ICES Journal of Marine Science Archives

New review shows bottom trawling is sustainable (when well-managed)

July 20, 2023 — The following is an excerpt from an article published by Sustainable Fisheries UW:

Seafood produced by bottom trawling can have a lower environmental impact than chicken or pork, according to a new review paper published yesterday. Writing in the ICES Journal of Marine Science, Hilborn et al. 2023 argues that banning bottom trawling would increase negative environmental impacts by increasing terrestrial protein production.

Hilborn et al. 2023, reviewed dozens of papers about bottom trawling impact, including stock sustainability, bycatch, ecosystem impact, and carbon footprint. Though bottom trawling is generally the most impactful kind of fishing, well-managed bottom trawl fisheries produce food with a much lower environmental impact than any terrestrial animal protein.

A review paper summarizes the current knowledge on a particular topic by combing through and presenting conclusions from recent publications. In this case, Hilborn et al. 2023 reviewed the existing literature on the environmental impacts of bottom trawling and summarized four major impacts: Sustainability of target species, impact on benthic ecosystems, bycatch and discard, carbon emissions.

The key to reducing impacts and sustaining fisheries is management. Bottom trawling can be a low-impact form of food production in places with effective management. Bottom trawling can be highly destructive in areas with little capacity for environmental management (like many developing nations in Asia).

In this post, we summarize the findings from the four major impacts, discuss what effective bottom trawling management looks like, and compare the environmental impact of bottom trawling to other forms of food production.

Read the full article at Sustainable Fisheries UW

Offshore wind farms could reduce Atlantic City’s surfclam fishery revenue up to 25%, Rutgers study suggests

July 1, 2022 — New research from Rutgers University shows Mid-Atlantic surfclam fisheries could see revenue losses from planned offshore wind farms, at least in the short- to medium-term after the development takes place.

The data is sure to fuel opposition from the fishing industry to the Biden administration’s rapid offshore wind development along the New York, New Jersey, and Delaware coasts. President Joe Biden has a goal of generating 30 gigawatts of wind energy by 2030 as part of his effort to tackle climate change.

Clammers and scallop fishermen fear a shrinking patch of fishable ocean will lead to the collapse of the industry.

Surfclam harvests stretching from Maine to Virginia generate about $30 million in annual revenue. The Rutgers study, “The Atlantic Surfclam Fishery and Offshore Wind Energy Development,” published in the ICES Journal of Marine Science, used a newly-developed model to determine average revenue reductions between 3 and 15% overall.

Read the full story at WHYY

Surf clam fleet could take big hit from offshore wind

June 24, 2022 — Offshore wind projects off the East Coast could take up to a 15 percent bite out of the surf clam industry’s $30 million annual revenue, according to two new studies from Rutgers University researchers.

The biggest loss could be up to 25 percent for boats based in Atlantic City, N.J., a historic center for the fishery.

The paired studies, published in the ICES Journal of Marine Science, show how total fleet revenue may range from 3 percent to 15 percent, “depending on the scale of offshore wind development and response of the fishing fleet.”

The researchers developed a complex computer model to predict how the surf clam fishery may change in response to large-scale wind turbine arrays – such as the 1,100-megawatt Ocean Wind 1 project planned off Atlantic City.

“Understanding the impacts of fishery exclusion and fishing effort displacement from development of offshore wind energy is critical to the sustainability of the Atlantic surf clam fishing industry,” according to co-author Daphne Munroe, an associate professor in the Department of Marine and Coastal Sciences. Munroe and the research team worked closely with fishermen and the clam industry in developing the model.

Read the full story at National Fisherman

Key Southern California Rockfish Species Survive Capture Over the Longer-term Following Release

October 26, 2021 — Deep-water rockfish reeled quickly to the surface often emerge from the water with eyes and organs bulging like alien beings—due to the sudden change in pressure—a condition known as barotrauma.

