Alex Miller: Working the Night Shift, June 3, 2015

NOAA Teacher at Sea
Alexandra (Alex) Miller, Chicago, IL
Onboard NOAA Ship Bell M. Shimada
May 27 – June 10, 2015 

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The full moon lights up the night on top of the flying bridge.

Mission: Rockfish Recruitment and Ecosystem Assessment
Geographical area of cruise: Pacific Coast
Date: June 3, 2015

Weather Data:

  • Air Temperature: 13.3°C
  • Water Temperature: 14.8°C
  • Sky Conditions: Partly Cloudy, I could still see some stars
  • Wind Speed (knots/kts), Direction: 5.5 kts, NNE
  • Latitude and Longitude: 43°29’84”, 124°49’71”

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Later on Monday, once all the night-shifters had risen from their beds and were beginning to get ready for the bongos and mid-water trawls, I took a tour of the engines with marine engineer and NOAA crewmember, Colleen. We started in the control room. With up to four engines operating at any one time, Colleen says it’s a relief that computer systems help to automate the process. As part of her four-year degree program at Seattle Maritime Academy, she learned how to operate the engines manually as well, but I think we can all agree computers make life easier.

Before moving on to the actual engine room, Colleen made sure I grabbed some ear protection. For a one-time visit they’re probably more for my comfort than to protect from any real damage, but because she’s working with the engines every night, it’s important to protect against early-onset hearing loss. Once the plugs were in, we were basically not going to be able to talk so Colleen made sure that I knew everything I was going to see before we proceeded.

Colleen in the control room.

Colleen in the control room.

First, we made our way past the fresh water tanks. I was really curious about how we get fresh water on the ship, since we’re in the middle of the Pacific Ocean. The Shimada produces freshwater using two processes. Reverse osmosis produces most of the water, using high pressure to push the seawater across a membrane, a barrier that acts like a filter, allowing the water molecules to pass through but not the salt. This is an energy intensive process, but the evaporators use the excess energy produced by the engines to heat the seawater then pass it through a condensing column which cools it, and voilá, freshwater!

Next, we came to the four diesel engines. Four engines. These four engines are rarely all on at one time but never will you find just one doing all the work. That would put too much strain on and probably burn out that engine. While they burn diesel fuel, like a truck, instead of using that energy to turn a piston like the internal combustion engine of that same truck, they convert that energy to electricity. That electricity powers the two motors that ultimately make the ship go.

Panoramic view of the engine room, engines 1 and 3 can be seen in foreground and engines 2 and 4 in the background.

Panoramic view of the engine room, engines 1 and 3 can be seen in foreground and engines 2 and 4 in the background.

A ship the size of the Shimada requires a lot of power to get moving, but Colleen tells me it gets decent mileage. Though the ship’s diesel tank can hold 100,000 gallons, there’s only about 50,000 gallons in the tank right now and the ship only needs to refuel every couple of months.

After a quick pass by the mechanics for the rudder, the fin-shaped piece of equipment attached to the hull that controls the direction the ship is traveling we arrived at our last stop: Shaft Alley. Those two motors I told you about work together to turn a giant crankshaft and that crankshaft is attached to the propeller which pushes water, making the ship move. When I was down there the ship was on station, where it was holding its location in the water, so the crankshaft was only turning at 50 RPM (rotations per minute).

It was a pleasure getting a tour from Colleen!

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Throughout the night, the Shimada revisits the same transect stations that it visited during that day, but uses different nets to collect samples at each station. To the right, you can see a map of the stations; they are the points on the map. Each line of stations is called a transect. Looking at the map it’s easy to see that we have a lot of work to do and a lot of data to collect.

The transects and stations within them that the Shimada will survey at.

The transects and stations within them that the Shimada will survey at.

Why does this have to happen at night? At night, the greatest migration in the animal kingdom takes place. Creatures that spend their days toward the bottom layers of the ocean migrate up, some as far as 750 m (almost 2,500 ft)! Considering they’re tiny, (some need to be placed under the microscope to be reliably identified) this is relatively very far. And they do it every day!

To collect data on these organisms, three types of nets are used, two of which are not used during the day. Along with the surface-skimming neuston (which is used during the day), the bongo net, so named because it has two nets and looks like a set of bongo drums, and the Cobb trawl which is a very large net that needs to be deployed off the stern (back of the boat).

The operation of the bongo net is similar to the neuston, it is lowered off the starboard (when facing the bow, it’s the right side) side of the boat. Dropping down to 100 m below the surface and then coming back up, the bongo is collecting zooplankton, phytoplankton and fish larvae. The samples are poured from the cod-end into a strainer with a very fine mesh and since the water is full of those tiny bits, the straining can take a bit of time and some tambourine-like shaking.

The Cobb trawl on deck, waiting to be deployed.

The Cobb trawl on deck, waiting to be deployed.

These samples are then fixed (preserved) in ethanol and they will be analyzed for diversity (how many different species are present) and abundance (how many individuals of each species is present). The bongo is the net of choice for this survey because once scientists go to process the data, the double net provides a duplicate for each data point. This is important for statistical purposes because it ensures that the area that is sampled by one side of the net is similar enough to the area sampled by the other side of the net.

Below you can see video of the bongo net after it’s been hauled back. Scientists are spraying it down to make sure all organisms collect in the cod-end.

 

 

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Once the bongos are done, comes the real action of the night shift. The mid-water trawls take 15 minutes. I’ve become really great at communicating with the bridge and survey technicians who are operating the nets so that I can record data for the beginning and ending of the trawls. Once the catch is on deck, the survey technicians empty the cod-end into a strainer. The scientists prepare to sort, count and measure the species of interest. If the catch is large or particularly diverse, this can be a significant task that requires all hands on deck.

