Industrial Fishing Poses A Greater Threat To Turtles, Sharks And Seals Than Previously Thought
Risk calculations likely underestimate the impact of undetected fishing vessels operating in key ocean habitats.
My colleagues and I mapped activity in the northeast Pacific of 鈥渄ark鈥 fishing vessels 鈥 boats that turn off their location devices or lose signal for technical reasons. In our new study, we found that highly mobile marine predators, such as sea lions, sharks and leatherback sea turtles, are significantly more threatened than previously thought because of large numbers of dark fishing vessels operating where these species live.
While we couldn鈥檛 directly watch the activities of each of these dark vessels, , including satellite data and machine learning, make it possible to estimate where they go when they are not broadcasting their locations.
Examining five years of data from fishing vessel location devices and the habitats of 14 large marine species, including seabirds, sharks, turtles, sea lions and tunas, we found that our estimates of risk to these animals increased by nearly 25% when we accounted for the presence of dark vessels. For some individual predators, such as albacore and bluefin tunas, this adjustment increased risk by over 36%. The main hot spots were in the Bering Sea and along the Pacific coast of North America.
How We Did Our Work
Fishing boats use , or AIS, to avoid colliding with each other. Their AIS signals bounce off satellites to reach nearby ships.
This data is a valuable tool for and . AIS data captures an estimated of fishing operations occurring more than 100 nautical miles from shore.
But in some areas, vessels鈥 AIS signals can鈥檛 reach the satellites, either because reception is poor or many boats are crowded together 鈥 much as cellphones can have difficulty sending text messages in remote wildness or in crowded stadiums. And just as location tracking can be disabled on phones, fishing vessels can intentionally if they want to hide their location. Boats that do this may be engaged in criminal activities, such as .
how much risk dark vessels pose to marine life by overlapping their activity with the modeled habitats of 14 highly mobile marine predators. Using the same method, we also calculated how much risk observable fishing vessels that broadcast their locations pose to marine life. These two calculations allowed us to understand the additional risk from dark fishing vessels.
Why It Matters
We know that many sea creatures, including endangered species, are , and . More overlap between wildlife and fishing boats means that those harmful impacts are more likely to happen.
Even considering only , the presence of boats signals considerable risk for marine life. For example, forage in Pacific coastal waters from the Canadian border to Baja California and are accidentally caught by boats fishing for hake and halibut. We found observable fishing activity in over 45% of the sea lions鈥 habitat.
In another example, migratory feed on salmon near Alaska鈥檚 Aleutian Islands during the summer and breed in warmer waters off the coasts of Oregon and California during the winter. Along their journey, salmon sharks are accidentally caught in fishing nets and longlines. We detected observable vessel fishing activity in nearly one-third of salmon shark habitat.
Our findings indicate that such threats are higher when dark fishing boats are present. Estimates of risk to California sea lions and salmon sharks increased by 28% and 23%, respectively, when we accounted for dark vessels.
This information could affect fishery regulation. For example, regulators to set catch limits for species such as tuna; higher risk could mean that catch limits need to be lower.
For species such as sea lions and salmon sharks that are accidentally caught by fishermen, higher risk levels could indicate that fishing boats should use more selective gear. California is currently acting on this issue by helping fishermen phase out use of in state waters. These nets, which hang like curtains in the water, catch .
Accounting for dark vessels is particularly important in international waters where boats from multiple countries operate, because AIS data is one of the most complete sources of fishing activity across nations. Tracking dark vessels can help make this information as comprehensive as possible and provide insights into the multinational impacts of fishing.
Our study does not account for vessels that do not use any vessel tracking system, or that use systems other than AIS. Therefore, our risk calculations likely still underestimate the true impact of fisheries on marine predators.
What’s Next
The world鈥檚 oceans are rich in life but poor in data, although this is changing. High-resolution may soon offer even more information on risk from dark vessels.
President Joe Biden and other global leaders have pledged to protect . Better data on human-wildlife interactions at sea can help ensure that new protected areas are in the right places to make a difference.
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