The beginning of May at the Darling Marine Center welcomes us with blooming birches, warmer sun, and the end of another academic year, giving graduate students the opportunity to present their research. This past week, more than 60 School of Marine Sciences graduate students, some affiliated with the Aquaculture Research Institute (ARI), gathered for a symposium in Brooke Hall to highlight innovative work in their fields of study. Presentations covered a wide range of topics, from genetics to environmental monitoring, demonstrating the diversity and depth of research conducted at ARI. Beyond the statistics and data, the research presented by these graduate students has a broader implication for climate change, environmental management, and environmental policy. With both warming waters and a growing aquaculture sector in Maine, it’s critical to understand our coastal ecosystem and the communities reliant upon them.

Shellfish research was the basis for many talks at the symposium as Chris Noren, Jamie Peterson, and Tom Kiffney focused on the future of scallops and oysters. Noren, one of Damian Brady’s students, discussed the importance of understanding how scallop growth oscillates with temperature and season for sustainable development of the sector. Peterson, a student of Paul Rawson and Kiffney, another student of Damain Brady both concentrated on oyster development. Kiffney discussed the difference between diploid and triploid oyster growth in the Damariscotta River. Triploid oysters, containing three sets of chromosomes instead of two (diploidy) are nearly sterile, allowing them to grow faster and larger, as energy is not spent on reproducing. Peterson spoke about oxylipins, looking at the impact they have on early stage development. Oxylipins, produced by marine diatoms, algae, and certain bacteria can cause abnormalities or be toxic to marine organisms. Understanding the detrimental impacts of oxylipins can provide useful information for larval rearing in hatcheries. Bobby Morefield, working in Heather Hamlin’s lab presented his work examining the role that sex pheromones can play in the mitigation of sea lice infestations on Atlantic Salmon. 

Impacts of climate change and aquatic animal health were also presented at the symposium. Kate Liberti and Rene Francolini, both working in the Brady lab, underscored the importance of understanding the ecology and oceanography of Maine’s coastline. Liberti talked about temporal and spatial differences in aragonite saturation in Casco Bay. Aragonite is a form of calcium carbonate, necessary for shellfish growth. Organisms may be stressed and have a harder time forming their shells when aragonite saturation levels fall below one. These lower levels of aragonite saturation are due to increasing levels of carbon dioxide in the atmosphere, so following the processes and changes impacting carbon dioxide can be useful as an indicator to understand how aragonite saturation state is changing in Casco Bay. Francolini spoke about kelp forests and understanding genetic connectivity of different populations along the coast. Genetic information at the population level can provide useful insight into how different populations of kelp will react to changing oceanic conditions. This baseline knowledge is imperative as kelp is an essential nursery habitat for many native species along Maine’s coastline. Another one of Brady’s students, Sydney Greenlee, honed in on early detection of harmful algal blooms (HABs) using environmental DNA (eDNA). Pseudo-nitzschia australis, a marine diatom, can cause the blooms which can result in amnesic shellfish poisoning in humans, as well as pose negative health impacts to marine mammals and seabirds. Prior methods made it challenging to distinguish between toxin and non-toxin producing Pseudo-nitzschia species. eDNA can serve as a rapid detection and quantification tool for these HABs, alerting managers to the presence of diatoms in their samples so they can close shellfish harvesting before toxins are present.

Kazu Temple’s, a student of Ian Bricknell, is looking into the parasitic relationship of Profilicollis botulus, a prevalent parasite in green crabs and the impact this may have on the native eider duck population. The European green crab, an invasive species posing challenges to shellfish growers and harvesters in the intertidal, is the host of the parasite Profilicollis botulus known as a “spiny-headed worm.” When other animals such as the eider duck eat green crabs, they also become infected. Knowledge of this parasitic interaction between green crabs and other organisms is useful, as green crabs have been suggested as bait for the lobster industry and can also provide informative data about the spread of green crabs as an invasive species across different regions in Maine.

The breadth and future impact of the research presented by these graduate students is impressive. This symposium serves as a reminder of the enormous potential this new generation of scientists has to shape the future of our marine ecosystems and coastal economies.

ORONO, Maine – The Aquaculture Research Institute has been awarded $2.25 million per year of congressional programmatic funding from the United States Department of Agriculture Agricultural Research Service (USDA-ARS) for research on Recirculating Aquaculture Systems at the National Cold Water Marine Aquaculture Center.

Recirculating Aquaculture Systems (RAS) represent an increasingly important technology in the field of aquaculture. These land-based culture systems not only boost production and strengthen domestic aquaculture, but also reduce dependence on coastal ecosystems and enhance resilience to changing environmental conditions. With innovative research and effective management, RAS operations have the potential to revolutionize the way we think about sustainable aquaculture. 

In conjunction with an existing USDA-ARS Non-Assistance Cooperative Agreement (NACA), this new funding will help establish ARI as a nationally recognized RAS research facility, focusing on shellfish and finfish species. Prioritized research includes the development of domestic broodstock, sustainable alternative feeds, the impacts of climate change, innovations in waste processing, reduction of environmental impacts, elimination of off-flavor compounds like geosmin and 2-methylisoborneol (MIB), and overall more energy efficient systems at the Center for Cooperative Aquaculture (CCAR). 

“We’re committed to expanding our knowledge and expertise in RAS to culture fish and shellfish in a way that’s productive and profitable, while ensuring the highest standards of animal well-being. The goal here is to optimize production, efficiency and sustainability”  explains Deborah Bouchard, Director of the Aquaculture Research Institute. 

