Tag Archives: Oscar Dyson

Virginia Warren: Home Sweet Home

Posted on by vwarren2015

NOAA Teacher at Sea Virginia Warren
Mission: Acoustic and Trawl Survey of Walleye Pollock
Geographical Area of Cruise: Shelikof Strait
on NOAA ship Oscar Dyson
Date: 3/25/2016

Science and Technology Log:

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I created the video below  to document some of my activities aboard the Oscar Dyson during my 2016 Teacher at Sea research trip.

In this video, Virginia opens with exciting footage from the front of the Oscar Dyson’s bow as they transit through Alaska’s Shelikof Strait. Interspersed, she shares various steps involved in processing the fish caught in the survey: sorting the catch by species (0:34), collecting the pollock into bins (1:00), making an incision to determine the sex of the pollock (1:07), measuring the pollocks’ lengths and taking biological samples (1:33), removing the otoliths (2:23 and 3:29), preserving the otoliths for analyzing on shore (3:12), and measuring and recording other fish using the Ichthystick and the CLAMS computer program (3:57). Virginia also takes the opportunity to show off some interesting species—lumpsucker fish (2:18), starry flounder (2:53), and salmon (3:53). Finally, Virginia gives a brief tour of the deck (4:38) and finishes with a photo of her wearing a survival (or “Gumby”) suit (5:02.)

My students know a good bit about my previous Teacher at Sea experience out of Woods Hole, Massachusetts where we used the HabCam to look at the ocean floor. With that knowledge in mind a couple of my students asked me if there was a way that we were able to look at the fish while they were still in the water. The simple answer to that question is yes. While my previous TAS experience used the HabCam, the Oscar Dyson uses a CamTrawl. The CamTrawl is attached to the net and it records pictures as fish enter the  cod end of the net.

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Image from the CamTrawl

 

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CamTrawl

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Nick and Ryan Attaching the CamTrawl to the Net

 

After each trawl we would use custom software written in MATLAB to measure lengths of pollock while they were in the water. This program uses the pictures taken from the CamTrawl during the trawl to measure the length of the fish. The CamTrawl takes two pictures at different angles so that most of the time we can see the same fish from two different angles. Fish length irregularities occur in the MATLAB program when it selects nets or two fish at one time to length, so therefore a person has to go back and check to make sure that the program has selected valid fish to length. As the fish pictures come up on the MATLAB screen the person rating the fish selects the fish when the yellow box around the fish covers most of the fish from both angle camera shots of the CamTrawl.

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A Screen in MATLAB that Shows Valid Fish Lengths

The above picture shows three different fish that were valid choices for length measurement. The pictures on the left show one camera angle and the pictures on the right show the other camera angle. When both angles have a valid fish with the correct placement of the yellow box, the person selecting the fish will click the fish to tell the program to use that fish in the measurement data.

 

Interview With a NOAA Survey Technician: Alyssa Pourmonir 

Alyssa Pourmonir inside the Wet Lab

Alyssa Pourmonir inside the Wet Lab

  1. How did you come to be in NOAA Corps? (or what made you decide to join NOAA Corps and not another military branch.

I am not in the NOAA Corps, instead I am a civilian government employee under the title of Survey Technician. I was in the US Coast Guard for 3 years where I took many courses related to navigation, leadership, and ship life. I feel my background in the Coast Guard has allowed me to excel in this demanding environment.

  1. What is your educational/working background?

I have been lucky to have the opportunity to be in the Coast Guard which taught me many professional skills and built me up to be stronger and more independent. I also spent an entire summer forecasting for the weather in Pennsylvania. Here I gained an abundance of practice presenting the weather on the green screen and performing on live television for WNEP TV. Before coming to Alaska for this job, I worked as a consultant at NASA Stennis Space Center performing remote sensing analysis of forests using data from the MODIS and VIIRS data.

Academically, I have a BS in Marine Environmental Science from SUNY Maritime College, although most of my college experience took place at the US Coast Guard Academy.

  1. How long have you been in NOAA Corps?

I’m not in the NOAA Corps, but I have worked for NOAA for almost 2 years as a Survey Technician. May 2014 to present.

  1. How long have you been on the Dyson?

June 2014 to present.

  1. How long do you usually stay onboard the ship before going home?

In the past 2 years I have visited my family one time. Partly because I wish to send money home so my family can struggle a little less and hopefully enjoy a life with less debt; especially as my father passes retirement age. He has worked several full time jobs at a time for many years just to support my mom and sisters. Potentially, his work ethic and care giving nature is what I try to embody each day.

  1. Have you worked on any other NOAA ships? If so, which one and how long did you work on it?

Nope

  1. What is your job description on the Dyson?

On the NOAA Oscar Dyson, I am a crew member who acts as a liaison to the scientific personnel on board. I work up to 12 hours each day, 7 days per week maintaining the scientific data, equipment, and lab spaces on board. I also work alongside the scientists, deck department, and bridge watch standers to collect data by completing many different oceanographic or fishing operations.

  1. How is your science job on the Dyson different from the NOAA Scientists that you work with?

As a crew member, I facilitate a positive environment with the needed resources for the scientists to fulfill their data analysis and data collection. I also work alongside the scientists to process the fishing catch in our lab. So you can imagine me suited up with the scientists analyzing the fish’s reproduction development stages and extracting otoliths.

  1. What is the best part of your job?

I get to explore and work in the infamous Bering Sea Alaska, Gulf of Alaska, and Aleutian Island chain which most people can’t even imagine doing. Here in Alaska, I do not have the luxuries found in Continental US, so I believe out here there is a great opportunity for character building. It takes someone pretty amazing to live out here and do what we do.

