Award details

Bringing the phenomics of aquatic embryos to key challenges in aquaculture

Reference	BB/W017938/1
Principal Investigator / Supervisor	Dr Oliver Tills
Co-Investigators / Co-Supervisors	Dr Robert Ellis, Professor John Spicer, Professor Rod Wilson
Institution	University of Plymouth
Department	Sch of Biological and Marine Sciences
Funding type	Research
Value (£)	185,373
Status	Current
Type	Research Grant
Start date	01/01/2023
End date	30/06/2024
Duration	18 months

Abstract

unavailable

Summary

Phenomics is the acquisition of high-dimensional data describing an organisms' observable characteristics and can be considered a technology-enabled 21st century approach to measuring the phenotype. Phenomics has the potential to transform biological understanding and to make the phenome accessible to applications within both academia to industry, but a lack of necessary technologies beyond particular model species remains a serious bottleneck to realising this potential. The project team have developed two new instruments for phenomics of aquatic species during embryonic development - the most dynamic period of life, for use in laboratory (LabEP) and dynamic (FieldEP) environments. Both instruments use microscopy and automation to capture this period of rapid temporal, spatial and functional change, and employ computer vision to measure the phenome with high dimensionality, including growth, physiological performance, behaviour and new approaches pioneered by the team for measuring the phenome as spectra of energy values within pixel fluctuations. Aquaculture is a rapidly growing sector and one of strategic economic and health importance. During this project we will work with the aquaculture sector on both technical and business development for knowledge exchange and to establish key strategic directions for phenomics in the sector to support its resilience, sustainability, and growth. During an initial project meeting with aquaculture project partners (National Lobster Hatchery, RSP/LumpFish Dorset and Guernsey SeaFarms) we will showcase the technologies to establish strategic directions for the technical development and optimisation of the hardware and software configuration of the instruments for different project partners, depending on factors including facility requirements, addressing key operational challenges, species, developmental stages and particular biological endpoints of interest. Software (incl. computer vision pipelines including AI-trained predictive models) and hardware (incl. cameras, lenses, lighting and motorisation) will be tested in the team's laboratories prior to installation of the instruments in the facilities of key project partners, accompanied with the training of these partners' staff, providing opportunities for knowledge exchange in both directions. We will work with partners in assisting them to test the technologies alongside their workflows. The team will be supported by a project partner from the scientific instrumentation sector (Indigo Scientific) who will inform the sourcing of components and the team's business development plan. Via subsequent meetings with the aquaculture project partners, the team will write a whitepaper capturing the key strengths and opportunities of the instruments informed from the experiences and feedback of project partners. This will be circulated to both project partners, aquaculture networks and sector-specific publications. A business development plan will be produced by the team towards the conclusion of the project to support the identification and realisation of a strategic plan towards maximising the impact of these technologies within the sector.

Committee	Not funded via Committee
Research Topics	X – not assigned to a current Research Topic
Research Priority	X – Research Priority information not available
Research Initiative	Follow-On Fund (FOF) [2004-2015]
Funding Scheme	X – not Funded via a specific Funding Scheme

I accept the terms and conditions of use (opens in new window)

export PDF file

back to list new search