Laura Guertin – Page 2 – NOAA Teacher at Sea Blog

June 16, 2023June 21, 2023

Laura Guertin: NOAA Fisheries Surveys, Highlighting Acoustic Trawling, June 16, 2023

NOAA Teacher at Sea

Laura Guertin

Aboard NOAA Ship Oscar Dyson

June 10 – June 22, 2023

Mission: 2023 Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska

Geographic Area of Cruise: Islands of Four Mountains area, Western Gulf of Alaska
Location (2PM (Alaska Time), June 15): 53^o 38.9534′ N, 166^o 10.9927′ W

Data from 2PM (Alaska Time), June 15, 2023
Air Temperature: 8.74 ^oC
Water Temperature (mid-hull): 6.2^oC
Wind Speed: 3.55 knots
Wind Direction: 310.61 degrees
Course Over Ground (COG): 64.09 degrees
Speed Over Ground (SOG): 11.61 knots

Date: June 16, 2023

One of the nine key focus areas for NOAA is research (https://research.noaa.gov/). Additional summaries about NOAA’s research activities can be found at NOAA Ocean Today. There are also numerous articles that describe the impact of NOAA’s research activities, such as Five ways NOAA’s research improves hurricane forecasts and other articles listed under Latest News and Features.

A stylized graphic design representing NOAA Research, this is a blue circle containing icons of a chemistry beaker, a pie chart, and a bar graph. The adjacent text contains the description of NOAA Research found here: https://www.noaa.gov/research

And now, it’s time for some science and surveying! Before I dive into the specifics of the methods we are carrying out on Oscar Dyson, I’m sharing this incredibly helpful NOAA Fisheries page that summarizes their Research Surveys, where “Our scientists and partners collect data on the water, from aircrafts, and from shore to understand the abundance, distribution, and health of marine life and habitats. That data forms the scientific foundation for our management and conservation work.”

There is also an informative podcast episode, Learn About NOAA Fisheries Surveys (transcript available at link). This podcast covers the need for sustainable fisheries, the 2013-2016 North Pacific Blob, how surveys were done historically, how surveys are using new technology, the impact of the pandemic, and the concept of being in a “stationary” versus “non-stationary” world. Such a fascinating listen!

First episode of “Dive In with NOAA Fisheries,” titled Learn About NOAA Fisheries Surveys

There is another podcast episode from the same series that is an excellent follow-on from the episode available above. Surveying Alaska’s Waters (transcript available at link) shares how surveys are a tools that allow NOAA to reach its mission, whether those measurement techniques come from satellites, autonomous vehicles, buoys, ships, drones, etc. Although these tools assist NOAA scientists in collecting data, climate change is playing an even bigger role in making ecosystem management a moving target. Again – worth a listen!

Third episode of “Dive In with NOAA Fisheries,” titled Surveying Alaska’s Waters

Surveys in the Gulf of Alaska

Trawl surveys have been conducted by Alaska Fisheries Science Center (AFSC) beginning in 1984 to assess the abundance of groundfish in the Gulf of Alaska (2021 Stock Assessment Report, p. 9). Starting in 2001, the survey frequency was increased from once every three years to once every two years on odd-numbered years. This is a flyer that describes the biennial bottom trawl survey in the Gulf of Alaska 2023.

The website Alaska Fish Research Surveys includes field season research briefs going back to 2021. The 2023 field season includes a link to my current expedition, Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska.

The strategy of combining trawl and acoustic surveys was developed by AFSC and the University of Washington. They published a paper in the Canadian Journal of Fisheries and Aquatic Sciences (Kotwicki et al., 2018) that discusses the need to perform acoustic-trawl (AT) and bottom-trawl (BT) surveys to accurately estimate the abundance of fish populations along with their spatial distribution. I’ve provided below part of a news release from the University of Washington describing the content of the publication:

Many species of fish spend some of the time on the ocean bottom, and some of their time far off the bottom, which makes them hard to survey. Acoustic surveys (that bounce sound off fish schools), can estimate the midwater component of so-called “semipelagic” fish, while trawl surveys can measure the portion on the bottom. Now a new method has been developed that combines data from both types of surveys into a single estimate using information about the environment (bottom light, temperature, sand type, and fish size). The new method has been used to assess the status of walleye pollock, which sustains the largest fishery in the United States.

