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New methods further discern extreme fluctuations in forage fish populations

Posted February 15, 2017

California sardine stocks famously crashed in John Steinbeck’s “Cannery Row.” New research, building on previous since the late 1960s, shows in greater detail that such forage fish stocks have undergone boom-bust cycles for centuries, with at least three species off the U.S. West Coast repeatedly experiencing steep population increases followed by declines long before commercial fishing began.

Anchovy, sardine, and hake scale deposition rate from AD 1000 − 1500 derived from a recent, age-calibrated sediment core from Santa Barbara Basin, California. Representative fish scales and the respective fishes are shown on the right. Image credit: I.L. Hendy, University of Michigan; S. McClatchie, NOAA Fisheries; NMFS image library

Natural population fluctuations in Pacific sardine, northern anchovy and Pacific hake off California have been so common that the species were in collapsed condition 29 to 40 percent of the time over the 500-year period from A.D. 1000 to 1500, according to the study published online Feb. 9 in Geophysical Research Letters.

Using a long time series of fish scales deposited in low-oxygen, offshore sedimentary environments off Southern California, researchers from the National Oceanic and Atmospheric Administration and the University of Michigan described such collapses as “an intrinsic property of some forage fish populations that should be expected, just as droughts are expected in an arid climate.”

The findings have implications for the ecosystem, as well as fishermen and fisheries managers, who have witnessed several booms, followed by crashes every one to two decades on average and lasting a decade or more, the scientists wrote. Collapses in forage fish—small fish that are preyed on by larger predators for food—can reverberate through the marine food web, causing prey limitation among predators such as sea lions and sea birds.

“Forage fish populations are resilient over the long term, which is how they come back from such steep collapses over and over again,” said Sam McClatchie, supervisory oceanographer at NOAA Fisheries’ Southwest Fisheries Science Center in La Jolla, Calif., and first author of the paper.

“That doesn’t change the fact that these species may remain at very low levels for periods long enough to have very real consequences for the people and wildlife who count on them,” he said.

Downturns in sardine and anchovy linked to changing ocean conditions have contributed to the localized stranding of thousands of California sea lion pups in recent years.

Scientists traced the historic abundance of sardine, anchovy and hake by examining deposits of their scales collected on the floor of the Santa Barbara Channel from A.D. 1000 to 1500. While previous studies had shown that forage fish exhibited collapses prior to commercial fishing, the new research used methods developed by climatologists to examine the frequency and duration of the fluctuation in finer detail.

“The Mediterranean climate of California, with wet winters and dry summers, produces a sediment layer we can pull apart like pages in a book,” said U-M paleoceanographer and study co-author Ingrid Hendy. “Although these sediments have been studied before, we are using new technology to examine them in unprecedented detail.”

Hendy and members of her lab collected the California sediments in 2009 using a coring device that allowed them to sample large portions of the sea floor beneath the Santa Barbara Channel. Hendy is an associate professor in the U-M Department of Earth and Environmental Sciences.

In the lab, fish scales from the core were identified under a binocular dissecting microscope by comparing them to reference specimens from the U-M Museum of Zoology collection. Anchovies in the collection were bought at the San Pedro Fish Market, near Long Beach, Calif., in 1922. The sardines came from Barkley Sound, on the west coast of Vancouver Island, and were collected in 1933.

The fish-scale analysis was performed by former U-M undergraduate Alexandra Skrivanek, who is now a graduate student at the University of Florida. Hendy’s lab has also helped to advance techniques used to date the layers within marine sediment cores. Those advances involve improved radiocarbon dating of organic materials in the sediments and better ways to count the annual layers, Hendy said.

The scientists described a collapse as a drop below 10 percent of the average peak in fish populations, as estimated from the paleorecord. Anchovy took an average of eight years to recover from a collapse, while sardine and hake took an average of 22 years.

The record also showed that sardine and anchovy fluctuated synchronously over the 500-year study period. Combined collapses may compound the impact on predators and the fishery, the scientists said. The finding runs counter to suggestions that the two species’ cycles alternate.

Sardine and anchovy have at times been the most heavily harvested fish off Southern California in terms of volume. Hake, also known as Pacific whiting, spawn off California but are harvested in large volumes off the Pacific Northwest and Canada.

The new study concludes these forage fish are well-suited to variable fishing rates that target the species in times of abundance, “while recognizing that mean persistence of fishable populations is one to two decades, and that switching to other target species will become a necessity.”

Collapses last, on average, “too long for the industry to simply wait out the return of the forage fish.”

The study authors concluded that “well-designed reserve thresholds” and adjustable harvest rates help protect the forage species, the fishery and nonhuman predators for the long term. However, they added that “reserve thresholds only protect the seed stock for recovery, and cannot prevent collapses from occurring.”

Funding for the study was provided by NOAA and the National Science Foundation.

Source: University of Michigan

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