With four trawls a night, some with 30-50 minutes transit time with nothing to do in between, fatigue can set in and make the work hard to finish. To make it through the night, it takes great senses of humor and playful personalities. A little theme music doesn’t hurt either. The scientists of the night shift, under the direction of Toby Auth, a fisheries biologist with Pacific State Marine Fisheries Commission working as a contractor to NOAA and Chief Scientist Ric Brodeur, are Brittney Honisch, a marine scientist with Hatfield Marine Science Center, Paul Chittaro, a biologist with Ocean Associates working as a contractor to NOAA, Tyler Jackson, a fisheries science graduate student, and Will Fennie.


The data collected during these trawls provides a snapshot of the ecosystem. This data will help NOAA Fisheries Service understand the health of the ocean ecosystem as well as how large certain populations of commercially important fish are such as hake and rockfish.

In the meantime, it provides for some late night fun. Over the course of the nights that I’ve spent in the wet lab, we have uncovered some bizarre and fascinating creatures.

But in my opinion the real star of the trawls was the young female dogfish. A dogfish is a type of shark. I know what you’re thinking and no, she did not try to bite us. But dogfish do have two spines, one at the base of each dorsal (back) fin. We all fell in love, but, ultimately, had to say goodbye and return her to the sea.

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Thank you for your patience as I’ve gathered the images and video to make this and future posts as informative as possible. Stay tuned for Episode 5 coming soon!

Personal Log

First off, a heartfelt CONGRATULATIONS to the first 8th grade class at Village Leadership Academy. I wish I could be there when you walk across that stage on June 4th.

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Little did I know when I started hanging out with the scientists of the night shift that it would become a way of life. Each night I managed to stay up later and later and finally last night I made it through all four catches and almost to 0800, the end of the night’s watch. After dinner (some call it “breakfast”), I slept a full eight hours, and it felt completely normal to be greeted with “Good Morning!” at 3:30 in the afternoon.

Speaking of the night’s watch, I’m really grateful that someone was able to get one of my favorite TV shows last Sunday. And Game 7! The Blackhawks are in the finals! Even though I can’t call anyone back home to discuss my theories or that amazing goal by Seabrook in the third period, I can email and it feels like I’m missing less.

The only person I can’t email is my cat, Otto! I can’t wait to snuggle him until he scratches me.

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Otto the cat. He loves snuggling.

Question of the Day:

Comment with answers to these questions and I’ll shout your name out in the next post!

What is your favorite animal we have seen so far?

Acknowledgements:

Thanks to Paul Chittaro for assisting in the use of iMovie for this post!

Thomas Ward, September 12, 2010

NOAA Teacher At Sea: Thomas Ward
Aboard NOAA Ship Miller Freeman

Mission: Fisheries Surveys
Geographical Area of Cruise: Eastern Bering Sea
Date: September 12, 2010

Getting Started

The cruise and scientific research seems to be finally going forward.  We are currently in the Eastern Bering Sea.  You can find the exact location of the ship by clicking on the following link http://shiptracker.noaa.gov/default.aspx  then going to the drop down menu “Pick a Ship” and clicking on the “Miller Freeman”  That long list that you see are ships in the NOAA Fleet. While looking at the map you will see data about the ship’s location, speed and other interesting things.  One bit of data that is given is the current water depth.  The water depth here is relatively shallow because we are on the continental shelf. Currently, we are in 44 meters of water, about half a football field. If you look at the map and notice just below, or south of the islands that we are near, the blue shading becomes a little darker. This is called shaded relief bethymetry and indicates that the water gets deeper.  This is where the continental slope is.  The cartographer, map designers, could have used isolines to show this change.  Another bit of data at this site is water and air temperature.  I want to remind you that if you come upon a unit of measurement that you do not understand or can not relate to, such as air temperature given in degrees Celsius, you can use Google to convert it.  For example, the current air temperature is 9.15 degrees Celsius.  That is difficult for me to relate to, do I need a hoodie or not, so if you type “convert 9.15 c to f” Google will tell you that it is 48.47 degrees Fahrenheit.  A little chilly but not too bad.  In fact check out how close the air temperature is to the water temperature. Also, putting “define” before a word in Google will define a word that you may not understand. While reading this or looking at any of the other data you can always ask me a question through this blog.

The scientific research is primarily based around conducting an ichthyoplankton (remember Google) and juvenile fish survey in the waters around the Alaskan Peninsula, and the Bering Sea middle shelf.  The locations of the 113 sampling stations are predetermined and the ship’s crew is responsible for getting the scientific crew to these locations.  The sampling stations are found using latitude and longitude.  We are currently at 5510.825N, 16343.513W.  We are at 55 degrees north, 163 degrees west.  The numbers that follow are minutes measured to an accuracy of thousandths.  If you noticed the data on the ship tracker web site is a little different and not as precise as the on board data.  The negative in front of the longitude indicates west.  Degrees and minutes are used and not seconds.

NOAA Ship Miller Freeman

NOAA Ship Miller Freeman

This adventure for me has started out pretty rough but now that we are collecting data and doing science it is getting very exciting. The phrase “getting your sea legs” which refers to your body becoming accustomed to the movement of the ship is very true.  On the other hand I had never heard of “land sickness” before.  When we first went out the seas were relatively flat, 3-4 feet, and I felt just a little off (my students would say I am alot off, but that is OK) and it took me a few days to adjust.  Then we had to go back to port and while back on land I felt ill.  The Earth would appear to move and I would have to hold on to something to help reality take hold.  After talking to a few people they said this is common.  Everyone on board is really nice and the food is plentiful and delicious.  I really want to get this posted so I can have something for everyone to read so I will end it here.  I will post again soon so stay tuned, pictures of our catches and a description of how we perform the sampling soon to come.