SARDINES IN CALIFORNIA

California Wetfish Producers Association Press Release:

Pacific Fishery Management Council Approves Pacific Sardine Fishing Levels for 2020 [PDF]

FOR IMMEDIATE RELEASE-Sardine Spex

SARDINES IN CALIFORNIA ~ FISHERY IN CRISIS

This conflict is between what fishermen say is out there, based on what they see, and what biologists say, based on insufficient science. Fishermen who lived through the return of sardines in the early 1990s are experiencing déjà vu these days. Since 2015, many have testified to the growing abundance of sardines in California. Nick Jurlin is one of those fishermen. A third-generation fisherman, Nick remembers how things were when sardines returned. Nick and his son-in-law Corbin, the next generation, see the ironic parallels: schools of sardines like giant lily pads on the ocean everywhere now, but the fishery is closed and they have little else to fish.

Scientific surveys that are conducted primarily offshore have seen no evidence of sardine recruitment, and stock assessments continue to predict decline. So, conflict has spiraled into crisis: the National Marine Fisheries Service (NMFS) closed the sardine fishery in 2015 because NOAA acoustic trawl surveys did not see sardines and the stock assessment fell below the cutoff for directed fishing. But the large research ships can’t survey near shore; more than 70 percent of California’s sardine catch is made in shallow water inshore of NOAA’s acoustic surveys. In 2019, conditions turned from bad to worse, as the stock assessment fell even further, and NMFS declared sardines ‘overfished.’

Since the turn of the 20th century, sardines have been the foundation of California’s wetfish industry. Nick and Corbin, who used to rely on sardines yearlong, now are dedicated to research, helping to document the abundance of sardines inshore of the federal surveys, hoping to improve sardine stock assessments and reopen the fishery. Fishermen like Corbin are pleading with the Pacific Fishery Management Council for help to save their jobs.
This video is the story of one fishing family and their efforts to survive.

Direct: https://youtu.be/uaps0Vz5XOA

West Coast Waters Shift Toward Productive Conditions, But Lingering Heat May “Tilt” Marine Ecosystem

Burgeoning populations of anchovy and a healthy crop of California sea lion pups reflected improved productivity off parts of the West Coast in 2019. However, lingering offshore heat worked against recovery of salmon stocks and reduced fishing success, a new analysis reports.

The California Current Ecosystem Status Report explains that ocean conditions off the West Coast remain unusually variable. This has been the case since the arrival of a major marine heatwave in 2014 known as “The Blob.” NOAA Fisheries’ two West Coast laboratories, the Northwest Fisheries Science Center and Southwest Fisheries Science Center, issue the report each year to the Pacific Fishery Management Council.

“There is not a real clear picture here,” said Chris Harvey, co-editor of the report developed by the two laboratories’ Integrated Ecosystem Assessment approach. The approach integrates physical, biological, economic, and importantly social conditions of the California Current marine ecosystem into the decision-making process. “On the one hand, we have a lot of anchovy out there. On the other hand, we also have a lot of warm water. That is not usually a sign of improved productivity.”

Lingering Warm Waters

A marine heatwave rivaling “The Blob” emerged in the Pacific in the second half of 2019 but waned by the beginning of 2020. The repeated warm events have left a remnant reservoir of heat deep in offshore waters. That could help “tilt” the system in a way that favors future heatwaves.

“Since a similar buildup and then recession occurred during 2013-2014, and we continue to observe anomalously warm water far offshore and retention of heat by deeper waters, it is unclear if we may see a resurgence of another heatwave in the summer of 2020,” the report says.

Warm conditions off the West Coast are generally associated with less productive conditions. Colder water from the north injects more energy-rich plankton into the marine ecosystem. Young salmon entering the ocean in cooler conditions, for example, grow bigger faster and support stronger adult salmon returns to the rivers where they spawn.

Ecological and Economic Indicators

The annual analysis hinges on a series of ecological and economic indicators. They range from the size of krill—small crustaceans that form the base of the food chain—to trends in fishery landings in port communities. Krill density was very low off much of the West Coast in 2019, and commercial fishery landings dropped 8 percent in 2018 compared to the year before.

