Cod and haddock are unloaded and sorted at the pier of Lydia's Cove in Chatham, Mass. Cod are brown in coloring and haddock are gray with a black stripe. The depletion of fisheries is affecting the future of the fishing industry on Cape Cod. Fishermen are working alongside scientists and community organizers to adapt their ways in hopes of establishing sustainable ways of fishing – and maintining fishing communities. (Mary Knox Merrill / The Christian Science Monitor)
How overfishing can alter an ocean’s entire ecosystem
When you tip the balance, a cascade of other changes may occur.
By Moises Velasquez-Manoff| Staff writer of The Christian Science Monitor/ June 19, 2008 edition
New York
In 2000, University of Maine graduate student Amanda Leland began a seemingly straightforward restoration project. She transported 24,000 young sea urchins, which are native to the Gulf of Maine, to an area where overharvesting had caused them to disappear. She expected to watch them thrive and repopulate. But something else happened: An army of Jonah crabs arrived and, within a month, the hand-sized predators had devoured the urchins.
Ms. Leland repeated the experiment the following year. But this time she transplanted the urchins in spring, months before the crabs’ fall migration. They thrived as expected – until August when the crabs showed up. By Sept. 1, they were gone. Leland thought she knew why. With cod and other groundfish gone, Jonah crabs were four times more abundant than in times past.
“There really aren’t many crab predators left,” says Leland, now the Environmental Defense Fund’s national policy director of oceans in Washington. “They have been released from predation control.”
Scientists have documented versions of this story around the world. Overfishing has shifted entire ecosystems with often surprising, and occasionally unpleasant, results. In the tropics, seaweed often dominates where coral once reigned. Around the world, jellyfish and algae proliferate where finfish previously dominated. With big predators often gone or greatly depleted, organisms lower on the food web grow more abundant, reducing their own prey in turn.
Some say this is worrisome evidence of a greatly changed and simplified marine ecosystem. Like investment portfolios with few holdings, simple ecosystems are prone to collapse; and collapsed or rearranged ecosystems don’t necessarily provide what humans expect. Increasingly mindful of marine ecosystems’ complexity – and wary of their collapse – some people are calling for a holistic approach to managing ecosystems, one that aims to manage for the health of the entire system rather than that of a single stock.
Just 4 percent of the world’s oceans remains free from human impact, according to a 2008 study in the journal Science. Forty percent of this is heavily impacted.
Where intact ecosystems remain, scientists are often astounded by what they find. On the remote Palmyra Atoll in the equatorial Pacific, for example, large sharks and predatory fish dominate the reefscape – an “abundance of toothy things,” says Callum Roberts, a professor of marine conservation at the University of York, England. Unlike terrestrial ecosystems, which are dominated by a few apex predators, pristine marine ecosystems support a large biomass at the top.
“Today’s oceans have got far less in the way of biomass than they used to,” Professor Roberts says. “We’re altering ecosystems in a way that reduces the level of productivity they can support.”
By one estimate, only one-tenth of the sharks, tunas, cods, and other large predatory fish that once swam the oceans remains. And their absence has ripple effects throughout marine food webs.
In the eastern US, one study found that the loss of large predators (sharks) let medium-sized predators (skates) increase in bays and estuaries. They, in turn, decimated the bay scallop fishery.
In tropical reefs, scientists think that fishing has removed fish that eat starfish. Starfish graze on coral. Eighty percent of Caribbean reefs have disappeared in the past 30 years. (Reefs in the Pacific are faring slightly better.)
Around the world, loss of fish, combined with increased nutrient inflow from pollution, has caused a bloom of primitive organisms in the ocean: the same algae, bacteria, and jellyfish that dominated the seas before the explosion of complex life 600 million years ago. Jeremy Jackson, a professor of oceanography at Scripps Institution of Oceanography in La Jolla, Calif., has dubbed it “the rise of slime.”
“You remove all the fish, and [coral reefs] look like a sewer,” he says. “They’re green and slimy and covered with all this stuff the fish used to eat.”
In the Gulf of Maine urchin experiment, another feedback may have been at work. Without urchins, the ecosystem’s major grazer, seaweed grew thickly, providing more cover for crab populations.
“We’re left with an oddly stripped ecosystem here in the Gulf of Maine – absent our apex predators and absent our herbivores,” says Robert Steneck, a professor of oceanography at the University of Maine’s Darling Marine Center in Walpole, and Leland’s adviser on the urchin experiments. “We’ve steered this ecosystem to a place for which there is no evolutionary history.”
Scientists value diverse ecosystems for their redundancy. Redundancy – lots of species doing the same thing – equates to more ability to withstand natural or man-made shocks, from an El Niño to global warming. In the tropics, scientists have found that reefs with intact ecosystems recover faster from such disturbances.
They’ve also found that areas off-limits to fishing have greater species richness compared with fished areas, and they experience less fluctuation in fish biomass when disturbed – findings with implications not only for fishermen but also for climate change.
As stocks of bigger fish have grown scarce, fishermen have moved down the food web, chasing invertebrates and small fish. (In Asia, marketers are trying to develop a market for jellyfish, a growing share of their catch.) In parts of eastern Maine where cod and other finfish once ruled, 90 percent of fishermen now rely on lobster. If lobster stocks crash, eastern Maine lobstermen would have nothing to fall back on.
“[Lobsters] are relatives of bugs, and these populations go up and down rapidly,” says Robin Alden, executive director of the Penobscot East Resource Center in Stonington, Maine. “We’ve got an economy here that’s terrifyingly dependent on lobster.”