  1. What is the most difficult part of your job?

Being in remote places and not seeing family or friends, but also being so far away that it is super expensive to try to see them.

  1. Do you have any career highlights or something that stands out in your mind that is exceptionally interesting?

I began my BS absolutely hating biology. I dislike and do not eat seafood. I was skittish and would let my partners do all of the dissections during classes, and I felt that I knew nothing about biology. As a Marine Environmental Science major I decided to take as many biology electives as I could. I went from the lowest grade in my classes to someone who received one of the highest grades in each class. I graduated just one class shy of a minor in Marine Biology and now toss around fish on the NOAA Ship Oscar Dyson, a fisheries research vessel. While my first day I would jump when the fish would move unexpectedly, now I can analyze characteristics of the fish with little alarm and much confidence. It is amazing how I enjoy biology now. I hope to encourage others to confidently try new things, for with a little practice and hard work you may accomplish anything or overcome fears you may not have realized you had.

  1. Do you have any advice for students who want to pursue a career with NOAA?

If you wish to pursue a career with NOAA, be sure to work hard to learn as much as you can, but also come out of your comfort zone to pursue as many volunteer or paid jobs that will give you work experience that correlates with your interests. Time management and resilience is often my secret to success.

Personal Log:

I had a fabulous time aboard NOAA Ship Oscar Dyson and I’m very thankful to NOAA giving me the opportunity to travel to Alaska and learn from their scientists!!!

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My flight home started on a small plane from Kodiak to Anchorage.

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Ravn Alaska’s Bombardier DHC-8-100

 

After the plane got into the air and was flying away from Kodiak, we were treated to a flyby of the Kodak Harbor and even got to see the Dyson outside of the harbor as we flew away.

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Aerial view of the Kodiak Harbor

We flew into Anchorage, Alaska and I was amazed at the beauty of the mountains in Alaska!

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Mountains Outside the Anchorage, Alaska Airport

A little while before sunset I caught a plane from Anchorage to the Chicago, O’Hare airport. The scenery and sunset leaving Alaska was beautiful!!!! I hope this won’t be the last time I get to come to Alaska, because it is a beautiful, adventure-filled part of the United States.

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It was good to be back on land again when we got back to Kodiak, but I do miss being on the ocean!!

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Bow of the Oscar Dyson

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NOAA Ship Oscar Dyson

 

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Finally back on land in front of the NOAA Ship Oscar Dyson!

This experience was wonderful for me, however for my students this experience was invaluable. I was able to communicate and share my experiences with them through email almost daily and they were also able to read my TAS blogs as they were posted. If they don’t learn anything else from my experiences in Alaska, which I know that they will, I hope they will learn that the world is theirs to explore, study, and learn about no matter how small the town is that they come from!!

Virginia Warren: CLAMS and Trawls March 22, 2016

Posted on by vwarren2015

NOAA Teacher at Sea Virginia Warren
Mission: Acoustic and Trawl Survey of Walleye Pollock
Geographical Area of Cruise: Shelikof Strait
on NOAA ship Oscar Dyson
Date: 3/20/16 – 3/22/16

Data from the Bridge (3/21/16):
Sky: Snow
Visibility: 8 to 10 nautical miles (at one point it was more like 2 to 3 nautical miles)
Wind Speed: 23 knots
Sea Wave Height: 4 – 6 feet
Sea Water Temperature: 5° C (41°)
Air Temperature: 0° C (32° F)
Barometric (Air) Pressure: 994.3 Millibars

Science and Technology Log:
The purpose of this research survey is to collect data on walleye pollock (Gadus chalcogrammus) that scientists will use when the survey is complete to help determine the population of the pollock. This data also helps scientists decide where and when to open the pollock fishery to fishermen. Data collection such as this survey are critical to the survival and health of the pollock fishery.

As I mentioned in a previous blog post, we use an AWT (Aleutian Wing Trawl) to complete the pollock survey. The AWT has two doors that glide through the water and hold the net open. The cod end of the net is where all of the fish end up when the trawl is complete.

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Scale model of the Aleutian Wing Trawl (AWT) net courtesy of NOAA Scientist Kresimir Williams (Source: TAS Melissa George)

Codend of the Net - This is where all the fish are when the trawl is brought up.
Codend of the Net – This is where all the fish are when the trawl is brought up.
Trawl Door
Trawl Door

After the trawl is brought back onto the boat, the cod end of net is dumped onto a hydraulic table. The hydraulic table is then lifted up so that it angles the fish down a shoot into the Wet Lab on a conveyor belt.

The door to the shoot is opened allowing fish from the table outside to be dumped down the shoot and on to the conveyor belt inside.
The door to the shoot is opened allowing fish from the table outside to be dumped down the shoot and on to the conveyor belt inside.
Kim and Virginia sorting fish on the conveyor belt.
Kim and Virginia sorting fish on the conveyor belt.

 

Once the pollock come through the shoot and onto the conveyor belt, the first thing that we do is pick out every type of animal that is not a pollock. So far we have found lots of eulachons (Thaleichthys pacificus), jellyfish (Cnidaria), isopods, and squid. We have even found the occasional chinook salmon (Oncorhynchus tshawytscha), rock fish (Sebastes spp.), and a lumpsucker (Cyclopteridea). The pollock continue to roll down the conveyor belt into a plastic bin until the bin is full. Then the bin of pollock are weighed.

