Geographical area of cruise: Northwest Atlantic Ocean
Date: July 12, 2014
Weather Data from the Bridge: Wind 12 knots, 005*, Seas 1-3 foot swells, Visibility – unlimited!!
Science and Technology Log:
Maritime meets Science
NOAA has a unique relationship with the shipping industry. Ships are traditionally built with specific uses in mind. The R/V Hugh R. Sharp is owned by the University of Delaware and was completed in 2006 as a state-of-the-art research vessel. Marine architects and engineers designed mechanical and electronic systems to launch scallop dredges, the HabCam, and the CTD (conductivity, temperature, and depth) scanner. The ship can accommodate 9 crew members and 12 science staff members. The University leases the vessel to the NOAA scientific crew for specific missions or surveys. Each year NOAA sets up research surveys to collect data concerning many aspects of the fishing industry along with studies centered around conservation. The sea scallop survey is one such research project which has been a yearly event since 1977. It began as a bottom trawling event taking place for several legs (mission time periods) between May and July.
Sea scallops are a bivalve subgroup of mollusks. They take years to mature to a size that is sought after by fishermen. As with any species, overfishing is a major concern. Ideally, a species’ survival is dependent upon a consistent population. The Northeast Fisheries Association determines the scope and location of “open” fishing areas for all species of fish and shellfish. NOAA is called upon to collect data concerning the abundance or lack of scallops in a traditionally rich fishing locale or in a closed area. During our leg of the survey, we collected data using the HabCam as well as towing a scallop dredge. A map of the fishing locations is analyzed to determine the dredge or HabCam areas that are to be investigated.
Each dredge “catch” contained a variety of marine species with the inclusion or exclusion of scallops. At one event, we hauled in 16 baskets of baby scallops. These were an encouraging sign that the scallop population is prolific. At other times, no scallops were present but there was a bumper crop of sand dollars. This was because the area that they were collected is considered an “open” scallop fishing area. The range in size of the scallops that were brought in varied between 55 and 155 mm?
Fourspot FlounderCarol prepares to sort the dredge.Silver and Red HakeData collection inside the wet lab of the Sharp.
Personal Log:
Yesterday we completed our dredging events. A glorious sunset was the backdrop for this momentous occasion. Too bad there were no scallops in the dredge. We did, however collect many scallops of different sizes throughout our watch. The fog that was present for most of our dredging days finally burned off to reveal calm seas and a blue sky. The watch team that I was a member of worked like a well-oiled machine. Each member had a specific task to complete to carefully collect scientific data from each dredge event. Science is messy work and handling different species is not for sissies.
The research team and crew members gather to shuck scallops.Another spectacular sunset aboard the RV Sharp.
I look forward to returning home to be with my family and friends. The life of a sailor/scientist was an incredible experience and I am excited to share all that I have learned with my students at West Genesee. Many thanks go out to the Captain and crew of the R/V Sharp and the NOAA science staff for making my journey unforgettable.
The final dredge for the third leg of the scallop survey 2014.
The following quote sums up my experience as part of the Teacher at Sea program.
“Twenty years from now you will be more disappointed by the things that you didn’t do than by the ones you did do. So throw off the bowlines. Sail away from the safe harbor. Catch the trade winds in your sails. Explore. Dream. Discover.” Mark Twain
Geographical area of cruise: Northwest Atlantic Ocean
Date: July 9, 2014
Weather data from the bridge: Wind 204* 15 knots, Seas 4-6-10-12 ft. mixed directions, Visibility – overcast
Science and Technology Log:
Today we began dredging for scallops. The ship follows a predetermined path and the dredge is lowered to the ocean floor at specific locations along the path. These locations are chosen by the Scallop Assessment Biologist at NOAA because they are an accurate representation of the scallop population in the Northwest Atlantic Ocean. The area that we are focused on is known as Georges Bank. It is a broad, shallow submarine plateau forming the seaward boundary of the Gulf of Maine. The average depth is between 30 and 75 meters deep. It is home to an assortment of marine life including the Atlantic Sea Scallop. Several computers are employed to record all of the data that is pertinent to each dredge event. These include: ocean depth, air temperature, salinity, barometer, air speed, wind direction, fluorometer, and wind direction. The lab is in constant communication with both the bridge and the engineer who operates the winch system. Depending upon the ocean depth at the dredge station location, a specific amount of dredging cable (called line) to which the dredge net is attached, is released in order to create the best angle for the dredging operation.
