Posted on Alaska Public Media: 13 Jul 2015 — By Shady Grove Oliver, KBBI – Homer
Inside the Whiskey Creek Shellfish Hatchery – Photo courtesy of ceoas.oregonstate.edu
A recent NOAA study pegged 2040 as the date for the potential end of Alaskan shellfish hatcheries. That is, unless serious mitigation efforts are put in place to combat ocean acidification. Last week we reported on the research, done at the Alutiiq Pride Shellfish Hatchery in Seward. Now, we’ll take a look at what a hatchery on the Oregon coast is doing to deal with these harmful changes in ocean chemistry.
The Whiskey Creek Shellfish Hatchery is located in the small town of Tillamook, Oregon.
“This hatchery was started by Lee Hanson,” says Sue Cudd, who owns the hatchery now. “It was really the first shellfish hatchery that was commercial in operation. It started in 1978.”
She studied biology in school, worked for an oyster company for a while, and then came on with Lee Hanson to learn about the hatchery world. From the 1970s until 2006, there were natural ups and downs, but overall, things ran relatively smoothly.
“Then all of a sudden, in about 2006, we started seeing some pretty major problems. Then from the end of 2007 to the end of 2008, we couldn’t produce larvae anymore,” says Cudd.
For a year and a half, they tried to produce. Even when they did manage to get some larvae, they wouldn’t survive and develop. It was a financial nightmare for the business.
“We lose money really fast because the production cost is the same without having any production. So, it was tough,” says Cudd. “We got help from some customers. The oyster growers association [helped] and one of our state senators got us some community development money, so we had time to be able to try to solve this problem. Without that, I don’t know what would have happened because we just lost money so fast.”
They weren’t sure what to do, but they figured they should start with looking at the water. They hired an oceanographer consultant and got in touch with OSU’s marine lab. They brought in specialized equipment and began evaluating the water’s pH and other levels several times a day.
Wiley Evans is a researcher at the NOAA Pacific Marine Environment Lab in Seattle. He was the project lead at Alutiiq Pride in Seward, and says what Sue Cudd is describing is now seen as a defining time in this field of research. They’ve become a model for studying and coping.
“The classic is at Whiskey Creek Hatchery on the Oregon coast,” says Evans. “The first hatchery to really start making these measurements with help from Burke Hales at Oregon State University.”
Burke Hales is the namesake of the Burkolator, an instrument now used at both sites to measure partial pressure of carbon dioxide or pCO2 in the ocean.
Cudd says the equipment brought in led them to find that the levels of carbon dioxide in the water were much higher than they’d expected. Lots of measurements seemed out of whack. But why had it taken them nearly two years of lost product to figure it out?
“We didn’t know why we couldn’t produce larvae because we really never knew why we could. We didn’t know what conditions they needed, we didn’t know what their parameters were because we never needed to. They just grew,” says Cudd. “So, then when we started having problems, we had to go back and try to figure out what was wrong with the water.”
And that’s her first piece of advice for hatcheries. If you haven’t already started taking measurements, start now. The Alutiiq Pride study is doing just that, says Evans.
“So we wanted to set a baseline because, really, the shellfish aquaculture industry in Alaska is very young. So, right now, there’s one shellfish hatchery and we’re making measurements in that hatchery,” says Evans. “We wanted to set a baseline that could be something that the industry uses for moving forward in the future.”
Cudd says based on daily and seasonally fluctuating CO2 and acidity levels, Whiskey Creek has developed a system to compensate. They buffer the water in their production tanks with injections of sodium carbonate. The carbonate helps organisms like clams and mussels develop their shells, which they can’t do in unusually acidic water. Alutiiq Pride is now considering that as an option for the future.
“It’s weird to think that 10 years ago, we were running this hatchery with no treatment and now we don’t ever run with no treatment,” says Cudd.
And that’s been the direct cost of acidification to her hatchery. The carbonate is relatively cheap, but the whole operation has changed. They’ve had to integrate lots of expensive equipment into their daily work. Staff have to constantly monitor it, maintain it, make adjustments here and there.
She asks, if such an drastic change could happen over the course of a year and a half, what could happen next?
“It’s incredible. It opens your eyes. It makes you see things very differently,” says Cudd.
And researchers and hatcheries in Alaska are now looking to places like Whiskey Creek for clues on how to deal with the serious issue that is ocean acidification.
In the next part of this series, KBBI reporter Shady Grove Oliver will take a look at the future of ocean acidification from genetic studies to water currents. Read more about the study being done at the Alutiiq Pride Shellfish Hatchery, here: http://kbbi.org/ocean-acidification-threatens-future-of-alaskan-shellfish-hatcheries