This $2.25 million in funding represents a significant investment not only for the future of the RAS industry but for workforce development as well. Several new full-time positions have been created through both ARI and USDA-ARS, enhancing infrastructure at CCAR and expanding the facility’s capabilities for cutting-edge research and development. 

“This will allow ARI and USDA to continue work on improving Atlantic salmon reproductive inefficiencies. Low eye-up rates have plagued the salmon industry for the past 15 years. A new reproductive physiologist will be hired that will address these inefficiencies. In addition, a new fisheries biologist will be hired that will address off-flavor and water quality as it relates to salmon grown in RAS,” says Brian Peterson, Director National Cold Water Marine Aquaculture Center.

Ultimately, this will lead to a more sustainable and profitable future for the domestic aquaculture industry while making high-quality protein more accessible. 

Thousands of people made their way to New Orleans last week to celebrate Mardi Gras. While beads and cups filled the streets and the smell of fresh baked beignets warmed the air (though maybe it was just the humidity), representatives of Maine’s aquaculture community gathered in the Crescent City last weekend for a different reason: to highlight sustainable aquaculture in Maine. Aquaculture America, the largest national aquaculture conference, held February 23-26, showcased the incredible research, innovation, and workforce development across Maine’s booming aquaculture sector in a session chaired by Deborah Bouchard and Meggan Dwyer from the Aquaculture Research Institute (ARI). 

Speakers from the 91±¬ÁĎ, Educate Maine, The Gulf of Maine Research Institute, Long Cove Sea Farms, Colby College, and the University of New Hampshire demonstrated the multidisciplinary work from 91±¬ÁĎ’s microcredential pathway, to using pheromones as a means to control sea lice. The take away from the session was clear; the aquaculture sector in Maine is robust, from the detailed innovation and research to the broader engagement of industry and education.

Workforce development strategy is crucial for the future of Maine’s aquaculture sector. “Creating clear and comprehensive occupational standards, standardizing workforce training across the state, and involving industry to align these trainings with workforce needs is something Maine is doing well,” points out Carissa Maurin with the Gulf of Maine Research Institute. Projects such as the , , and the Aquaculture Experiential Opportunities for Undergraduate Students (AquEOUS) are excellent examples of creating critical partnerships between industry leaders, educational institutions, and employers with emphasis on experiential learning and diversifying the workforce. 

Understanding Maine’s coastal livelihoods and consumer preferences as they relate to aquaculture are equally as important as workforce development. “Seaweed aquaculture in the United States, particularly in Maine, is expanding. Comprehension of how this industry fits into existing working waterfront communities can provide insight into the potential this industry has to diversify income in rural communities previously reliant on fisheries or other marine jobs,” Jennifer Meredith, Assistant Professor of Economics at Colby College explains. A glimpse into the natural resource economics of seaweed in Maine is part of the larger project with Bigelow Laboratory for Ocean Sciences, looking at Gulf of Maine Seaweeds as a feed additive to lower methane emissions from dairy and beef production. Economic impact of the seaweed industry is also being looked at from a consumer perspective. Qiujie Zheng, Associate Professor of Business Analytics at the 91±¬ÁĎ presented a novel study telling a compelling story of why understanding consumer attitudes towards seaweed and value-added products is crucial for farmers and . Helping farmers find channels to improve consumer knowledge of seaweed products and educating them on how to prepare seaweed at home easily can begin to break down perceived barriers for those reluctant to experimenting with these value added products. 

Aquaculture as it relates to climate change and environmental impact was a common theme amongst presentations as well. Reduced plastics, carbon capture, ropeless gear, and insect meal highlight the innovation, value, and dedication to sustainable aquaculture throughout the state. As microplastics continuously pop up in news headlines, Abby Barrows of shed a bit of light articulating what aquaculture could look like without plastics. In collaboration with Sue Van Hook at in Pembroke, ME, these women are working to produce environmentally friendly gear that is scalable and comparable in price to what is already available using an unlikely material, mushrooms, to create . Gear innovation was also emphasized in Michael Coogan’s research through the University of New Hampshire, looking into ropeless gear technology for offshore bivalve culture. On the seaweed front, Adam St. Gelais, Aquaculture Innovation Specialist with ARI discussed macroalgae carbon dioxide removal through the first of its kind “Life Cycle Sustainability Assessment,” with the integration of both social and economic analysis. “To achieve full sustainability of the seaweed sector, both social and economic impacts must be well understood,”  Adam explained. Sustainability of fin fish aquaculture in Maine is on the rise as well. Assistant Professor of Fish Nutrition and Nutrigenomics Michael Habtetsion presented successful results from his research looking into sustainable feed development using insects as an alternative to fish meal for Atlantic salmon.

In conjunction with carving the path toward a more sustainable future industry, researchers in Maine are also working on creative solutions to problems that sometimes arise in aquaculture such as “off-flavor” and sea lice. Bobby Harrington and Bobby Morefield both with the 91±¬ÁĎ ARI are working on innovative solutions to address these issues. Harrington, a research associate at ARI has developed a more effective solution than current methods to test for naturally occurring compounds present in recirculating aquaculture systems which can result in an “off-flavor” of the fish tissue. Morefield, a current PhD candidate presented his work looking at pheromones as means for pest management, with the idea of having a drug free and environmentally friendly means to control for sea-lice in aquaculture systems. 

ARI’s session in New Orleans demonstrated Fat Tuesday was not the only thing to be celebrated last week –  the expertise of industry, farmers, and researchers, and the success of innovation and workforce development across Maine is definitely worthy of a couple celebratory beads as well. Congregation of these speakers across the aquaculture sector illustrated how well-poised Maine is to strengthen and support successful growth of this industry in the region and at a national level.

Contact: Corinne Noufi corinne.noufi@maine.edu