Aquaculture

Aquaculture is the fastest growing food production sector worldwide and is likely to play a large role in supporting future food security of the human population. In 2014 a milestone was reached in that aquaculture provided more fish for human consumption than wild captured fish, and this is set to continue to increase. It is therefore imperative to understand the impact that aquaculture can have on the environment and how the environment can affect aquaculture, so that we employ sustainable management practices which are supported by robust scientific evidence and advice.

In order to underpin the sustainable and profitable development of the aquaculture industry we are working to provide novel management tools and monitoring systems by bringing together our advanced modelling capabilities, satellite observation data, biofouling and socio-economic expertise.

These tools will account for increasing environmental change such as changes in temperature, storminess, wind and wave exposure, harmful algal blooms and other impacts from changes in carbon and nutrient cycling that are affecting the industry and will ultimately enable assessments of capacity and resilience to change.

Making a difference

The knowledge and resulting outputs from our work will enable those who work within aquaculture to gain a more in-depth understanding in relation to various environmental factors, facilitating better decision making for future sustainability, risk mitigation and compliance with regulatory requirements.

Projects

ACCORD

Addressing Challenges of Coastal Communities through Ocean Research for Developing Economies (ACCORD)

Contact: Professor Steve Widdicombe

The coastal and marine environments of South East Asia and the Western Indian Ocean (the regional foci of ACCORD) are rich and diverse, possessing...

Removing marine microplastics with mussel power
Completed

Removing marine microplastics with mussel power

Contact: Dr Matthew Cole

Removing marine microplastics with mussel power is a one-year feasibility study funded by Waitrose Plan Plastic to develop an ecological solution...

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Other recent news articles

News

Satellite technology puts ‘mussel’ into shellfish monitoring

A PML led project involving a team of UK scientists is exploring the use of satellites and meteorological data to monitor and forecast water quality events threatening shellfish farms, for the benefit of the shellfish industry and, ultimately, consumers.

News

PML contributes to FAO report on Fisheries and Aquaculture

PML scientists have contributed to a comprehensive new report looking at how a changing climate is impacting upon fisheries and aquaculture. 

News

Funding success for PML

PML’s research funding success continues to increase, according to the Natural Environment Research Council’s (NERC) annual Research Organisation Success Rates table of 2013/14, rising from 39% in 2012/13 to 52%. 

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Related recent publications

  1. Graham, P; Brundu, G; Scolamacchia, M; Giglioli, A; Addis, P; Artioli, Y; Telfer, T; Carboni, S. 2020 Improving pacific oyster (Crassostrea gigas, Thunberg, 1793) production in Mediterranean coastal lagoons: Validation of the growth model “ShellSIM” on traditional and novel farming methods. Aquaculture, 516. 734612. https://doi.org/10.1016/j.aquaculture.2019.734612
    View publication

  2. Brown, AR; Lilley, M; Shutler, JD; Lowe, C; Artioli, Y; Torres, R; Berdalet, E; Tyler, C R. 2019 Assessing risks and mitigating impacts of harmful algal blooms on mariculture and marine fisheries. Reviews in Aquaculture. https://doi.org/10.1111/raq.12403
    View publication

  3. Palmer, SCJ; Gernez, PM; Thomas, Y; Simis, S; Miller, PI; Glize, P; Barillé, L. 2020 Remote Sensing-Driven Pacific Oyster (Crassostrea gigas) Growth Modeling to Inform Offshore Aquaculture Site Selection. Frontiers in Marine Science, 6. https://doi.org/10.3389/fmars.2019.00802
    View publication

  4. Hanachi, P; Karbalaei, S; Walker, TR; Cole, MJ; Hosseini, SV. 2019 Abundance and properties of microplastics found in commercial fish meal and cultured common carp (Cyprinus carpio). Environmental Science and Pollution Research, 26 (23). 23777-23787. https://doi.org/10.1007/s11356-019-05637-6
    View publication

  5. Hossain, MAR; Das, I; Genevier, L; Hazra, S; Rahman, M; Barange, M; Fernandes, JA. 2019 Biology and fisheries of Hilsa shad in Bay of Bengal. Science of The Total Environment, 651. 1720-1734. https://doi.org/10.1016/j.scitotenv.2018.10.034
    View publication

View our recent publications