Umea University, Sweden invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Umea University, Sweden .
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD position in medical science with a specialization in bioinformatics
The infant gut microbiota undergoes rapid compositional and strain-level changes before stabilizing toward an adult-like configuration. While these dynamics are influenced by a range of early-life exposures, the trajectories of microbiome development remain incompletely understood. In this project, the candidate will analyze longitudinal fecal shotgun data from 500 children followed from birth to three years of age to investigate how environmental, clinical and lifestyle exposures shape microbial community development. The student will be part of the Data driven Life Sciences [DDLS] PhD research school.
Deadline : 2026-06-19
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Data driven epidemiology and biology of infection
The Department of Molecular Biology/Umeå university, are searching for a DDLS PhD student in Data driven epidemiology and biology of infection with start date 1 September 2026, or as agreed. The future of life science is data-driven. Will you be part of that change? Then join us in this unique program!
Data driven epidemiology and biology of infection covers research that will transform our understanding of pathogens, their interactions with hosts and the environment, and how they are transmitted through populations. Research will have a strong focus on computational analysis or predictive modelling of pathogen biology or host-microbe systems for which multidimensional, genome-scale experimental data are now available or it may use population-scale genetic, clinical, or public health data from pathogen surveillance efforts and biobanks.
We are looking for a PhD student in Molecular Biology and a special interest in any of algorithms, data structures, high-performance computing, machine learning and microbiology. The position at the Department of Molecular Biology at Umeå University is temporary for four years to start immediately or as agreed. The student will be enrolled in the Umeå university Technical Faculty PhD school for Molecular Biology, as well as the national DDLS PhD school for Data driven epidemiology and biology of infection. However, we do not expect applicants to have molecular biology background.
The PhD student will participate in activities provided by the Department of Molecular Biology, the Laboratory for Molecular Infection Medicine Sweden (MIMS), and the Umeå Centrum for Microbial Research (UCMR). Furthermore, the student will take part in Data-driven Life Science (DDLS) national activities and have access to the Wallenberg AI, Autonomous Systems and Software Program (WASP). This enables interaction with researchers from different research fields and access to various scientific and technical expertise.
Data-driven life science (DDLS) uses data, computational methods and artificial intelligence to study biological systems and processes at all levels, from molecular structures and cellular processes to human health and global ecosystems. The SciLifeLab and Wallenberg National Program for Data-Driven Life Science (DDLS) aims to recruit and train the next generation of data-driven life scientists and to create globally leading computational and data science capabilities in Sweden. The program is funded with a total of 3.3 billion SEK over 12 years from the Knut and Alice Wallenberg (KAW) Foundation.
Deadline : 2026-05-20
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(03) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Experimental Physics with focus on Space Weather Modeling
Space weather hazards can arise from rapidly varying ionospheric currents, which produce strong variations in the ground magnetic field (dB/dt spikes). These variations induce geoelectric fields and telluric currents in the ground. When such telluric currents enter the power grid, they are referred to as geomagnetically induced currents (GICs). GICs can cause detrimental power blackouts, posing a significant risk to our increasingly electrified society.
Despite the critical need to improve forecasting and mitigation of space weather hazards, many important aspects remain poorly understood. In particular, the coupled ionosphere–ground system is a key system, with its spatiotemporally varying ionospheric currents and corresponding ground responses, but it is far from fully characterized. Importantly, it is crucial to note that this system is inherently spatiotemporal in nature: it is driven by three-dimensional ionospheric currents that evolve rapidly in time, so the ground response must also vary in space and time.
In this project we will model the ionosphere-ground system with a unique time-domain model which is developed in the group for ’Solar-Terrestrial Physics and Space Weather’ at the Department of Physics, Umeå University. We will study how currents in the ionosphere cause rapid changes in the ground-level magnetic field and generate geoelectric fields and telluric currents, and how these in turn can cause GICs that affect power distribution lines. We will also develop improved methods for estimating the ionospheric currents from ground-based measurements.
The ’Solar-Terrestrial Physics and Space Weather Group’ at Umeå University is therefore looking for a brilliant and highly motivated PhD student to join our team to advance the understanding of how ionospheric currents affect the ground and infrastructure.
Deadline : 2026-05-20
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Data Driven Life Sciences
You will be part of the research group of Anne-Marie Fors Connolly at the Department of Clinical Microbiology, Umeå University, in close collaboration with Martin Rosvall at IceLab and Tommy Löfstedt at the Department of Computing Science.
You will be part of the DDLS Research School and contribute to a nationally coordinated, data-driven research environment at the interface of infection epidemiology, clinical microbiology, and artificial intelligence. The project is also embedded in CRITICAL MICROBES, an ongoing effort to centralize and harmonize clinical microbiology data across Sweden for linkage to whole-population registries.
The doctoral student will be part of a creative, cross-disciplinary environment with extensive support for performing the doctoral project.
Deadline : 2026-05-15
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Human Geography
The PhD project focuses on the role of the regional scale in relation to major (green) industrial establishments, with particular focus on Region Västernorrland. The project takes its starting point in the ongoing green industrial transition and analyses how large-scale investments affect regional development, business dynamics and labour markets.
The green transition is reshaping the geography of investment and production in Europe. Northern Sweden has become a key arena for new industrial initiatives, creating both opportunities and challenges for regional planning and long-term development. The project addresses central questions concerning multi-level governance, strategic spatial planning, regional diversification, development traps, and the social and labour market effects of rapid structural change.
