Endorsement for forage fisheries03 April 2017
A new study suggests that catching forage fish probably has a lower impact on predatory species than previously thought, challenging previous research that argued they are more valuable left in the ocean.
Published today in the journal Fisheries Research, the paper was authored by a team of seven respected fisheries scientists, led by Professor Ray Hilborn of the University of Washington.
They found that predator populations are less dependent on specific forage fish species than assumed in previous studies, most prominently in a 2012 paper 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 catch rates by 50-80 percent.
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 are vital for 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 he sought 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 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 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 their raw abundance.
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 protein and micronutrients provided by forage fish – likely at much greater environmental cost, according to the authors.
“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 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.
For more information, we have attached a supporting Fact Sheet, an Infographic and the full report. A new video ‘When Does Fishing Forage Species Affect Their Predators?’ is available at https://vimeo.com/210853298