Contents of the Trawl

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The data from every fish we sample goes into a computer system called CLAMS. CLAMS stands for Catch Logger for Acoustic Midwater Survey. While we are taking samples of the fish our gloves get covered in fish scales and become slimy, so to be able to enter the data into the CLAMS system without causing damage there is a touch screen on all of the computers in the Wet Lab.

 

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CLAMS computer system with a touch screen.

 

Once the pollock are weighed, a sample of the fish are taken to be sexed. To sex the fish, we use a scalpel to slice into the side of the fish. The picture of the chart below shows what we are looking for to determine if a pollock is male or female. Once we know what sex the fish is, we put it into a bin that says “Sheilas” for the female fish and “Blokes” for the male fish.

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This chart of the Maturity Scale for Walleye Pollock is hanging in the Wet Lab.

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Up-close of the Maturity Scale for female pollock.

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Up-close of the Maturity Scale for male pollock.

 

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Kim showing Virginia what to look for when sexing the fish.

Once the fish are in their correct male/female bin, they are then measured for their length using an Ichthystick.

The Ichtystick was designed and built by MACE staff Rick Towler and Kresimir Williams who wrote a paper on it: http://www.sciencedirect.com/science/article/pii/S0165783610001517

The Ichthystick has a magnet under the board. When the fish is placed on top of the board, a hand held magnet is placed at the fork of the fish tale. Where the hand held magnet is attracted to the magnet under the board tells the computer the length of the fish and the data is automatically stored in the CLAMS program.

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Ichtystick

Starry Flounder Length

Getting the length of the starry flounder using the Ichthystick.

The next station is where the stomach, ovaries, and otoliths are removed from the fish and preserved for scientists to research when the survey is over. The ovaries of a female fish are weighed as well. Depending on the size of the ovaries, they may be collected for further research. Once all of the data has been collected from the fish, a label is printed with the data on it. This label is placed in the bag with the stomach or ovaries sample. Kim completes a special project for this survey. She is a stomach content analysist, so she collects stomachs from a sample of fish that will be taken back to her lab to analyze the stomach content of what she collected. She puts the stomach and the label with the fish’s information, into a bag that is placed in a solution of formalin that preserves the samples.

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The next step is to get the otoliths out of the fish. A knife is used to cut across the head of the pollock. Otoliths are used to learn the age of the fish. The otoliths are placed in a glass vile that has a barcode number that can be scanned and put with all of the fish’s information in CLAMS. This number is used to keep track of the fish data for when the otoliths get analyzed later on.

Getting the Otoliths

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We also collect length, weight, sex, and stomach samples from other fish that come up in the trawl as well.

Interview with a NOAA Corps Officer: Ensign Caroline Wilkinson
Caroline is a Junior NOAA Corps Officer on board the NOAA ship Oscar Dyson. She is always very helpful with any information asked of her and always has a smile on her face when she does so. Thank you Caroline for making me feel so welcomed on board the Dyson!

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Ensign Caroline Wilkinson

How did you come to be in NOAA Corps? (or what made you decide to join NOAA Corps and not another military branch?

  • I graduated from college in May of 2015. I was looking for a job at a career fair at my school and discovered the NOAA Corps. I had heard of NOAA, but didn’t know a lot about NOAA Corps. I wanted to travel and NOAA Corps allowed me that opportunity. I was unsure what type of work I wanted to do, so I decided to join and explore career options or make a career out of NOAA Corps.

What is your educational/working background?

  • I went to the University of Michigan where I received an undergraduate degree in ecology and evolutionary biology and a minor in physical oceanography.

How long have you been in NOAA Corps?

  • July of 2015 I started basic training. Training was at the Coast Guard academy in a strict military environment. We had navigation and ship handling classes seven hours a day.

How long have you been on the Dyson?

  • I have been here since December of 2015.

How long do you usually stay onboard the ship before going home?

  • We stay at sea for two years and then in a land assignment for 3 years before heading back to sea.

Have you worked on any other NOAA ships? If so, which one and how long did you work on it?

  • Nope, no other ships. I had no underway experience except a five-day dive trip in Australia.

Where have you traveled to with your job?

  • We were in Newport, Oregon and then we went to Seattle, Washington for a couple of weeks. Then we went to Kodiak and then to Dutch Harbor.

What is your job description on the Dyson?

  • I’m a Junior Officer, the Medical Officer, and the Environmental Compliance Officer. As a junior officer I am responsible for standing bridge watch while underway. As a Junior Officer I am responsible for standing 8 hours of watch, driving the ship, every day. As medical officer, we have over 150 drugs onboard that I am responsible for inventorying, administering, and ordering. I also perform weekly health and sanitary inspections and Weekly environmental walkthroughs where I’m looking for any safety hazards, unsecured items, leaks or spills that could go into the water.

What is the best part of your job?

  • Getting to drive the ship.

What is the most difficult part of your job?

  • Being so far away from my family and friends.

Do you have any career highlights or something that stands out in your mind that is exceptionally interesting?

  • During training we got to sail in the US Coast Guard Cutter Eagle. It’s a tall ship (like a pirate ship). We were out for eight days. We went from Baltimore to Port Smith, Virginia and had the opportunity to do a swim call 200 miles out in the Atlantic.

What kind of sea creature do you most like to see while you are at sea?

  • We have seen some killer whales and humpback whale in the bay we are in this morning. We’ve also seen some albatross.

Do you have any advice for students who want to join NOAA Corps?

  • You need an undergraduate degree in math or science. There are 2 classes of ten students a year. Recruiters look for students with research experience, a willingness to learn, and a sense of adventure.
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Ensign Caroline Wilkinson at the helm.

