Through workshops and at-sea research, we work with vessels, environmental organizations, fisheries managers, and other partners — including the FAO GEF Common Oceans Tuna Project — to find ways to reduce FAD fishing’s impact on the ocean ecosystem.
FADs made with plastics or other man-made materials can remain in the ocean and break down into smaller micro-particles — and then enter the food web.
In workshops around the world, ISSF scientists meet with fishers, fishery improvement project (FIP) coordinators, and other sustainable-fishing stakeholders to discuss how to minimize tuna fishing’s impact on marine environments.
In those workshops, fishers have shared their experiences and ideas on sustainable FAD structures and better FAD management — designing prototypes of biodegradable FADs that can meet their catch needs, and proposing FAD deployment and tracking protocols.
With input from tuna skippers, ISSF scientists are investigating how to design and build FADs that can meet fisher needs while having the lowest possible impact on the ocean ecosystem.
The most sustainable FADs today have no netting and use vegetal materials. Simplifying the FAD structure and reducing its size, volume, and weight also are important for minimizing ecosystem impacts. In partnership with commercial fleets, we are testing new bio-FAD designs, including a “jelly-FAD,” in several oceans.
To evaluate new FAD designs’ efficacy and durability for fishers, we are testing promising biodegradable materials and lower-environmental-impact structures under both controlled and real fishing conditions.
Since fisher needs vary by gear type and location, ISSF scientific trials of bio-FADs — in partnership with fleets and other organizations — are underway in several oceans, including the Western and Central Pacific, the largest tuna fishing region.
Our scientists also publish peer-reviewed articles in leading journals on biodegradable FADs and many other topics.
To protect the health of the marine ecosystem, vessels must track the FADs they deploy and avoid discarding FADs and other fishing gear in the ocean. Lost or abandoned FADs create marine pollution and can lead to ghost fishing — including of sharks and sea turtles.
ISSF publishes original research on a range of FAD and marine ecosystem topics. To inform fishing requirements for fleets, we also advocate to RFMOs best practices in FAD management — from data collection to recovery procedures — and assess RFMO measures for fleets.
Learn about our bio-FAD workshops with fishers and scientists in Ghana, Senegal, the Federated States of Micronesia, the Philippines, and Papua New Guinea.
Tuna fishers that rely on Fish Aggregating Devices (FADs) to make their catch can significantly reduce the risk of entangling sharks and other animals by not using netting.
Our guide illustrates how to build FADs that not only avoid netting but also incorporate natural, biodegradable materials in place of traditional plastic or other man-made components.
We publish the guide in several languages.