The 2020 State of the California Current report introduces a new ecological indicator known as the “habitat compression index.” It reflects how warm offshore waters run up against cold, deeper waters that well up near the coast. The result is a narrow, “compressed” band of coastal ocean with cool, productive waters that draw fish and their predators together.

Other recent research found that during the Blob years, the compressed habitat brought humpback whales closer to shore to feed on booming numbers of anchovy. That put many whales in the same waters where Dungeness crab fishermen set their traps, and record numbers of whales became entangled in the fishing lines.

The habitat compression index will provide a running barometer of how offshore heat is affecting nearshore waters and the species that depend on them. “We will continue to study this metric in relation to other indicators in hopes of understanding why coastal impacts in recent years have been so severe,” the report says.

Fisheries landings on the West Coast have seen big ups and downs in recent years. There have been large catches of hake but fewer landings of salmon and coastal pelagic species such as sardines. Commercial landings in 2018, the last year with data available, fell 8 percent, with declines in shrimp, market squid, and many groundfish species. Dungeness crab, however, is a bright spot, with increased landings in recent years.

“Through presenting ecosystem trends, our goal is to provide the Council and the public with a snapshot of the health of the California Current ecosystem,” said Toby Garfield, the co-editor of the report. “Understanding these changes is critical to preserving the productivity and sustainability of West Coast fisheries.”

Original post: https://www.fisheries.noaa.gov/

Fisheries Management Is Actually Working, Global Analysis Shows

Increasing fish stocks around the world give credibility to strong management and the importance of fisheries data

Story modified from the original press release issued by the University of Washington 

Nearly half of the fish caught worldwide are from stocks that are scientifically monitored and, on average, these stocks are increasing in abundance. According to a new global analysis, effective management appears to be the main reason these stocks are at sustainable levels or rebuilding successfully.

The analysis, which incorporated fisheries data from around the world, was conducted by an international research team supported by the Science for Nature and People Partnership. Their results were published January 13^th in the Proceedings of the National Academy of Sciences.

The results show that fisheries management works when applied, and the solution for sustaining fisheries around the world is implementing effective fisheries management, the authors explained.

“There is a narrative that fish stocks are declining around the world, that fisheries management is failing and we need new solutions — and it’s totally wrong,” said lead author Ray Hilborn, a professor in the University of Washington School of Aquatic and Fishery Sciences. “Fish stocks are increasing in many places, and we already know how to solve problems through effective fisheries management.”

The project builds on a decade-long international collaboration to assemble estimates of the status of fish stocks — or distinct populations of fish — around the world, from Peru to the Mediterranean, and to Japan. This information helps scientists and managers know where overfishing is occurring or where some areas could support even more fishing.

The team’s database includes information on nearly half of the world’s fish catch, or about 880 fish stocks, providing perhaps the most comprehensive picture worldwide of the health and status of fish populations.

“The key is we want to know how well we are doing, where we need to improve, and what the problems are,” Hilborn said.

By pairing information about fish stocks with recently published data on fisheries management activities in about 30 countries, the researchers found that more intense management led to healthy or improving fish stocks, while little to no management led to overfishing and poor stock status.

“With these data, we could test whether fisheries management allows stocks to recover. We found that, emphatically, the answer is yes,” said co-author Christopher Costello, a professor of environmental and resource economics at University of California, Santa Barbara, and a board member with Environmental Defense Fund. “This gives credibility to the fishery managers and governments around the world that are willing to take strong actions.”

To be successful, management should be tailored to fit the characteristics of the different fisheries and the needs of specific countries and regions. The main goal should be to reduce the total fishing pressure when it is too high, and find ways to incentivize fishing fleets to value healthy fish stocks.

“There isn’t really a one-size-fits-all management approach,” Costello said. “We need to design the way we manage fisheries so that fishermen around the world have a long-term stake in the health of the ocean.”

Still, there are data-deficient areas of the world. Scientific estimates of the status of most fish stocks in South Asia and Southeast Asia are not available, and fisheries in India, Indonesia and China alone represent 30% to 40% of the world’s fish catch that is essentially unassessed.