 

Personal Log:
I have really been enjoying my time aboard the Oscar Dyson and getting to know the people who are on the ship with me. I love spending time on the Bridge because you can look out and see all around the ship. I also like being on the bridge because I get to witness, and sometimes be a part of, the interactions and camaraderie between the NOAA Corps Officers that drive/control the ship and the other ship workers.

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Panoramic view of the NOAA Ship Oscar Dyson‘s Bridge. Look at all of those windows!

 

Arnold and Kimrie are responsible for making breakfast, lunch, and dinner for all 34 people on the Oscar Dyson. They also clean the galley and all of the dishes that go along with feeding all of those people. They probably have the most important job on the ship, because in my previous experiences, hungry people tend to be grouchy people.

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Arnold and Kimrie are the stewards of the Oscar Dyson.

 

We’ve had a variety of yummy dishes made for us while we’ve been at sea. Breakfast starts at 7 a.m. and could include a combination of scrambled eggs, breakfast casserole, French toast, waffles, chocolate pancakes, bacon, sausage, or my personal favorite, eggs benedict.

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Breakfast is served. YUM!!!

Lunch is served at 11 a.m. and seems like a dinner with all of the variety of choices. Lunch usually has some type of soup, fish, and another meat choice available, along with vegetables, bread, and desert. Dinner is served at 5 p.m. and usually soup, fish, and another meat choice available, along with vegetables, bread and desert. I loved getting to try all of the different types of fish that they fix for us and I also really liked getting to try Alaskan King Crab for the first time!!

If you are still hungry after all of that, then there is always a 24-hour salad bar, a variety of cereal, snacks, and ice cream available in the galley. The left-overs from previous meals are also saved and put in the refrigerator for anyone to consume when they feel the need. If we are working and unable to get to the galley before a meal is over, Arnold or Kimrie will save a plate for us to eat when we get finished.

I also tried Ube ice cream, which is purple and made from yams. At first I was very skeptical of any kind of sweet treat being made out of yams, but I was pleasantly surprised that it tasted really good!

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Ube ice cream made from yams! Very YUMMY!!!

 

There is even a place to do laundry on this ship, which I was very happy about because fishy clothes can get pretty stinky!

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Laundry Room

I can’t end a blog without showing off some of the beautiful scenery that I have been privileged to see on this journey. The pictures below are of the Semidi Islands.

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Virginia Warren: Calibrations, Drills, and Interviews March 19, 2016

Posted on by vwarren2015

NOAA Teacher at Sea Virginia Warren
Mission: Acoustic Trawl Survey of Walleye Pollock
Geographical Area of Cruise: Shelikof Strait
on NOAA ship Oscar Dyson
Date: 3/17/16 – 3/18/16

Data from the Bridge:
Sky: Cloudy
Visibility: 10 Nautical Miles
Wind Direction: 0.2 (20°) From the Northeast
Wind Speed: 25 Knots (30 Knots at point during the day)
Sea Wave Height: 5 – 6 ft. on average (10 ft. at highest)
Sea Water Temperature: 5.6° C (42.08° F)
Dry Temperature: 4° C (40° F)
Barometric (Air) Pressure: 1018.4

Science and Technology Log:
When the wind picked up, it was decided that the ship would quit fishing and running transect lines with the echo-sounder and instead go into one of Kodiak’s bays to seek protection from the weather (>40 knot winds and 16 – 20 foot sea waves were forecast). While were were ‘hiding’, the ship’s crew had time to fix a trawl winch problem and change nets, and the scientists conducted a calibration of the echo-sounder (this is done at the beginning and end of surveys). When we left the transect line, we went through Alitak Bay and stopped the ship in front of Hepburn Peninsula, with Deadman Bay to the left of the peninsula and Portage Bay to the right (if you are looking at the map). Where the ship was sitting, the bay was 74.8 m (245.4068 ft) deep and 5.6° C (42.08° F). It was still pretty windy (15-20 knots), but the Hepburn Peninsula blocked us from a lot of the wind.

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Deadman Bay to the left of Hepburn Peninsula and Portage Bay to the right

The calibration process of the echo sounder took some time. The science crew before me already started the process of calibrating the echo sounder before it was time for my shift to take over. They used three down riggers to send three lines under the center of the boat, where the echo sounder is positioned. A calibration sphere was placed a little further down one of the lines. There is also a lead weight put at the end of the line so that it will help hold the calibration sphere in place as the current moves.

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Echo Sounder Calibration Diagram (Source Credit: Sea Technology Website)

Then one of the science crew uses a system to align the calibration sphere with the echo sounder. There are two types of calibration spheres that we used today. The first, and smaller one, was made out of a tungsten-carbide alloy.

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Patrick holding the Tungsten-Carbide Calibration Sphere (photo by Julia Harvey, TAS summer 2013 DY1307)

The second calibration sphere was larger than the first and it was made out of solid copper. This made for a very easy, get a blog done, day for me because the job was completed by the lead scientist Patrick and Robert, one of the other science crew members.

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Robert Putting the Copper Calibration Sphere on the Line

 

Echosounder calibration screen

Echo-sounder display during calibration. On the echogram (depth on vertical axis, time on horizontal axis) you can see the calibration spheres hanging below the ship above the seafloor. (credit: Patrick Ressler)

 

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Diagram to Describe Echo Sounder Technology (Source Credit: FAO Website)

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Diagram to Describe Echo Sounder Technology (Source Credit: FAO Link)

 

Lead Weight Sphere
Lead Weight Sphere
Copper Calibration Sphere
Copper Calibration Sphere

 

Interview with a Scientist: Kim
For this leg of the research cruise Kim is on the same shift that I work on and she’s also my roommate. She has been great in helping me get accustomed to sea life and training me on what to do while we are sorting trawls in the science lab. She also agreed to let me interview her to share her story with my students. I am extremely grateful for all of the help, training, and friendship she has provided while I have been on the Dyson. Her interview is below:

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Kim Holding a Smooth Lumpsucker from a Bottom Trawl Survey (photo credit: Kim)

What is your educational background?
I have a bachelor’s of science degree aquatic and fishery sciences and a minor in marine biology.

