Survey: Aquaculture Extension workforce is aging; expect retirements

4-18-19

By Tiffany Woods

CORVALLIS, Ore. – A survey of professionals in jobs related to Extension and aquaculture at universities and two federal agencies found that over half plan to retire in the next 10 years. The finding comes as the U.S. government ramps up its funding for research on farming fish, shellfish and seaweed.

Extension is a university-based, nationwide program that provides research-based information, educational opportunities, and technical expertise to help people, communities and businesses solve problems and be successful. Its aquaculture experts – including those with the national Sea Grant program – have expanded markets, trained workers on using new technologies, informed consumers about the nutritional benefits of seafood, and analyzed the economics of raising certain species.

Sam Chan helped conduct the survey. He is a member of the National Aquaculture Extension Steering Committee.

Sam Chan helped conduct the survey. He is a member of the National Aquaculture Extension Steering Committee. (Photo by Tiffany Woods)

The survey was conducted by faculty with Oregon Sea Grant, Kentucky State University (KSU) and the University of Idaho (U of I). It was sent to about 160 people in the United States who attended the 2017 National Aquaculture Extension Conference, are on an aquaculture Extension listserv with the U.S. Department of Agriculture (USDA), or are on a fisheries Extension listserv with the National Oceanic and Atmospheric Administration’s (NOAA) Sea Grant program.

“We pretty much covered the entire population of people in the U.S. who either work for Extension and have some aspect of aquaculture in their jobs or who hold administrative or other positions that support Extension staff involved with aquaculture,” said Sam Chan, a watershed Extension specialist with Oregon Sea Grant who helped conduct the survey.

Sixty-nine people responded to the survey. About two-thirds said they are Extension aquaculture specialists or educators. The remainder largely described themselves as “working in a related field.”

Oregon State University’s Carla Schubiger is a researcher on an oyster project that’s funded by the National Oceanic and Atmospheric Administration. Her grant is one of 22 from NOAA totaling $11 million announced in October 2018 to grow the U.S. aquaculture industry.

Oregon State University’s Carla Schubiger is a researcher on an oyster project that’s funded by the National Oceanic and Atmospheric Administration. Her grant is one of 22 from NOAA totaling $11 million announced in October 2018 to grow the U.S. aquaculture industry. (Photo by Tiffany Woods)

Sixty-six people responded when asked how much longer they plan to work in their current position before retiring. A third said one to five years, and 20% said six to 10 years. That means that over half of the respondents could retire in the next 10 years. If that were extrapolated to the estimated total workforce of aquaculture Extension professionals and related administrators, Chan said, it would mean that over 80 people are planning to retire in the next decade.

“Given the number of upcoming retirements, the window is becoming increasingly narrow for current aquaculture Extension specialists to recruit, train and mentor new professionals,” said Chan, who is a member of the National Aquaculture Extension Steering Committee and is based at Oregon State University.

To attract new hires, Chan said, respondents suggested that universities emphasize the variety of professional backgrounds that a career in aquaculture Extension can use. For example, he said, knowledge of law, engineering, food science, economics and environmental science can be useful to Extension specialists who work in aquaculture.

OSU’s Chris Langdon aims to scale up the production of a red seaweed thanks to funding from NOAA. The grant is part of the federal government’s effort to expand domestic aquaculture.

OSU’s Chris Langdon aims to scale up the production of a red seaweed thanks to funding from NOAA. The grant is part of the federal government’s effort to expand domestic aquaculture. (Photo by Stephen Ward)

The survey asked people if they thought their institution or agency would refill their position with aquaculture Extension duties. Forty-four percent of the 68 respondents said yes and 46% said maybe.

The survey also asked about age. Fifteen percent of the 64 people who responded to that question said they were at least 67 years old. Forty-five percent were 51 to 66 years old, and 34% were 36 to 50 years old. About a quarter of the 64 respondents were women, with a majority of the women between 36 and 50 years old.

Sixty-seven people responded when asked how long they have worked in aquaculture Extension. Nearly half said they have worked in such a role for 16 to 31 or more years. Nearly 30% said no more than five years.

