Fishmeal powder. Credit: Phu Thinh Co, CC BY-SA 2.0
Published in Science Advances, the study delivers the first-ever open-source global map of FMFO factories—506 in total, spread across 63 countries, with Peru, Mauritania, and Chile hosting the highest numbers.
“Production of fishmeal is a major issue in aquaculture. Understanding where FMFO production occurs is essential for addressing its environmental, social, and economic impacts,” said lead author, Lauren Shea, who conducted this research while a Master’s student at UBC’s Institute for the Oceans and Fisheries. “Knowing that, along with what species are being used and how it affects local environments and economies, can support the development of more transparent and responsible aquaculture practices.”
Spatial distribution of factories: Factories are color-coded by data type. Factories in dark blue represent plants whose locations we were able to verify using satellite imagery and company website information. Green shaded circles represent and are scaled to the number of factories per producing country.
This makes the industry both vital and controversial, according to the study’s authors. On one hand, it supports aquaculture, which is essential for meeting global seafood demand as wild fish stocks decline. On the other hand, its reliance on wild-caught, small-pelagic fish—like anchovies and sardines—which are critical to the dietary backbone for communities in regions like West Africa and Southeast Asia.
“Dependence on the global FMFO trade could undermine food security while fueling unsustainable fishing practices,” explained Dr. Rashid Sumaila, professor at UBC’s Institute for the Oceans and Fisheries and the School of Public Policy and Global Affairs, and senior author on the study. “This is not just an environmental issue—it’s about justice and equity.”
The study used satellite imagery, national databases, and industry certifications to verify factory locations and raw material use. Company websites, government lists, and open-source certification data were also cross-referenced.
Example of factory location verification using the Google Maps satellite layer. All factories had large warehouses and cylindrical tanks for FMFO processing and storage (highlighted in yellow boxes). Factories were typically located on the waterfront and clustered together in industrial zones.
The researchers emphasised that the database was just a starting point. Regular updates and deeper dives into factory-level environmental and social impacts are essential next steps, noting that countries like China, a major FMFO player, remain opaque due to language barriers, lack of public reporting, and minimal online presence from producers.
“With more transparent data, governments and organizations can better regulate FMFO sourcing, track environmental impacts, and support alternatives—like plant-based feeds or novel proteins—that reduce pressure on wild fish stocks,” said Shea. “By-products can be a sustainable solution when managed properly. Improved data could further enable traceability, helping ensure that seafood products are sourced responsibly throughout the supply chain.”
Dr. Sumaila agreed, noting that frameworks, like the Fisheries Transparency Initiative (FiTI), which encourages governments to publish key data on fish production and trade, are excellent tools to use in conjunction with this map database. He highlights Mauritania, a FiTI member, for its leadership in its publicly accessible factory list.
“Science can only go so far,” said Sumaila. “We need political will, corporate accountability, and community engagement to drive real change. If aquaculture is going to be part of a sustainable food future, we need better data, smarter policies, and ethical sourcing of feed ingredients,” he said.
Spatial Distribution of Fishmeal and Fish Oil Factories Around the Globe was published in Science Advances.