Now new research shows that if fishermen return fish to their natural depths quickly, their bodies return to normal and they can survive any ill effects. The research focused on cowcod and bocaccio, two historically overfished rockfish species caught off the coast of Southern California. They were returned to the depths using special descending devices that are now standard for many recreational fishermen.

Prior to this research and the use of descending devices, it was widely assumed that deep-dwelling rockfish could not survive catch and release due to their extensive barotrauma injuries. “We now know that these deep-dwelling rockfish species can survive,” said Nick Wegner, a research scientist at NOAA Fisheries’ Southwest Fisheries Science Center and lead author of the new research. “That is good news for the fish, and good news for the fishermen who go to the trouble of trying to release them properly.”

The research was published in ICES Journal of Marine Science. Scientists used acoustic transmitters to track released cowcod and bocaccio for up to a year on an underwater seamount approximately 40 miles off the coast of San Diego, California. They were captured at depths of 75 to 183 meters, or about 250 to 600 feet. By tracking the fish for extended periods, researchers found that most fish survived beyond 30 days. Of those fish that died, 40 percent died beyond the typical 2-day tracking window used in many fish survivorship studies.

Read the full story at NOAA Fisheries

As climate change sends fish to colder waters, some boats follow

December 14, 2018 — Flipping through his captain’s log, Larry Colangelo looks at the water temperatures off Atlantic City’s coast this past summer. Unusually warm 70- and 80-degree days are jotted down inside the record-keeping book he’s had for nearly two decades.

For $800 a day, he takes tourists and professional anglers alike onto his 31-foot ship. But in recent years, he said, certain fish have become more challenging to catch and keep.

Climate change and outdated regulations are partially to blame, researchers say, and it’s affecting some local fishermen in drastic ways.

“I only know what I see, and what I see is that the water definitely seems to be warmer… We have to work a little harder now,” said Colangelo, who owns a charter boat docked at Kammerman’s Marina in Atlantic City.

A November report in the ICES Journal of Marine Science looked at how fishermen are reacting to the migration of fish north as the ocean’s temperature gradually increases. It reports dramatic shifts in the distances large, commercial Atlantic Coast fishing operations have been traveling over the past 20 years.

But for some commercial fishers in South Jersey, it’s been business as usual.

Dotted with outdoor seafood restaurants, Cape May’s commercial fishing industry brought in $85 million in 2016. The city boasts one of the largest local fishing markets in the country.

Jeff Reichle, president of Lunds Fisheries in Cape May, said his 19-boat fleet has been buying permits off North Carolina and Virginia for decades.

In recent years, he said he’s noticed more summer flounder and sea bass near Connecticut and Massachusetts, but said his boats continue to travel along the entire coast both to maximize the number of fish caught and due to higher quotas in Virginia and North Carolina.

“You follow the fish where they go,” Reichle said. “This is why boats float and have propellers.”

Read the full story at the Press of Atlantic City

Using Fishermen’s Ecological Knowledge to map Atlantic cod spawning grounds on Georges Bank

August 11, 2017 — The following abstract is from a research paper on Atlantic cod spawning grounds on Georges Bank. It was written by Gregory R. DeCelles, David Martins, Douglas R. Zemeckis, and Steven X. Cadrin, all from the University of Massachusetts Dartmouth School for Marine Science and Technology in New Bedford, Massachusetts. It was published in the July-August 2017 issue of ICES Journal of Marine Science:

