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    • Fishing Terms Glossary

Modifying Fishing Gear Reduces Shark Bycatch in the Pacific

August 17, 2022 — The following was released by NOAA Fisheries:

Conservation and management of shark populations is increasingly important on a global scale because many species are vulnerable to overfishing. Internationally protected shark species remain at risk due to bycatch in commercial fisheries. In the western Pacific Ocean, oceanic whitetip and silky shark populations are overfished. Oceanic whitetip sharks are also experiencing overfishing, and were listed as threatened under the U.S. Endangered Species Act in 2018. Recent research has shown that switching to a new type of fishing gear can drastically reduce bycatch for these species.

What is Bycatch?

Bycatch is when non-targeted or protected species are accidentally captured during commercial fishing operations. It threatens seabirds, sea turtles, whales, dolphins, sharks, and rays globally. Oceanic whitetip and silky sharks are inadvertently caught as bycatch in pelagic longline fisheries targeting tuna, like the Hawai‘i deep-set longline fishery.

Bycatch Reduction Measures in the Pacific

Several regional fisheries management organizations have undertaken steps to reduce bycatch-related mortality of oceanic whitetip and silky sharks. This includes measures implemented by the Western and Central Pacific Fisheries Commission that prohibit fishermen from retaining these sharks or their fins and require sharks be handled and released as soon as they are brought alongside the vessel in a manner that minimizes harm.

Hawai‘i deep-set longline fishing vessels are now required to use leaders composed of monofilament material, rather than wire, to reduce mortality of captured oceanic whitetip sharks. The fishermen are also required to remove the hook, or, if they are unable to do so, to cut the fishing gear as close to the hook as possible. Cutting monofilament leaders is much easier than cutting wire leaders. This gear and operational change was initiated by the Hawai‘i Longline Association, whose members, more than 90% of the Hawai‘i longline fleet, voluntarily transitioned to monofilament leader material before the regulations went into place. Researchers found that sharks could bite through monofilament gear and free themselves more quickly and easily than if they were caught on wire leaders.

Gear Modification Research

Drs. Molly Scott, Melanie Hutchinson, and Jennifer Stahl at the Cooperative Institute for Marine and Atmospheric Research tested different gear configurations for Hawaii longline fishing vessels with co-authors from the University of Hawai‘i. The goal was to reduce injury and mortality to bycaught species. They compared catch rates and condition (e.g., alive, dead, level of injury) of target and non-target species after capture on either wire or monofilament leaders. They also tested different configurations (size, diameter, shape, metal type, and leader material). This helped determine the amount of strength required to either break or open the hook, and the time taken for trailing gear to deteriorate.

Their research was recently published in the journal of Marine Policy. They found that switching from wire to monofilament leaders reduced the mortality rate of sharks by approximately 41 percent and still maintained catch rates of target species (bigeye tuna). Branchlines with wire leaders began to deteriorate after approximately 60 days, but hooks with monofilament leaders did not break apart, even after 360 days. Additionally, the breaking strength of fishing hooks was greater for larger, forged stainless steel hooks typically used in U.S. Pacific longline fisheries.

This study suggests that using a combination of monofilament leader material with smaller, galvanized, unforged hooks can reduce the amount of force required to straighten or open a hook by up to 70 percent. Dr. Scott shared, “This combination of gear can substantially reduce injury and mortality of sharks and many other species, including protected species such as false killer whales. We strongly support the Hawai‘i Longline Association and their voluntary transition from wire to monofilament leaders. We also want to highlight the importance of removing as much trailing gear as possible from the animals (including the weights) to prevent further injury.”

Read the full release here

Recent Increase in Seal Deaths in Maine Linked to Avian Flu

July 3, 2022-Beginning in June 2022, Marine Mammals of Maine (MMoME)—a NOAA Fisheries authorized marine mammal stranding network partner—has responded to an elevated number of stranded seals. Most of the seals were found dead. On July 1, the U.S. Department of Agriculture’s  Animal and Plant Health Inspection Service’s National Veterinary Services Laboratories confirmed that samples from four stranded seals in Maine have tested positive for Highly Pathogenic Avian Influenza H5N1. All of these animals had recently died or required euthanasia. USDA is notifying the Centers for Disease Control and Prevention as well as state animal and public health officials. The finding will be reported to the World Organization for Animal Health.