The survey comes at a time when the federal government is working to grow the U.S. aquaculture industry by funding research and trainings. In October 2017, NOAA said it would award $9.3 million to 32 projects to support U.S. aquaculture. The next year, NOAA announced 22 additional grants totaling $11 million, also to advance U.S. aquaculture.

“Growth in the domestic aquaculture industry holds great promise to create jobs and reduce our dependence on seafood imports,” Secretary of Commerce Wilbur Ross said at the time of the 2018 announcement.

Forrest Wynne and Gary Fornshell, aquaculture Extension specialists at KSU and the U of I, respectively, helped conduct the survey.

New issue of Oregon Sea Grant’s newsletter now available

2-8-19

By Rick Cooper

The latest issue of Confluence, a newsletter about Oregon Sea Grant’s research, outreach and educational programs, is now online. Inside this eight-page issue, you’ll find the following stories:

Want to receive the next issue of Confluence in your email? Click here.

Newport to host Sept. 28-30 conference for volunteers at aquariums, museums and zoos

9-26-18

By Tiffany Woods

Tim Miller-Morgan, an aquatic veterinarian with Oregon Sea Grant, will be one of the presenters at the PNDVA conference.

Tim Miller-Morgan, an aquatic veterinarian with Oregon Sea Grant, will be one of the presenters at the PNDVA conference. (Photo by Tiffany Woods)

NEWPORT, Ore. – Fifty people who volunteer at museums, aquariums, zoos and science centers will gather in Newport Sept. 28-30 for a conference to network and learn from each other.

The attendees are members of the Pacific Northwest Docent and Volunteer Association (PNDVA). They’ll meet at the Hatfield Marine Science Center (HMSC) on Sept. 28 and at the Oregon Coast Aquarium the following day.

On the first day, participants will:

  • walk along the Yaquina Bay and learn about the animals and plants there
  • build small, remote-controlled underwater devices
  • assemble a 16-foot whale skeleton
  • tour a behind-the-scenes wing of Hatfield to see how aquarists with Oregon Sea Grant care for animals there
  • tour the system that transports water from the ocean to Hatfield
  • listen to a talk on marine mammals by Bill Hanshumaker, a marine science educator with Oregon Sea Grant and Oregon State University
  • listen to a talk by Tim Miller-Morgan, an aquatic veterinarian with Oregon Sea Grant and the OSU Extension Service
During the PNDVA conference, attendees will have the opportunity to explore the public education wing at Hatfield.

During the PNDVA conference, attendees will have the opportunity to explore the public education wing at Hatfield. (Photo by Tiffany Woods)

On the second day, attendees will:

  • tour the Oregon Coast Aquarium
  • learn about sea otters and the more than 150 native plant species growing on the aquarium’s grounds
  • listen to a talk on the importance of zoos and aquariums by Kerry Carlin-Morgan, the aquarium’s director of education and volunteer services
  • learn how the aquarium cares for its sharks and rehabilitates coastal wildlife
  • listen to keynote speaker Shea Steingass, who studied harbor seals as a doctoral student at OSU

On Sept. 30, attendees will have the opportunity to partake in various excursions in Newport, Depoe Bay, Seal Rock and Otis.

Jacqueline Brandt (right) talks about sea star wasting disease with Aliya Jamil. Brandt is one of more than 60 people who volunteer at the public education wing of the Hatfield Marine Science Center.

Jacqueline Brandt (right) talks about sea star wasting disease with Aliya Jamil. Brandt is one of more than 60 people who volunteer at the public education wing of the Hatfield Marine Science Center. (Photo by Tiffany Woods)

Employees with Oregon Sea Grant, which operates the public education wing – also known at the Visitor Center – at Hatfield, will lead some of the sessions at HMSC. More than 60 people volunteer at the Visitor Center, some of whom will attend the conference.

OSU gets two NOAA aquaculture grants to help oyster industry and marine fish hatcheries

11/7/17

by Tiffany Woods

The National Oceanic and Atmospheric Administration (NOAA) has awarded scientists at Oregon State University two aquaculture grants that aim to make oysters safer to eat and help hatcheries feed certain marine fish more efficiently.