3D map of Georges Bank at the Woods Hole Aquarium.Map of dredge stations.The dredge is offloaded onto the sorting table.
After 15 minutes the dredge is hauled up to the surface and the net is emptied out onto the sorting table. All members of the science team are poised and ready to sort the catch. Each sorter is outfitted with foul weather gear. This consists of rubberized jacket, coveralls and rubber boots. Also required is a life vest, heavy duty gloves, and a hard hat (if the winch is in use). Several baskets and buckets are arranged around the sorting table. One is reserved for scallops, one for assorted fish and skate, one for crabs and whelk, and the last is for items that are not part of the study. This is known as trash.
When everyone has completed their preliminary sorting, it is time to count and sort each species that was collected. Trash is also accounted for. Each basket that is returned to the ocean is counted and data is recorded. The sorting and trash data is entered into the computer system inside the wet lab (also known as the van). At the three stations inside the van, a measuring tray is utilized to quickly measure and record the length of certain fish, scallops and skate. The first large scallop from each dredge event is photographed as a representation of that event. All large scallops are then weighed and shucked and the scallop is sexed (recorded as a male or female). The sex organ is weighed as well as the meat. The shells of the large scallops are cleaned, labeled, and placed into a muslin bag in order to be further analyzed at a NOAA laboratory back on shore. At the conclusion of the dredge event and sorting process, the lab is cleaned and prepped for the next event.
During our first watch, our team completed seven dredge events. Each event can take more than an hour from start to finish. Our catches included a variety of marine species: scallops, sand dollars, ocean pout, windowpane flounder, yellowtail flounder, four spot flounder, and gulfstream flounder, silver and red hake, quahogs, barn-door and winter skate, haddock, sand lance, cancer and hermit crab, sea mouse, sea sponge, fawn cusk eel, wave whelk, and monkfish (goosefish).
Sorting the dredge.Carol measures a skate inside the labBaby Scallops to be counted, weighed, and measured.
Personal Log:
As an inexperienced sailor and scientist, the NOAA staff all worked hard to train me to complete many of the tasks required during our watch. Scientific method and protocol was followed to a “T”. It was an awesome and intense responsibility to fly the HabCam, annotate images recorded by the HabCam, monitor environmental data, set up the dredging event on the computer system, and record the sample data. Throughout the scheduled watch we witnessed whales spouting and breaching, and porpoise antics. During our down time we enjoyed the company of each other as well as the delicious meals prepared by Chef Paul.
Life at sea can be challenging. The weather is checked often in order to adjust the dredging route. High waves can make a dredge event difficult. They can also be a safety issue out on deck. For this reason, each person is required to wear a life vest and boots. Anyone on deck during a dredge drop or haul back is also required to wear a hard hat.
After a long, hard day, sleep is usually the best thing that you can do for yourself. The cabin area is quiet at all times because everyone is on a different shift. I am in a 4-person cabin but my roommates are all on the opposite shift. The rocking of the ship, and background engine noise makes it easy to fall asleep for long periods of time.
Did you know?
Scallops can be male or female. The simplest way to determine the sex is to open the scallop shell and examine the gonad. Female scallops have a pink gonad and males are cream-colored.
Female scallop is on the left and a male scallop is on the right.
