Amy Pearson

August 27, 2007April 2, 2021

Amy Pearson, August 27, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 27, 2007

Weather Data from the Bridge
Air temp: 15.6
Water temp: 15.1
Wind direction: 003
Wind speed: 12 kts
Sea wave height: 2-3 ft.
Visibility: 10+

Science and Technology Log

What a gift. After what seems like many days of fog, it is a perfect day in the Gulf of Maine. I witnessed it at about 1:30 a.m. from the bridge where I went to photograph a full moon from the “darker” end of the ship. The deck where we work (stern) is well lit all night, so there is light pollution. The reflection of the moon on the water is hard to reproduce in a photo, but worthy of the attempt. The air has also cleared, replaced with dry, crisp Canadian air, and as a bonus, the seas are calm. After a good six hour sleep I head to the deck for what I think is the best morning yet. Clear skies with visibility that seems infinite, deep blue water with barely 1 ft. waves, and a gentle breeze mark the morning hours. The air feels so clean, almost brand new.

Shearwaters are gliding onto the top of the water and dunking their head in for a quick taste. It is the first time I’ve see herring gulls at sea in at least a week. There are large mats of yellowish sargassum floating in the water. There have been humpback whales spotted but I haven’t seen them yet. It is still quite deep here, about 200 meters. The plankton samples contain a lot of Calanus which is almost a salmon color and appears like small grains of rice in the sieve. It is a tiny crustacean, and food for so many large organisms…a favorite of young cod. I was late for breakfast but had some freshly cut honeydew melon, toast and cheese. Some warm coffee cake was soon put out. I’m so lucky to have this great experience. I spotted a grey triangular shaped dorsal fin in the water. It was quite wide at the base and a lighter grey near the top. It appeared twice then disappeared. Claire on the bridge confirmed sighting, a Mola Mola, a large sunfish.

On one side of the ship a lunar eclipse was taking place, while on the other the sun was rising. — On one side of the ship – a lunar eclipse, the sun was rising on the other

Today is such a spectacular weather day. The Chief Steward pulled out the barbecue grill and charcoals were lit late in the afternoon. He added some hickory wood and grilled steaks and tuna. What a feast! We took samples in the Gulf of Maine today and tonight. They were a salmon pink color due to the calanus but contained a mix of zooplankton including amphipods, glass shrimp, and a few large, clear jellyfish. I preserved a jar from the baby bongo net for my students. Because I work into Tuesday morning, I wanted to include a special event on 7/28 at about 4:50 a.m. There was a lunar eclipse going on one side of the ship and a gorgeous sunrise on the other. Photos of both are below, as well as the moon rise the evening of 8/27, above.

Thanks to Kim Pratt, a fellow teacher, & Jerry Prezioso, a NOAA scientist.

A Shipboard Community

Nineteen people living aboard a ship, working twenty-four hours a day, seven days a week for seventeen days. A very unique community. Thirteen of them are there to support the scientific research of four science staff and to maintain the ship for its use as a scientific research vessel. The four-man deck crew maintains the ship and runs the heavy equipment for the scientists. The four-person NOAA Corps staff navigate, drive and manage the ship. They re-adjust courses when conditions force a change, deal with fog and rough seas, lots of other boats that want to be in the same place we do, and make sure everyone has their needs met. The two-person kitchen staff feeds this team of nineteen as they work on twenty-four hour shifts. Good food is so important on a ship. The Four-person engineering team seems to stay behind the scenes (below deck!) and keep all systems running like clock-work. Last, but certainly not least is the electronic technician, a genius with anything that has wires. He told me the favorite part of his job is problem-solving, and quite frankly, that is what is required of him each day. From email to satellite TV reception to the electronics in the winch, he is constantly fixing new problems or finding ways to make things work better. Each person has a different background and reason for being here.

Thanks to Betsy Broughton, also a scientist.

The age range of the members of this community begins at 23 and goes to the upper 50’s. The key to a good working ship is respect, consideration, and cooperation between people. There are many personal stresses on everyone, from lack of personal space, lack of sleep, seasickness, little contact with family, and inability to “go home”. In addition, each person needs to think of the needs of others so as not to disturb them or make their jobs any harder than they already are. This may seem like a utopian ideal. I suspect it is achieved on many vessels, though I can only speak for the DELAWARE II. What a great team to work with. Thank you for your support.