Deadline : 2026-05-08
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(06) PhD Degree – Fully Funded
PhD position summary/title: PhD-student
Umeå University is one of Sweden’s largest higher education institutions with over 41,500 students and about 4,600 employees. The University offers a diversity of high-quality education and world-leading research in several fields. Notably, the groundbreaking discovery of the CRISPR-Cas9 gene-editing tool, which was awarded the Nobel Prize in Chemistry, was made here. At Umeå University, everything 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 northern Sweden create enormous opportunities and complex challenges. For Umeå University, conducting research about – and in the middle of – a society in transition is key. We also take pride in delivering education to enable regions to expand quickly and sustainably. In fact, the future is made here.
Deadline : 2026-05-01
(07) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Molecular Biology
The ongoing societal transformation and large green investments in northern Sweden create enormous opportunities and complex challenges. For Umeå University, conducting research about – and in the middle of – a society in transition is key. We also take pride in delivering education to enable regions to expand quickly and sustainably. In fact, the future is made here.
Are you interested in learning more? Read about Umeå university as a workplace
We are looking for a PhD student in Molecular Biology with a special interest in intracellular host-pathogen interactions. The position at the Department of Molecular Biology at Umeå University is temporary for four years to start 1 June 2026, or as agreed.
Deadline : 2026-04-30
(08) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Spatial Statistics
Spatial data arise in several forms, including areal data, geostatistical measurements of continuous fields, and point pattern data. In point pattern data, the primary information consists of the locations of events observed within a spatial region and, in many applications, over time. Examples include the positions of trees in a forest, disease cases in epidemiology, crime incidents in cities, traffic events on transportation networks, or animal observations in ecological studies. These data are commonly analysed using spatial or spatio-temporal point processes, which describe how events occur and interact. In many applications, each event also carries additional information, such as a type, size, or environmental measurement, leading to marked point patterns in which the event locations, times, and associated attributes are of interest.
The primary objective of this PhD project is to develop adaptive statistical models for marked spatial and spatio-temporal point processes. Many real-world systems exhibit substantial spatial heterogeneity and temporal variation and cannot be adequately described by models that assume a uniform structure. The project aims to develop flexible models that allow key characteristics of the process, such as event occurrence patterns, mark behaviour, and interactions between events, to vary locally in space and evolve over time. The research will include model development, statistical inference and diagnostic methods, and applications to real datasets where non-stationarity and evolving dynamics play an important role.
Deadline : 2026-04-30
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(09) PhD Degree – Fully Funded
PhD position summary/title: PhD position in plant science
land plants and play a central role in plant nutrient acquisition, stress tolerance, and within ecosystem functioning. In recent years, the field has made significant progress in characterising the functional characteristics (or traits) of AM fungi. Such traits (e.g. growth rate, spore size) influence how AM fungi interact with their environment and other organisms. It is becoming clear that these traits are not fixed properties of a species. Growing evidence suggests that even within a single AM fungal lineage, trait expression can shift across environmental contexts, potentially leading to markedly different functional outcomes for host plants. Determining the extent, structure, and consequences of this phenotypic plasticity is an important frontier in mycorrhizal science.
This PhD project will investigate phenotypic plasticity in AM fungi and examine how plasticity in fungal traits translates into plasticity in host plant outcomes. The project will focus on key fungal traits related to symbiotic function, including root colonisation, arbuscule and vesicle formation (structures involved in nutrient exchange and storage), extraradical mycelial investment, spore production, nutrient transfer, and carbon uptake. By experimentally manipulating environmental drivers such as soil nutrient availability and host identity, the student will quantify fungal reaction ‘norms’ and identify coordinated shifts in fungal allocation strategies. A central aim of the project is to link fungal trait plasticity to plant performance, including plant growth and nutrient acquisition. The project will also explore whether the magnitude and structure of fungal plasticity vary across AM fungal lineages, addressing fundamental questions about the evolutionary and phylogenetic constraints on mycorrhizal strategies.
In this project the PhD will combine controlled plant–fungus experiments with microscopy, physiological measurements, and quantitative data analysis. Depending on the interests of the PhD student, there will be opportunities to incorporate isotope tracing, multivariate trait analysis, and evolutionary or phylogenetic approaches. The project is designed to be flexible and can be tailored toward ecological, physiological, or eco-evolutionary questions.
As a PhD student on this project, you will join a newly establishing research group focused on mycorrhizal ecology, plant–microbe interactions, DNA metabarcoding, and global change biology. You will work within a team and collaborate with experts in plant science, fungal ecology, and advanced data analysis. You will be encouraged to develop independent research questions within the broader project framework. This project offers an excellent opportunity for a motivated doctoral student to contribute to a rapidly developing area of research with relevance to ecosystem management, biodiversity, and fundamental ecological theory.
Deadline :2026-04-30
About Umea University, Sweden –Official Website
Umea University is a university in Umeå in the mid-northern region of Sweden. The university was founded in 1965 and is the fifth oldest within Sweden’s present borders.
As of 2015, Umea University has nearly 31,000 registered students (approximately 16,000 full-time students), including those at the postgraduate and doctoral level. It has more than 4,000 employees, half of which are teachers/researchers, including 368 professors.
Internationally, the university is known for research relating to the genome of the poplar tree and the Norway Spruce, and its highly ranked Institute of (industrial) Design.
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