Photo Gallery
An assortment of Sea StarsFin Back Whale sightingDolphins at playOcean Pout – eats sand dollars
Answer to last poll:
The R/V Hugh R. Sharp has at least 88 computer monitors on board. An equal number are part of the navigational and monitoring systems as well as the scientific research components.
NOAA Teacher at Sea Alicia Gillean Aboard R/V Hugh R. Sharp June 27 – July 7, 2012
Mission: Sea Scallop Survey Geographical area of cruise: North Atlantic; Georges Bank Date: Tuesday, July 3, 2012
Weather Data from the Bridge Latitude: 41 13.20 N
Longitude: 066 35.21 W
Relative Wind Speed: 2.3 Knots
Air Temperature: 18.72 degrees C
Humidity: 78%
Surface Seawater Temperature: 15 degrees C
Science and Technology Log
The HabCam-ing and dredging continue here in the North Atlantic in calm seas and clear skies!
Alicia installing sensor on dredge
I learned a new part of the data collection process with the dredge. Each time the dredge goes out, a sensor that tracks the pitch and roll (side to side and up and down movement) of the dredge on the ocean floor needs to be installed on the dredge. When the trawl is complete, the sensor is removed and the data is uploaded to the computer. It is automatically plotted on a line graph that visually tells the story of the dredge’s movement on the ocean floor. This data is eventually combined with all the other data gathered at each dredge station. Installing and removing the sensor has been my job for the last couple of shifts. To do this, I have to climb up on the sorting table when the dredge is first brought to the surface, remove a metal pin and plastic holder that keeps the sensor in place, remove the old sensor and add a new sensor, then reinstall the holder and pin. This all happens before they dump the dredge. On a funny note, on my way to the sorting table to add the sensor to the dredge earlier today, I managed to trip on a hose that was on deck and turn it on, watering myself and the lab technician that was on the deck with me and entertaining everyone else watching, I’m sure! Luckily, we were all wearing our foul weather gear, so no one was soaked!!
It’s interesting to experience all the different pieces that make a successful dredge tow. Before coming to sea, I guess I just assumed that you lowered a big net to the ocean floor and hoped to catch something. I had no concept of how methodical and detailed each deployment of the dredge really is, from the locations, to the timing, to the number of people involved, to the detailed data collection. The process is still being refined, even on this third leg of the sea scallop survey. One of the scientists on my watch is an engineer who helped design and build the latest version of HabCam. When a part that holds the sensor in the dredge was not working correctly, he was asked to use his engineering skills to create a better way to hold the sensor, so he made the needed modifications right on the ship.
Day shift starting to sort a dredge haul
While sorting the haul from dredging stations, I sometimes run across ocean critters that I’ve never seen before. I usually set these to the side to snap a picture after we finish sorting and to ask a scientist, usually Karen or Sean, to identify it for me. It turns out that the strange hairy, oval-shaped creature I keep running across is a type of worm called a sea mouse. In my pictures it looks like a grassy ball of mud, but it’s much more interesting in person, I promise! I consulted a field guide in the dry lab to learn a little more about it. Its scientific name is Aphrodita hastate and it is usually about 6 inches by 3 inches and can be green, gold, or brown. There are 15 gills hidden under the bristly fur. They like muddy areas and often live in the very deep parts of the ocean, so they are only seen when brought up with a dredge or after being tossed ashore in a storm. I haven’t seen any of them in the HabCam images, so I’m wondering if they tend to burrow in the mud, if their camouflage skills are really impressive, or if we just haven’t flown over any. The HabCam moves so quickly (remember, it takes 6 pictures per second) that it’s impossible to see everything in enough time to figure out what it is.
Belly of a sea mouse
Another item that keeps coming up in the dredge looks like a clump of pasta shells and cheese and it crumbles easily. My initial guess was that it is some type of sponge, but I was wrong. It turns out these are moon snail egg cases. Once I’m back ashore, I think I’ll have to find out more about these.