This image from Kotwicki et al., 2018, does an excellent job of showing the two types of survey methods, acoustic and bottom trawling.

Illustration of conceptual model of walleye pollock sampling by an echo sounder and a bottom trawl. At the top right is an illustration of a fishing vessel sailing left. Two blue lines extend out the back of the vessel diagonally downward toward the seafloor and connect to two points on an illustration of a bottom trawl net. To the left of the net (in front of the opening) is drawn a school of fish; more fish are drawn directly below the ship. Two other blue lines extend diagonally down from the center of the ship's hull to form a triangle representing the acoustic swath. Blue boxes indicate the areas of the water column missed by either the bottom trawl net (that is, the entire pelagic zone) or the acoustic sampling (a narrow benthic zone right off the seafloor.) — Fig. 1. Illustration of conceptual model of walleye pollock sampling by an echo sounder and a bottom trawl. Note that acoustic data are collected directly under the survey vessel, while the bottom trawl catches walleye pollock some distance behind the vessel. Diving occurs in the time between the vessel passing over the school of walleye pollock and the trawl catching the same school. Source: Kotwicki et al. 2018.

What is different for my current expedition is that we are not doing any bottom trawling. We are doing the acoustic piece of the survey and trawling off the bottom. Separate surveys and ships are collecting the bottom data, and then will be combined with our data to provide a more accurate snapshot for the water column for the annual Stock Assessment Report for Walleye Pollock. AT and BT surveys get NOAA to their research objective: informing fish stock assessment models and catch allocation. NOAA publishes an annual 100+page Assessment of the Walleye Pollock Stock in the Gulf of Alaska from the surveys conducted each year (see reports from 2019, 2020, 2021).

Check out this website if you are curious to see images from Bottom Trawl Surveys in Alaska. NOAA’s Groundfish Assessment Program regularly conducts bottom trawl surveys to assess the condition of groundfish and shellfish stocks in Alaskan marine waters).

1883 International Fisheries Exhibition

To prepare to sail on Leg 1 of the Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska, I did a lot of reading and preparation so I could better understand what I would be learning, and how I could then connect the material with my students and additional audiences I see post-expedition. These two books in the image below helped give me a much better picture of not only walleye pollock but the fisheries industry, policy, and practices over time and space.

Photo of two books - one titled Billion-Dollar Fish, by Kevin Bailey, and other titled World Without Fish, by Mark Kurlansky

Each of these books provides some fascinating insight into the history, thought, and even debates, about the nature of ocean resources.

The title of Chapter 4 in Kurlansky’s book gives a hint for how to respond to my questions: “Being The Myth of Nature’s Bounty And How Scientists Got It Wrong For Many Years.” Early in the chapter, Kurlansky states:

“In the 1800s, when the study of fish and oceans was a relatively new science, it was the fishermen who were afraid that fish populations could be destroyed by catching too many fish, especially small fish. Scientists at the time believed that it was impossible to catch too many fish because fish produced so many eggs.” — World Without Fish, p. 53

One of the causes of concern for fishermen was the new technology developing – specifically, engine power, that allowed for even more fish to be caught.

There was a great historical debate on fisheries, too! London was the site of the Great International Fisheries Exhibition of 1883, where a debate about the ocean took place between British scientists Thomas Huxley and Edwin “Ray” Lankester. Huxley gave the inaugural address of the exposition – you can read it in its entirety online. Here are excerpts:

“I believe that it may be affirmed with confidence that, in relation to our present modes of fishing, a number of the most important sea fisheries… are inexhaustible… and probably all the great sea-fisheries, are inexhaustible; that is to say that nothing we do seriously affects the number of fish. And any attempt to regulate these fisheries seems consequently… to be useless.” (*feel free to dive into Huxley’s speech to see his reasoning – the multitudes of fish available, and the destruction is minimal)

Then Lankester gave the final summary speech of the Exhibition – a rebuttal to Huxley. Lankester made the point that the fish in the sea are not unlimited, and captured fish are not readily replaced by others that exist further offshore from the fishing location. He raised the concern that the removal of the parents by fishing was going to impact the production of the young.