Tongs pulling an oyster out of a water tank

Oysters filter water in a depuration tank, thus expelling potential contaminants from their tissues. (Photo by Lynn Ketchum)

The first project, funded at $150,000, aims to reduce bacteria known as Vibrio parahaemolyticus in oysters without altering their texture and consistency. Researchers plan to add naturally occurring marine probiotics, which are live or freeze-dried microbial supplements, to the seawater in depuration tanks. Depuration tanks are where oysters are sometimes held to flush out contaminants that may be in their tissues. Researchers have already isolated various marine probiotics that inhibit the growth of pathogens.

The researchers also aim to develop a dipstick containing antibodies to quickly screen adult oysters for V. parahaemolyticus. The idea is that people would not need special training or equipment to use this diagnostic tool.

Oysters

Researchers aim to use marine probiotics to decrease bacteria in oysters. (Photo by Lynn Ketchum)

The leader of this two-year project is Shelby Walker, the director of Oregon Sea Grant, although the actual research will be conducted by the lab of Claudia Hase, a professor with OSU’s College of Veterinary Medicine. Partners include mAbDx, an immunodiagnostics company in Eugene, Ore.; and Reed Mariculture near San Francisco.

The other grant, worth $629,000, aims to improve the nutritional value of live prey fed to California halibut, California yellowtail and southern flounder. When they’re still in their larval stage, farmed saltwater fish are typically fed tiny rotifers and brine shrimp. However, these organisms are less nutritious than copepods, which are the natural prey of many marine fish in the wild. Given this, the researchers plan to feed rotifers and brine shrimp vitamin C and taurine, an amino acid. To make sure these nutrients don’t dissolve in the seawater, the researchers will encapsulate them in bubble-like liposomes, which can have impermeable membranes.

Oregon State University’s Chris Langdon received a grant to make prey that are fed to certain farmed fish more nutritious. (Photo by Stephen Ward)

The researchers plan to:

  • determine the optimal concentrations that should be used for taurine and vitamin C,
  • evaluate how these nutrients affect the growth, survival and stress resistance of the fish,
  • develop methods to produce the liposomes on a larger scale instead of just at the laboratory level,
  • study how long-term storage affects how the liposomes retain the nutrients, and
  • determine how much it would cost to produce and store liposomes and how many liposomes would be needed to feed a certain amount of prey.

Walker will lead the three-year project, but the research will be conducted by the lab of Chris Langdon, a professor with OSU’s Department of Fisheries and Wildlife, and well as by staff at the subcontracted Hubbs-SeaWorld Research Institute in San Diego. Partners include the Texas Parks and Wildlife Department and Reed Mariculture. Bill Hanshumaker, a marine educator with Oregon Sea Grant Extension, will be involved with outreach activities.

Oregon Sea Grant will administer the funding for both projects. They are part of 32 grants totaling $9.3 million awarded by NOAA last week to further develop the nation’s marine aquaculture industry.

“This country, with its abundant coastline, should not have to import billions of pounds of seafood each year,” said Secretary of Commerce Wilbur Ross. “These grants will promote aquaculture projects that will help us reduce our trade deficit in this key industry.”

All projects include public-private partnerships and will be led by university-based Sea Grant programs.

“Industry is working alongside researchers on each of these projects, which will help expand businesses, create new jobs and provide economic benefits to coastal communities,” said Jonathan Pennock, the director of NOAA Sea Grant.

NOAA received 126 proposals requesting about $58 million in federal funds.

Now available: New issue of Oregon Sea Grant’s newsletter

October 24, 2017

The fall/winter 2017 issue of Confluence, a newsletter about Oregon Sea Grant’s research, outreach and educational programs, is now available for download. Inside this eight-page issue, you’ll find the following stories:

Gooseneck barnacles grow on top of thatched barnacles. (Photo by Julia Bingham)

Want to receive the next issue of Confluence in your email? Click here.