Moon snail eggs
We’ve seen lots of sea stars, scallops, sand dollars, crabs, clams, hermit crabs, flounder, several species of fish called hake, and skates (relative of the stingray) in the dredge hauls. We’ve also seen most of these on the ocean floor with the HabCam. One of the scientists found a whale vertebrae (part of the backbone) while sorting. It’s at least a foot and a half wide and 8 inches high! Can you imagine the size of the whale when it was alive? Each haul usually has a monkfish or two in it. I’ve heard that these fish are pretty tasty, but they sure look mean! I was warned early on to keep my hands away from their mouths unless I want to get bitten!
Alicia with monkfish
Today is supposed to be a day of mainly flying the HabCam, so I’m hoping to be able to interview a few people on the ship about their jobs for use back at school when I’m not flying the HabCam or co-piloting.
Pretty sea stars that came up in the dredge
Personal Log
I ate my first real meal in the galley tonight and it was pretty tasty! The steward, Paul, has worked on this ship for eight years and seems to have cooking a sea down to a science. He has to work and sleep some unusual hours to keep everyone aboard well-fed, but he does it with a smile on his face. Between the meals, snacks, and limited space to exercise, I imagine that keeping fit while at sea for long periods of time can be a challenge. There is a stationary bike next to the washer and dryer, but other than that you have to be creative with getting your exercise. I saw one crew member on the deck this morning with a yoga mat doing crunches and using a storage container to do tricep dips. He said that it’s a challenge, but that you can find ways to keep in shape at sea if it’s a priority for you.
I actually slept better the first few days at sea when I was seasick than I do now that I’m feeling better, thanks to the anti-nausea medication, I expect. I’ve found that earplugs are essential for catching sleep aboard the ship when I’m not medicated! There is one washer and dryer aboard the ship and I’ve had a bit of trouble finding a time when it’s not in use, so I decided to do my laundry at 5 am a day or so ago when I was having trouble sleeping. I figured I may as well use insomnia to my advantage and it was so nice to use a towel that is finally completely dry for the first time in a week!
There are 22 people aboard this ship; 12 scientists and 10 crew members. Four of the scientists and two of the crew are women. Because of watch schedules, most of the time I see only two other women while I’m awake. All that to say, the ship is a pretty male-dominated arena, with lots of ESPN, toilet seats left up, and guy humor. I feel very welcome aboard the ship, but I find that I spend most of my down time doing my own thing, like working on this blog or just enjoying the view, since I’m not much of a movie or sports watcher. With fabulous views of the Atlantic Ocean and beautiful weather, this doesn’t bother me a bit! In fact, I find that I see the most animals swimming in the ocean during these down times. Today it was a huge group of jellyfish swimming next to the ship!
I’m still enjoying my time at sea and am looking forward to learning even more in my last few days.
NOAA Teacher at Sea Alicia Gillean Aboard R/V Hugh R. Sharp June 27 – July 7, 2012
Mission: Sea Scallop Survey Geographical area of cruise: North Atlantic; Georges Bank Date: Sunday, July 1, 2012
Weather Data from the Bridge Latitude: 40 48.43 N
Longitude: 068 04.06W
Relative Wind Speed: 8.9 Knots
Air Temperature: 17.61 degrees C
Humidity: 92%
Surface Seawater Temperature: 16 degrees C
Science and Technology Log
Dumping dredge onto sorting table
My last shifts have been a mix of HabCam work and dredging. Remember, dredging is when we drag a heavy-duty net along the ocean floor for fifteen minutes, then bring it up and record what ocean critterswe catch. Dredging involves a lot more physical work and is much dirtier than flying the HabCam, so time goes much faster when we are dredging and it’s exciting to see what we will catch. However, it is also kind of sad to see all the animals we bring up in the dredge, because most of them are dead or will soon be dead. You can watch a video about sea scallop dredging here and here.