How long have you been working as a scientist?
About 10 years.

How long have you been working as a NOAA contractor?
6 years.

What is your job description?
I am a stomach content analyst.

How often do you go on a survey?
Usually twice during the summer for about three weeks at a time.

What is a highlight for you while at sea?
A family of 4 got lost at sea and had been missing for 60 hours. We were out on survey and came across them in their life raft. We were able to pull them out. They wrote a book about it called “Lost in the Shelikof: an Alaskan Family’s Struggle to Survive”.

If you would like to read more about this story, here is the link to the book:  http://www.amazon.com/Lost-Shelikof-Alaskan-Familys-Struggle/dp/145650584X

What made you want to be a scientist?
I spent a lot of time on the water as a kid crabbing and playing in the water. I was always drawn to sea life and I wanted to learn as much about it as I could.

What enjoy most about being a scientist?
The survey work is my favorite part of my job. You get to see a lot of unique species that most people don’t get to see. A lot of deep water species. I also like going out on survey because most of my work is done in the lab looking at samples under a microscope. It’s refreshing to be able to travel up here and work on a boat every summer. Sometimes when I’m out here I stop and think “I can’t believe this is my job.” I learn something new every time I come out here. It’s hard work, but it’s also a lot of fun.

What is the hardest part of your job?
We have a sampling plan that tells us what species and what size range of fish we want to collect stomachs from. It can be difficult to get stomachs from all the fish that you’d like to simply because the net doesn’t catch individuals of a certain size. Fish frequently regurgitate their food when they come up in the net and it can be a challenge sometimes to find ones that haven’t thrown up.

What is your favorite sea creature?
Cuttlefish, they are pretty cute.

Here is a short YouTube video about cuttlefish if you would like to see what they look like and how they act: https://www.youtube.com/watch?v=E-zodF-XrSE

Any advice for people who want to be a scientist?
Volunteer as much as you can. Internships, especially those involving field work, are a great way to gain experience and help you decide what aspects of a particular field of science you’re most interested in. Also, having enthusiasm for the work that you’re doing goes a long way towards helping you get possible internships and job opportunities in the future. Hard work and enthusiasm are what helped me get where I am today in my career.

Personal Log:
For the first couple of days on board the Dyson we had beautiful weather blue skies, pretty clouds, beautiful scenery, and calm seas. However, experiencing calm seas came to a halt on Thursday. The wind picked up which caused the ship to rock back and forth with the waves. Gusts of wind would cause water to splash over the bow of the ship, creating a very entertaining show. I loved to watch the waves move and feel the ship’s reaction to the power of the water. When I went to visit the bridge of the ship one wave hit the boat hard enough to ring a bell that is hanging in the bridge. Sitting down to do work or eating a meal can be kind of fun when the wind is up. It’s almost like a roller coaster, because you never know when your chair is going to slide sideways. Walking while the ship was rocking was also interesting because two normal steps could become 5 so that you can keep your balance and stay on your feet.

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On Friday we had our mandatory at sea drills. The first was a fire drill which was very easy for me because all I had to do for that drill was meet up with the rest of the science crew in a preplanned muster station. The next drill was a little more eventful. We had to bring a survival suit, a life jacket, a hat, and gloves to the preplanned muster station. Once we were there roll was called to make sure we were in the correct station to get on the correct life raft should it became necessary. This part wasn’t too bad because the scenery outside was very pretty. However, after that part was complete the people new to the ship had to put on the survival suit, which is supposed to take less than a minute to put on. This was my first attempt to get into a survival suit and I needed a lot of guidance from ENS Ben Kaiser, one of the NOAA Corps officers. He was very patient with me and also took my picture when I was finally able to get it on.

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My First Time in a Survival Suit

 

The Oscar Dyson takes safety very seriously!!

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Virginia Warren: Life at Sea is GREAT!! March 15, 2016

Posted on by vwarren2015

NOAA Teacher at Sea Virginia Warren
Mission: Acoustic and Trawl Survey of Walleye Pollock
Geographical Area of Cruise: Shelikof Strait
on NOAA ship Oscar Dyson
Date: 3/15/2016

Data from the Bridge:
Sky:  Light and variable
Visibility: 10+ Nautical Miles
Wind Direction: West
Wind Speed: 2.50 (4 knots)
Sea Wave Height:  1 – 2, light swell
Air Temperature: 4.2 degrees C (40 degrees F)
Barometric Pressure: 1004.8

 

NOAA and NOAA Corps Information:

NOAA is an acronym that stands for National Oceanic and Atmospheric Administration. NOAA is a government agency that helps keep citizens informed on weather conditions and the climate. It also conducts fisheries management, and coastal restoration. As stated on their website, NOAA’s mission is to understand and predict changes in climate, weather, oceans, and coasts, to share that knowledge and information with others, and to conserve and manage coastal and marine ecosystems and resources. NOAA has nine key focus areas, 12,000 NOAA personnel, and 6,773 scientists and engineers.

