Sort by
Refine Your Search
-
100%, Zurich, fixed-term The phylogenetic and functional diversity of the ocean microbiome has been shaped by a complex interplay between organisms and their environment over billions of years
-
understanding of the cloud microphysical processes leading to precipitation in clouds involving ice. Project background Field measurements in atmospheric science often measure the state of a cloud but not the
-
during winter. In particular, a new method of mixed-phase cloud thinning (MCT) has recently been proposed, based on seeding supercooled liquid clouds with ice-nucleating particles (INPs). This causes
-
studies water and climate extremes in mountain regions under global change. We have strong expertise in hydrology, climate sciences, extreme value analyses, statistical modelling, and climate impact
-
. Fe, Mn). These metals are essential for life and are also centrally integrated into the biogeochemical cycling of major and minor elements. Modern redox-stratified systems, where deep waters have
-
ETH Zurich studies water and climate extremes in mountain regions under global change. We have strong expertise in hydrology, climate sciences, extreme value analyses, statistical modelling, and climate
-
that are notoriously elusive, from a single environmental sample, such as water, soil, or air. While eDNA surveys hold immense potential, the collection of samples continues to be a labor-intensive and costly aspect of
-
of those processes happen in the absence of a dynamo field. As such, the Moon’s geodynamic evolution, beginning with a magma ocean, subsequent bombardment and extensive mare volcanism has left imprints in
-
, such as rock, ice, snow avalanches and debris flows. Such instabilities can be triggered by precipitation, earthquakes, glacial debuttressing, permafrost thawing, and human activity. When these events occur