NOAA Fisheries has established a coordinated response structure with MMoME, Atlantic Marine Conservation Society, and state and federal partners to manage this event. The response team is currently meeting on a daily basis to share information, support response logistics, and develop accurate public communications. This webpage will be updated on a regular basis as new information becomes available

Read the full story at NOAA Fisheries

Spencer Fullerton Baird: Founder of the Woods Hole Laboratory and Fisheries Science

June 18, 2021 — The following was released by NOAA Fisheries:

Spencer Fullerton Baird was born in Reading, Pennsylvania in 1823. Time spent as a child exploring the countryside with his brother fueled his passion for natural history. In 1838 he met John James Audubon, who gave him part of his bird collection, and encouraged young Baird’s interest in ornithology and collecting specimens.

He attended Dickinson College, receiving his bachelor’s degree in 1840. Baird then enrolled in the College of Physicians and Surgeons in New York for a year, but decided he was not cut out for medical practice. He returned to Carlisle, Pennsylvania to continue his studies at Dickinson College. He received a master’s degree in 1843 and an honorary doctor of physical science degree in 1856

Baird was offered a teaching position at the college in 1845 as a professor of natural history. Popular with students for taking them into the field to study nature, he became chair of both the natural history and chemistry departments in 1848. He also served as librarian and curator of the college’s natural history collections.

Read the full release here

Engaging Anglers to Improve Catch and Release Practices and Restore Reef Fish in the Gulf

June 14, 2021 — The following was released by NOAA Fisheries:

NOAA’s Deepwater Horizon restoration partners at the Gulf States Marine Fisheries Commission selected three new partners to conduct studies on reef fish restoration in the Gulf of Mexico. They were chosen through a competitive process, and the awards total approximately $690,000.

These studies are contributing to a $30 million project to encourage anglers to use fish descending devices. These devices increase survival of reef fish experiencing barotrauma in the Gulf’s recreational fisheries approved by the Deepwater Horizon Open Ocean Trustees.

Barotrauma is damage caused by the rapid expansion of gases in fish that are caught in deeper water and quickly brought up to the surface. As the gases expand, they can damage the eyes, stomach, and other parts of the fish. This makes it difficult for them to swim back down and survive once released. Descending devices help fish by quickly releasing them at their normal depth, reducing the number of reef fish that die from catch and release fishing.

Read the full release here

Extended Slow Zones to Protect Right Whales

March 1, 2021 — The following was released by NOAA Fisheries:

NOAA Fisheries announces the extension of three voluntary right whale Slow Zones (1) south of Nantucket Island, Massachusetts, (2) east of Boston, Massachusetts and (3) southeast of Atlantic City, New Jersey.

On February 26, 2021, the New England Aquarium’s survey team observed the presence of right whales south of Nantucket. The Nantucket Slow Zone is in effect through March 13, 2021.

On February 27, 2021, Rutgers University and Woods Hole Oceanographic Institution slocum gliders detected the presence of right whales east of Boston, MA and southeast of Atlantic City, NJ. These Slow Zones are in effect through March 14, 2021.

Mariners are requested to route around these areas or transit through them at 10 knots or less.

Slow Zone Coordinates:

Southeast of Atlantic City, in effect through March 14, 2021

39 25 N
38 44 N
073 44 W
074 36 W

East of Boston, in effect through March 14, 2021

42 40 N
42 00 N
069 57 W
070 52 W

South of Nantucket, in effect through March 13, 2021

41 23 N
40 40 N
069 39 W
070 35 W

See the coordinates for all the slow zones currently in effect.

Read the full release here

Guidelines for Safely Deterring Marine Mammals

August 28, 2020 — The following was released by NOAA Fisheries:

Today, NOAA Fisheries is soliciting input on a proposed regulation for safely deterring marine mammals from damaging fishing gear or catch, damaging personal or public property, or endangering personal safety. MMPA section 101(a)(4)(B) directs the Secretary of Commerce, through NOAA Fisheries, to publish guidelines for safely deterring marine mammals and recommend specific measures to non-lethally deter marine mammals listed as endangered or threatened under the Endangered Species Act. This is an opportunity for the public to provide input on these guidelines and recommended specific measures. NOAA Fisheries has included in the guidelines and recommended specific measures those deterrents that are unlikely to kill or seriously injure marine mammals; we have not evaluated the effectiveness of deterrents.

Copies of the draft Environmental Assessment prepared in support of this action are available and accessible via the Internet at: https://www.regulations.gov/. We are accepting comments on the proposed rule for 60 days through 10-30-2020.

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