Mandy Freeman – NOAA Teacher at Sea Blog

NOAA Teacher at Sea

Mandy Freeman

Aboard NOAA Ship Henry B. Bigelow

May 19 – May 29, 2026

Mission: Sea Scallop HabCam Survey

Geographic Area of Cruise: Northeast Atlantic Ocean

Date: May 24, 2026

Weather Data from 13 miles due East of Monomoy Point, Massachusetts
Latitude: 41 32.7776 ° N
Longitude: 069 42.0435 ° W
Wind Speed: 12.5 knots E
Air Temperature: 10.5 °C (50.9°F)

Science and Technology Log

The Habitat Mapping Camera System (HabCam) has been taking LOTS of pictures of the life near the sea floor. As part of the nightshift, my duties include annotating the HabCam images, driving the HabCam vehicle as Pilot, and serving as Co-Pilot.

Annotating images involves identifying and measuring scallops, as well as identifying other animals like round fish, flat fish, skates, crabs and whelks.

As Co-Pilot, there are several monitors with varying data from both the ship and the HabCam that must be watched in order to see obstacles on the path to avoid a collision. The depth of the HabCam is controlled by a “joy stick” that deploys and retracts the cable attached to the frame surrounding the HabCam. Ideally the camera should be kept within 2 meters from the ocean bottom.

As the Pilot, I must constantly monitor and adjust for the ever-changing distance from the seafloor to keep the HabCam from touching bottom. Some areas are easy to navigate, while others are rocky with “surprise” boulders.

BEFORE Annotations

National Oceanic and Atmospheric Administration (NOAA) places a strong emphasis on producing reliable, standardized research data, so I was required to watch a training video, pass a verbal quiz, and then take a 200 image test to ensure my annotations met those standards.

view of a desktop computer at a workstation. we cannot really interpret anything on the screen. a sea scallop shell rests on the table off to the side. — Training and a test before I could annotate images

screenshot of an underwater view of a scallop on the seafloor — Live Sea Scallop from training session

Mandy sits at a corner desk with an array of computer monitors and a control panel with a joystick. she faces the screens intently as she grips the joystick with her right hand — Mandy piloting the HabCam

Mandy stands on deck in front of the HabCam, a large apparatus housing underwater cameras. she wears an orange hard hat and orange life vest. — Mandy standing on deck with the HabCam

Drifter Buoys

Through NOAA’s Adopt a Drifter Program, I also had the opportunity to deploy two drifter buoys while aboard the NOAA Ship Henry B. Bigelow. The mission of this program is “to connect classrooms around the world with NOAA data, and provide a real-life, interactive classroom experience to teach students about ocean science” (Adopt a Drifter Program). After decorating the buoys, we deployed both buoys from the starboard side of the ship at 5:21 AM and 5:22AM on Friday, May 22, 2026. As soon as I have a link to track them, I will post here!

If you or your school would like to adopt a drifter buoy, you can find out more information HERE.

Lewisville High School side of buoy

close-up of the buoy portion of the drifter showing the orange outline of a cat's paw and the words "c/o 1998, 2020" — Clemson University side of buoy (Mandy is a 1998 & 2020 graduate of Clemson)

close up of the buoy portion of the drifter showing a sticker of the state of South Carolina with a moon and palm tree from the state flag, and a NOAA Teacher at Sea Program sticker — Representing Mandy’s home state of South Carolina and the NOAA Teacher at Sea Program

three people stand on the deck of ship, in front of the railing, at sunrise. Mandy is in the center. Andrew and Tommi to her left and right each hold up a heavy drifting buoy, which consists of the float, cable, and folded up drogue. All three wear hard hats and life vests. — Andrew Merlino (Survey Tech) and Tommi Truong (Able Seaman) assisted Mandy in the deployment of the buoys (Image courtesy of Kristen Jabanoski)

Mandy and Tommi, wearing hard hats and life vests, stand at the railing of the ship at sunrise and watch as the drifting buoy flies through the air toward the water. Tommi's arms are still extended from tossing. With low lighting, this photo is a little out of focus. — Deployment (Image courtesy of Zach Fyke, NOAA Watch Chief)

view of the drifting buoy in the water: a round blue and white float, attached to a cable, attached to a folded "drogue" or fabric tail. the cardboard packaging will dissolve and allow the drogue to extend. we can just barely see the Lewisville High School sticker. — Buoy In (Image courtesy of Zach Fyke, NOAA Watch Chief)

