region. The
warming trend is driving a decline in sea ice extent, which thereby enhances feedback loops …

Ice nucleating particles (INPs) initiate the primary ice formation in clouds at temperatures
above ca.− 38° C and have an impact on precipitation formation, cloud optical properties …

Nanoplastic pollution by atmospheric transport processes is a recently discovered
environmental problem on a global scale that is attributed to the dispersion of aerosolized …

We conducted continuous measurements of nanoparticles down to 3 nm size in the Arctic at
Mount Zeppelin, Ny Ålesund, Svalbard, from October 2016 to December 2018, providing a …

The potential importance of Aitken mode particles (diameters∼ 25–80 nm) for stratiform
mixed-phase clouds in the summertime high Arctic (> 80∘ N) has been investigated using …

From 25 May to 21 July 2017, the research vessel Polarstern performed the cruise PS106 to
the high Arctic in the region north and northeast of Svalbard. PS106 contributed …

Understanding chemical processes leading to the formation of atmospheric aerosol particles
is crucial to improve our capabilities in predicting the future climate. However, those …

The role aerosol chemical composition plays in Arctic low-level cloud formation is still poorly
understood. In this study we address this issue by combining in situ observations of the …