Poking the Paradigm

Poking the Paradigm title=
An orange Garabaldi and several señorita fish swim past a mixed group of red and purple sea urchins off the coast of California. (Photo: Ron McPeek)
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By Harrison Tasoff, UC Santa Barbara

Deprive a mountain range of its wolves, and soon the burgeoning deer population will strip its slopes bare. “I now suspect that just as a deer herd lives in mortal fear of its wolves, so does a mountain live in mortal fear of its deer,” wrote ecologist Aldo Leopold in his landmark 1949 title “A Sand County Almanac.”

Leopold proposed that predators keep herbivore populations in check to the benefit of an ecosystem’s plant life. Remove one link in the food chain, and the effects cascade down its length. The idea of a trophic cascade has since become a mainstay in conservation ecology, with sea urchins as a prime example just off the California coast.

Katrina Malakhoff
Katrina Malakhoff

“Urchins play a key role in the kelp forest because they eat kelp,” said Katrina Malakhoff, a doctoral student in UC Santa Barbara’s Interdepartmental Graduate Program in Marine Science. “And there are times and places when urchins eat so much kelp that they actually end up removing it all and creating urchin barrens.”

Scientists noticed that urchin populations seemed to explode after hunters decimated California’s sea otters. The prickly critters went on to mow down entire kelp forests. Their conclusion: Predators like otters had kept the urchins in check. In Southern California, the otter’s predatory role was thought to be filled by other species, particularly spiny lobster and sheephead fish.

Bob Miller
Bob Miller

But a new study by Malakhoff and her advisor, Robert Miller, suggests that the truth is much more nuanced. The researchers examined urchin populations inside and outside marine reserves, where protection from fishing should have enabled urchin predators to rebound and control their populations. But instead of finding fewer urchins, they found that one species was unaffected by the reserves, while the other flourished. Their work was supported by the National Science Foundation’s Long-Term Ecological Research program, and results appear in the Proceedings of the Royal Society B.


Left uncontrolled, urchins can demolish a kelp forest (Photo Credit: KATIE DAVIS/CASELLE LAB)

Marine reserves cordon off areas of the ocean from fishing. They’re often put in place to protect ecosystems by allowing species to recover, Malakhoff explained. In fact, California has a renowned network of marine protected areas along its coast, and many people hoped that the reserves could help control the region’s two urchin species: the red sea urchin, which is fished for its roe, and the purple sea urchin, which isn’t.

“We predicted that by protecting these areas we’re increasing the number and density of urchin predators that will then control urchin populations and prevent them from overgrazing the kelp forest and turning it into an urchin barren,” Malakhoff said. She sought to investigate this assumption, as well as the tendency of scientists and resource managers to lump the two species together and treat them as ecologically equivalent.

Malakhoff’s project was made possible by the wealth of data ripe for analysis in the Channel Islands National Park Kelp Forest Monitoring Program, which has records stretching back to 1982. The data she used covers multiple sites from 13 years before, and roughly 15 years after, the establishment of marine reserves. As she examined figures on urchin populations, a peculiar trend began to emerge.

The reserves seemed to have no affect at all on unfished purple urchin populations. What’s more, instead of decreasing in numbers, red urchins proliferated within the borders of some marine reserves. Their size, number and density increased once they no longer faced fishing pressures. Reserves also had no clear effect on giant kelp density.

“I was pretty surprised,” Malakhoff said. “It contradicted what I expected to be happening in the kelp forest.” If a rise in predation within the reserve influenced urchin populations, then both species should have decreased in number, and there ought to have been fewer small urchins, which provide an easier snack for predators.

“There’s a simplistic picture that’s been promulgated of kelp forests versus urchin barrens, and that predators are preventing this phase shift from happening,” Miller said. The corollary is that, by restoring predator populations, reserves should allow the lush kelp forests to return.

Sheephead fish eating an urchin
​A California sheephead snacks on a purple urchin. (Photo Credit: SCOTT HAMILTON)

Other studies have documented that the urchins’ predators are thriving under the reserves’ protection. The new results indicate that predation probably isn’t the primary factor controlling urchin populations. For instance, larval dispersal and recruitment — as well as the oceanographic regimes that affect them — likely have greater effects on urchin populations, Miller said.

This study invites scientists to reconsider how common trophic cascades are, and whether marine reserves will always induce them. “Katrina’s study adds to a growing body of evidence that suggests that trophic cascades are confined to a pretty narrow set of situations in the natural world,” Miller said.

The two researchers acknowledge that some of their fellow scientists and resource managers might be reluctant to accept their conclusions. “The relationship between marine reserves and trophic cascades has approached paradigm status,” Miller explained, “and it’s always difficult to push back against a paradigm.”

The study also calls into question the benefit to kelp forests of simply placing more area inside reserves. “One of the justifications that’s been offered for expanding reserve coverage is saving kelp forests by increasing urchin predators,” Miller said. “And this study suggests that this goal alone is not a good justification.