Although at the time many gave Huxley the victory in this debate, Huxley did not take into account the new development that I mentioned above – the modern trawl and the steam trawler to pull it, resulting in larger nets and catches. It’s interesting to note that eventually, Huxley studied the impact from engine-driven net draggers and changed his story. Huxley eventually agreed that overfishing was not only possible, but that it was happening.

Now to circle back to why we survey fisheries… it ultimately comes down to ecosystem management. As described in the two audio files at the top of this blog post and in my other posts, as well as the title to Chapter 8 in Kurlansky’s book, “The Best Solution To Overfishing: Sustainable Fishing.” And to engage in sustainable fishing, you need the data to make that happen – hence, fisheries surveys!

June 15, 2023June 15, 2023

Laura Guertin: Alaska Pollock and Sustainable Fisheries 101, June 15, 2023

NOAA Teacher at Sea

Laura Guertin

Aboard NOAA Ship Oscar Dyson

June 10 – June 22, 2023

Mission: 2023 Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska

Geographic Area of Cruise: Islands of Four Mountains area, Western Gulf of Alaska
Location (2PM (Alaska Time), June 14): 52^o 30.9860′ N, 169^o 08.0942′ W

Data from 2PM (Alaska Time), June 14, 2023
Air Temperature: 8.11 ^oC
Water Temperature (mid-hull): 8.0^oC
Wind Speed: 8.27 knots
Wind Direction: 243.96 degrees
Course Over Ground (COG): 239.25 degrees
Speed Over Ground (SOG): 13.05 knots

Date: June 15, 2023

I’m trained as a geologist and oceanographer. My teaching and research has focused on the physical sciences, which is why I’m so excited to have the opportunity to work with scientists in the life sciences. But before I start with the acoustic-trawl survey of walleye pollock, I had to do my homework – namely, learn something about this fish!

There is a wealth of resources on NOAA’s website that are providing me the introductory overview or “101” on pollock and the overall mission of maintaining sustainable fisheries. I started by viewing this NOAA video on Alaska’s Pollock Fishery: A Model of Sustainability.

This video shared so much but also generated so many more questions! I decided to take a step back and do a deeper dive into some of these topics, starting with the fish…

Alaska (walleye) pollock

Photo of dead Alaska pollock on a flat surface — *Alaska pollock (Gadus chalcogrammus) on the sorting table, from NOAA Photo Library*

NOAA Fisheries is doing an incredible volume of work in the Alaska region – including a focus on the Alaska pollock.

A member of the cod family, Alaska pollock (Gadus chalcogrammus) is also referred to as pollock, walleye pollock, and Pacific pollock. The NOAA Fisheries Species Directory for Alaska pollock states that Alaska pollock typically grow between 12 and 20 inches and weigh between 1 to 3 pounds. Their speckled coloring allows them to blend in with the seafloor to avoid predators such as Stellar sea lions, fish, seabirds – even older pollock will feed on juvenile pollock! Humans feed on pollock in products from fillets to fish sticks to surimi.

Alaska pollock are found throughout the North Pacific Ocean but are most common in the Bering Sea. Pollock migrate inshore to shallow water to breed and feed in the spring, then move back to warmer, deeper waters in the winter.

Sustainable fisheries

I always like to start by ensuring I’m using the terminology correctly. The NOAA web page for Understanding Fisheries Management in the United States defines fishery as the following:

The word “fishery” is used in many ways. It can refer to the occupation, industry, or season for catching fish. It can also refer to the area of ocean where fish are caught, or the business of catching the fish. U.S. fisheries include commercial (catching/marketing fish and shellfish for profit), recreational (fishing for sport/pleasure), and subsistence (fishing for personal/family/community consumption or sharing.