UO study moves seafood industry closer to farming gooseneck barnacles

10/13/17

By Tiffany Woods

A study led by a University of Oregon marine biologist has moved the seafood industry one step closer to farming gooseneck barnacles, which are a pricey delicacy in Spain and a common sight on the West Coast.

Gooseneck barnacles grow on top of adult thatched barnacles. (Photo by Julia Bingham)

Funded by Oregon Sea Grant, researchers found that juvenile gooseneck barnacles in a lab grew at rates comparable to those of their counterparts in the wild.

Led by Alan Shanks, a professor with the UO’s Charleston-based Oregon Institute of Marine Biology (OIMB), the researchers glued juveniles to textured, acrylic plates hung vertically inside 12 plastic tubes that were about twice the height and diameter of a can of tennis balls. Unfiltered seawater was pumped in, vigorously aerated and allowed to overflow. After a week, the barnacles began secreting their own cement.

Twice a day for eight weeks, the researchers fed the barnacles either micro-algal paste or brine shrimp eggs; a third group of barnacles was not fed anything but was left to filter food out of the seawater. Once a week the researchers measured the barnacles’ growth. Those that were fed the brine shrimp eggs outgrew the other barnacles.

Seawater is pumped into plastic tubes containing juvenile gooseneck barnacles in a lab at the University of Oregon as part of a research project funded by Oregon Sea Grant. Researchers glued the juveniles to textured, acrylic plates hung vertically inside the tubes. (Photo by Mike Thomas)

“The experiment has demonstrated that feeding is not dependent on high water velocities, and barnacles can be stimulated to feed using aeration and will survive and grow readily in mariculture,” Shanks said.

He added that unlike high-flow systems, his low-flow “barnacle nursery” doesn’t use as much energy or have expensive pumps to maintain, so it has the potential to decrease operating costs.

Despite the findings, the researchers are cautiously optimistic.

“While our experiment showed promise, there is still a great deal of research which needs to be done to solve some of the barriers to successful and profitable mariculture,” said research assistant Mike Thomas. “For example, inducing settlement of gooseneck barnacle larvae onto artificial surfaces has historically proven difficult and this makes the implantation of barnacles a laborious task. There are other methods of mariculture which need to be explored further for their efficacy before deciding on the best method.”

Another part of Shanks’ project involved conducting field research to see if there are enough gooseneck barnacles in southern Oregon to sustain commercial harvesting. The Oregon Department of Fish and Wildlife allows commercial harvesting of gooseneck barnacles on jetties but not on natural rock formations. Shanks hopes the agency will be able use the results of his work when regulating their harvesting.

A juvenile gooseneck barnacle grows on an acrylic plate in a research project funded by Oregon Sea Grant. Researchers at the University of Oregon found that juvenile gooseneck barnacles in their lab grew at rates comparable to or greater than those for species in the wild. (Photo by Mike Thomas)

Researchers used photographs and transects to estimate the barnacle populations on eight jetties in Winchester Bay, Coos Bay, Bandon, Port Orford, Gold Beach and Brookings. They estimated that there are roughly 1 billion adult and juvenile gooseneck barnacles attached to these eight jetties but only about 2 percent are of commercially harvestable size.

“Our surveys suggest that wild populations are unlikely to sustain long-term commercial harvest should the market significantly expand beyond its current size,” researcher Julia Bingham wrote in a report about the project.

She added that with the exception of jetties in Coos Bay and Winchester Bay, the other six jetties had such limited numbers of barnacles that even a “very small-scale harvest” – about 500 pounds per year per jetty – could wipe out harvestable-sized goosenecks on them in five years.

With a second round of funding from Oregon Sea Grant that was awarded in 2017, Shanks and Aaron Galloway, an aquatic ecologist at the OIMB, are continuing the research. Their new work includes:

  • studying how long it takes for a population to return to pre-harvest densities
  • testing different glues and surfaces to see if harvested barnacles that are too small for market can be reattached to plates and returned to the ocean
  • testing out bigger tubes for rearing barnacles in the lab to make them feasible for larger-scale aquaculture
  • testing other diets, including finely minced fish waste from a seafood processing plant

Additional reporting by Rick Cooper.