Teachers Kim Pratt and Amy Pearson say thanks to the crew of the DELAWARE II.

August 25, 2007April 2, 2021

Amy Pearson, August 25, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 25, 2007

Teachers Amy Pearson and Kim Pratt deploy a drifter buoy

Weather Data from the Bridge
Latitude: 4130 Longitude: 6650
Air temp: 17.8
Water temp: 16.7
Wind direction: 220
Wind speed: 16 kts.
Sea wave height: 2 ft.
Visibility: 4 nm

Science and Technology Log

Woke to another foggy day, though the air temperature is warm (18.6 at 1:30 p.m.). When a humid air mass hits the cooler Gulf of Maine water, fog results. At about 1 p.m. we got a call from the bridge saying we just crossed into Canada – could we see the line in the water? (everyone has a sense of humor here). Yesterday we decorated the surface drifter buoy that will send location, air and water temperature data to a satellite. Our school logos and websites are written on the buoy as well as the message “leave in the water”. NOAA will post this data on the Internet for anyone to track. Today we will deploy the buoy. Our school communities can watch this for over 400 days! Deployment went well, but the cloth drogue (holey sock) came apart and seemed to disappear below the buoy. We wore inflatable life vests and were tethered to the boat when we tossed the buoy off the ship.

Amy and Kim decorate the buoy for launch

Shortly after this, we took a plankton sample and as the net was coming up, I spotted some pilot whales about 40 ft. off the starboard side of the ship. There were six together, then another group appeared off the stern. They seem to stay very close together. Length was approximately 12-16 feet. They seemed to enjoy riding the stern waves. They were very cute, as the photo below shows.

Science Topic

This cruise is called an Ecosystems Monitoring Cruise. They happen four times per year, during January, May, August and November. Additional data to support this data set is collected on Fish Survey Cruises that occur in March, April, September and October. As I said in an earlier log entry, its mission is to assess changing biological and physical properties which influence the sustainable productivity of the living marine resources of the mid-Atlantic Bight, southern New England, Gulf of Maine and Georges Bank portions of the northeast continental shelf ecosystem.

Amy Pearson with a harnass connecting with ship for buoy deployment. — Amy Pearson with a harness connecting with ship for buoy deployment.

The plankton that is collected and analyzed must be collected in the same exact manner during each cruise in order to compare it from season to season and year to year. The constant materials used are identical 61 cm diameter Bongo Nets with mesh size of 335 microns. The net is towed at a constant speed of 1.5-2 knots, 5 meters from the bottom or to a maximum depth of 200 meters. The rate of release of the nets into the water is constant as is the rate of return. There is always a 45 kg weight at the end of the wire that the nets are clipped to. The angle of the wire with the water is maintained at 45 degrees. Keeping these parameters constant allows scientists to compare the net catches because the only variable is what is very enthusiastic and dedicated. Even when I offered to take over the hosing of nets at the end of his shift, his response was, “I live for this!” NOAA is fortunate to have so many dedicated scientists and employees who work at sea. This is definitely not like any job I’ve experienced. The challenges of life at sea make it not something everyone can do. Betsy Broughton, the other scientist aboard is also high energy when it comes to this work. She clearly loves every minute and enjoys sharing her knowledge with others. I have learned much from both of them.

A flowmeter in each net measures how much water passes into each net and its data is part of the equation when amount of plankton per amount of water is calculated. Jerry Prezioso has been involved with this project since the 1970’s and is very enthusiastic and dedicated.Even when I offered to take over the hosing of nets at the end of his shift, his response was, “I live for this!” NOAA is fortunate to have so many dedicated scientists and employees who work at sea. This is definitely not like any job I’ve experienced. The challenges of life at sea make it not something everyone can do. Betsy Broughton, the other scientist aboard is also high energy when it comes to this work. She clearly loves every minute and enjoys sharing her knowledge with others. I have learned much from both of them.

Pilot whale observed in the Gulf of Maine, following our ship.Others were underwater when I snapped the photo! — Pilot whale in the Gulf of Maine, following us. Others were underwater when I shot the photo!