Next, what is meant by sustainable fisheries? NOAA defines this in the following video and in the quote below:

“U.S. fisheries are big business, providing jobs and recreation and keeping our coastal communities vibrant. In fact, the United States is a global leader in responsibly managed fisheries and sustainable seafood. Working closely with commercial, recreational, and small-scale tribal fishermen, we have rebuilt numerous fish stocks and managed to create some of the most sustainably managed fisheries in the world. U.S. fisheries are scientifically monitored, regionally managed, and legally enforced under 10 national standards of sustainability. Managing sustainable fisheries is a dynamic process that requires constant and routine attention to new scientific information that can guide management actions.” — from NOAA Fisheries – Sustainable Fisheries

[*Note – To help my students with ocean definitions, I also like to show video clips from the Pew/Jim Toomey (cartoonist behind “Sherman’s Lagoon”) Visual Glossary of Ocean Terminology, such as the videos for What Is U.S. Fisheries Management? and What Is Ecosystem-Based Fishery Management? ]

NOAA’s FishWatch website is a great place to find the most up-to-date information on popular seafood harvested or farmed in the United States. This helps each of us as consumers to make smart choices! Check out the page for the Alaska pollock to see the details available for this fish, currently classified as a smart seafood choice because it is “sustainably managed and responsibly harvested under U.S. regulations.” This is so important to note, as according to FishWatch, the Alaska pollock fishery is one of the most valuable in the world, with commercial landings of Alaska pollock from the Bering Sea and Gulf of Alaska in 2020 totaling more than 3.23 billion pounds and were valued at approximately $420 million.

Alaska pollock library of articles

Several articles on NOAA’s website were helpful in not only providing me more background information to prepare for my time on Oscar Dyson, but the content really showed me the context of what NOAA is doing for fisheries research/management and why it matters. My students probably recognize this as a list of articles I would give them to develop their current event literacy, as these are recent dates of publication and from a credible source (NOAA, of course!) – and of course, contribute to advancing their ocean literacy.

If you wish to learn more about the current state of Alaska pollock research with NOAA, I highly recommend these recent articles from NOAA Fisheries News & Announcements:

Visualizing Shifts of Pollock, Cod in the Northern Bering Sea in Response to Warming Waters (May 12, 2023)
Developing 3D Stereo Camera Technology to Support Sustainable Fisheries (February 22, 2023)
Uncrewed Surface Vehicles Complement NOAA Vessels for More Efficient Fisheries Surveys (February 15, 2023)
Empowering a Fleet Through Electronic Technologies (January 11, 2023)
Scientists Release Annual Status Reports for Three Alaska Marine Ecosystems (December 20, 2022)
Special Issue Journal Focuses on Ecosystem Processes in the Gulf of Alaska (October 18, 2022)
New Approach To Evaluate Fish Stock Productivity Under Changing Climate Conditions (December 14, 2021)
Developing a Strategy For Monitoring Alaska Fisheries in 2022 and Beyond (October 14, 2021)
Low-Fat Diet Possible Culprit in Poor Survival of Young Pollock Born 2013 (July 20, 2021)
As Marine Fish Shift With Climate Change, Scientists Work Across Borders to Ensure Sustainability (June 22, 2021)
Water Clarity Study Sheds Light on Bering Sea Change (March 17, 2021)
Ocean-Going Robots Effective at Surveying Pollock (December 10, 2020)
Study Shows Pollock Stocks are Mixing More Due to Changing Ocean Conditions and Weather Patterns (October 26, 2020)
What Happened to the Pollock Born in 2015 (October 8, 2020)
Wind Influences Pollock Success in the Gulf of Alaska (September 28, 2020)
Collaboration and Partnerships Make Data Collection Possible in a Challenging Year for Arctic Research (September 25, 2020)
Ecosystem-Based Fisheries Management Strengthens Resilience to Climate Change (September 14, 2020)
Pollock Survey Begins in Eastern Bering Sea (July 15, 2020)
Ocean-Going Robots Poised to Enter Bering Sea to Start Unconventional Fisheries Survey (July 1, 2020)
Autonomous Vehicles Help Scientists Estimate Fish Abundance While Protecting Human Health and Safety (June 1, 2020)

For podcast fans, this 2013 NOAA Fisheries podcast episode titled Keeping an Eye on Pollock is an excellent overview of how “scientists and fishermen work together to understand how walleye pollock respond to a changing environment” (transcript available online).

