Thirty people from DMS attended the Ocean Science Meeting in New Orleans this February. Check out what we presented to the ocean science community.

by Mengyang Zhou

Every two years, the Ocean Science Meeting (OSM) brings together the ocean community around the world. This gathering serves as a platform for sharing latest discoveries and discussing the far-reaching impact of ocean science. This February, thirty DMS members attended OSM24 in New Orleans. The full list of presentations from DSM can be found at the end of this article. Here are some highlights of our departments’ participation at OSM24 that include student presentation highlights, DMS booth and reflections from first timers at OSM.

We delivered presentations that covered diverse fields in ocean sciences, especially those by talented students. Here are some great examples. Ph.D. student Halle Berger presented her poster on the effects of ocean acidification and warming on the vulnerability of the U.S. Atlantic sea scallop. Her study will help fisheries management by identifying candidate areas for future fishing zones. Bernard Akaawase, also a Ph.D. student, gave an oral presentation on the directional wave-breaking kinematics and the energy spectrum from 3-D stereo-image observations of ocean waves. Undergraduate student Vicki You presented a poster on using DNA metabarcoding of fish diets to understand fish’s prey preference and selectivity, and the contributions of fish predators to the food web dynamics of the pelagic ecosystem.

Our department left a mark at OSM24 with an engaging booth that attracted visitors with its lively displays and interactive demonstration. We showcased our laboratories, ongoing scientific projects and educational programs spanning un dergraduate and graduate levels, as well as opportunities for postdocs and faculties. It served as a hub for building connections with fellow researchers and potential collaborators. Notably, many DMS alumni dropped by the booth and shared updates on career trajectories.

For many students attending OSM for the first time, it was an unforgettable experience filled with excitement as well as some challenges. Second year Ph.D. student Catherine Crowley shared her experience at OSM as a first-timer: “OSM was a great opportunity for me to learn more about my field of study and meet collaborators who are working on similar niche questions. This was the first conference I attended where there were so many people interested in isotopes and the marine nitrogen cycle. I really enjoyed attending the talks and I learned a lot while at the conference. However, there were times when the conference felt overwhelming due to my schedule being planned to the minute, and I had to run from one end of the building to another to get to another interesting talk. Having a UConn booth at OSM was an interesting way to connect with prospective students and faculty members. I believe that UConn has a lot to offer as a program, and this was a unique way to showcase how cool our program is and highlight the research of various colleagues.” Paban Bhuyan, also a Ph.D. student, said: “Attending OSM for the first time felt like stepping into a grand fair, where oceanographers from across the globe gather to exchange groundbreaking ideas and state-of-the-art technology. It presented itself as the monumental opportunity I had long anticipated, allowing me to finally meet the esteemed researchers whose work I have diligently followed and admired. The chance to engage with them directly, to listen to their presentation in person, was an invaluable experience. Equally striking was the realization of being part of a vast community dedicated to similar research interests. Discovering so many scientists attending my session, engaging with my poster, and posing questions that delve into the core of my research inquiries was both surprising and reaffirming. Their questions opened new avenues of thought, highlighting aspects I had yet to consider but now recognize as essential. This interaction has inspired my research journey with a newfound sense of direction and purpose.”

OSM24 was a celebration of ocean sciences. Our department’s presence at OSM24 was both impactful and memorable. We showcased our commitment to advancing ocean science and education through engaging presentations and interactive booth displays. Looking forward to the next OSM in 2026!

We are delighted to share the success of our recent outreach event Sip & Science, where we brought our science projects to the local community. 

by Mengyang Zhou

This March, graduate students in DMS hosted “Sip N’ Science” at Beer’d Brewery in Stonington Connecticut. This event was featured with fun and interactive scientific presentations from 18 dedicated graduate students. These science demonstrations covered a wide range of ocean science topics, through which they showcased the diverse and impactful research we do at DMS.

We know that the ocean generates 50% of the Earth’s oxygen, and absorbs 30% of anthropogenic CO2, therefore playing a critical role in regulating climate and supporting life on the Earth. However, global warming can affect the ocean’s capability to absorb greenhouse gas. Anagha Payyambally and Kelsey Ward teammates did a very simple experiment to demonstrate this. They took a beaker with cold water and another with hot water. Following that, they dipped test tubes containing carbonated drinks in each beaker. There was rapid bubbling and degassing in the test tube that was placed in the hot water, which implies that a rise in temperature decreases the solubility of gasses in water.

Anagha Payyambally and Kelsey Ward demonstrating the temperature dependence of gas solubility in the ocean. Photo credit: Hung Nyugen

Riley Pena, a Ph.D. student studying benthic marine ecology, put together a tank of local rocky intertidal organisms, including mussels, barnacles, and herbivorous and carnivorous snails. People were able to watch the barnacles feeding on plankton in the water and handle the snails and juvenile crabs. For a lot of people, this was their first time to see barnacles feeding.