August 24, 2007April 2, 2021

Amy Pearson, August 24, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 24, 2007

Teacher Amy Pearson and Kim Pratt dressing up as plankton

Weather Data from the Bridge
Air temp: 19.9
Water temp: 16.8
Wind direction: 185
Wind speed: 10 kts.
Sea wave height: 1to2 ft.
Visibility: 4

Science and Technology Log

Early this morning we were at the southeastern edge of George’s Bank. Last night my team (Betsy and I) had collection stations at about 5:10 p.m., 7:30 p.m., 10:30 p.m., and 2:20 a.m. (today!). At 2:20 a.m. we were at a very deep location (305 meters depth) and about 200 miles offshore. I was surprised to come on deck and see 3 lights from other boats. Two were just small single lights. The other ship had bright lights on and was moving away from us, probably fishing. We first did a vertical drop of the CTD to get the temperature and salinity with depth all the way to the bottom. At 298 meters it was 6.7 degrees Celsius. One can look at the salinity and temperature here and predict if this continental slope water is coming from the north (Labrador Current) or from the continental shelf. It will be less salty and cooler if coming from Labrador. Betsy predicts it is coming from Labrador, based on the data. go to sleep around 3 a.m. and wake several times, hearing foghorns from our ship. At 10:30 a.m. there is pretty dense fog, and while we are underway we must sound a foghorn once every 2 minutes. If we are limited in our movements (plankton tow) we must sound one long and two short sounds. It is quite humid (we are in a cloud!) and the air temperature at 1 p.m. is about 19 degrees Celsius. Our 75^th station samples were loaded with gammarid amphipods that Betsy nicknamed clingons because they cling to the plankton net. This fog does make seeing whales more challenging. Hope it lifts soon!

Jerry Prezioso, Amy Pearson, Kim Pratt, Joe Kane with 1 weeks worth of plankton samples collected during the southern leg of Ecosystem Cruise

What Is the Mission of This NOAA Cruise?

The primary objective of the cruise is to assess changing biological and physical properties which influence the sustainable productivity of the living marine resources of the mid-Atlantic Bight, southern New England, Gulf of Maine and Georges Bank portions of the northeast continental shelf ecosystem. The following items are being measured: water column temperature, salinity, and chlorophyll-a fluorescence, and ichthyoplankton and zooplankton composition, abundance and distribution. The teachers aboard will deploy a surface current drifter buoy that will allow our students to track water movements and temperatures in near real-time on an Internet website. We will also collect Pseudonitzchia (a red-tide pinnate diatom) samples from the ship’s flow-through seawater system for mapping the distribution of it in the Gulf of Maine and George’s Bank. Zooplankton is also being collected for the Census of Marine Zooplankton Project (formerly called the Zooplankton Genome Project).

Small puffer fish and salps mixed w/ other plankton — Puffer fish and salps mixed with plankton

From my perspective, I never thought there would be such big differences in the type and amount of plankton we collect at different locations. The diversity is very interesting, from large jellies to small zooplankton. We have seen amphipods (tiny crustaceans), tiny crabs (still maturing), brownish phytoplankton, salps (clear jellies the size of a small walnut), to brownish creatures too small to see, krill, arrow worms…and many more. The scientists are quite knowledgeable and usually predict what we will be seeing at each spot. I’ve put a few photos here to illustrate the diversity.

Small fish, large jelly fish and other types of plankton

August 22, 2007April 2, 2021

Amy Pearson, August 22, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 22, 2007

Weather Data from the Bridge
Air temp: 18.7
Water temp: 17
Wind direction: 75
Wind speed: 15kts.
Sea wave height. 2 ft.
Visibility: 7 nm

Science and Technology Log

Woke to the sound of engines warming up. We were docked in Woods Hole having arrived at 6 p.m. on Tuesday to exchange scientists. Scientist Joe Kane who supervised my shift was departing and a new scientist, Betsy Broughton, was joining us. Yesterday, the crew and scientists were very excited for the chance to get on land. Many joined their families who live nearby. I met my husband for dinner at a location about half-way between here and my home. It was great seeing him. The DELAWARE II would be departing Woods Hole at 6a.m. The water was very calm and the morning light just beautiful. Everyone seemed recharged for the final leg of our cruise. After an early morning walk, I got on the exercise bike for a while.

