UD oyster hatchery sends first shipment to aquaculture operation

fresh oyster isolated on white background

(From the University of Delaware)

The Delaware Sea Grant’s new oyster hatchery in the state of Delaware has sent its first commercial shipment.

The hatchery in Lewes sent 200 bags of shell with roughly 105,000 oyster spat to an aquaculture operation in the Delaware Bay area using larvae the pilot hatchery produced.

Ed Hale, who helps oversee the hatchery with Sea Grant’s Alyssa Campbell and Dennis McIntosh, said that while he has been working with Delaware shellfish farmers helping them to remote set oysters — attaching spat to old oyster shell — this was the first time that DESG’s hatchery supplied a grower with oyster larvae.

Restoring the Delaware Bay oyster population is a way to improve water quality due to their filtering qualities.


“To go from a first spawn to actually doing a remote set and planning something for industry is really a big step,” said Hale, fisheries and aquaculture extension faculty with Sea Grant and assistant professor at the University of Delaware’s School of Marine Science and Policy. “As far as I know, nobody else has done that in Delaware before.”

Campbell, Lan and McCarron at hatch operation.

“I definitely wasn’t expecting to get our first set, let alone our first two sets, within that first month,” said Campbell. “These were our first two real broods, and we got them all the way through to setting. There’s a lot of trial and error throughout the process so the fact that we got them successfully spawned, then retained those larvae for three weeks and got them to metamorphosis and to setting is exciting. We’re further ahead than we thought.”

Having an in-state option for oyster seed will benefit Delaware growers, as there are regulations in place for importing seed from another state or waterway.

For instance, growers have to go through disease testing, which is costly, and a permitting process which can take time. Getting oysters from an in-state oyster hatchery allows them to save on both time and money, especially if they are growing the oysters in the same water body, Delaware Bay, as the hatchery.

Campbell said the role of the hatchery is to take parent oysters from specific genetic strains that are selected for a certain disease resistance or to tolerate certain environments and use those parent oysters to produce oyster larvae. For instance, these oysters in particular were spawned from adult oysters purchased from Rutgers University.

When the oysters are microscopic, the hatchery team rears them through their sensitive larval stage in a controlled, laboratory environment where they can then grow out to the juvenile stage.

Once this brood reached that stage, they were transferred to Hale’s remote setting tank at which point they moved from the hatchery’s purified, filtered water to raw water that has phytoplankton in it—much like they will face once they reach the outside environment.

From the remote set tank, the oysters were taken by Hale and delivered to the local, commercial aquaculture operation where they will grow for approximately two to three years before reaching a mature stage where they can be harvested.

To help with this process, two seasonal technicians — Willa Lane and Chris McCarron —were hired using funds from Sea Grant.

Both Campbell and Hale said a big reason for the hatchery’s success is due to the efforts of Lane and McCarron. In addition, Hale credits Gary Sterling, maintenance supervisor at the Hugh R. Sharp Campus in Lewes.

Lane, a recent UD graduate who was an Honors College student who majored in marine biology with a minor in psychology and was named a 2023 Gates Cambridge Scholar, said that as seasonal technicians, she and McCarron assist with the day-to-day operations at the hatchery. This includes everything from filling and cleaning the tanks to spawning oysters. They also help with any tours that come through the Lewes campus to explain how the hatchery operates for a variety of audiences.

“My hope is that through this outreach and extension work, we help people understand why oysters are important, why oyster aquaculture in the Delaware Bay region is worthwhile, and how this pilot hatchery fills a demand that will ultimately help the industry grow,” said Lane.

In addition, Lane explained that three times a week, they drain the tanks of whatever brood of larvae they are currently raising, catch the larvae on sieves and clean their tank before replacing their water, which helps keep the larvae happy and healthy.

“We’re also responsible for culturing algae to feed everything, which is really cool for me because I took a class on algal ecological physiology this past semester,” said Lane. “It’s great to be able to apply things I learned about in a classroom setting to a job.”

McCarron said that their duties also include taking water quality metrics, along with population size, physical size, and tracking developmental characteristics of the oysters.

“We perform these functions to ensure an adequate environment and husbandry are provided for optimal growth and survival,” said McCarron.

Both said it’s an incredible feeling to supply a local aquaculture operation with oysters grown in the hatchery.

“We are fulfilling the mission of the hatchery and a need our growers have sincerely expressed,” said McCarron. “Those oysters can do a host of good in the environment all while growing to be a sustainable delicacy.”

They added that in addition to helping growers and providing jobs, both through farming and restoration practices, oyster farming in Delaware can improve the quality of Delaware’s water, and that it has been a great experience to work on the initial brood that will help with this service.

“Not only are oysters locally grown, they perform a variety of ecosystem services, including by filtering the water as they eat and providing habitat for lots of commercially valuable fish species,” said Lane. “It’s a win-win to grow oysters in Delaware, both economically and ecologically, and these larvae are a part of that.”