The Global Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. Lilian's work contributes towards the following SDG(s):
About Lilian
We use ocean observation technologies and autonomy to understand complex and scale-dependent dynamics between biophysics and marine organisms ranging from microscopic plankton to seabirds and sharks — From Plankton to Predators.
This research helps to gain a predictive understanding of animal behavioural responses to a changing ocean, which includes anthropogenic activity such as ocean energy and the impacts of ocean warming.
Our approaches combine and integrate innovative technologies and sensors, including aerial drones, bioacoustics, and particle imaging systems, deployed from boats, seabed frames, buoys, and autonomous vehicles.
Externally, I contribute to:
- FMRI (Future of Marine Research Infrastructure) Technical Solutions Working Group
- Co-Lead for the Essential Ocean Variable (EOV) on zooplankton diversity and abundance, Global Ocean Observing System (GOOS)
- Southwest Marine Ecosystems Conference (SWME) Steering Group
Bio: I’m a marine ecologist passionate about using technology to understand and communicate complex patterns and processes in our ocean. My interest in ocean observation technologies began 10 years ago when I explored imaging sonars to visualise basking sharks as part of my MASTS Prize PhD at the University of Aberdeen. My research has since focused on quantifying bio-physical drivers underlying ocean predator foraging in the context of a changing ocean. I embrace opportunities for inter-disciplinary knowledge exchange to find innovation in tools applied elsewhere. This includes the use of aerial drones demonstrating that seabird foraging is driven by localised physical features enhancing prey availability, or the use of acoustic instrumentation (echosounders, ADCPs) to quantify interactions between predators and dynamic or patchy bio-physics.
A long-term vision of my research effort is the stepwise integration of acoustic sensors with biological sampling, thereby capturing essential ocean variables ranging from microscopic plankton to large vertebrates. From previous positions at Queen’s University Belfast, Bangor University and research expeditions with St Andrews University, I have an in-depth knowledge of in-situ data collection. Following 1.5 years as a Reseach Fellow at the Marine Biological Associaiton, I started my role as Senior Research Fellow with the University of Plymouth in 2024.
Supervised Research Degrees
MRes
Teaching
Contact Lilian