NOAA Fisheries podcast, Keeping an Eye on Pollock

In reviewing these articles and the podcast, it is clear that NOAA is focused on advancing the technology to survey Alaska pollock with new tools such as saildrones. There is also an interest in closely monitoring the impact climate change is having on the juvenile and adult populations of pollock (see the NOAA Fisheries site on Climate Change). This video, released January 2022, is a great snapshot of how NOAA Fisheries is preparing and responding to the impacts of climate change (link to web page that supports the video).

OK, I’m feeling good about my background on the “what” and “why” of Alaska pollock, and I hope you are, too! Next, it’s time to share the activities of the science team that is applying science knowledge and technology tools to studying pollock on Oscar Dyson!

June 14, 2023July 9, 2023

Laura Guertin: Stitch the Sky at Sea, June 14, 2023

NOAA Teacher at Sea

Laura Guertin

Aboard NOAA Ship Oscar Dyson

June 10 – June 22, 2023

Mission: 2023 Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska

Geographic Area of Cruise: Islands of Four Mountains area, Western Gulf of Alaska
Location (2PM (Alaska Time), June 13): 54^o 19.3929′ N, 161^o 35.5129′ W

Data from 2PM (Alaska Time), June 13, 2023
Air Temperature: 7.2 ^oC
Water Temperature (mid-hull): 6.5^oC
Wind Speed: 9.25 knots
Wind Direction: 144.73 degrees
Course Over Ground (COG): 254.48 degrees
Speed Over Ground (SOG): 11.34 knots

Date: June 14, 2023

As a trained scientist and educator who is passionate about communicating science, I’m always thinking of different ways we can tell stories and share our data with non-scientists and students. I have been crocheting temperature data since 2017 and sharing my temperature scarves that record daily maximum temperature values for a location. In 2018, I began a journey of quilting science stories (see my blog post on the Teacher At Sea Alumni Association (TASAA) blog, Sharing Stories of the Louisiana Coast Through Quilts). While I’m on Oscar Dyson, I’m going to be creating another type of story/data visualization, based upon the observations I make looking up at the sky – and I hope you will join me!

A full description of my Stitch the Sky At Sea project is available on the TASAA blog. But note that you can do any variation, use any colors, select any style of stitching… the project is yours to create! I started the project with my visual observations back home (Philadelphia, PA) on June 1, before I flew to Alaska. This is the color scale I’m using and selecting which yarn matches what I’m seeing in the sky. It has been overcast my entire time in Kodiak (AK) so far – you can see the jump in color!

A close-up view of a left hand holding a crochet hook and several rows of stitches in gray yarn. This image has text overlain that reads: Stitch the Sky At Sea Project

A collage of three images: the top two are images of blue skies at locations in Pennsylvania (labeled PA) and Washington (labeled WA). The bottom image shows a row of stitches and bold blue yarn.

Photos: Announcing the Stitch The Sky At Sea Project (top left); Photos of blue skies at my home (Philadelphia) and where I had a one-night layover during travel (Seattle) with rows stitched onto the beginning edge (top middle); Photo of what the sky has looked like every day I was in Kodiak before sailing – completely clouded over (top right); The five colors of yarn I’m using for the five shades of the sky I’m observing the same time each day (bottom center). The yarn is from The Tempestry Project and in the colors of Aurora (top left), Downpour (top right), Cumulus (middle), Nimbus (lower left), Nebula (lower right).

This table will include my recorded observations. Again, you can stitch what I’m seeing, stitch what you are seeing in your location on the same date – or stitch both data for comparison! I’ll continue stitching through the end of the month to see what I can learn from my observations between these locations.