If you would like to read more about what NOAA does, please check out their website here: http://www.noaa.gov/about-our-agency

The NOAA Commissioned Corps Officers are in charge of running NOAA ship Oscar Dyson. The officers keep the ship functioning properly and the people safe. The NOAA Commissioned Officer Corps is one of the seven uniformed services of the United States. As stated on the NOAA Corps website, the NOAA Corps mission is to provide officers technically competent to assume positions of leadership and command in the National Oceanic and Atmospheric Administration (NOAA) and Department of Commerce (DOC) programs and in the Armed Forces during times of war or national emergency.  If you would like read more about what the NOAA Corps does, please check out their website here:  http://www.noaacorps.noaa.gov/about/about.html

You can also watch the NOAA Corps Recruitment video here: http://www.noaacorps.noaa.gov/audiovideo/noaacorps_video.html

 

Science and Technology Log:

This is my second full day on the ship and my science crew has sorted three trawls. On the first day on shift, I learned that there is a lot of waiting to get the fishing pollock job done correctly. The Chief Scientist, Patrick, is responsible for choosing where and when to launch the trawl. He does this by watching data on a screen that comes from the echo sounder, which is placed under the ship. When you see bright red color on the screen, then you know there is something registering on the echo sounder. This part of the process can take several hours.

Echo Sounder Screen

Echo Sounder Screen

Once you find the fish, then you have to launch the trawl net. This is a very intricate process because as the net is being launched, it has to be kept free of tangles. If tangles occur in the net it could cause the net to rip once the trawl has begun. At the mouth of the trawl where the opening is for fish to enter, there are two large trawl doors that glide through the water like airplane wings, except the “lift” is a spreading force that goes sideways to open the mouth of the trawl for fish to enter.

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Scale model of the Aleutian Wing Trawl (AWT) net courtesy of NOAA Scientist Kresimir Williams

 

Once the trawl is complete, the catch is dumped onto a table that lifts up to the conveyor belt where we separate pollock from all the other types of animals. The pollock are placed into baskets where they are then weighed. A sample of pollock is taken to examine further. Data on everything that we catch goes into a computer system called CLAMS, which is an acronym for Catch Logger for Acoustic Midwater Survey. I will further explain the sorting and data collection processes, and the CLAMS program on a future blog.

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Personal Log: 

I’m happy to report that all of my flights went great and my luggage didn’t get lost on my way to Kodiak, Alaska. I spent Friday and Saturday nights in Kodiak waiting to rendezvous with the NOAA ship Oscar Dyson Sunday morning.

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Kodiak is a beautiful, scenic fishing community. I love that Kodiak is able to use clean, alternative-renewable energy resources to make their energy for the island. Notice the wind turbines in the picture below, however Kodiak also uses hydroelectric dams to make most of their power.

Wind Powered Turbines

Wind Powered Turbines

The Oscar Dyson anchored up outside of the Kodiak harbor in efforts to save time by not having to completely dock up in the harbor. The Dyson sent out its small boat called “The Peggy D” to take people to and from the ship. We put really warm jackets that also served as life jackets(float coats).

The "Peggy"

I loved this boat ride because it gave me a view of the harbor I hadn’t been able to see yet!

Beautiful Mountains from the Harbor in Kodiak, Alaska

Beautiful Mountains from the Harbor in Kodiak, Alaska

My first view of the Oscar Dyson was spectacular. I saw it as we rounded a very small island outside of the harbor. With the mountains in the background, the ship made a pretty picture.

NOAA Ship Oscar Dyson

NOAA Ship Oscar Dyson

This is only the beginning of the trip and I am so looking forward to experience the rest of it.

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Virginia Warren: All My Bags are Packed, I’m Ready to Go!!! March 9, 2016

Posted on by vwarren2015

Hi! My name is Virginia Warren. I teach 5th Grade math and science at Breitling Elementary School in Grand Bay, Alabama. I have been a teacher for 6 years. I am currently in the process of going back to graduate school at the University of South Alabama to get my Master’s Degree in Instructional Design and Development.

I am set to fly out of Pensacola, Florida this coming Thursday morning. I will have a short layover at the Dallas Fort Worth Airport in Texas.Then, I will be off again to Seattle, Washington where I will stay the night before finishing my journey the next day. I am excited about getting to spend even a short amount of time in Seattle because I have never been on the West Coast of the United States. I plan to get as much sight seeing in as possible before my flight to Anchorage, Alaska the next morning. Once I get to Anchorage, I will catch another plane to Kodiak, Alaska where I will rendezvous with the rest of the science crew and the NOAA Ship Oscar Dyson on Saturday.

Flight Diary

This image is created from http://flightdiary.net/ and it depicts the flights that I will take to get to Kodiak, Alaska.

 

This will be my second NOAA Teacher at Sea opportunity. In the summer of 2013 I participated in a sea scallop survey on the Research Vessel Hugh R. Sharp. As a teacher this experience has become invaluable to me because it made scientific research come alive to me in way that I had never been able to express to my students prior to this experience. I am extremely excited about having a second opportunity to travel the world and learn about real data research. I am also excited to be able to share this trip with my 5th grade students back home in Grand Bay, Alabama.

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This picture is from my first NOAA Teacher at Sea research cruise in 2013 aboard the R/V Hugh R. Sharp

I will spend about 2 weeks aboard the NOAA Ship Oscar Dyson participating in an acoustic-trawl survey to estimate pollock abundance in Shelikof Strait.