There are three two-week legs to this sea scallop survey. I am on the last leg. Before the first leg began, a computer program, with the assistance of a few people, decided which spots in the sea scallop habitat we should dredge and fly the HabCam. These points were all plotted on a computerized map and the chief scientist connects the dots and decides the best route for the ship to take to make it to all the designated stations in the available time.
Here’s how our typical dredging process works:
About 10 minutes before we reach a dredge station, the Captain radios the lab from the Bridge (fancy name for the place at the top of the ship where the Captain and his crew work their magic) to let us know we are approaching our station. At this point, I get on a computer in the dry lab to start a program that keeps track of our dredge position, length of tow, etc. I enter data about the weather and check the depth of our dredge station. When the engineer and Captain are ready, they radio the lab and ask for our depth and how much wire they need to send out to lower the dredge to the ocean floor. I get the wire length from a chart hanging in the dry lab that is based on the depth of the ocean at the dredge site and use the radio to tell the engineer, who lets out that amount of wire until the dredge is on the ocean floor. When the dredge hits the ocean floor, I use the computer program to start timing for 15 minutes and notify them when it is time to bring the dredge back up.
Alicia sorting the haul
The lab technicians and engineer raise and dump the dredge on a giant metal table, then secure it for the scientists to come in and begin sorting the haul. Meanwhile, the scientists get dressed in foul weather gear to prepare for the messy job ahead. That means I’m wearing yellow rubber overalls, black steel-toed rubber boots, blue rubber gloves, and a lovely orange lifejacket for each dredge. Sometimes I add a yellow rubber jacket to the mix, too. Science is not a beauty contest and I’m grateful for the protection! Each scientist grabs two orange baskets, one large white bucket, and one small white bucket and heads to the table. The lab technicians shovel the catch toward each scientist as we sort. Scallops go in one orange basket, fish go in the white bucket, crabs go in the small white bucket (sometimes), and everything else goes into the other orange basket. This is considered “trash” and is thrown back overboard, but the watch chief keeps track of how many baskets of “trash” are thrown overboard during each haul and enters it into a computer database along with other data. After sorting the haul, much of the data collection takes place in lab called a “van”.
Research “van” where we gather data from haul
The fish are sorted by species, counted, weighed, sometimes measured, and entered into a special computer system that tracks data from the hauls. Sometimes we also collect and count crabs and sea stars. The baskets of sea scallops are counted and weighed, and then individual scallops are measured on a special magnetic measuring board. You lay the scallop on the measuring board, touch the magnet to the board at the end of the scallop, and the length is automatically entered into the database. Some hauls have lots of sea scallops and some don’t have very many. We had a couple hauls that were almost completely sand dollars and one that was almost completely sea stars. I learned that sea stars can be quite slimy when they are stressed. I had no idea!
Dredge haul with LOTS of sand dollars
Sometimes my watch chief, Sean, will select a subsample of five sea scallops for us to scrub clean with a wire brush.
Alicia scrubbing scallops at about 11pm
Next, we weigh and measure all five sea scallops before cutting them open to determine the gender. We remove the gonad (the reproductive organ) and weigh it, then do the same with the “meat” (the muscle that allows the scallop to open and close its shell and the part people like to eat). All of this information is recorded and each scallop is given a number. We write the number on each shell half and bag and tag the shells. The shells and data will be given to a scientist on shore that has requested them for additional research. The scallop shells can be aged by counting the rings, just like counting the rings on a tree.
Scrubbing scallops is dirty work!
Meanwhile, other people are hosing off the deck, table, buckets, and baskets used. The dredge ends by shucking the scallops and saving the meat for meals later. A successful dredge requires cooperation and communication between scientists, lab technicians, the Captain, and the crew. It requires careful attention to detail to make sure the data collected is accurate. It also requires strategic planning before the voyage even begins. It’s an exciting process to be a part of and it is interesting to think about the different types of information that can be collected about the ocean from the HabCam versus the dredge.