Ecosystems have proven that they can recover. Since various protective measures were instituted in the Gulf of Maine and Georges Bank in the past decade, some stocks have rebounded. Herring are doing well, as are haddock. But cod, once a mainstay, remain depressed.
Some fault the loss of the big, old females, often the first to be caught. A lone 28-pound red snapper can produce 9.3 million eggs. By one calculation, it would take 212 fish weighing 2-1/2 pounds to produce the same quantity.
Others point to new imbalances: “If you look at the total mass of fish out on Georges [Bank], it’s very stable,” says Steve Murawski, director of the National Oceanic and Atmospheric Association (NOAA) Fisheries Service. “There’s a lot of species, just not the ones you want to put on your white tablecloth.”
Perhaps those newly abundant species are eating young cod. Fishermen up and down the New England coast fault the dogfish, a kind of shark. Scientists say dogfish don’t eat cod, but Jon Grabowski, an ecologist at the Gulf of Maine Resource Institute in Portland, Maine, says that dogfish need not eat cod to influence cod behavior. When dogfish are present, cod tend to disperse, he notes, a phenomenon known as “risk effects” or, more dramatically, the “ecology of fear.”
“One lion is only going to eat one wildebeest every couple of days,” says Grabowski. “But it’s going to induce a herd of wildebeest to move.”
( More stories )
Comments
2. Virginia H. Cross | 06.20.08
Hello, You mentioned Dog fish Shark,from what I’ve seen, the “Dog Fish” called a shark out West in Washington State, I found do eat any fish like Ling cod and Rock cod. There were three men in a boat along with me. I was the skin diver at the time. I saw all of these three men catch Cod from a near by kelp bed and as fast as they hauled their fish to the boat, they only got the heads left while the bodies were bitten off from the “Dog Fish”. They wondered why all the fish which they were catching were all eaten up except the heads which were still on the hook from their lines. So being a skin diver in the boat, I said I would go down and find out. I dove down to the bottom in about 40 to 60 feet with my spear gun in hand. I counted 13 “Dog Fish” from hundreds of dog fish coming up to me at the base of my fins. I realized it was futile to use my spear gun.There were too many, so I swam quickly back and as fast as I could I flew into the boat with my right hand on the gunnel of the boat when one of the Dog Fish grabbed my finger over the edge of the gunnel. I pulled my finger out of his mouth fast before he clamped down. Those Dog fish were in a eating frenzy and were eating everything in sight including themselves. I saw shark with bites out of their sides also. So I told the three men there would not be any fish to catch here and to move down a couple miles and then try again. I have no fear under the water, so we tried again two miles away in the kelp bed where fish like to hide. As I plunged into the water and swam out to the kelp bed looking for shark, the three men tried to yell at me that the dog fish had circled me and were waiting for me to see what I would do. I didn’t hear the men shouting at me because of the hood over my ears and I kept swimming out to the kelp area, when I saw another dog fish on the bottom waiting. Then is when I circled back to the boat and told the men that there would be no fishing today because the dog fish were there. Then is when they told me hundreds of shark circling me, when I turned back to the boat they all dispersed and went away. The three men were only using worms for bait. From this experience I know that Dog-Fish, known as “shark”, do eat Cod. We all went home empty handed that day.I always go prayed up before diving, and grateful for my protection while under water.
In the very earlier years there was a smeltering factory on the Island where they used to catch the Dog-fish Shark for their oils. Since then and that was before I moved to the Island in Washington State, the old fishermen would tell stories of how thick the dog fish shark were that they could get out of their boats and walk to land on the backs of the shark. The dog fish shark are not as plentiful now as they were way back then according to the old timers. The local fishermen are aware of the change. I’m aware of the changes from my 50 years of diving first hand. The Oceans have changed. I now catch fish by camera and sold my spear gun.
3. amccoy | 06.25.08
I liked reading the article and the previous two comments. I have to add a point that I heard from Jeremy Jackson (who is quoted in the above article). He calls it shifting baselines, but the idea is that your idea of what an ecosystem “should be” is what it was like when you first saw it years ago (even if that was already a pretty bad shape). Those descriptions of what the ocean was like 50 years ago when Virginia began diving or when Alida worked as a commercial fisherman were probably already bad if you asked the older fishermen at the time. The kids of today will look back in 50 years and describe in amazement that you could actually see fish in the ocean which will seem incredible when we have enormous dead zones anywhere near shore, masses of slime covering everything.
We can fix it, but it will take something our society has been unwilling to do - sacrifice. We need to stop thinking with our wallets over the short term.
1. Alida Cornelius | 06.20.08
I worked as a commercial fisherperson about 25 years ago when they started allowing the capture of swordfish again after the mercury poisoning in the late 1970’s.
The ocean was dying then. I saw it.
What we caught the most 200 miles out in the Atlantic Gulf Stream were 10-12 foot Hammerhead sharks, but they were half dead by the time we pulled them in, and the crew just cut them lose with the hooks in their mouths. They were such magnificent creatures and at that time, no one was eating shark. And now they are endangered.
I stopped working on boats. I saw garbage, rubber dolls, you name it floating in the ocean.
The Japanese fleets would come over to the US trying to catch Tuna.
It was so sad. I stopped. The only swordfish we caught were juveniles. And not enough to pay for the fuel.
When I found out years later, that people are now fishing for shark and THEY are being fished out, my heart is broken even more for the oceans. Humans have already made the rivers so polluted we can’t eat the fish from them. Now, the oceans are going to be the same.
Alida Cornelius