The Leibniz Centre for Tropical Marine Research GmbH (www.leibniz-zmt.de) is an independent research and teaching institute that provides scientific knowledge for the protection and sustainable use of tropical coastal ecosystems. To this end, we work in an inter- and transdisciplinary manner with our partners in the tropics. The ZMT is a member of the Leibniz Association.The Systems Ecology Group at ZMT is (subject to release of funds) seeking to fill an opening for aUncovering the mechanisms of N2 fixation by oceanic free-living heterotrophic bacteriaNitrogen (N) is a key nutrient that limits the growth of phytoplankton and significantly impacts marine ecosystems and food security. While nitrogen is abundant in seawater in the form of dissolved gas (N2), most marine organisms cannot use it directly. Only certain bacteria and archaea, known as N2 fixers, can convert N2 into usable forms through a process called N fixation. The process of N2 fixation supports up to 50% of oceanic primary production in the tropics. Traditionally, photosynthetic cyanobacteria were thought to be the most important N2 fixers in tropical and subtropical ocean waters. Exciting new discoveries have revealed the active presence of heterotrophic N2 fixers bacteria that do not depend on photosynthesis throughout the global ocean. Due to difficulties in culturing heterotrophic N2 fixers and the challenges involved with global-scale observational efforts, little is known about how they function, where they are active, and the contribution they provide to the oceanic nitrogen cycle. Mathematical modelling is, thus, an invaluable tool for finding out more about these organisms. In this project, we plan to develop mathematical models to (1) investigate the mechanisms of N2 fixation by free-living heterotrophic bacteria, and (2) assess the influence of environmental factors on this process. The findings will provide insights into the seasonal fluctuations of N2 fixation, the distribution of heterotrophic N2 fixers in surface waters, and their contribution to sustaining the marine food web, especially in tropical and subtropical oceans.Responsibilities:Develop scientific competences on the marine nitrogen cycle and on free-living heterotrophic N2 fixersDevelop mathematical models to study the mechanisms of N2 fixation by free-living heterotrophic N2 fixers under different environmental conditionsIntegrate literature data into the modelsRun computer simulations and analyse the results on the light of existing knowledge and dataProduce results publishable in peer-reviewed international journalsPresent the results at international conferencesProduce and defend a PhD thesisRequirements:Applicants must hold a Master''s degree in one of the following disciplines: marine biology, ecology, biogeochemistry, oceanography, environmental sciences, theoretical ecology, mathematics, physics, computational sciences, or in similar quantitative or numerical disciplines. Candidates should either possess programming skills or have a keen interest in acquiring them in order to develop a research career focused on the mathematical modelling of environmental problems. We are looking for highly motivated students with good communication and scientific writing competencies. The working language is English.Salary will be paid according to the German TV-L (EG 13). The position is available for part-time (75% of a full-time position) employment starting 1st May 2025 with a duration until 30th April 2028. ZMT is an equal opportunity employer. Applicants with a migration background are welcome. Persons with severe disabilities are given special consideration if they have the same professional and personal qualifications. The ZMT values its diverse workforce and pursues the goal of providing equal opportunity, which incorporates gender neutrality (gn). We will be happy to accept your documents without a photo.We offer:A challenging and varied job in an international, dynamic and interdisciplinary research environmentA motivated and committed team from different countries and culturesAn open and cooperative working atmosphereOpportunities for personal and professional developmentInteresting, varied and challenging tasks and family-friendly working conditionsCompany health promotion and the opportunity to participate in company fitness with EGYM WellpassSubmission of application:Please submit your CV, a brief statement of motivation and research interests, and the names and contact information of two referees by 28.02.2025 as a single pdf file with the reference number 34-N2FIXHB to Ms. Carina Seemann, email: bewerbung@leibniz-zmt.de. #J-18808-Ljbffr
Job Title
Doctoral candidate (gn) H2FIXHB - WG Systems Ecology