Martha’s Vineyard Lighthouse being restored

Today I had a tour of the engine room, a place I had observed engineers entering with earphones but hadn’t seen. I followed Engineer Chris O’Keefe down a ladder into a very warm and noisy engine room. It is huge and very clean. We first went into the office/control room where it was quiet and he showed me the many dials, switches, and screens that monitor the different systems of the ship. There is one engine, two generators for producing electricity, and another generator in the bow to run the bow thrusters and hydraulic winches. There is also a system for making fresh water from sea water, utilizing a heat exchanger. Cool salt water condenses the steam to form fresh water, which is then chlorinated. The ship has about 10 fuel tanks and can carry 70,000 gallons of fuel. There is also a machine shop below with tools and some space to work. I am very impressed with the organization of materials, cleanliness of the space and the size of the engine. There is a lot to keep track of down here, and it is well organized and clean.

Jerry Prezioso and Betsy Broughton changing CTD batteries

As we left Woods Hole, we passed north of Martha’s Vineyard and I noticed a light house with an orange ladder next to it. I recalled that a friend of mine, Marty Nally, was going to be restoring this lighthouse at this time. Right is a photo of the lighthouse with the orange ladder, Marty must be nearby! The CTD (conductivity, temperature, and depth) unit that we use can work for about 90 times before it needs a battery change. It is close to 60 stations and Jerry decided to change the batteries. He and Betsy (our new scientist on board) did this today during a calm moment.

My first plankton sample was done at around 9 p.m., and loaded with amphipods, tiny crustaceans that have little hook-like structures on their legs that make them very hard to remove from the nets. Our midnight sample was about the same. We were collecting at an area called Nantucket Shoals, east of Nantucket. It is shallow and has a hard bottom. I was surprised to get on deck to see at least 15 lights from fishing boats, fairly evenly spaced in a long line. I heard that we had to change our collection site a bit due to the position of all of these boats. I was quite tired and went to sleep at about 12:30 until 2:20 a.m. when I thought we would be at our next station. I discovered that it would not be happening on our shift and went to sleep. One thing about this ship, there is always noise, humming of some piece of equipment. Headphones are very helpful in blocking it out…whether there is music, a book on tape, or just no noise. It looks like tomorrow will be a much busier night, so I hope to stock up on some rest tonight!

August 19, 2007April 2, 2021

Amy Pearson, August 19, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 19, 2007

Weather Data from the Bridge
Air temp: 24.8
Water temp: 24.3
Wind direction: 200
Wind speed: 11 kts.
Sea wave height: 1-2 ft.
Visibility: 10+

Science and Technology Log

Woke at 8 a.m., had some breakfast, and then went back to my cabin to read and sleep more. Lunch was wonderful, including smoked salmon Sunday and some great butternut squash soup. I visited the bridge to collect some data and learned that the ship receives XM satellite radio to gain weather data. As I was shown the Nobeltec software system along with a map that showed the currents in different locations, LT Monty Spencer remarked that sometimes he felt like he was “driving the ship with a mouse”….so much important computer-based navigation.

Opening the cod end of net to release plankton

It was a busy sampling shift, with collections at about 6 p.m., 8:30 p.m., 11 p.m., 1:10 a.m., and 2:45 a.m., though the other shift workers came early and told us to go to sleep. Our first sample occurred off Delaware Bay and was loaded with lots of heavy jellies and brownish green phytoplankton. As we moved north the plankton changed. The 8:30 p.m. sample was still high in jellies and phytoplankton but had some amphipods. The 11 p.m. sample had a small puffer fish puffed out, several worms, and amphipods. The 1:10 a.m. sample had a worm and lots of amphipods. The photos in this log show me hosing down the plankton within the nets, and then hosing it into a sieve which will be taken into the wet lab where the plankton will be preserved with formalin. I saw the glow of Atlantic City from the sea—it was a long white light with a red light near the middle.

