Cutting-edge Research Position
The Helmholtz-Zentrum Hereon is looking for a motivated and eager-to-learn researcher with good programming or data science skills to work in the frame of EU Research and Innovation Action projects and activities, aiming to develop new products to predict and protect the biodiversity of marine ecosystems.
About the Job:
We are seeking a highly qualified individual to join our team as a cutting-edge research scientist. The successful candidate will have the opportunity to contribute to the development of innovative solutions for predicting and protecting marine biodiversity. This role offers an excellent chance to work on cutting-edge projects, collaborate with experienced researchers, and gain valuable expertise in digital ocean twins and multi-use of resources.
Requirements:
Key qualifications include a Master's Degree and PhD in (ocean) modelling (e.g., oceanography, physics, mathematics, computer science, data science biogeochemistry, meteorology), capacity and interest to work in different fields of marine science including physics, biogeochemistry, ecological processes, environmental engineering. Very good written and verbal English communication skills are required.
Benefits:
This position offers an exciting and varied job in a research centre with around 1,000 employees from more than 60 nations. A well-connected research campus and best networking opportunities are also available. Social benefits according to the collective agreement of the public service and remuneration up to pay group 13 according to TV EntgO Bund are included. Very good compatibility of private and professional life; family-friendly company policy with childcare facilities, e.g., nursery close to the company.
Our Centre:
The Helmholtz-Zentrum Hereon conducts cutting-edge international research for a changing world: From fundamental research to practical applications, the interdisciplinary research spectrum covers a unique range. One focus of our research is the study of coastal ecosystems, which are subject to increasing pressure to change due to climate change, use of coastal environments, and other human drivers.