Personal Log
Hallway to the shower and bathroom
Living on a ship is kind of like living in a college dorm again: shared room with bunkbeds, communal shower and bathroom down the hall, and meals prepared for you. I can’t speak to the food prepared by the steward (cook) Paul, as I haven’t been able to eat much of it yet (I’m finally starting to get a handle on the seasickness, but I’m not ready for tuna steaks and lima beans just yet), but I do appreciate that the galley (mess hall) is open all the time for people to rummage through the cabinets for crackers, cereal, and other snacks. There’s even an entire freezer full of ice cream sandwiches, bars, etc. If my husband had known about the ice cream, he probably would have packed himself in my duffel bag for this adventure at sea!
Taking a shower at sea is really not much different than taking a shower at the gym or in a college dorm… in the middle of a small earthquake. Actually, it’s really not too bad once you get used to the rock of the ship. On the floor where the scientists’ berths (rooms) are, there are also two heads (bathrooms) and two showers. The ship converts ocean water into water that we can use on the ship for showering, washing hands, etc. through a process called reverse osmosis. Sea water is forced through a series of filters so small that not even the salt in the water can fit through. I was afraid that I might be taking cold showers, but there is a water heater on board, too! We are supposed to take “Navy showers”, which means you get wet, press a button on the shower head to stop the water while you scrub, then press the button to turn the water back on to rinse. I’ll admit that I find myself forgetting about this sometimes, but I’m getting much better!
Shower on Hugh R Sharp
Today there was about an hour and a half of “steam” time while we headed to our next dredge location and had nothing official to do. Some of the people on my watch watched a movie in the galley, but I decided to head to one of the upper decks and enjoy the gorgeous views of ocean in every direction. I was awarded by a pod of about 15 common dolphins jumping out of the water next to the ship!
I’m starting to get a feel for the process of science at sea and am looking forward to the new adventures that tomorrow might bring!
Question of the Day
Which way do you think is the best way to learn about the sea scallop population and ocean life in general: dredging or HabCam? Why do you think so?
You can share your thoughts, questions, and comments in the comments section below.
NOAA Teacher at Sea Janet Nelson Huewe Aboard R/V Hugh R. Sharp June 13 – 25, 2012
Mission: Sea Scallop Survey Geographic Area: North Atlantic Monday, June 25, 2012
Weather Data from the Bridge: Latitude: 41 24.21 North
Longitude: 069 54.98 West
Wind Speed: 13.7 kt
Air Temperature: 17 C
Final Log:
We are steaming for home. Woods Hole, MA that is. In the past ten days we have conducted 71 scallop dredge tows and processed 15, 979 scallops. We also took over 4 million images with the HabCam in 691 nautical miles of this leg. We have been a little busy.
A tow of scallops
This morning (0600 hrs.) we mustered in the dry lab and began our assignments, ranging from swabbing the decks to vacuuming our state rooms. Tonight I will be in Boston and then on my way back to Minnesota. I am ready to go home, but I know I will think back fondly on a few things. The rocking of the boat when I’m going to sleep. Meals prepared for me. The sound of waves and water. The hum of the engines. Seeing what comes up in the scallop dredge. Being on deck and on the bridge. A hap chance at seeing whales or dolphins. New friends and fun banter. Even though this journey began with an unpleasant introduction, it is ending with fond feelings.
Me and a barn door skate!
Being on this boat has been interesting for several reasons. I have learned new things about ocean life that I can take back to my classroom as well as a few souvenirs. I can honestly say I have never seen more scallops in my life, not to mention sand dollars and sea stars! I am looking forward to sharing this experience with my family, students, and friends. As I write this last blog, I am thinking of what a privilege it has been to be a member of this team of researchers. I am honored to learn from them. To my team: Jon, Nicole, Mike, Jess, Alexis, Ted, Nick (TG), and TR, thank you!! This experience would not have been the same without you! I will remember you fondly for many, many days to come.