A phytoplankton sample with small pufferfish

Life on a Research Vessel

Working on a scientific research vessel requires adjusting to some changes from life/work on land. Basics like smaller living space, meals at designated hours, a limited area to live, are changes I have observed. Working 24 hours means shifts for all. The scientists work from 3 a.m. to 3 p.m. and another group works from 3 p.m. to 3 a.m. The NOAA officers on the bridge work 4 hours on, 8 hours off, then 4 hours on again. At night a crewmember joins the officer on the bridge, to provide a second set of eyes. I was amazed to find the bridge dark at night with the exception of the instruments. This allows them to see what’s on the water clearly. The engineers work similar hours: 4 hours on, 8 hours off. The crew works 12 hours on, 12 hours off, from 12 to 12. The wiper works a day shift beginning about 6 a.m., for about 8 hours. The chief steward (head chef) and second cook work over 12 hours, as breakfast begins at 6 a.m. and dinner ends at 6:20 p.m.

Amy takes a spin on the stationary bike — Amy takes a spin

Then there is clean up. Because someone is always off shift, one must be quiet so as not to wake up those sleeping. If you share a room with someone who is sleeping, you are not supposed to go into the room when they are sleeping. Free time can be spent sending email, on deck (there are some chairs), in the galley, or in your room if no one is sleeping. The galley has satellite TV at one end and a big screen at the other where movies can be watched. The ship receives about 20 new movies per month that rotate among ships. ENS Claire Surrey has the responsibility of updating a movie list. There are also many other movies that stay on the ship. There is also an exercise bike and some free weights for those interested in this form of exercise.

August 18, 2007April 2, 2021

Amy Pearson, August 18, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 18, 2007

Chief Steward, Jonathan Rockwell, and CO of the DELAWARE II, Jeff Taylor

Weather Data from the Bridge
Air temp: 24.1
Water temp: 26.4
Wind direction: 030
Wind speed: 12 kts.
Sea wave height: 3 ft.
Visibility: 10+

Science and Technology Log

What a beautiful day. Humidity is gone and there is a nice breeze, bright sun and 2-3 ft seas. Up at 7 a.m. just in time for breakfast of blueberry pancakes, bacon and an egg sandwich. Email checked and data collection for logs happened. I went to the bridge and interviewed the Commanding Officer (CO) Jeff Taylor and the ship’s navigator, Ensign Claire Surrey. I also interviewed and taped Patrick Bergin, the ship’s electronic technician. Information from them will be in another log entry. We also observed a large pod of bottlenose dolphins (at least 25) swim with the boat for a short time in the morning. A smaller group with larger individuals came by around 3:30 p.m. I did get some video of the first group—very beautiful creatures.

After lunch I sent my first four logs to the NOAA office in Maryland. We do not have Internet access here, just email access on 3 computers. This all went quite smoothly. My evening watch begins with a sampling at about 6 p.m., another at about 9 p.m. and one more at approximately 12:20 a.m. During the evening we headed inshore, the ocean depth decreased, and flies were annoying us on deck. Contents of the plankton tows have increased in volume with more jelly-like creatures, such as Salps. We observe more ships in the area. Learning about NOAA’ s mission and how this ship fits into the mission took place today. The organization NOAA falls under the auspices of the Department of Commerce (DOC). It used to be under the Dept. of Interior. NOAA’s many divisions support the mission of DOC. The organization has just 299 NOAA Corps officers, a congressionally approved maximum. All others who work for NOAA (99% of workers) are civilian marine workers employed by the government. They include scientists, crew, who are called wage mariners, and the many support staff who work for these people. To become a NOAA Corps officer, one must apply and compete with many worthy candidates.

The maximum age to apply is forty-two years old. One must have a bachelor’s degree in an area of science or engineering with two semesters of both calculus and physics. Upon being accepted, one would begin with a sixteen-week training program at the Merchant Marine Academy in Kings Point, N.Y. Then the individual would receive their first sea assignment that would last two to three years. Following this, a three-year land based assignment would happen. For both of these assignments the officers can submit a rank of requests for location. After twenty years, they may retire with a pension. On this cruise there are four NOAA Corps officers: LT Jeff Taylor, the acting Commanding Officer, LT Monty Spencer, the Executive Officer, ENS Francisco Fuenmayor, operations officer, and ENS Claire Surrey, navigation officer. More information on their job descriptions will appear in another log.