The spawning dynamics of Atlantic cod (Gadus morhua) on Georges Bank and Nantucket Shoals are not well understood. To address this uncertainty, we combined Fishermen’s Ecological Knowledge (FEK) with traditional scientific data to develop a more holistic understanding of cod spawning on Georges Bank. Data from historical reports, trawl surveys, fisheries observers, and ichthyoplankton surveys were used to describe the spatial and temporal distribution of cod spawning activity. We also collected FEK regarding cod spawning dynamics through semi-structured interviews (n = 40). The fishermen had detailed knowledge of the spatial and temporal distribution of cod spawning, and identified persistent fine-scale (i.e. <50 km²) spawning grounds that were often associated with specific habitat features, including spawning grounds that were previously unreported in the scientific literature. The spawning seasons and locations identified by fishermen generally agreed with information from traditional scientific data, but it was evident that seasonal scientific surveys lack the spatial and temporal resolution needed to fully characterize the distribution of cod spawning activity. Our results will help inform management measures designed to promote the rebuilding of Georges Bank cod, and also provide a basis for further investigations of cod spawning dynamics and stock structure.

Read the full paper at ICES Journal of Marine Science

Predators may be less affected by catch of small fish than previously thought, new study says

April 3, 2017 — WASHINGTON — The following was released by the National Coalition for Fishing Communities and IFFO:

New research published today in the journal Fisheries Research finds that fishing of forage species likely has a lower impact on predators than previously thought, challenging previous studies that argued forage fish are more valuable left in the ocean.

A team of seven respected fisheries scientists, led by Prof. Ray Hilborn, Ph.D., of the University of Washington, found that predator populations are less dependent on specific forage fish species than assumed in previous studies, most prominently in a 2012 study commissioned by the Lenfest Ocean Program, which is managed by The Pew Charitable Trusts. The Lenfest Forage Fish Task Force argued that forage fish are twice as valuable when left in the water to be eaten by predators, and recommended slashing forage fish catch rates by 50 to 80 percent.

For fisheries management, such a precautionary approach would have a large impact on the productivity of forage fisheries. As groups such as IFFO (The Marine Ingredients Organisation) have noted, these stocks contribute strongly to global food security, as well as local and regional social and economic sustainability.

However, the new research found multiple omissions in the methodology of the Lenfest study. “When you review the actual models that were used [by Lenfest], there are a few key elements on the biology of these animals that were not represented,” said Dr. Ricardo Amoroso, one of the study’s co-authors. He added that one of the authors’ approaches was to “look for empirical evidence of what is actually happening in the field.” Previous studies relied on models which took for granted that there should be a strong link between predators and prey.

Specifically, the Lenfest study and another study using ecosystem models ignored the natural variability of forage fish, which often fluctuate greatly in abundance from year to year. It also failed to account for the fact that predators tend to eat smaller forage fish that are largely untouched by fishermen. Because of these oversights, the new study concluded that the Lenfest recommendations were overly broad, and that fisheries managers should consider forage species on a case-by-case basis to ensure sound management.

“It is vital that we manage our fisheries to balance the needs of the ecosystem, human nutrition and coastal communities,” said Andrew Mallison, IFFO Director General. “These findings give fishery managers guidance based on science, and update some of the inaccurate conclusions of previous reports.”

The Lenfest findings were largely based on a model called EcoSim, developed by Dr. Carl J. Walters, one of the co-authors of the new paper. Dr. Walters found that the EcoSim models used in earlier studies had omitted important factors, including natural variability, recruitment limitations and efficient foraging of predators.

Dr. Walters noted that there were “very specific” issues with previous uses of the EcoSim model. “It was predicting much higher sensitivity of creatures at the top of the food webs to fishing down at the bottom than we could see in historical data,” he said.

This is not the first time ecosystem models used in earlier studies have been questioned. One year after the Lenfest study was completed, two of its authors, Dr. Tim Essington and Dr. Éva Plagányi, published a paper in the ICES Journal of Marine Science where they said, “We find that the depth and breadth with which predator species are represented are commonly insufficient for evaluating sensitivities of predator populations to forage fish depletion.” The new study reaffirmed this finding, noting “several reasons to concur with the conclusion that the models used in previous analysis were insufficient.”

In addition to its critiques of previous research, the researchers found further evidence of the lack of fishing impact on forage fish. Their research indicated that environmental factors are often much more important drivers of forage fish abundance. They also found that the distribution of forage fish has a greater impact on predators than simply the raw abundance of forage fish.