Video: Searching for microplastics in razor clams and oysters

Britta Baechler looks at harvested razor clams.

Britta Baechler (right) looks at harvested razor clams.

Sept. 13, 2017

A new video from Oregon Sea Grant shows how researchers at Portland State University are inspecting the guts and tissues of razor clams and oysters along the Oregon coast for microplastics, which can come from foams, tiny beads in facial creams, synthetic fibers from clothing, and disintegrating plastic bags.

Shucked oyster in lab

An oyster is shucked at a lab at Portland State University.

“Our goal is to figure out if we have them in our oysters and clams, and if so, are they at problematic levels?” said Britta Baechler, a PSU master’s student who is working on the Oregon Sea Grant-funded project under the guidance of PSU marine ecologist Elise Granek.

Oysters and clams, Baechler explained in the four-minute video, are indiscriminate filter feeders and so they may ingest a piece of plastic and not be able to get rid of it. Microplastics, which are defined as less than 5 mm, are of concern because they can attract chemicals, which might harm animals if eaten.

dissolved razor clam in Petri dish

Britta Baechler shows a dissolved razor clam in a Petri dish.

With help from the Oregon Department of Fish and Wildlife, Baechler dug up razor clams at nine sites along the Oregon coast and bought oysters at five locations to see if there are areas where microplastics are more prevalent. She collected the shellfish in the spring of 2017 and again this summer to see if microplastics are more common during certain times of the year.

Once the oysters and clams were gathered, they were taken to Granek’s lab at PSU where they were measured, weighed, shucked and frozen so they could later be dissolved in potassium hydroxide. This process leaves a clear liquid that contains only sand and any plastics that may be present. The researchers hope to have dissolved all of the bivalves by the end of September. For the ones that have already been dissolved, they’ve been analyzing the liquefied remains under a microscope to see if they find microplastics, but results are not in yet.

“Ultimately, we’re hoping that this study brings awareness to Oregonians and even visitors to the state of Oregon that plastics that we use in our daily lives make their way into the environment,” Baechler said in the video. “We’re also hoping that our partners, like Oregon Department of Fish and Wildlife and other state agencies, might take this information to learn about hot spots for microplastics to address the problem.”

Photos of Baechler and her work can be downloaded from this album on Oregon Sea Grant’s Flickr page.

The video was produced by Tiffany Woods and filmed and edited by Gustavo Garcia.

Video: Studying the relationship between seagrass, nutrients, algae and herbivores

Aug. 29, 2017

A new video from Oregon Sea Grant shows how researchers are studying how nutrients from agricultural runoff and oceanic upwelling impact the growth of light-blocking algae on eelgrass in bays along the Oregon coast.

With funding from Oregon Sea Grant, they’re also studying how tiny herbivores, such as sea slugs and centipede-like isopods, might prevent eelgrass from being snuffed out by this algae. Additionally, they’re investigating whether these herbivores prefer to eat the native or invasive eelgrass in the bays.

In the six-minute video, Fiona Tomas Nash, a marine ecologist in the Department of Fisheries and Wildlife at Oregon State University, explains that eelgrass is important because it produces oxygen, reduces the impacts of waves, and provides habitat and food for waterfowl, baby fish and crabs.

“Nutrient pollution is one of the main causes of seagrass loss worldwide,” Tomas Nash said in the video. “And so we’re trying to understand if this is a problem in Oregon.”

She said the results of her research may benefit state and federal agencies that deal with food production, fisheries and water quality.

The research is taking place in four estuaries – Coos Bay, Yaquina, Netarts and Tillamook – to quantify how much seagrass there is and determine what aquatic grazers are present, Tomas Nash said.

“We’re doing experiments, both in the field and in the lab,” she said in the video, “where we add nutrients, and we also manipulate the presence or absence of these animals to see how these combinations of more nutrients and different animals can affect the amount of algae that there is and, therefore, the seagrass health.”

Partners in the project include the Oregon Department of Fish and Wildlife, the Environmental Protection Agency and the South Slough National Estuarine Research Reserve. 