August 17, 2007April 2, 2021

Amy Pearson, August 17, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 17, 2007

A beautiful moth landed on the plankton net

Weather Data from the Bridge
Air temp: 21.7
Water temp: 24.3
Wind direction: variable
Wind speed: variable
Sea wave height: 4kts.
Visibility: 2 nm

Science and Technology Log

Slept till 9:30 though woke several time during the night. Much bigger rolling than before. Had a banana and some coffee cake for breakfast, after taking a shower and putting in a load of wash. Lay down for about an hour, then moved wash to dryer, ate a little lunch, half a burger, asparagus, and a fresh baked chocolate chip cookie. Have been working on logs and then to laundry – good news is the laundry chemicals got out most of the grease that I got on my shorts. This is a working ship and one does get dirty!

An amazing lunch menu and the delicious food served. Cheers to Chief Steward Jonathan Rockwell and second cook Terence Harris

The crew said there had been some lightning this morning, and it was raining lightly at 10a.m. Several things to record on boat life – floor is sometimes not where you think it is, hold on to railings…including the shower which does have railings.

Sample from a Bongo net with some jellyfish—a finch flew into the wet lab to check it out!

Getting out of my lower bunk continues to be a challenge. I am not big but the opening requires planning to exit the bed! We have been told some rough weather is on the way for later today. Deployment of scientific equipment is halted if seas are over 12 ft. and winds are 30 knots. Today’s first station for me was at 5 p.m. This timing went well and we were able to eat dinner when it was served. I made some photo transfers with Kim Pratt, the other teacher, and did more log work as well as email. Two more stations to work—I’m on deck for the later two. Our last station was at 10:45 p.m., and I was able to sleep at about 12:00 a.m. Very fortunate to get a good night’s sleep! Did not notice any rough weather!

The other nice discoveries are the bright lights on deck for night sampling and rock and roll music we hear when on deck. Lots of good oldies!

August 16, 2007April 2, 2021

Amy Pearson, August 16, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 16, 2007

Scientist Jerry Prezioso and teacher Amy Pearson in the wet lab of DELAWARE II — Scientist Jerry Prezioso and Amy Pearson in the wet lab

Weather Data from the Bridge
Air temp: 20.0
Water temp: 20.1
Wind direction: 215
Wind speed: 11 kts.
Sea wave height: 2ft.
Visibility 10+ nm

Science and Technology Log

Woke up after a good night’s sleep. Slept from about 3:00-10 a.m. Meals are served at certain hours so I had missed breakfast, but was able to get some cereal and coffee cake. I worked on my logs. Lunch is pictured below, amazing food! As the seas were reasonably calm, I decided to video-tape Chief Scientist Jerry Prezioso and teacher Kim Pratt going through their duties during a bongo net drop. This went well, and then I showed it to them. With seas rolling, and staring at the small camera screen, I began feeling ill.

Data collection station for scientists on the DELAWARE II — Data collection station for scientists

Yes, I did become seasick, feeling really awful. I took a Bonine at about 3 p.m., then tried wrist bands about an hour later, and then went to my cabin to lie down. It got worse and yes, I lost lunch. This does make one feel a little better, though not much. I thought I’d feel better out on deck in the fresh air, which is where I stayed. I felt quite weak and unsteady on my feet. About 6:45 p.m. I had a little water and some crackers, which tasted good. I decided I had to try a patch of scopolamine that I had brought just in case….good thing. I put it on and remained on deck, feeling weak and drowsy until the captain suggested I’d be better off in my cabin. Scientist Joe Kane was very understanding and he took over the whole task of sampling this evening. A good sleep ensued and I woke up feeling much better.

Ensign Claire Surrey and Scientist Jerry Prezioso enjoying a delicious lunch. Bravo to the chefs!

August 15, 2007April 2, 2021

Amy Pearson, August 15, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 15, 2007

Weather Data from the Bridge
Air temp: 23.0
Water temp: 22.1
Wind direction: 195
Wind speed: 13 kts.
Sea wave height: 3-4 ft.
Visibility: 7nm

After dark, Amy Pearson operates the A-frame, which is used to lower the CTD and Bongo Nets.