“I can see some controversy arising from this,” he added, “but I think, as scientists, we have to maintain objectivity. We’re fortunate that the Park Service and other monitoring programs collect the data we need to do this kind of analysis.”

This doesn’t mean that marine reserves are a bad idea, or that we should not expand them,” he explained. “They clearly work very well for protecting fished species,” Miller noted. “It’s just that some of these popularly held ideas — like that they’ll cause trophic cascades to save the kelp — might be less valid.”

Marine protected areas may not be a panacea, but they do have their place. For one, they can serve as excellent natural experiments for scientists to investigate the effects of removing fishing from the equation. Stakeholders simply need to remember, the researchers said, that reserves are only one means of managing our oceans, and it’s crucial to take advantage of all the strategies at their disposal.

Additionally, what scientists think will happen in a marine reserve may not always be what transpires, Malakhoff said, but that’s not inherently a bad thing. “Just because we have more urchins inside the reserves doesn’t necessarily mean we have less kelp,” she pointed out, “because the story is complicated.”

“These findings also highlight that we shouldn’t necessarily adopt simplistic management approaches like smashing sea urchins to save kelp forests,” Miller added.

Other factors influence how much kelp urchins eat, aside from their density. Urchin behavior also comes into play. Malakhoff is currently investigating how urchins digest different types of algae, and whether giant kelp truly is their preferred meal. This could shed light on the impact diet and other variables have on their grazing behavior.

“Sea urchins, they’re sort of an enigma,” said Miller. “Across the world, people are either trying to restore them or smash them based on a simple dichotomy: urchin good, urchin bad. But, like Katrina said, the truth may be somewhere in between.”

news.ucsb.edu

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sea dog Feb 23, 2021 09:09 AM
Poking the Paradigm

Just because researchers at UCSB can put a starving lobster in a tank with a sea urchin and watch it eat the sea urchin, does not mean it happens in the ocean. I have over 10,000 hours under water harvesting sea urchins and never saw a lobster eat an urchin. As far as sheep head go, only the biggest ones can flip over and eat a sea urchin. Sea urchins do 2 things - If fed enough kelp they they are happy to sit still and eat the kelp. When starved, sea urchins always walk uphill. On the front of Santa Rosa island there are miles of starving urchins headed for shallow water where the kelp is. There is no point of a lobster or sheep head eating empty urchins. Urchin barrens are easily created when hot water from an El Nino event kills a kelp bed. The urchins that were feeding on the kelp start walking and hunting down the last of the kelp. When kelp tries to recover when cooler water comes, the urchins just eat that too. Breaking/harvesting the sea urchins at that point is beneficial. Breaking sea urchins is not a long term solution as the will walk in or reproduce faster than they can be killed. With out sea otters or sea urchin divers, no kelp bed in So Cal is safe !

surfbum Feb 23, 2021 10:12 AM
Poking the Paradigm

Expounding Sea Dog's comment " With out sea otters or sea urchin divers, no kelp bed in So Cal is safe !" I would add that in the presence of sea otters, no invertebrate is safe. Anyone who has visited the Monterey Bay Aquarium and viewed the beautifully staged kelp forest exhibit should recall there were NO sea otters displayed in that tank. The sea otter exhibit is in an adjacent tank which is essentially barren.

sea dog Feb 23, 2021 10:28 AM
Poking the Paradigm

With sea otters you have 'biodiversity deep in the cracks'. Even sea otters won't eat empty sea urchins so they recover quickly. Abalone are another story as otters can quickly wipe them out. Abalone have complicated internal organs and may drift in the current for a year before they settle down. They have to land on a rock with the right kind of kelp on it or they die. Sea urchin internal organs are simple and spawn may drift for mere moments. Sea urchins gather together and spawn on the full moon. Male and female sperm mixed with the wave motion and fertilized sea urchins settle out on the micro barbs on the adult sea urchin spines. As they grow they move under the adult sea urchin for protection. When sea urchins starve, their sex glands are tiny. This helps keep populations down in bad times. Happy sea urchins grow big sex glands and spawn like crazy !

PitLocal Feb 23, 2021 05:21 PM
Poking the Paradigm

I recall the bumper sticker occasionally found on the abalone fishermen's trucks in the 1970's that said: 'Save the Abalone, Eat More Sea Otter.' It always made me chuckle. Ms. Malakoff is right - it's not that simplistic of a system, and in truth, none of us fully understand it. In any event, the study that these scientists are performing is interesting, and I really like the Aldo Leopold quote from the Sand County Almanac. Generally speaking though marine scientific community needs to be more in touch with the fishing community, as the fishermen spend the most time in the environment that supports their livelihood, and tend to have a significant wealth of information based on years of observations that could benefit the scientific community. The two groups should not be at odds with one another.

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