The video was produced by Tiffany Woods and filmed and edited by Gustavo Garcia.

Photos of Tomas Nash and her work can be downloaded from this album on Oregon Sea Grant’s Flickr page.

More information about the research is on Oregon Sea Grant’s website.

 

With Sea Grant funding, engineering students build ‘portable deep core’ that may improve studies of native mud shrimp

A parasitic isopod known as Orthione griffenis is decimating mud shrimp populations in coastal estuaries ranging from British Columbia to northern California. Most surviving mud shrimp populations are heavily infested with the parasite, threatening their existence.

“From Bamfield, Canada, down to Morro Bay, California, the native mud shrimp, Upogebia pugettensis, are either gone or the populations are severely depressed,” said John Chapman, an Oregon State University invasive species specialist who works out of OSU’s Hatfield Marine Science Center in Newport.

Mud shrimp are valuable prey for birds, fish and other animals in estuaries, and some ecologists believe they have provided a steady food source for ocean-bound juvenile coho and Chinook. Mud shrimp are also important to the ecology of estuaries: each day during their feeding, they may filter as much as 80 percent of the estuary’s intertidal water.

Studying the shrimp, which can burrow to depths of two meters, involves extracting them with quantitative sampling devices. These devices traditionally have been either handheld cores and shovels, which can damage the shrimp beds, or a “yabby” pump, which sucks up only medium-sized and large shrimp and is not quantitative. Neither method is reliable for quantifying the most important reproductive sizes, and both often damage shrimp in the process of collecting them.

The solution? Create a new device that’s not only long enough to reach the deepest shrimp, but gentle enough to bring them to the surface unharmed — and also simple enough to allow for rapid, inexpensive sampling by just a few researchers.

Engineering student Cade Burch demonstrates the "portable deep core."

Engineering student Cade Burch demonstrates his team’s “portable deep core.” (Photo by Rick Cooper)

To develop the device — a “portable deep core” — Chapman enlisted the assistance of OSU Engineering professors John Parmigiani and Sharon LaRoux, who would oversee the student design teams* and participate in the field testing and implementation. Chapman and Parmigiani also secured $9,000 in funding from Oregon Sea Grant, to help defray materials costs and other expenses.

Between January and May 2017, three student teams, each working on a different design, researched, planned, designed, built and tested the components of their respective devices, and on May 19 they unveiled the working prototypes at OSU’s Undergraduate Engineering Expo. “Each of the three designs will be evaluated and combined over the summer by a graduate student into a single, final prototype,” said Parmigiani.

According to Chapman, the newly designed deep core “will, for the first time, give us access to the entire range of burrowing shrimp populations, and let us gather the information we need to help slow or reverse the mud shrimp’s decline.”

*Design teams
205a: Cade Burch, Eric Beebe, Omar Alkhaldi
205b: Patrick Finn, Jacob Garrison, Connor Churchill
205c: Zachary Gerard, Evan Leal, Derrick Purcell

Additional reporting by Mark Floyd, OSU News and Research Communications

 

 

New video reveals how aquarists care for animals at HMSC Visitor Center

Have you ever wondered how aquarists care for the animals at the Hatfield Marine Science Center Visitor Center? Now you can learn all about it, by watching this fascinating, award-winning video from Oregon Sea Grant: Animal Care at the Hatfield Marine Science Center’s Visitor Center.

The full video (15:45) comprises six discrete segments, starting with a behind-the-scenes tour of the area where new and sick animals are quarantined and treated (0:52). Other segments explain how aquarists feed the animals (3:54), take care of the octopus on display (7:10), care for coral (9:27), propagate coral (11:39) and clean the tanks (13:16).

If you’d prefer to watch one or more individual segments rather than the entire video, you may do so by clicking on the appropriate link(s) below:

Oregon Sea Grant operates the Visitor Center, which features interactive exhibits and attracts more than 150,000 visitors each year. It is home to Oregon Sea Grant’s marine education program for K-12 students and teachers.

The video was filmed and edited by Oregon Sea Grant videographer Vanessa Cholewczynski.