 

 

 

 

Andrea Schmuttermair: Engineering Extravaganza! July 21, 2015

Posted on by alschmutt

NOAA Teacher at Sea
Andrea Schmuttermair
Aboard NOAA Ship Oscar Dyson
July 6 – 25, 2015

Mission: Walleye Pollock Survey
Geographical area of cruise: Gulf of Alaska
Date: July 21, 2015

Weather Data from the Bridge:
Latitude: 57 09.0N
Longitude: 151 16.5W

Sky:  broken clouds

Visibility: 10nm
Wind Direction: 245 degrees

Wind Speed: 24 knots
Sea wave height: 3ft

Swell wave: 5-7 ft

Sea water temp: 11.3 C
Dry temperature: 11.1 C

Birds are always abundant after a trawl
Birds are always abundant after a trawl
Sunset from the ship
Sunset from the ship

Science and Technology Log

Aside from our survey, there is a lot of other science taking place on the ship. In fact, science is all around us. The officers on the bridge are using science when they use weather patterns and sea swells to calculate the best course of navigation for the ship. The survey technicians are using science when they collect water samples each day and test the salinity of the water. The engineers are using science when they are monitoring the ballast of the ship. Science is happening in places we don’t always take the time to look.

Today we look at a different realm of science, the engineering world. I recently had the opportunity to tour the brains of the ship with two of our engineers on board. I not only learned about the construction of the ship, but I also learned about the various components that help the ship run. The Oscar Dyson was constructed as one of NOAA’s first noise-reduced fisheries vessels. Data have been collected over the years that show fish avoid loud vessels by diving down deeper or moving out of the way of the noise. There was concern that this avoidance behavior would affect the survey results; thus the creation of acoustic quieting technology for research vessels. Another interesting part of the ship’s construction is the retractable centerboard, which allow the transducers to be lowered down below the ship and away from the hull in order to reduce noise and gather higher quality sound data for the surveys.

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It turns out 2 of our engineers are from San Diego, the place I lived for my first 21 years of life. Nick even graduated from Westview High School, the rival of my high school, Mt. Carmel (albeit 10 years after me). The engineers are responsible for making sure everything is working on the ship. They, along with the rest of the engineering team, have to anticipate and troubleshoot problems, and be ready to fix something at a moment’s notice.

In addition to taking me on a tour around the innards of the ship, Nick and Rob also sat down for an interview about marine engineering.

Interview with the Engineers: Rob Ball and Nick Cuellar

Nick, Rob, and....Wilson!

Nick, Rob, and….Wilson!

What is your educational/working background?

Nick: I played soccer throughout high school and was recruited during my senior year by the US Merchant Marine Academy. I went to school there, played soccer, and received a BS degree in marine engineering. I spent 1 of my 4 years at sea doing hands-on training. I was also commissioned into the US Navy as a reservist.

Rob: I’m what they call a hawespiper in the merchant marine world- I started at the bottom and worked my way up. I started at Scripps Institute of Oceanography in 1988 and worked my way up ranks from oiler to engineer. I received my captain’s license, and ran sport fishing boats because I wanted to know boats from top to bottom. I went to professional college for refrigeration, and my main forte is refrigeration and air conditioning, I know I’ll never be out of work. I’m a first engineer now, and am going to go for my chief’s license.

How long have you been working on the Oscar Dyson?

Nick: I came on in August of 2014.

Rob: I just came on board in April of 2015

What are your main responsibilities as an engineer on board?

Nick: As a second engineer, I give fuel reports and transfer fuel to maintain stability of the ship. We have saltwater tanks for ballast, which changes as we burn fuel, and I help monitor this. I check the electricity, lights, fuel, water, and AC and make sure everything’s running. I fix anything that’s breaking.

Rob: As a first engineer, I am the supervisor of engine room and am responsible for how everything is operating. I get updates on the fuel status, and communicate with CO of the ship if changes need to be made. I also look at when the oil/filter needs to be changed. My position is more supervisory, and I oversee responsibilities and delegate tasks. I handle the plant and the people.

What is your favorite part of the job?

Nick: Travel; getting work experience, marine life

Rob: Money and travel; getting to see things in ocean that most people would only see on National Geographic

What is most challenging about your job?

Nick: The different personalities you have to work with

Rob: I agree with Nick. Our life exists in 204ft. I am able to take frustrations and put it into things I enjoy, such as working out, reading, or playing guitar.

What is something unique to being an engineer on a ship as opposed to an engineer on land?

Nick: You have to have knowledge of every square inch of the ship; the two things I think about are: are we sinking and are the lights on.

Rob: You have to keep things going when you have big seas, and you have to have the knowledge and ability to handle problems and stay on your feet (literally). You have everyone’s lives in your hands- you have to be on all the time.

What would tell students who are looking at careers in engineering?

Nick: Don’t give up and keep on fighting. Don’t let hardships get in the way. If it makes you happy, keep doing it. And know your math!

Rob: it’s a limitless field; you can build anything, and fix anything. If someone else made it, you’ll have the ability to figure out what they did. You get to break stuff and fix it.

What is your favorite marine animal?

Nick: Humpback whale

Rob: Orca and Great white shark

Rob, Nick and I

Rob, Nick and I

Thanks gentlemen for the interview!

 

Personal Log

This baby humpback whale was having a blast breaching over and over again.

This baby humpback whale was having a blast breaching over and over again.