“There are still big gaps in the data and these gaps are more difficult to fill,” said co-author Ana Parma, a principal scientist at Argentina’s National Scientific and Technical Research Council and a member of The Nature Conservancy global board. “This is because the available information on smaller fisheries is more scattered, has not been standardized and is harder to collate, or because fisheries in many regions are not regularly monitored.”

Hilborn and collaborators recently presented this work at the Food and Agriculture Organization of the United Nations’ International Symposium on Fisheries Sustainability in Rome.

Other co-authors are from University of Victoria, University of Cape Town, National Institute of Fisheries Research (Morocco), Rutgers University, Seikai National Fisheries Research Institute Japan, CSIRO Oceans and Atmosphere, Fisheries New Zealand, Wildlife Conservation Society, Marine and Freshwater Research Center (Argentina), European Commission, Galway-Mayo Institute of Technology, Center for the Study of Marine Systems, Sustainable Fisheries Partnership, The Nature Conservancy, and the Food and Agriculture Organization of the United Nations.

The research was funded by the Science for Nature and People Partnership (SNAPP), a collaboration between the National Center for Ecological Analysis and Synthesis at UC Santa Barbara, The Nature Conservancy, and Wildlife Conservation Society. Individual authors received funding from The Nature Conservancy, The Wildlife Conservation Society, the Walton Family Foundation, Environmental Defense Fund, the Richard C. and Lois M. Worthington Endowed Professorship in Fisheries Management and donations from 12 fishing companies.

Original post: https://www.nceas.ucsb.edu/

‘Blob’ research shows ecological effects that halted fishing and hiked whale entanglements

Unprecedented environmental changes inspire new online tools to better spot them next time

NOAA Fisheries West Coast Region

An ecological pileup of unprecedented changes in the ocean off the West Coast beginning about 2014 led to record entanglements of humpback and other whales, putting the region’s most valuable commercial fishery at risk, new research shows.

The findings reflect a new management challenge brought about by a changing climate, recovering whale populations, and fishing pressure, according to the new research published in Nature Communications. The situation calls for new measures to alert fishermen to the risk of entanglements and help managers adjust to more rapid and frequent changes in the marine environment.

“We need to put information in the hands of those who can use it, at a time when it can make a difference,” said Jarrod Santora, a research scientist at NOAA Fisheries’ Southwest Fisheries Science Center (SWFSC) in Santa Cruz, California, and lead author of the research. “We are seeing changes coming at us in ways they never have before.”

Santora and his colleagues are developing a website that will use oceanographic data to forecast the areas where whales are most likely to be feeding off the West Coast. Crab fishermen could then use the information to help decide where–and where not–to set their traps. It may also help managers decide where and when to open–or close–fishing.

The new research teases out the ecological causes and effects that contributed to the spike in reported whale entanglements. Many involved traps set for Dungeness crab, said Nathan Mantua, a research scientist at the SWFSC and coauthor of the research. Reported entanglements have since dropped off but remain higher than before the increase.

“We had all these things that weren’t part of anyone’s experience come together in this remarkable three-year period,” he said.

Conflict Prompts Improved Communication

The entanglements have also prompted environmental lawsuits that threaten to restrict crab fishing. At the same time, though, the focus on entanglements has led to better communication and conversation between fishermen, environmental groups, and managers. Collaborative working groups have also developed tools to better anticipate and avoid entanglement risk.

“If the working group knew then what we know now, it wouldn’t have happened,” said John Mellor, a crab fisherman from San Francisco, referencing the increased entanglements. “The more we understand the whole picture, the better chance we have to mitigate the impacts.”

The driver behind many of the environmental changes was an unprecedented marine heatwave that took hold in 2014. It became known as “the warm Blob,” because of the large expanse of unusually high temperatures that dominated waters off the West Coast. The warm temperatures attracted subtropical species rarely seen in the region. The krill that humpback whales typically feed on grew scarce.

The whales switched to feed instead on high concentrations of anchovy that the warm, less productive waters had squeezed into a narrow band near the coast.

At the same time, the higher temperatures fueled a record bloom of toxic algae. It shut down crabbing on the West Coast from November 2015 through March 2016. When toxin levels eased and the Dungeness season finally opened, fishermen set multitudes of crab traps in that same narrow band where many whales were feeding.

