Sort by
Refine Your Search
-
Country
-
Employer
-
Field
-
. Opportunities to Contribute Develops dynamic river‑lake network models to assess geochemical and ecological changes—including carbon cycling and elemental fluxes—resulting from enhanced rock weathering. Writes
-
(ddPCR quantification of ARGs) • Participating in field campaigns in urban environments (rivers, wastewater treatment plants, stormwater systems) • Integrating datasets to establish mass balances and
-
objective of this postdoc project is to improve our knowledge of nutritional dynamics in forest ecosystems based on the balance between organic (dead biomass recycling) and mineral (chemical weathering
-
Area of research: Scientific / postdoctoral posts Job description: GFZ is Germany's national centre for solid Earth research. We advance the understanding of dynamic processes to address global
-
is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in
-
. The project questions how builders overcame technological limitations. Did innovation occur incrementally, or were there spurts at specific times and places? What were the dynamics of these processes, and what
-
University is a dynamic community of diverse resources, where opportunity thrives and where individuals transform themselves and the world. The Ohio State University is one of the nation’s largest and most
-
ecosystems are a central element in how humans are addressing their own survival. Lakes, rivers, wetlands, seas, oceans and melting ice caps are central elements of the ongoing ecological crisis linked
-
quality and functioning, particularly in plumes near river outlets. This post doc project will rely on existing data as well as new field data of nutrients, carbon, and stable isotopes from riverine-coast
-
modeling approaches-including machine learning (ML), hydrologic and energy systems simulations, and scenario forecasting-to evaluate dynamic energy-water futures and resilience strategies for diverse Idaho