The ringing of the phone woke me up from the gentle rolling of the ship. I had told the officers and scientists to wake me up if there was anything cool happening, and an excited ENS Gilman spoke into the receiver claiming there were hundreds (ok, maybe hundreds was a bit of an exaggeration) of whales breaching and swimming around the ship. Throwing on a sweatshirt and grabbing my camera, I raced up to the bridge to get a view of this. I had low expectations, as it seemed that every time we got the call that there were whales around, they left as soon as we got up there. This time, however, I was not disappointed. It was a whale extravaganza! Humpback whales, fin whales, orcas, there were so many whales it was hard to decide where to point my camera or binoculars. Like one of those fountains that spurt up water intermittently through different holes, the whales were blowing all around us. I was up on the bridge for over an hour, never tiring to see which one would spout next, or show us a fluke before it dove down deep, only to resurface somewhere else 15 minutes later. It was truly a treat to be able to watch them, and the weather couldn’t have been better. My favorite shot was of a baby humpback breeching – we had been tracking him for a while, his blow noticeably smaller than the adults around him. He looked as if he was just playing around in the water, enjoying himself without a worry in the world. I had been hoping to see Alaska wildlife on this trip, and am thrilled my wish was granted.

A pod of orcas was amidst the whale extravaganza!
A pod of orcas was amidst the whale extravaganza!
The sight of the fluke indicates they are diving down deeper, and may not resurface again for several minutes.
The sight of the fluke indicates they are diving down deeper, and may not resurface again for several minutes.
So many whales!
So many whales!
The bathroom in our staterooms

The bathroom in our staterooms

stateroomI had a question about our living accommodations on the ship, and I must admit they aren’t too shabby. I share a room with another one of the scientists, and she works the opposite shift. This works out nicely as we can each have our own time in the room, and can sleep uninterrupted. We have bunks, or racks as many refer to them, and I am sleeping on the top bunk. We have a bathroom with a shower in our room, and it’s nice not to have to share those amenities. The walls are pretty thin, and the ship can be loud when operations are going, making earplugs or headphones helpful.

Nikki Durkan: Parasites Abound, June 29, 2015

Posted on by durkann

NOAA Teacher at Sea
Nikki Durkan
Aboard NOAA Ship Oscar Dyson
June 11 – 30, 2015

Mission: Midwater Assessment Conservation Survey
Geographical area of cruise: Gulf of Alaska
Date: Monday, June 29, 2015

Weather Data from the Bridge:
Wind speed (knots): 8.25
Sea Temp (deg C): 10.59
Air Temp (deg C):  10

Science and Technology Log:

Parasites – some lurk inside our bodies without us knowing and some could even have an influence on our personalities. One of my favorite Radio Lab episodes describes research conducted on this subject. National Geographic Magazine also published a feature article I found quite interesting – Zombie Parasites that Mind Control Their Hosts.  In addition to capturing our interest because of their sci-fi-like existence, parasites may also be utilized to study ecological interactions.  Parasites a fish picks up throughout its life can indicate information about where the fish has traveled – these co-dependent organisms serve as biological tags that scientists can then interpret.

Nematodes on Pollock Liver - most of the Pollock we caught have had these in their guts.

Nematodes on Pollock Liver – most of the Pollock we caught have had these in their guts.

Parasites often require several hosts to complete their lifecycles and one nematode that can infect Pollock (and humans incidentally) is Anisakiasis.  While I love sushi, raw fish can pose serious risk to our health.  “Sushi-grade” labels, similar to the ubiquitous “natural” labels, do not meet any standardized specifications. However, the FDA does set freezing requirements for the sale of raw fish that commonly possess parasites…so enjoy your sushi 🙂

The pathobiologists at the Alaska Fisheries Science Center are currently investigating the impacts certain parasites may have on Pollock. While many species of parasites have been recognized, we still have a lot to learn about their impact on populations and ecosystems. Scientists are attempting to identify those that are likely to influence the booms and busts that can occur within the Pollock populations. More specifically, their current research centers around a microsporidian (pleistophora sp.) that lives within the muscle tissue of Pollock and may impact the fishes ability to swim and breed. (AFSC Pathobiology)

Microsporidian (pleistophora sp.) marked with asterisk Photo Credit: NOAA

These critters are found in most Pollock catches as well - they are sometimes called sea lice.

These critters are found in most Pollock catches as well – they are also called sea lice.

Sometimes ships pick up parasites too! The introduction of invasive species to fragile ecosystems is one of the leading causes of extinction and ballast water is the number one reason for the distribution of aquatic nuisance species. The Great Lakes region serves as a warning about the devastation ballast water can inflict on an ecosystem. Ships can transport ballast water from one region to another and then release the ballast water (along with numerous non-native organisms). No longer encumbered by natural predators or other environmental pressures that help to keep populations in check, the invasive species can flourish, often at the expense of the native species. NOAA has implemented strict guidelines for the release of ballast water to limit the spread of invasive species.  The Oscar Dyson also uses a lot of oil to keep all the working parts of our engine room functioning, but some of this oil drips off and collects in the bilge water. This oily bilge water is then separated and the oil is used in our trash incinerator (all garbage with the exception of food scraps is burned in the incinerator).  Thanks to our Chief Marine Engineer, Alan Bennett, for taking me and Vinny on a tour of the ship.

Thanks, Allan!

Thanks, Allan!

Personal Log:

Fortunately, after three weeks of being splattered with all parts of a Pollock you can think of and eating my fair share of fish, I am currently free of fish parasites…to my knowledge! Our wonderful chefs, Arnold Dones and Adam Staiger, have been cooking healthy, varied meals for 32 people over the course of three weeks – this is no small feat!  The soups are my favorite and have inspired me to make more when I return home. I know from camping experiences with my students and living at a boarding school campus, that food is directly connected to morale.  Last night, the chefs spoiled everyone with steak and crab legs!

Chef Adam Staiger is full of smiles!

Chef Adam Staiger is always full of smiles!