NOAA Fisheries’ West Coast Region confirmed a then-record 53 whale entanglements in 2015 and 55 in 2016.

The scientists developed a new measure for ocean conditions called the Habitat Compression Index. It tracks the width of the productive band and how tightly species are coalescing there.

Whale Numbers Reflect Unprecedented Change

Research Biologist Karin Forney, also from the SWFSC and a coauthor of the research, lives in Moss Landing, California. She has a view of Monterey Bay and has long seen occasional humpback whales feeding just offshore. During the “the Blob” years, she would regularly see 30 to 40 whales from her front windows. Local whale watch boats made two to three trips a day to keep up with the demand.

Some 300 whales were counted at once in Monterey Bay.

“In our lifetimes living here, that was unprecedented,” she said. “We knew something dramatically different was pulling these whales closer to shore.”

She is also part of a NOAA team trained to free entangled whales.

“We were on call every day for weeks, with simultaneous reports of two or three entangled whales, so we could respond if they were sighted again,” she said. The team disentangled a few, while others were never seen again.

The lesson of the research, Forney said, is that scientists and fishermen must share information. They can help each other understand how complex environmental connections affect marine species and fisheries. Communication may be one of their most important tools as environmental changes come ever faster.

“Things are dynamic, and things are changing,” she said. “That is not going away.”

Humpback whales feed on anchovy off the Coast of California. New research shows that warm ocean temperatures pushed whales into the same water as crab fishermen, and whale entanglements increased. CREDIT: John Calambokidis/Cascadia Research Collective

Original post: https://www.eurekalert.org/

Dungeness crab larvae already showing effects of coastal acidification

This infographic shows the location of larval Dungeness crab sampling in 2016, examples of impacts from ocean acidification, as well as photos of a larval (left) and adult (right) crab. Credit: Nina Bednarsek, SSCWRP.

A new NOAA-funded study has documented for the first time that ocean acidification along the US Pacific Northwest coast is impacting the shells and sensory organs of some young Dungeness crab, a prized crustacean that supports the most valuable fishery on the West Coast.

Analysis of samples collected during a 2016 NOAA research cruise identified examples of damage to the carapace, or upper shell, of numerous larval Dungeness crabs, as well as the loss of hair-like sensory structures crabs use to orient themselves to their surroundings.

The study was published in the journal Science of the Total Environment.

Impacts to wild crab mirror results of laboratory study

Prior to this study, scientists thought that Dungeness crab were not vulnerable to current levels of ocean acidification, although a laboratory study conducted on Dungeness crab larvae by NOAA’s Northwest Fisheries Science Center in 2016 found that their development and survival suffered under pH levels expected in the future.

“This is the first study that demonstrates that larval crabs are already affected by ocean acidification in the natural environment, and builds on previous understanding of ocean acidification impacts on pteropods,” said lead author Nina Bednarsek, senior scientist with the Southern California Coastal Water Research Project. “If the crabs are affected already, we really need to make sure we start to pay much more attention to various components of the food chain before it is too late.”

What is ocean acidification?
Ocean acidification refers to a reduction in the pH of ocean water, primarily caused by the uptake of carbon dioxide from the atmosphere over long time spans. When CO2 is absorbed by seawater, a series of chemical reactions occur resulting in the increased concentration of hydrogen ions. This increase causes the seawater to increase its acidity and causes carbonate ions to be less abundant.

Carbonate ions are an important building block of structures such as sea shells and coral skeletons that rely on using calcium carbonate for structural growth. Decreases in carbonate ions can make building and maintaining shells and other calcium carbonate structures difficult for calcifying organisms such as oysters, clams, sea urchins, crabs, corals, and some kinds of shelled plankton, such as pteropods.

Close examination reveals patterns of damage
In this study, examination under a high-magnification, scanning electron microscope revealed that the corrosive conditions of coastal waters had affected portions of the fragile, still-developing external shell and legs of the tiny, almost translucent post-larval Dungeness crabs, leaving tell-tale features, such as abnormal ridging structures and scarred surfaces. This could, in turn, impair larval survival by altering swimming behaviors and competence, including the ability to regulate buoyancy, maintain vertical position, and avoid predators.

