NOAA Teacher at Sea
Dorothy Holley
Aboard NOAA Ship Pisces
July 31 – August 15, 2025
Mission: Northeast Ecosystem Monitoring Survey (EcoMon)
Geographic Area of Cruise: Northwest Atlantic Ocean
Blog Post #4: August 6, 2025
Weather Data from Bridge:
Latitude: 43o20.065’ N
Longitude: 067o11.122’ W
Relative Wind speed: 6
Wind Direction: 66
Air Temperature: 19.6
Sea Surface Temperature: 16.91
Barometric Pressure: 1029.76
Speed over ground: 9.3
Water Conductivity: 4.13
Water Salinity: 32.04
First, A blog-reader reader emailed to ask me why they put tennis balls on the chairs in the mess hall. Their guess was that it keeps the chairs from sliding. What do you think? Should I ask the captain? Thanks for reading and asking questions!
Second, an answer to the math problem from the last blog: If I filtered water from 3 CTD Rosette bottles for 12-minute protocols at 100 stops, then I would spend 2.5 days just on that project. (Yes, I could spend a fraction of a day on a project.)
Science at Sea: This Summer EcoMon cruise is collecting data that will be analyzed to support NOAA’s mission to protect, restore and manage the use of living marine, coastal, and ocean resources through ecosystem-based management. Our planned path through the northwest Atlantic Ocean, from Rhode Island to Cape Hatteras to the Gulf of Maine, is shown in the map below. NOAA Ship Pisces is a floating weather station, reporting temperature and weather data (available on the Windy app).
Once we embarked, NOAA Corp members and Scientists evaluated weather data to determine it was preferable to go north before heading south. So, we are now in the Gulf of Maine, one of the most biologically productive marine ecosystems and possibly one of the most rapidly warming.
Unique bathymetry (that’s topography, but under water) of the area is shaped by the mixing of cool freshwater from the Arctic, the Labrador Current, and over 60 Nova Scotia to Cape Cod rivers with warmer salty Gulf Stream currents. Referred to as a semi-enclosed sea, the Gulf of Maine has shallow and deep areas such as the Bay of Fundy and Georges Shelf. As our polar ice cap melts, the Labrador Current and the more-shallow rivers become warmer. Warming temperatures strengthen the Gulf Stream. The “bath tub” effect for the Gulf of Maine translates to warming at nearly three times the global ocean average. (Read more about the Gulf of Maine and Acadia National Park’s 60 miles of coastline and 18 islands in the U.S. National Park Service here )
We have had to maneuver around humpback whales and tons of lobster pots to reach our stops and collect data that will better help scientists understand and manage this important ecosystem. But when we talk about how fast we are going, those steering the ship use the unit of “knots” instead of mph. Why?!
Screenshot Photos of Dorothy’s phone: Google Maps isn’t very helpful in the ocean!
Interesting Things: Mariners (and aviators) don’t have road maps or Google maps to steer them. They must navigate using latitude and longitude readings, based on the circumference of the earth. One nautical mile is equivalent to one minute of latitude, and one nautical mile per hour is then called one knot. NOAA Ship Pisces cruises at around 8 knots between stops. My land-based brain is still trying to convert!
On the bridge, our NOAA Corps is constantly figuring out speed, time, and distance problems to make sure the Pisces is getting where it needs to be on time, or how we’ll pass with another vessel. LT Urquhart posts the stations for the following day in our “Plan for the Day” Communication.
You do the Math: If 1 knot = 1.15 mph, how long (in hours) will it take us to get to the next stop, 15 miles away? Remember, the ship is traveling at 8 knots. Check in the next blog post for the answer.
Career Spotlight
LT Karina Urquhart is a part of the Ship’s NOAA Corps. In other words… She gets to DRIVE THE SHIP! (NOAA Ship Pisces currently has seven NOAA Corps officers, collectively called the Wardroom.) A fascination with the ocean and a strong work ethic developed through years of competitive swimming propelled her into this role. Growing up in Sanford, Maine, she began swimming in elementary school. While she appreciated the access to deep family roots, her mom also grew up in Sanford, she chose to leave Maine to attend college and continue swimming. (She didn’t especially enjoy academic studies, but figured the classes would take care of themselves. Right?)
Graduating from Clark University in Massachusetts with a degree in Environmental Science Conservation Biology and a minor in Studio Art, LT Urquhart returned to Maine summer beach lifeguarding and then found a USDA Pathways Internship in Washington, DC. The lifeguarding and internship experiences, especially spending 8-hour shifts with a colleague observing ocean currents and movements, set the stage for her NOAA Corp Basic Officer Training Class (BOTC) application. Once accepted, she was trained in ship handling and navigation to prepare her for her role as an Officer in NOAA.