June	Location	Sky color observed (by myself)	NOAA’s sky cover value	Notes
1	PHL	bright blue	0.1	At home, waiting to depart
2	PHL	bright blue	0.2
3	SEA	bright blue	0.1	Flew out of Philly early AM, day in Seattle
4	Kodiak	dark gray	1.0	Arrived in Kodiak, stay in hotel
5	Kodiak	dark gray	1.0
6	Kodiak	dark gray	1.0
7	Kodiak	dark gray	1.0
8	Kodiak	dark gray	1.0
9	Kodiak	dark gray	1.0
10	transit	white	0.9	Departed Kodiak, day of transit
11	transit/ shelter	light gray	0.9	transit/sheltering in Larsen Bay
12	transit	white	0.3	restart transit at 5AM
13	transit	light gray	0.9	*starting this date, sky cover value as reported in Cold Bay
14	transit	dark gray	1.0	Arrival at first transect site, survey begins
15	transects	dark gray	0.9
16	transects	light blue	1.0
17	transects	bright blue	0.4
18	transects	light gray	0.7
19	transects	dark gray	0.9
20	transects	dark gray	0.8
21	transit	dark gray	1.0	*sky cover value as reported in Kodiak
22	dock in Kodiak!	dark gray	1.0	Left Kodia at 4PM (AK Time), flew to Anchorage, then Seattle
23	SEA	light blue	0.3	Travel day, Seattle to Philadelphia – sky cover for Seattle
24	PHL	dark gray	0.9	*sky cover for Philadelphia
25	PHL	white	0.6
26	PHL	light gray	0.9
27	PHL	white	0.9
28	PHL	light blue	0.6
29	PHL	light gray	0.6	[Canadian wildfire smoke covering the region today 🙁 ]
30	PHL	light gray	0.6

I will be taking photos of the sky and plotting them along with the ship location in this Google Earth file (just the days we are at sea – not the days on land).

I’m excited to be able to wear so many hats while at sea – scientist, educator, communicator, and crafter! If you decide to stitch along, please share your work!

Short crocheted piece in a rectangular shape in colors of blue, white, and dark blue/gray — Completed stitching, as of June 13. The top two rows are in a non-project color to mark the beginning. Each row is a double-crochet in the color I’m observing as I look to the sky each day at approximately the same time (~10:30AM Alaska Time).

June 13, 2023June 13, 2023

Laura Guertin: A shout-out to Oscar Dyson, the person and the ship, June 13, 2023

NOAA Teacher at Sea

Laura Guertin

Aboard NOAA Ship Oscar Dyson

June 10 – June 22, 2023

Mission: 2023 Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska
Geographic Area of Cruise: Islands of Four Mountains area, Western Gulf of Alaska
Location (in transit, location recorded on June 12 at 2PM (Alaska Time)): 56^o 45.1227′ N, 155^o 38.3353′ W

Data from 2PM (Alaska Time), June 12, 2023
Air Temperature: 7.72 ^oC
Water Temperature (mid-hull): 6.8^oC
Wind Speed: 18.71 knots
Wind Direction: 201.27 degrees
Course Over Ground (COG): 207.53 degrees
Speed Over Ground (SOG): 11.46 knots

Date: June 13, 2023

Photo facing the front of the NOAA Ship Oscar Dyson while it was in dock in Kodiak, Alaska — *NOAA Ship Oscar Dyson as it docked in Kodiak, Alaska, on February 6, 2022*

The journey of NOAA Ship Oscar Dyson begins as we are underway from Kodiak Island and head out along the Aleutian Islands.

Every NOAA ship has a name – but who is behind the name? I dedicate this blog post to Oscar Dyson (both Oscar Dysons, actually!)

Here’s a short summary from the NOAA Office of Marine & Aviation Operations on NOAA Ship Oscar Dyson:

Launched in 2003 and commissioned in 2005, the ship is named after Alaskan fisherman Oscar Dyson, a pioneer in Alaska’s fishing industry for half a century before his death in 1995. A well-known fishing activist and an industry advisor to government, Dyson was dedicated to improving the industry for the many Alaskans who make their living at sea. The ship is homeported in Kodiak, Alaska.

Peggy Dyson, wife of Oscar, christened the ship at its launch on October 17, 2003, in the VT Halter Marine shipyard in Moss Point, Mississippi. The first commanding officer was Commander Frank Wood.

Oscar Dyson (and Peggy!)