The authors concluded by noting the importance of forage fish as a part of human food supply chains, praising their high nutritional value, both through direct human consumption and as food in aquaculture, as well as the low environmental impact of forage fishing. Cutting forage fishing, as recommended by the Lenfest group, would force people to look elsewhere for the healthy protein and micronutrients provided by forage fish – likely at much greater environmental cost, the authors wrote.

“Forage fish provide some of the lowest environmental cost food in the world – low carbon footprint, no water use,” Dr. Hilborn said. “[There are] lots of reasons that forage fish are a really environmentally friendly form of food.”

It is also well-established that forage fisheries provide substantial health benefits to human populations through the supply of long chain omega-3 fatty acids, both directly through consumption in the form of fish oil capsules, and indirectly through animal feed for farmed fish and land animals.

The paper was authored by Dr. Ray Hilborn, Dr. Ricardo O. Amoroso, and Dr. Eugenia Bogazzi from the University of Washington; Dr. Olaf P. Jensen from Rutgers University; Dr. Ana M. Parma from Center for the Study of Marine Systems -CONICET, Argentina; Dr. Cody Szuwalski from the University of California Santa Barbara; and Dr. Carl J. Walters from the University of British Columbia.

Read the full study here

Watch a video about the study here

Read an infographic about the study here

About the NCFC

The National Coalition for Fishing Communities provides a national voice and a consistent, reliable presence for fisheries in the nation’s capital and in national media. Comprised of fishing organizations, associations, and businesses from around the country, the NCFC helps ensure sound fisheries policies by integrating community needs with conservation values, leading with the best science, and connecting coalition members to issues and events of importance. For more, visit www.fisheriescoalition.org.

About IFFO

IFFO represents the marine ingredients industry worldwide. IFFO’s members reside in more than 50 countries, account for over 50% of world production and 75% of the fishmeal and fish oil traded worldwide. Approximately 5 million tonnes of fishmeal are produced each year globally, together with 1 million tonnes of fish oil. IFFO’s headquarters are located in London in the United Kingdom and it also has offices in Lima, Peru, and in Beijing, China. IFFO is an accredited Observer to the UN Food and Agriculture Organisation (FAO). To find out more, visit www.iffo.net.

PRESS CONTACT

Robert Vanasse

National Coalition for Fishing Communities

Washington

+1 (202) 333-2628

bob@savingseafood.org

Georgie Harris

IFFO, The Marine Ingredients Organisation

London

+44 (0) 2030 539 195

gharris@iffo.net

Warmer waters might prevent baby lobsters from surviving

September 26th, 2016 — Baby lobsters might not be able to survive in the ocean’s waters if the ocean continues to warm at the expected rate.

That is the key finding of a study performed by scientists in Maine, the state most closely associated with lobster, followed by Massachusetts. The scientists, who are affiliated with the University of Maine Darling Marine Center and Bigelow Laboratory for Ocean Sciences, said the discovery could mean bad news for the future of one of America’s most beloved seafood treats, as well as the industry lobsters support.

The scientists found that lobster larvae struggled to survive when they were reared in water 5 degrees Fahrenheit warmer than the temperatures that are currently typical of the western Gulf of Maine, a key lobster fishing area off of New England. Five degrees is how much the United Nations’ Intergovernmental Panel on Climate Change expects the Gulf of Maine’s temperature to warm by the year 2100.

The paper appears this month in the scientific journal ICES Journal of Marine Science. It could serve as a wake-up call that the lobster fishery faces a looming climate crisis that is already visible in southern New England, said Jesica Waller, one of the study’s authors.

“There has been a near total collapse in Rhode Island, the southern end of the fishery, and we know our waters are getting warmer,” Waller said. “We are hoping this research can be a jumping off point for more research into how lobsters might do over the next century.”

Read the full story from the Associated Press at The Gloucester Times