I am an environmental scientist with a particular interest in the taxonomy and ecology of aquatic organisms and pollution of aquatic environments. In my research I combine ecological theory and environmental topics (e.g., nutrient-, antibiotic- or plastic pollution of fresh waters) and focus on vulnerable taxonomic groups such as organisms that cannot be seen with the naked eye but that drive the bulk of ecosystem processes on earth. For example, freshwater quality (i.e., the health of groundwater, lakes or rivers) is maintained by a community composed of mostly tiny organisms. Before joining Brunel, I was employed at the University of Roehampton, London, as a senior lecturer. My work history also includes two post-doctoral research positions, at Queen Mary University of London and at the River Laboratory, QMUL (Dorset), respectively. My full research profile and a list of my publications is available here.
Microplastics (MPs; plastic particles <5 mm) act as "Trojan horses" for micropollutants, concentrating antibiotics and facilitating their transfer through aquatic food-webs. While antibiotic adsorption to polymer surfaces is recognised, little is understood about how microbial processing alters these interactions and influences environmental persistence and antimicrobial resistance (AMR) risk.
Aquatic sediments contain substantial loads of both antibiotics and MPs. Protists (single-celled eukaryotes) ingest MPs alongside bacterial prey despite their lack of nutritional value. Following ingestion, many protists egest particles as faecal pellets, repackaging MPs into aggregates with altered size and surface chemistry. We hypothesise that this biological conditioning modifies antibiotic adsorption-desorption dynamics, changing pollutant bioavailability, trophic transfer, and downstream AMR selection pressure.
This interdisciplinary PhD will combine microbial ecology, molecular-modelling, and AI-enabled interaction analysis to elucidate how antibiotic–polymer binding is modulated within microbial food-webs. The project will adopt a focused three-fold approach:
- Quantify antibiotic–polymer binding energetics using molecular-modelling to identify structural determinants governing adsorption and persistence
- Measure adsorption–desorption behaviour under environmentally relevant laboratory conditions.
- Compare antibiotic binding before and after protist ingestion to test whether microbial processing mitigates or amplifies antibiotic carriage.
In collaboration with AI-driven drug discovery company DeepMirror, we will co-adapt molecular representation-learning tools, previously applied to antimicrobial and global health challenges, to interrogate antibiotic-polymer interaction landscapes. AI-derived descriptors will guide experimental prioritisation and refine mechanistic hypotheses, accelerating insight while maintaining experimental validation.
Background Information of the EngBio4Env Doctoral Focal Award (DFA)
The first cohort of the EngBio4Env Doctoral Focal Award (DFA) is part of the UKRI TechExpert pilot programme. This provides a stipend of £31,805 per year for students who are eligible for Home fee status. As we have been allocated 16 enhanced studentships for the first cohort, our collective priority should be to recruit high-quality Home students and maximise uptake of this significant funding opportunity. While recruitment of international students remains possible within institutional and UKRI guidelines, we should focus our efforts on attracting talented Home applicants who can benefit from the enhanced stipend support available through the TechExpert programme.
Key points of the UKRI TechExpert conditions:
UKRI/EPSRC TechExpert Funding Pilot (2026 Cohort): The UK government, through UK Research and Innovation (UKRI) and the Engineering and Physical Sciences Research Council (EPSRC), has launched the TechExpert programme under the TechFirst initiative to strengthen the UK's research and innovation workforce in priority technology sectors
Main features
- Provides a stipend enhancement of up to £10,000 per year for eligible doctoral students.
- Expected total stipend will be approximately £31,805 per year from the 2026/27 academic year.
- Funding is available for selected doctoral training investments aligned with the UK's Industrial Strategy and frontier technology sectors.
- This studentship starts 1 October 2026.
The programme is a pilot for the 2026 intake only, with funding currently planned for one cohort
For Further information on the Doctoral Focal Award, please follow this webpage PhD Opportunities - EngBio4Env DFA
Eligibility
Students must
- Have Home fee status.
- Start their funded doctoral programme in 2026/27
- Be at least 50% funded by the relevant UKRI training grant (for doctoral focal awards).
Academic requirements:
Applicants are expected to hold a first or upper-second class honours degree (or equivalent) in a relevant discipline. A postgraduate master's degree is not required, but may be an advantage.
Candidates should have an undergraduate degree (first or upper second class) or equivalent qualification in Biology, Computer Science or a related field. Familiarity with quantitative research in biology and running simulations on biological systems is desirable. Other desirable criteria include experience in standard laboratory techniques and strong numerical skills.
How to apply
To apply you must submit the following:
- Up-to-date CV;
- Your personal statement (300 to 500 words) summarising your background, skills and experience;
- A 1200-word research proposal based on the project must include references and project plan;
- Your Undergraduate/Postgraduate Masters degree certificate(s) and transcript(s);• Your English language qualification, if appropriate;
- Contact details for TWO referees, one of which can be a member of Brunel University academic staff.
This must be submitted as a singular PDF to studentships@brunel.ac.uk by 12 noon on 20 July 2026.
Any informal queries must be directed to the supervisor Dr Julia Reiss Julia.Reiss@brunel.ac.uk