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STUDY OFFERS POTENTIAL NEW TOOL FOR TRACING FISHMEAL IN FARMED FISH

STUDY OFFERS POTENTIAL NEW TOOL FOR TRACING FISHMEAL

Study offers potential new tool for tracing fishmeal in farmed fish. Findings provide a science-based tool to strengthen transparency across seafood supply chains.

A new study has identified a promising tool for detecting and tracing dietary fishmeal in farm-raised fish, providing the aquaculture industry with a new method to verify feed sources as next-generation feed ingredients scale and sustainability reporting frameworks and consumers alike demand greater transparency throughout seafood supply chains.

The study analysed carbon and nitrogen isotope data from fish muscle samples collected during feeding trials involving seven aquaculture species, along with feed samples from two trials, to determine whether isotopic signatures could detect and trace the use of fishmeal in aquaculture feeds.

The F3 – Future of Fish Feed-led research team found that nitrogen isotope δ15N shows strong potential as a marker for identifying the presence or absence of fishmeal in aquaculture feeds. These findings, published in the journal Fishes, suggest that δ15N could serve as a reliable indicator of fishmeal use in aquaculture feeds, regardless of other dietary components.

“As next-generation feed ingredients scale and aquaculture producers adopt formulation strategies that reduce reliance on marine ingredients, isotopic analysis could help validate sustainability claims, detect potential fraud, and strengthen consumer confidence,” said the study’s senior author Michael Tlusty, professor of sustainability & food solutions at the University of Massachusetts Boston and judge of the F3 Challenge.

Across nearly all species examined, the researchers found that fish fed diets containing fishmeal exhibited higher δ15N values, while fish raised on plant-based feeds showed the lowest values and those fed mixed plant- and animal-based diets fell in between. Importantly, other feed ingredients—including alternative lipid sources such as fish oil and algal oil, as well as animal proteins like poultry by-product meal—did not appear to influence the δ15N signature.

The results showed isotopic markers are well suited to identify large differences in the percentage of fishmeal included in the diet. More work will be required to determine the limit of detection of fish meal inclusion.

As global demand for farm-raised species such as salmon and trout continues to grow, fishmeal is becoming an increasingly limited resource. This growing scarcity exposes vulnerabilities in aquaculture supply chains and underscore the need for alternative feed ingredients that can reduce pressure on forage fisheries that are critical to healthy marine ecosystems and commercial fisheries.

Due to its effects on food security and ecosystems, regulators are encouraging reduced reliance on fishmeal and fish oil in aquafeeds, while consumers are demanding more sustainably sourced seafood. Together, these trends are driving aquaculture producers to accelerate the adoption of alternative feed ingredients that reduce dependence on marine resources like wild-caught forage fish.

The research also highlights the broader potential of isotopic ratio analysis as a tool for verifying food authenticity and quality at a time when concerns about product integrity and supply chain transparency are growing worldwide. Because naturally occurring isotope ratios act as a unique “fingerprint” of the ingredients used in production, isotopic analysis can help verify feed claims, improve seafood traceability, and confirm the presence of fishmeal in aquaculture feeds. The approach may also help trace the origin of fishmeal ingredients, providing sustainability reporting programs and seafood producers with a reliable, science-based method to document ingredient sourcing, evaluate sustainability claims, and support more resilient and responsible seafood supply chains.

This new research tool will be used to verify fishmeal inclusion in the current F3 Fish Farm Challenge.

F3 – Future of Fish Feed

F3 – Future of Fish Feed is a collaborative effort to support innovative replacements for wild-caught marine ingredients in aquaculture feed. By promoting innovative alternatives to wild-caught fish and krill, the F3 initiative supports the aquaculture industry in meeting the food security needs of our growing world population while safeguarding our oceans and wild fish stock for future generations. Learn more at f3challenge.org.

Image: ©Fish Focus

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