Riley showing the tanks of benthic organisms to kids. Photo credit:  Hung Nguyen

Two of our physical oceanography graduate students, Molly James and Luke Glass, showcased an engaging hands-on activity centered around ocean density and its role in shaping circulation patterns. The demonstration involved pouring salty and fresh water each dyed a different color into opposite sides of a narrow table-top tank with a removable divider down the middle. Participants were posed with intriguing questions: What happens when the divider separating the two waters is removed? Will the waters mix or remain separate? Similar to the interaction between a river plume and the ocean, and in global thermohaline circulation, the denser (saltier) water sank beneath the fresher water, resulting in the formation of two distinct layers with a slightly mixed interface between them. Both adults and children were captivated by the distinct layers that emerged during the experiment. These density-driven, or baroclinic, flows play a crucial role in various phenomena observed in both coastal and open ocean environments. Want to learn more? Check out this YouTube video: https://youtu.be/dVeAhK-PM3M?si=5RBG1l9FnU_UYRuc

Molly James and Luke Glass showcasing the salt and fresh water mixing. Photo credits: Hung Nguyen

Samantha Rush and her labmates demonstrated ocean acidification to the public using a SodaStream. Just like the SodaStream adds carbon dioxide to carbonate your beverages into a soda, they added carbon dioxide to our seawater samples. By having bromothymol blue (a pH dye indicator that is blue in a base and yellow in an acid), they could track how the pH changed visibly from a base to an acid! They also showed that adding in chalk (like that of a coccolithophore shell) rapidly bubbles in acidic water which demonstrated how acidic water can be damaging to carbonate shells. The goal was showing how anthropogenic inputs are changing the carbonate system! Their whole lab enjoyed conversing with the public and getting to watch the visitors see the pH changes visibly rather than just telling them numbers!

Samantha Rush and her labmates demonstrating ocean acidification. Photo credit: Hung Nyugen

Members of the Vaudrey Lab, Matthew Leason and Emily Watling showcased the distinctions between eelgrass (Zostera marina) and seaweed while shining a spotlight on the Connecticut National Estuarine Research Reserve (CT NERR). Using centrifugal tubes of suspended seaweed and seagrass, as well as a poster, they illustrated these distinctions and encouraged attendees to use the methods found on the poster to replicate an experiment at home, demonstrating photosynthesis in seaweed. The table also highlighted ongoing CT NERR projects, including invasive plant mapping, with contributions from dedicated undergraduate interns. They said they had a fantastic experience this year at Sip N’ Science and were excited to return next year!

Matthew Leason and Emily Watling with their poster and samples of eelgrass and seaweed. Photo credits: Hung Nyugen

Rowan Batts set up dissecting microscopes with samples from a plankton tow at Avery Point, for people to see tiny planktonic organisms that are otherwise invisible. Visitors gained a greater understanding of plankton diversity and abundance by observing copepods jumping around and guessing the number of cells in a laboratory phytoplankton culture.

Rowan Batts setting up the microscopy. Photo credit: Hung Nyugen

We appreciate the efforts graduate students made for Sip N’ Science. This event is not just about presenting our science and findings; it is more about sparking curiosity and passion for ocean sciences among the public, especially kids. Through the interactive science demonstrations set up by graduate students at DMS, we raised awareness of marine environmental problems, such as how ocean acidification may influence marine organisms. This event also helped us build connections with the local community, through which we can work together for a more sustainable ocean.

Dr. Amin Ilia graduated from DMS with a Ph.D. degree in physical oceanography in 2021, supervised by Dr. James O’Donnell. Currently working as a civil engineer, he shared his working experience in both the industry and academia afterwards with current graduate student Mengyang Zhou.

Mengyang: Can you share your research during your PhD, and any highlights you want to share?

Amin: During my Ph.D., my research focused on analyzing the parameters influencing wave climatology in a fetch-limited environment such as Long Island Sound, I also explored the effectiveness of wave-induced turbulence in mixing within summer stratified profiles. The pivotal discovery was the significance of white capping dissipation in defining wave climatology in a large estuary like Long Island Sound. Furthermore, my investigations revealed that wave turbulence does not play a critical role in the mixing of water profiles in the western region of Long Island Sound. The outcomes of my research are encapsulated in five published papers, with three as the lead author and two as a co-author (https://www.researchgate.net/profile/Amin-Ilia). These publications contribute valuable insights to the field. Beyond the academic achievements, my Ph.D. journey was enriched by memorable moments shared with the faculty, staff, and students in the Department of Marine Sciences at UConn.

Mengyang: Can you tell us your career after PhD? I know you worked for a company in California, how was that experience?

Amin: Working at CoreLogic in California was a valuable experience. While the position was a high-level position with competitive compensation, my involvement was primarily centered around one project, limiting opportunities to engage with broader topics. Desiring more diverse project contributions, I made the decision to leave the role.

Mengyang: And can you tell us about your current job, and how did your PhD prepare for it?