Personal Log

Ship living isn’t all that bad, but night shift has been an adjustment! I am in a stateroom with three other ladies; two of us are on night shift (11:30 PM – 11:30 AM) and two are on day shift (11:30 AM-11:30 PM). When you leave for watch, it is common courtesy to NOT return to the stateroom when your bunkmates are sleeping. *It’s a good idea to set your things out before going to bed so your essentials aren’t left behind!*

close up view of a single lower stateroom bunk. we can see a nightlight mounted to the wall, a curtain drawn aside, and the ladder up to the top bunk

view of lockers in the stateroom, with luggage and backpacks visible on the floor in front of them.

view of a small desk and chair tucked next a locker in the stateroom. above the desk is a window with blackout curtains.

view of four bunks, stacked in pairs, in the shared stateroom. each bunk has its own curtain. we can also see a sink and a locker.

view of the head (bathroom) with toilet, shower, sink

My stateroom: four berths, storage lockers, desk, head

What day is it? Not really sure…But I have thoroughly enjoyed getting to know the crew and learning how the HabCam collects images of sea life and how NOAA uses this data to inform the local fisheries. More about the crew later!

I’ve had the opportunity to see some amazing sunrises…

view of sunrise over the railing of NOAA Ship Henry B. Bigelow. the water is calm and gray. an orange sun peeks over low gray clouds and illuminates parts of the horizon; it adds a golden tinge to the otherwise gray water

view over the railing at calm gray waters, cloudy gray skies, but a riotous streak of neon red-orange right at the horizon

And today, we had the honor of watching humpback whales while SNOW fell!

All humpback whale images courtesy of Zach Fyke.

Did You Know?

The Humpback whale can weigh up to about 40 tons, grow to around 60 feet (18 meters) long, and live roughly 80–90 years. They are known for their long migrations, complex songs, and acrobatic behaviors such as breaching and tail slapping. Humpback whales are found in oceans worldwide and feed mainly on small fish and krill (Humpback Whales – NOAA). They are also called the “singing whale,” because the male mating song can change from year to year and can last as long 30 minutes (Fun Facts About Wonderful Whales).

Although humpback whale populations are increasing, they remain on the endangered species list. Their greatest threats include entanglement in fishing gear and marine debris, vessel strikes, harassment from boats, ocean noise, and changing climate conditions (Humpback Overview – NOAA).

Did you know different animals (and fish) make specific sounds? Watch the following video to learn more about how NOAA Fisheries uses Passive Acoustic Monitoring to study not only the humpback whale, but many different types of sea life! Listening for Whales. Visit the NOAA Mammals: Sounds in the Ocean site to hear the differences between 32 mammals including the humpback whale and the minke whale!

Careers at Sea

portrait of a man in a fleece with a shoulder bag strap standing at a ship's railing at sunrise or sunset — Rhett Finley, NOAA Passive Acoustics Branch in the Northeast
(Credit Rhett Finley)

Meet Rhett Finley, a fieldwork team lead from the NOAA Passive Acoustics Branch in the Northeast. Rhett grew up in Tulsa, OK and developed a passion for science at just 6 or 7 years old. By the age of ten, he already knew he wanted to become a marine biologist, inspired by the nature documentaries he watched growing up. He later attended Texas A&M University at Galveston, where he earned a Bachelor of Science degree in Marine Biology.

When I asked Rhett how he became drawn to the field of bioacoustics, he said “it was because of its versatility and noninvasive nature and the ability to integrate it with other scientific disciplines, like genetics. This approach is an effective means of collecting detailed data on threatened species especially in remote or difficult to access areas and therefore can contribute to well-informed conservation management efforts for those species and their respective habitats.”

His job with the NOAA Fisheries Passive Acoustics Branch involves:
– placing underwater microphones (hydrophones) in designated areas, such as wind farm areas and marine sanctuaries
– assists with analyzing and interpreting acoustic data, which is visualized in the form of spectrograms (picture below).

His current focus is on the minke whale (Balaenoptera acutorostrata). More information on this whale found here. The goal of this NOAA division is to “use passive acoustic technologies to study the behavior and movements of marine animals, their contribution to the ocean soundscape, and how they are affected by human-made sounds” (Passive Acoustic Research in the Northeast)

a graph showing frequency (Hz) v time (m:ss). sounds show up as yellow or green markings against a darker purple background. annotations point out a humpback whale song (markings in a patter that extend the full length of the x-axis); North Atlantic right whale upcalls (a few vertical markings toward the left side of the x axis) and sei whale downsweep doublet (two curved downward markings toward the right side of the x-axis.) in the low frequency values there are a lot of scattered green markings from ship noise. — Spectrogram showing unique calls by multiple species including humpback whale song, North Atlantic right whale upcalls, and a sei whale downsweep doublet with low-frequency ship noise overlapping.
Credit: NOAA Fisheries

Interested in this type of career? NOAA offers internships to both undergraduate and graduate students, as well as high school students! Check out the opportunities and scholarships available HERE!