One of the more important findings of this study was that crabs showing signs of carapace dissolution were smaller than other larvae. This was disconcerting, scientists said, because the damage during the crab’s larval stages could cause potential developmental delays that could increase energy demands and interfere with maturation.

Sensory organ damage seen for the first time
In a surprising discovery, the team found that the low pH water in some coastal areas damaged the canals where hair-like bristles called mechanoreceptors stick out from the shell. These receptors transmit important chemical and mechanical sensations to the crab, and may help crabs navigate their environment. Examination showed that carapace dissolution destabilizes the attachment of the mechanoreceptor anchor, resulting in them falling out in some individuals.

This is a new aspect of crustacean sensitivity to ocean acidification that has not been previously reported. The team hypothesize that the absence or damage of mechanoreceptors within their neuritic canals may in part explain potential aberrant behavioral patterns, such as slower movement, less tactile recognition, and prolonged searching time, as well as impaired swimming, that have been observed in various crustacean species exposed to low pH conditions in laboratory settings.

“We found dissolution impacts to the crab larvae that were not expected to occur until much later in this century,” said Richard Feely, Senior Scientist with NOAA’s Pacific Marine Environmental Laboratory and one of the co-authors of the study.

Combining observations and modelling work, the research team, which included scientists from JISAO, NOAA’s cooperative institute at the University of Washington, from the University of Connecticut, and from Quebec, Britain and Slovenia, demonstrated that the impacts of dissolution were the most severe in the coastal habitats, where crabs grow and mature.

Previous research has indicated that Dungeness crab may also be vulnerable to future declines due to lack of availability of prey – including bivalves such as clams and other bottom-dwelling invertebrate species.

More research needed
Bednarsek emphasized that more research will be needed to determine whether the external dissolution seen in crabs at this early life stage could carry over into later life stages, including the reproductively active adult stage, and what the potential consequences may be for the population dynamics.

“If these larval crab need to divert energy to repair their exoskeletons, and are smaller as a result, the percentage that make it to adulthood will be at best variable, and likely go down in the long-term,” she said.

Ocean acidification is a major concern for West Coast fishery managers, said Rich Childers, Washington Department of Fish and Wildlife’s ocean acidification policy lead. “These data and results give state and tribal fishery managers and policy makers information that’s vital for harvest and conservation planning.”

The research was supported by the NOAA’s Ocean Acidification Program and NOAA’s Pacific Marine Environmental Laboratory.

NOAA Research News, 23 January 2020. Article.

Original post: https://news-oceanacidification-icc.org/

Fish populations around the world are improving

Fish populations around the world are improving

January 16, 2020 — The following was released by Sustainable Fisheries UW:

Let’s enjoy some unequivocal, inarguable good news: a paper published today in PNAS, Hilborn et al. 2020, shows that on average, scientifically-assessed fish populations around the world are healthy or improving. And, for fish populations that are not doing well, there is a clear roadmap to sustainability. With Australia on fire and scares of World War III, the start of 2020 and the new decade has been awful; hopefully Hilborn et al. 2020 can kickstart a decade of ocean optimism.

Hilborn et al. 2020 counters the perception that fish populations around the world are declining and the only solution is closing vast swaths of ocean to fishing. Instead, Hilborn et al. 2020 argues that increasing scientific, management, and enforcement capacity will lead to more abundant and sustainable oceans. The major takeaway of the paper is that fishery management works—when fisheries are managed, they are sustained. The key is following the science-to-management blueprint. Scientific data collection and fishery assessment comes first, then fishing regulation and enforcement of fishing policies. With the blueprint in place, most fisheries around the world are sustainable or improving.

The paper uses updates to the RAM Legacy Stock Assessment Database, a decades-long project to assemble data on fish populations that are scientifically assessed. As of 2019, the database contains data on 882 marine fish populations, representing about half of reported wild-caught seafood. In 2009, the database contained data on only 166, representing a much smaller proportion of global seafood. Researchers have spent the last 10 years adding to the database, and with today’s publication, update the global status of fish stocks. They found that, on average, fish populations are above target levels. Not every stock is doing well, but on average, things are much better than they were 2 decades ago. How nice: an environmental story where things are better now than they were in the past!

