Vorstellungsgespräch. Quelle: Fotolia, Photographee.eu

Jobs and PhDs


Closing date for applications:  • Location: Leipzig PhD Position (m/f) - Microbial ecology in mountain lakes
More details on P³:
The successful candidate will have the unique opportunity to work in an international project which includes partners from France, USA, China and Germany with multidisciplinary research expertise.
The three overarching objectives of P³ focus on 1) the collection of historical data on mountain ranges and network of mountain observation sites, 2) the analysis of the current patterns of pollutants, people and pathogens, and 3) the synthesis of all results and the establishment of mountain ecosystems as sentinels of change.
More specifically, P³ will
a) develop an open-access database on historical data from a multitude of sources, including publicly accessible databases, scientific literature and grey literature on P³ related socio-ecological aspects of the four mountain ranges,
b) conduct systematic comparisons between well-studied sites and newly set up sites along altitudinal gradients,
c) perform a structured multi-scale scenario analysis aiming to determine causalities and correlations between natural and socio-economic drivers and pressures and biodiversity,
d) identify alternative approaches for the reduction of the vulnerability of mountain ecosystems and more sustainable land management, referring to both resilience as a key criterion and to co-production processes with practitioners and local experts, and
e) develop relevant essential biodiversity variables (EBVs) for communication with stakeholders and policymakers.

The results obtained by the P³ research will expand current understanding of global change impacts mountain freshwater ecosystems and their functioning as well as the biodiversity they comprise. Scientists will be able to utilize the insights uncovered by P³ to execute a wide range of research, from focused investigations studying the factors impacting different species groups to holistic studies examining impacts of changed biodiversity composition and drivers that alter ecosystems. Moreover, conservationists and environmental managers will use the results of our research to develop effective programs to control and manage populations of mountain ecosystems on a global scale. For example, P³ will develop predictive methods to understand where conservation efforts are most necessary to mitigate the effects of biodiversity loss in the wild. The results of P³ also have broader societal impacts by evaluating the risk that changes in mountain ecosystems have on human well-being and on societal prospects.
Closing date for applications:  • Location: Halle Early-Stage Researcher (PhD) Fellowship
The aim of the PhD project is to identify how, when and where soil C management practices control the natural attenuation of reactive N as it moves from land to water. We want to develop smart, adaptive monitoring concepts for the analysis of nutrient flux dynamics across scales on the basis of multi-isotope suites.
Closing date for applications:  • Location: Leipzig PhD student (m/f) Membrane-bound metalloproteins
We offer a PhD position for the comparative analysis of metal-containing membrane proteins in anaerobic microorganisms. The main methodological approaches are protein mass spectrometry (nLC-MS/MS) and metall mass spectrometry (ICP-MS). The project is embedded into a larger research unit. We target basic science but also apllication aspects.
Closing date for applications:  • Location: Halle Early-Stage Researcher (PhD) Fellowship
The aim of the PhD project is to identify and quantify N-transformation processes and distinguish between reaction pathways in experimental and field systems treating mixed agricultural We want to develop and validate stable isotope methods as tools for performance assessment of farm-based bioreactor and land drainage systems (permeable reactive interceptor - PRI).
Closing date for applications:  • Location: Magdeburg PhD candidate (m/f)
Phd position in the project "greenhouse gas emissions from reservoirs" (TregaTa)
Closing date for applications:  • Location: Leipzig Master Thesis (m/f)
.Nowadays, neonicotinois are among the most used class of insecticides, accounting for a quarter of the insecticide market
turnover worldwide. Due to several studies on adverse ecological effects produced by neonicotinoids application, they came under an increasing concern over their environmental impacts, until the ban decided by EU in the 2013. In that respect, sublethal effects play a key role; extremely low doses of contaminant, considered safe by the risk assassment framework, can have adverse long term effects when interacting with other environmental stressors.
Closing date for applications:  • Location: Leipzig Master Thesis (m/f)
The light-induced transformation of organic compounds is an important degradation mechanism naturally occurring in surface waters and atmospheric media. Humic substances and pigments are the major naturally present photosensitizers in the environment, acting as photosensitizers which can generate a variety of reactive species, such as OH radicals and excited triplet states (3HS*), promoting the degradation of organic compounds (Zhang et. al., ES&T, 2014).
Research questions addressed: 1) Do carbon and hydrogen isotope fractionation occur during the photolysis of OPs? 2) Can photosensitization pathways of OPs be characterized using CSIA?
Closing date for applications:  • Location: Leipzig Master thesis
We are looking for a motivated student for an timely and important protein biochemical topic in the environmental sciences. Major task is the biochemical description of the microbial respiration with halogenated aromatics.
Closing date for applications:  • Location: Leipzig Master thesis opportunity
Simulation of Transversal Mixing and Biogeochemical Reactions in Pore Networks
Closing date for applications:  • Location: Leipzig Master Thesis - Characterizing (cyano) bacterial heterogeneity and basic physiological parameters
Sustainable and ecological processes for the production of food, chemicals, and fuels are of outstanding interest in times of increasing population, limitation of fossil resources and climate change. Biological engineering can contribute to address those issues. Plants and microorganisms can be designed to produce a variety of interesting compounds for the synthesis of fine chemicals and biofuels from biological and renewable resources.
Closing date for applications:  • Location: Leipzig Master Thesis (m/f)
Master Thesis - Bending the boundaries: towards single cell mass spectrometry