Amin: I am currently working as a contractor employee with NOAA, collaborating with accomplished scientists in the field. However, the job does not align entirely with my expectations, prompting me to start a new position soon. Having a Ph.D. degree presents both advantages and disadvantages for industry careers. On the positive side, it provides a technical edge, fosters innovative thinking, and enhances adaptability. However, there are drawbacks, such as the potential narrowing of expertise compared to individuals with extensive industry experience, who often possess a broader skill set sought after in certain industry roles.

Mengyang: Were there any challenges during COVID time?

Amin: Adjusting to remote work during the initial stages of the COVID-19 pandemic presented challenges. As I began my post-Ph.D. career, the shift to remote work was new for me and others, creating initial hurdles. However, the work environment has since adapted to this new norm, with improvements in remote communication. The move to remote/hybrid work arrangements also offers various benefits for both employees and employers, including time savings from eliminating commutes.

Mengyang: Do you have any advice for current students who want to pursue a career in industry or academia, based on your own experience?

Amin: Developing a robust professional network is a strategic approach to navigating and improving your career. By actively expanding your network, you not only increase your chances of discovering more favorable career opportunities but also enhance your overall professional prospects. Additionally, directing your focus towards topics with practical applications in your intended career path can serve as a proactive step in equipping yourself with the relevant skills and knowledge. Therefore, investing time in both broadening your professional connections and developing expertise in relevant areas will undoubtedly contribute to a more resilient and promising future in your field.

Coginchaug’s National Ocean Sciences Bowl Team  continues its impressive streak in ocean science competitions

Written by Lorrie Martin

The National Ocean Sciences Bowl (NOSB) is an academic competition and program that introduces high school students to ocean science, aiming to prepare them for ocean science-related STEM careers and addresses a national gap in environmental and earth sciences in public education.

This February 3rd, Coginchaug fielded a NOSB team for the 17th consecutive year at UCONN Avery Point Campus in Groton. Team members, Logan Watts, Claire Roraback and Bella Oakley again claimed a 1st Place Finish for their school at the Regional CT/RI Quahog Bowl. This was actually the “4th” First Place Regional Finish in the 17 years Coginchaug has competed in the program. The team has never “hung up their fins”, transferring seamlessly to the Blue Lobster Bowl in Massachusetts when the Quahog Bowl temporarily shut down and competing virtually throughout Covid. When the National Competition has been held, Coginchaug has placed 9th, 10th and 12th in the country when going up against the 25 other Regional Teams, a remarkable achievement for such a small public school often pitted against marine magnet schools and science & technology institutions. 

Coached by Lorrie Martin and Luke Charest, students build over their high school years on their ocean knowledge ranging in fields as diverse as marine biology, geology, chemistry, physics, history, geography, technology, literature and archaeology.  No water related topic is off the table as students on competing teams race to buzz-in on multiple choice and short answer questions on a lock out system.  Each approximately 15 minute match also includes two high-scoring Team Challenge Questions where the team works cooperatively to prepare their answers. 

As usual, the friendly competition taps dozens of Volunteers from Connecticut and Rhode Island Colleges, Marine organizations, Coast Guard and Navy plus graduates who have competed in Ocean Bowl themselves. They serve as a large professional team of  Moderators, Science Judges, Scorers, Timers and Runners to smoothly run the competition for the students. Remarkably, the National Ocean Bowl representative who along with Andrew Ely (Project Oceanology), Larissa Graham (National Estuarine Research Reserve) and others brought the face-to-face Quahog Bowl back to life in 2024 is Megan Szymaszek –  a Coginchaug graduate herself as well as an Ocean Bowl competitor throughout high school and an Ocean Bowl Coach throughout college before moving into this NOSB leadership position which for many years was held by Diana Payne. 

The Coginchaug team, representing the two small central Connecticut towns of Middlefield and Durham, practices diligently each Sunday afternoon throughout most of the academic year in their own “Ocean Annex” space – generously donated by the United Churches of Durham. Scrimmages with other teams, Dunkin Donut Card Competitions among themselves, ocean-themed sugar cookies and Swedish fish contribute to their success. Coach Martin insists that every competition MUST be accompanied by fun and their two valuable 17 year old Cephalopod Mascots – “Squidley” Squid originally from Peabody Museum and “Octavius” Octopus donated by Hannah Gossner, a nationally known oceanographer returning from Antarctic research as this article is being written and a former Coginchaug Ocean Bowl competitor herself.  Martin commends the “mental agility, exemplary teamwork and good sportsmanship” exhibited by this year’s small, close-knit academic group, as we coaches, could do nothing more than “sit back in the audience and squirm through 6 hours of tough marine questioning in total silence.”

Two research teams from DMS were featured in UConn Today’s latest edition.

The first was led by Penny Vlahos’s team and highlights polar research activities. You can read more about it here:

UConn Researchers Studying Multi-Year Arctic Sea Ice Before It Is Gone

The other highlight focused on a new paper in Nature Communications led by Research Scientist Zhuomin Chen as part of Samantha Siedlecki’s group. That work identifies decadal predictive capacity in the ocean relevant to marine habitat shifts. Read more about it here:

A New Tool to Skillfully Predict Marine Habitat Shifts