BOTC provided many opportunities to sharpen her problem solving and perseverance skills. She often said, “I can do one more week of this,” and then, at some point, it got better. Her first ship assignment was on NOAA Ship Rainier, for 2.5 years, where she conducted hydrographic operations from Alaska to Guam. LT Urquhart took the technical foundation she gained from Rainier and then rotated into a three-year land assignment at NOAA’s National Center for Coastal Ocean Science (NCCOS) where she supported seafloor and lakebed habitat mapping. While working full time, she pursued a master’s degree in Geographic Information Systems, or GIS, from the University of Maryland.
As advice for people starting a new opportunity, LT Urquhart suggests leaning into the things that scare you the most because they’ll probably help you grow the most. It’s scary for a reason. If you feel stressed or overwhelmed, she suggests doing the thing that you don’t want to do first. Sometimes you just have to get over it and sometimes you have to be the person pushing yourself. LT Urquhart credits her experiences in NOAA with helping her distinguish between the challenges she can overcome, when to ask for help, and when to take a step back.
As one of two Operations Officers on board Pisces, LT Urquhart invests in the crew and scientists on our EcoMon mission, making sure we have what we need so that our mission runs as smoothly as possible. She prints the daily “Plan of the Day” listing the stops and times we’ll be collecting samples. She begins by asking “where do I think we’ll be at midnight?” and “Is this 24 hours worth of stations + transits?”. She credits our electronics and Navigation Officer (ENS Cheney) for doing much of the leg work (and math!) for the team. One tool she says that she couldn’t live without are the RADARs– the ship’s eyes that let us see objects and hazards way further than we can actually see. I’m personally glad that she has her camera. While taking pictures is not a part of her official duties, you may have noticed I’ve posted LT Urquhart’s photos in some of my blogs.
Currently, LT Urquhart is reading The Hero Within by Carol S Pearson and On Character by Stanley McChrysal. Two books she would highly recommend are Indianapolis: The True Story of the Worst Disaster in U.S. Naval History and the Fifty-Year Fight to Exonerate an Innocent Man, by Lynn Vincent and Sara Vladic and The Curve of Time, by M. Wylie Blanchet. I enjoy reading her daily updates. Thank you for communicating so well!
Personal Log
Here are some pictures of my cabin (called a stateroom). In the last blog, I posted some amazing pictures taken by my cabinmate Alyssa. Since we are working opposite shifts, we each feel like we have a private stateroom! While I think I am the oldest person onboard, Alyssa (a college student) is the youngest. I wonder if she can share more information on NOAA scholarships, internships, and volunteer opportunities available to college-aged students? Maybe we should ask….
Photos: Home, sweet home on NOAA Ship Pisces!
Isn’t it nice to have so many great photographers in one place? It has been said that a picture says a thousand words. Come meet a member of the science team who has published two bird books in my next blog…
How long are the drifters collecting information? Are there cameras on the drifters? Do they collect data about depth of the ocean? Where’s the deepest part?
Thanks for the questions! I reached out to Sam Ouertani, CIMAS (UMiami/NOAA) Research Associate, who helps Teachers at Sea connect with drifter data. She provided the following information. I’ll put them in my next BLOG for those who might not check back here.
How long are the drifters collecting information?
> Drifters typically collect data until the drifter runs aground, the batteries die, or the sensors die. Most drifters are able to collect data for 450 days, however they typically lose their drogue within a year. Without a drogue, data from drifters cannot be used to accurately estimate the surface current velocities, but drifters are still able to measure sea surface temperature and other parameters if equipped with additional sensors.
Are there cameras on the drifters?
> Unfortunately, Global Drifter Program drifters don’t have cameras but several programs in NOAA have started to add cameras. The National Data Buoy Center has added cameras to almost 100 buoys. I believe the Arctic Buoy Program has started adding cameras to observe sea ice conditions, but footage is not yet available.
Do they collect data about depth of the ocean?
>Drifters only collect data at the surface of the ocean; therefore they don’t measure any parameters below the surface, and they do not measure sea floor depth. Another NOAA program, Argo, collects temperature, salinity, and pressure below the ocean surface, but Argo floats do not reach the bottom of the ocean.
Where’s the deepest part?
>The deepest part of the ocean is the Challenger Deep, 35,876 feet deep or over 6.7 miles deep, located in the Mariana Trench. Humans measured this depth by lowering a rope from a submersible vehicle.
Another question….
The ship is collecting a ton of data which include the Sea Surface Temperature(SST). I wonder how this data is utilized to predict the intensification of hurricane and I also wonder if the data are available to the public/school and how it can be accessed?
Ferdinand, that’s a great question! Hurricanes draw energy from warm ocean waters, which act as their primary fuel source. Warmer waters lead to increased evaporation and provide more latent heat to the storm, allowing it to strengthen. The National Weather Service (NWS) is a part of the National Oceanic and Atmospheric Administration (NOAA), and uses SST data in making forecasts, but this data is available publicly here: https://www.ospo.noaa.gov/products/ocean/sst.html