The paper describes the global status of fish stocks, but it also tells the story of fishery sustainability from the past 50 years.

Read the full story at Sustainable Fisheries UW

Original post: Copyright © 2020 Stove Boat LLC, All rights reserved.
Saving Seafood | 202-595-1212 | savingseafood.org

Earth’s oceans are hotter than ever — and getting warmer faster

The world’s oceans hit their warmest level in recorded history in 2019, according to a study published Monday that provides more evidence that Earth is warming at an accelerated pace.

The analysis, which also found that ocean temperatures in the last decade have been the warmest on record, shows the impact of human-caused warming on the planet’s oceans and suggests that sea-level rise, ocean acidification and extreme weather events could worsen as the oceans continue to absorb so much heat.

“The pace of warming has increased about 500 percent since the late 1980s,” said one of the study’s authors, John Abraham, a professor of thermal sciences at the University of St. Thomas in St. Paul, Minnesota. “The findings, to be honest, were not unexpected. Warming is continuing, it has accelerated, and it is unabated. Unless we do something significant and quickly, it’s really dire news.”

Abraham and his colleagues found that the rate of ocean warming accelerated from 1987 to 2019 to nearly 4½ times the rate of warming from 1955 to 1986.

According to the study, published Monday in the journal Advances in Atmospheric Sciences, average ocean temperatures in 2019 were 0.075 degrees Celsius (0.135 degrees Fahrenheit) above the 1981-2019 average. While that may seem minuscule, it represents an enormous amount of heat spread out across the world’s oceans, according to the study’s lead author, Lijing Cheng, an associate professor at the Institute of Atmospheric Physics in Beijing.

“The amount of heat we have put in the world’s oceans in the past 25 years equals to 3.6 billion Hiroshima atom bomb explosions,” Cheng said in a statement.

The study, conducted by an international team of 14 scientists, found that oceans have absorbed more than 90 percent of the heat trapped on Earth from greenhouse gas emissions since 1970.

“Oceans are the biggest reservoir of heat and therefore the best indicator of climate change,” Abraham said. “If you want to know how fast the Earth is warming, look at the oceans.”

Scientists are worried by the trend because warmer oceans can increase severe weather and intensify storms.

“It’s like putting weather on steroids,” Johnson said. “We did a study a few years ago that showed Hurricane Harvey in Texas passed over a very warm body of water, and that greatly increased the amount of rainfall.”

Harvey unleashed more than 60 inches of rain over southeastern Texas in 2017, and scientists have said climate change will make storms rainier overall.

Warmer oceans also expand and melt ice, speeding the rise in sea levels and increasing the risk to coastal communities and low-lying infrastructure, said Nick Bond, a professor of atmospheric sciences at the University of Washington in Seattle, who wasn’t involved with the new study. According to the U.N. Intergovernmental Panel on Climate Change, average global sea levels could rise by 0.95 feet to 3.61 feet by the end of the century.

“From Miami Beach to Bangladesh — as sea levels continue to creep up, it’s just going to become less viable to live in these places,” Bond said.

He added that there are other significant societal implications, such as the effect that warming oceans may have on the chemistry and biology of the world’s oceans.

When carbon dioxide is absorbed and mixes with ocean water, chemical reactions make the water more acidic. Some sea creatures and ecosystems, such as corals, struggle with this type of acidification, but Bond said scientists don’t yet know the extent of the potential fallout.

“There are going to be winners and losers, but we don’t know how that will all play out,” he said. “It’s a very complicated system, and we don’t fully understand which species will have to shift their range, which ones may go extinct or which ones may prosper.”

Katie Matthews, chief scientist at Oceana, an ocean conservation organization in Washington, D.C., said ocean warming could have enormous impacts on fisheries around the world, particularly in the tropics.

“The tropics are the areas that have the largest number of people reliant on fish for nutrition, food security and livelihood,” she said. “It’s really unfortunate that the most vulnerable and at-risk populations are going to be the ones most affected.”