For more information and great pictures, check out the NOAA Fisheries New England/Mid-Atlantic Facebook page! Or their Instagram page.

NOAA Teacher at Sea

Mandy Freeman

Aboard NOAA Ship Henry B. Bigelow

May 19 – 29, 2026

Mission: Sea Scallop HabCam Survey

Geographic Area of Cruise: Northeast Atlantic Ocean

Date: May 12, 2026

Weather Data from Richburg, South Carolina (Piedmont Region)
Latitude: 34.7218° N
Longitude: Longitude: -81.0197° W
Wind Speed: E at 6 mph
Air Temperature: 20°C (69°F)

Introduction
Hello! My name is Amanda (Mandy) Freeman from Richburg, South Carolina and I am BEYOND ecstatic to begin my adventure aboard NOAA Ship Henry B. Bigelow for the NOAA Teacher at Sea 2026! This is my 28th year of teaching high school science and my 19th year at Lewisville High School in Richburg, South Carolina.

Lewisville Lions

In my classroom, I work to bridge science concepts with real environmental challenges so students recognize their impact on the world and understand how biology applies to their daily lives. As a high school science teacher, I often talk about ecosystems, human impact, and sustainability, but this experience will allow me to move beyond talking about it and actually do it! The NOAA Teacher at Sea Program will allow me to bring authentic scientific research into my classroom while exposing students to a variety of potential career paths.

Packing
OH MY…What do you even pack for life at sea?! What shouldn’t I pack?!

In South Carolina, May usually means temperatures somewhere between 26°C to 13°C (80°F – 56°F), so trying to prepare for the much chillier weather in Rhode Island has definitely been a challenge. My suitcase currently contains everything from t-shirts to sweatshirts to rain gear… and I’m still convinced I’m forgetting something important.

Hopefully, I’m just overthinking it – although there’s a very real possibility I’ll either freeze, overpack or both!

Excitement
Excited doesn’t even begin to describe how I feel about this opportunity. In just a few days, I will go from teaching biology in a classroom to living and working aboard the NOAA Ship Henry B. Bigelow alongside real scientists conducting fisheries research.

I’m excited to experience what life is really like on a research vessel, learn how scientists collect and analyze data at sea, and see technology in action through the HabCam survey. Most of all, I’m excited to bring these experiences back to my students. OH – and did I mention I’ll have the opportunity to deploy TWO drifter buoys?! How amazing is that???!!

For many of my students, careers in marine science or ocean research may seem far away from our everyday lives in South Carolina. I hope this journey helps them see that science is more than a textbook or lab activity — it’s exploration, discovery, teamwork, and problem-solving in the real world.

I can’t wait to share photos, stories, challenges, and discoveries from this adventure. Hopefully my students will learn right alongside me as we trade our normal classroom walls for the open ocean!

Stay Tuned!

Mandy, her daughter, and her husband pose for a photo in front of a shimmery curtain of birthday streamer decorations. Mandy's daughter wears a sash.

Mandy (right) and her husband, wearing sunglasses, take a selfie at a waterfront

Science and Technology Log

Next Tuesday, I will board NOAA Ship Henry B. Bigelow from Woods Hole, Massachusetts via a small boat transfer. The ship is a “state-of-the-art fisheries survey ship that studies a wide range of marine life and ocean conditions” ( NOAA Ship Henry B. Bigelow).

NOAA Ship Henry B. Bigelow. Credit: NOAA

The ship was named after Henry Bryant Bigelow, an oceanographer and marine biologist, who was the founding director of the Woods Hole Oceanographic Institution (WHOI). “He is credited with describing 110 new species for science and authoring some 100 scientific papers over the course of his career” (WHOI).

black and white portrait of a gray-haired man in a suit looking down at something — Henry Bryant Bigelow (1879-1967). Credit: Woods Hole Oceanographic Institution

The annual Northeast Fisheries Science Center scallop survey will use the Habitat Mapping Camera System (HabCam) to determine the distribution and relative abundance of Atlantic sea scallops (Placopecten magellanicus). According to preparatory materials from the science team, the HabCam V4 is an underwater “boat towed camera system that takes continuous paired photos (typically 6 pairs per second) at approximately 2 meters above the sea floor.”

illustration of an Atlantic sea scallop shell, as viewed from the top — Atlantic Sea Scallop. Credit: NOAA

Category: Mandy Freeman

Mandy Freeman: Life Between Sunrises and Humpbacks, May 24, 2026

Mandy Freeman: Introduction, Packing, Excitement, Oh My! May 12, 2026