Personal Log

Not ready to eat much food, the cook let me make some toast. Lunch was rice and as the day progressed I felt much better. During the day we saw a pod of dolphins, length of about 4 feet (grey upper body and light underside) riding the ship’s bow waves, some as close as 20 ft. to ship. I ate steak and tuna (also a little sushi!) for dinner with a little pasta. I rested a bit today and did some work on logs and email. Sampling occurred from 3 p.m. until 1 a.m. (3 stations – with me doing the outside work for several of them), and as the next station was at 3:45 a.m., we got to sleep at 1 a.m.

Science and Technology Log: What I have learned about ship life and some of the jobs on this ship……

One must work when the weather/seas are good as it’s difficult to focus or do certain tasks when the ship is rolling. The deck crew had been painting yesterday but today it was not conducive to that. Also, everyone is on a shift, with people working around the clock. Someone is always sleeping so one must be quiet when opening doors and talking near people’s cabins. There is a policy of only loud equipment use (sanders) between 9 am and 3 pm as this is when shifts change for some. The deck hands do ship maintenance (painting, some repairs) and help the scientists in their work. The CTD/Bongo nets are dropped from wire connected to a winch.

A crewmember bringing in the CTD and Bongo Nets after sampling

One crew member is in charge of the winch and has radio to communicate w/ the computer person who is watching the depth of the equipment. A second helps position the CTD/Bongo nets so they go out and away from the ship, and the when they come in, helps to get them on deck safely. A third deck person, this being a scientist works the A-frame controller that carries the equipment away from the side of the boat for deployment. I got to do this last night and it was a thrilling experience. When the equipment comes up, I had to pull the lever to bring the A-frame back in. It is very exciting to control this big piece of equipment.

We had some very deep sampling tonight. We went off the continental shelf for a short time with depths of over 400 meters. Here the maximum drop is 200 meters. There was not a lot of plankton retrieved in this cast. When we came back in to shallower water the contents of the cast did increase, with lots of amphipods and Calanus. Scientist Joe Kane said these are found in deeper colder waters this time of year.

August 14, 2007April 2, 2021

Amy Pearson, August 14, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 14, 2007

Weather Data from the Bridge
Air temp: 18.2
Water temp: 19.0
Wind direction: 160
Wind speed: 13 kts.
Sea wave height: 2 ft.
Visibility: 10+

Amy Pearson dons her survival suit during a safety drill

Personal Log

I got up around 7 a.m. and had some breakfast, a delicious egg sandwich on a bagel w/ bacon on the side. The ship is supposed to depart at 1 p.m., but due to some mechanical problems the time is bumped to 5:30 p.m. Kim Pratt, an ARMADA Teacher at Sea, and I helped Jerry with organization of jars, labels, supplies and received a second lesson in CTD data acquisition from Tamara. We had time to squeeze in another walk through Woods Hole, a great village, devoted to marine science study. The town is perfectly developed for working with the sea—many places for boats to tie up, great research facilities (MBL, WHOI, and National Marine Fisheries with NOAA), and just the right amount of shops and restaurants.

We departed Woods Hole at 5:45 p.m. It was very exciting to pull away from the dock. We looked back at a village devoted to science and saw the majestic Knorr that had just arrived yesterday and is tied up at the WHOI dock. We had drills to insure all are prepared for fires, abandoning ship, and man overboard. The photo shows me in a survival suit (nicknamed a Gumby suit) that we had to bring to deck in the event of having to abandon ship. We also had to bring along a long-sleeve shirt, hat and blanket, and were assigned life rafts. We headed out passing Martha’s Vineyard on our port (left) side and the Elizabeth Islands on our starboard (right). Dinner was a pork roast in mango sauce or fish. Great veggies. Our first station to sample was at about 10:00 p.m.

Science and Technology Log

Lots of science to learn and experience today. One goal of this trip is to collect plankton samples at over 100 stations ranging from Cape Hatteras to the Gulf of Maine and east to Georges Bank. Some stations are offshore, over 200 miles offshore. Others are closer to the coastline called inshore stations. This plankton will be preserved for identification and counted at a later date.