The study, which incorporated measurements from the National Oceanic and Atmospheric Administration, used data on ocean temperatures dating to the 1950s. The measurements included recordings of temperatures extending from the sea surface to depths of more than 6,500 feet.

Average ocean temperatures over the years have followed the warming trend, but Abraham said some of the most pronounced warming has taken place in the South Atlantic Ocean, in the Pacific Ocean off the coast of Japan, and in the waters south of Australia.

Abraham said he hopes the findings will spark climate action around the world.

“This isn’t a political issue,” he said. “This is a science issue, and our measurements are telling us that this is a problem and we need to take action.”

California agrees with crabbers to postpone Dungeness season in bid to safeguard whales and fishing fleet

Owner Peter Bjeldanes, left, and deckhand Ethan Snyderman load crab pots onto the fishing boat the “Talisman” at Spud Point Marina in Bodega Bay on Monday, Nov. 18, 2019. (BETH SCHLANKER/ PD)

A bid led by Bodega Bay’s commercial fishing fleet succeeded Wednesday in persuading state wildlife officials to postpone the opening of Dungeness crab season to safeguard protected whales species still lingering in the fishing grounds.

In a move at the behest of the crab industry, Chuck Bonham, the state fish and wildlife director, agreed to push back the season opener to Dec. 15. Crab fishing was slated to open Friday along the coast from Sonoma to San Mateo counties.

The decision is subject to two days of public comment ending Friday afternoon.

It’s the second delay in the season because of the heavy presence of threatened and endangered whales in coastal waters off the greater Bay Area, where the commercial Dungeness crab season traditionally opens Nov. 15.

Fresh crab from Washington state should be available at local markets for Thanksgiving, local fishermen said.

Bonham’s move came after commercial crabbers in San Francisco and Half Moon Bay voted to join those in Bodega Bay, who had resolved a day earlier to stand down from the Friday opener to avoid entangling whales. Up to 86  humpbacks were observed in the region during an aerial survey Monday.

The state’s move ensures that fishing boats from out of the area don’t have the fishing grounds to themselves come Friday and risk curtailing the season in any encounter with a whale.

Under the terms of a legal settlement reached in March between the state and an environmental group, even a single marine mammal entanglement could prompt restrictions in the commercial crab fishery, including closure.

“I think all of the guys are on the same page,” Bodega Bay Fishermens’ Association President Lorne Edwards said Wednesday after the other two ports decided to stand with Bodega Bay and forgo the opener. “We don’t want to lose the season.”

Crescent City fisherman Tom Wright, one of about a half-dozen skippers who motored south to crab because northern grounds remained closed, said another crabber who continued past Bodega Bay to San Francisco described whales so dense “it was like traveling through Sea World.”

“This is basically industry suicide if we go out and catch a whale,” Wright said.

The Center for Biological Diversity, in its 2017 lawsuit against the state Department of Fish and Wildlife, accused the agency of insufficient regulation of the commercial crabbing fleet, saying entanglement in fishing gear imperiled listed populations of humpback and blue whales, as well as sea turtles. That year, a record 71 entanglements were reported.

The settlement reached this year with the state, signed also by fishing representatives, included substantial concessions, including shortened seasons and sharp consequences in the event of an entanglement.

It also includes a slate of in-season check-ins that require Bonham to consult with a diverse working group of fishermen, scientists, regulators and environmentalists trying to limit entanglements of marine mammals.

Prior to Wednesday’s decision, Bonham’s first act under the new protocol was to delay the Nov. 15 opener to Friday, hoping to balance the continued presence of whales that eventually will migrate to wintering grounds off the coast of Mexico while allowing commercial crabbers time to land fresh crab for Thanksgiving.

Then the agency sent up a plane to take a look at the number of whales in the area, including Point Reyes, the Gulf of the Farallones and Half Moon Bay. Their findings Monday prompted alarm in the crabbing community.

Entangled whales can drag fishing gear for hundreds of miles and often die from their injuries.

Fisherman Dick Ogg, vice president of the Bodega Bay Fishermens’ Association and a member of the crab gear working group, was on the flyover. He said he immediately saw potential for another spike in harmful encounters with whales.

“This was the potential,” Ogg said, “and, had we not gone to (the Department of Fish and Wildlife), it’s very likely we would have ended up in a similar situation.”

Original post: https://www.pressdemocrat.com/

Rebound in Groundfish Leads to New Flexibility for Fishermen, Protection for Deep-Sea Corals

New Data Makes Case for Anchovy Abundance as Oceana Lawsuit Continues

New, preliminary data from the California Cooperative Oceanic Fisheries Investigations (CalCOFI) have provided further evidence that California’s anchovy population is now at record high levels. The data come amid a renewed lawsuit by the environmental group Oceana that seeks to reduce the already very limited amount of anchovy caught commercially in California.

The preliminary data from the Southwest Fisheries Science Center Larval Lab weekly report on September 16 show that the 2019 spring CalCOFI survey documented the highest abundance of larval anchovy off the coast of California ever recorded — nearly double the record amount from the mid-1960s. It did not even include the tens of thousands of tons of anchovy that fishermen have reported in nearshore waters since 2015. This is the latest piece of evidence that the anchovy population is far more resilient than Oceana alleges, according to the California Wetfish Producers Association.

Scientists have found that anchovy undergo large dynamic population swings naturally, even without fishing, and the precautionary fishing limits allowed have not harmed the ecosystem. But despite the latest evidence of anchovy abundance, Oceana is suing to further limit California’s small anchovy fishery.

Members of the Wetfish Producers Association have long held that massive schools of anchovies, particularly in California’s inshore areas, have not been properly counted. CWPA has worked to confirm the observations of its members in cooperative surveys with the Southwest Fisheries Science Center and the California Department of Fish and Wildlife. These nearshore surveys add evidence to the preliminary CalCOFI data: there are tens of thousands of tons of anchovies in inshore California waters, in addition to record abundance offshore. This explosion occurred in the presence of this small, historical fishery.

“There is an increasingly large body of evidence showing that anchovies are far more abundant than the allegations in Oceana’s lawsuit recognize,” Diane Pleschner-Steele, executive director of CWPA, said in a press release. “It’s why efforts to further restrict anchovy fishing are both unnecessary and harmful to West Coast fishing communities.”

However, Oceana still seeks stricter limits on the allowable catch of the central subpopulation of northern anchovy, which is currently set at 23,573 metric tons annually as a result of prior court rulings. The fishery typically catches less than 10,000 metric tons annually of this legally allowed amount.

” … the new rule would allow 23,573 metric tons of catch regardless of whether the population rapidly declines to very small levels, was at its historic average size, or was in a boom period. This unchanging catch limit ignores the agency’s legal duties to apply the best available science to anchovy management, and its non-discretionary
duty to adjust the catch limits based on best available science to prevent overfishing in the down years,” Oceana said in its most recent lawsuit.

The group said the Council should follow an annual management strategy that “sets annual catch limits based on the current estimates of abundance from acoustic trawl surveys that would prevent overfishing and ensure sufficient food for ocean wildlife in the future,” Oceana says on its website.

However, the additional studies show an overall picture of anchovy abundance that is higher than that shown by the acoustic trawl survey alone. Oceana representatives have argued in the past that the acoustic trawl survey is the most technologically advanced method — and therefore, the best science available — for assessing anchovy abundance. Industry members countered that identifying the amount of anchovies in nearshore areas using scientifically proven methods adds to the cumulative best available science; therefore, fishery managers should make their decisions based on information from the entire suite of available data.

In August, CWPA filed to intervene in Oceana’s latest lawsuit in order to participate in the proceedings and represent the interests of its members and fishing communities before the court. CWPA believes that the additional restrictions on the anchovy harvest being sought by the lawsuit are unnecessary, and would result in significant job loss and economic hardship for California’s wetfish fishermen and processors, and by extension, California communities and the state’s fishing economy.

“We believe that the evidence will show that anchovy is being managed precautionarily and with the conservation of the species in mind,” Pleschner-Steele said. “Best management practices and the best available science do not support the claims of overfishing made in the lawsuit.”

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