We collected the plankton in Bongo Nets – two round metal frames (look like bongo drums) that have fine netting attached. As we traveled slowly through the water, the nets collected plankton of a certain size, letting smaller plankton (phytoplankton) through. We are collecting large zooplankton (animal-like creatures-many crustaceans) and ichthyoplankton (fish larva).

As we head south from Woods Hole we will start doing offshore stations as the weather is good and if it deteriorates, we will move in-shore. For our first sample, my job was to man the computer, recording the data collected. At this station, there were 3 monitors to watch, one that has basic navigational info such as latitude, longitude, water and air temperatures, wind speed and direction, depth and more. The other monitor has the software that I am to input data on the cast. A third showed real time views of the stern deck where the scientific equipment was being deployed. Here I watched what was happening on deck and communicated with the winch operator who was lowering the equipment.

Another role here is to monitor the depth of the scientific equipment being lowered. Besides the Bongo Nets, a CTD is lowered. There is also a large lead weight at the end of this equipment to make it go down. The CTD unit (costing about $14,000) collects data on Conductivity, Depth, and Temperature. The conductivity reading produces data for ocean salinity. If this scientific equipment hits bottom it may be destroyed so I had to watch the depth reading to insure safety for the equipment. Based on the depth of the ocean, I check a chart to determine the rate of output wire release and input wire return, telling this to the winch operator.

All of this data is recorded on paper logs and the computer. Once the plankton is brought to the surface, the cod end of the net (tied end) is opened and the plankton is washed out of the net into a sieve that retains this plankton. This is then rinsed into a collection jar and formalin is added to preserve this. Labels are marked to identify its station location. All of this takes about thirty to forty minutes depending on the depth of the cast.

August 13, 2007April 2, 2021

Amy Pearson, August 13, 2007

NOAA Teacher at Sea
Amy Pearson
Onboard NOAA Ship Delaware II
August 13 – 30, 2007

Mission: Ecosystem Monitoring Survey
Geographical Area: North Atlantic Ocean
Date: August 13, 2007

Amy Pearson helping Chief Scientist Jerry Prezioso load equipment onto DELAWARE II

Science and Technology Log

DAY 1 – Onboard, pre-cruise work Woods Hole, MA.

Arrived in Woods Hole at 11:45 to an overcast, humid day. Upper 70’s. Felt privileged to be able to drive into a shipside parking lot. There he and Kim Pratt, another teacher on our cruise, helped me load my gear onto the ship. Everyone was friendly, and I was shown my room – meant for 4 w/ 2 bunk beds. Great to feel the air-conditioning!!! All to myself, how wonderful, and its own bath, a shower and head in one room, sink in the room w/ the bunks. Under the bunks were latched drawers, four in total. There were also four hanging lockers, which I filled w/ hanging stuff, shoes and was able to place things on the top shelf. Assorted activities included lunch in the galley- delicious choice of crab cakes (my choice-awesome), rice, asparagus, creamy pot-onion soup and fresh green salad. Bravo to John the Chief Steward. In the galley there is a fridge w/ milk, juice, and a freezer w/ ice cream plus snacks and sandwich supplies for those who work at times that cause them to miss a meal.

Teachers Amy Pearson and Kim Pratt during their first evening on DELAWARE II — Teachers Amy Pearson and Kim Pratt during
their first evening on DELAWARE II

On to unloading supplies from a nearby storage area using wheeled carts. Boxes of jars, bongos, and much more, several trips. We were introduced to Cristina who would later instruct us on CTD data collection, but as the CTD was being repaired that was moved until later in the afternoon. We met Betsy who would be on board during the second week, saw her lab and the cool fish larva – ichthyoplankton, that she studies the stomach contents of. Met some of the crew and visited the helm to see equipment and borrow a 3-hole punch. Unpacked our stuff a little, then had lessons on CTD data collection. Free time for the rest of the evening. Time to explore the village of Woods Hole. Fish were jumping in water, seemed to be small stripers, lots of action. Tired and turned in – cannot sit up in lower bunk w/o hitting head, that’s ok. Finished unpacking as once we get moving, it may be difficult. There is a good light above my bunk for working here. I will have 3pm-3 am shift….We leave at 1 pm tomorrow, which is slack tide. The ship only goes 8 knots so the idea is to leave when the tidal flow into Woods Hole is best for departure.