Oscar Dyson made an impact in Kodiak and across Alaska. I found a transcript of a Congressional Record read in 1995 less than two weeks after his passing with a detailed biography. There is a scholarship named for Oscar and his wife Peggy managed by the University of Alaska Fairbanks with a description I found online in 2022 that reads:

Oscar Dyson was a dedicated fisherman who turned his hobby into a business and his life’s work for 50 years. A Kodiak resident, Oscar had ample opportunity to partake in Alaska’s expansive fishing opportunities, but he also pioneered the crab fishing industry in Alaska. Oscar co-founded All Alaskan Seafoods (one of the largest seafood processing companies in the state) and built military bases during World War II …. The Oscar Dyson Memorial Scholarship was created in his honor and funded by numerous fishing and seafood companies within Alaska — a fitting homage to a man who did so much to develop Alaska’s marine economy. Oscar thought of himself — first, last and always — as a fisherman.

There is a dock in Kodiak named after Oscar Dyson with a marker to note his contributions and achievements (*photos taken by me as I spent some time exploring Kodiak in 2022)

Entrance sign for Oscar’s Dock
View of the dock
Memorial plaque for Oscar Dyson
View beyond Oscar’s Dock

And I’d like to give a shout-out to his wife Peggy, who made significant contributions of her own to the fishing community. Between 1965 and 2000, Peggy Dyson broadcast the marine weather from her house in Kodiak, twice a day over single sideband radio. She also reported sports scores and election results! The Kodiak Maritime Museum has a wonderful description of Peggy, including an audio clip of her voice, on their webpage, Peggy Dyson, Voice of the North Pacific. And NOAA Ship Oscar Dyson has a launch named Peggy D!

NOAA Ship Oscar Dyson

The NOAA Oscar Dyson pulled into the Port yesterday. Homeported in Kodiak, Alaska, Oscar Dyson is the first in a class of ultra-quiet fisheries survey vessels built to collect data on fish populations, conduct marine mammal and seabird surveys, and study marine ecosystems. pic.twitter.com/zZ2gGzuYvd
— Port of San Francisco (@SFPort) January 5, 2022

NOAA Ship Oscar Dyson plays a major role in collecting data used in the management of Alaska pollock, one of the world’s largest commercial fisheries. At 208-feet in length with a cruising speed of 12 knots and an endurance of 40 days at sea, Oscar Dyson can support 24 crew and 15 scientists (*see additional Specifications). The six onboard laboratory spaces include: a wet lab, dry lab, electronics/computer lab, bio lab, acoustics lab and hydrographics lab. Oscar Dyson sails primarily in the Gulf of Alaska and Bering Sea.

In 2016, NOAA put together a Photo story: Virtually cruise aboard a NOAA ship for a fish trawl survey to show how scientists collect fish science data at sea, with all photos from Oscar Dyson.

I look forward to sharing more information about the ship and stories from my time at sea. But I don’t want to repeat the incredible work done by educators that sailed before me. Here are some excellent recent blog posts by other educators that have sailed on Oscar Dyson that describes everything from the facilities to the work involved on a fisheries survey:

Erica Marlaine: One Fish, Two Fish, June 26, 2019
- discussion of trawling
Erica Marlaine: Onboard the City That Never Sleeps, June 28, 2019
- acoustical work
Callie Harris: Life Above and Below Deck, August 24, 2019
- otoliths, engine room tour
Erica Marlaine: What’s an Oiler? And Where Does All That Water Come From? July 14, 2019
- engine room and engineering crew
Erica Marlaine: SAY CHEESE, July 7, 2019
- use of underwater cameras in “untrawable” areas
Callie Harris: Jellyfish Landslide, August 15, 2019
- preparing for and conducting a midwater trawl
Erica Marlaine: No Peanut Butter and Jelly but PLENTY OF JELLYFISH, July 1, 2019
- NOAA Chief Steward spotlight, zooplankton collection/Methot net
Erica Marlaine: The Dreaded Melanasty and the Volunteer Biologists, July 12, 2019
- profiles of volunteer biologists on board, details of fish species collected
Emily Cilli-Turner: Journey’s Coming to an End, August 9, 2018
- profile of Chief Scientist, what happens in the wet lab after a catch
Jessica Cobley: Not Just Fishing, August 1, 2019
- engine room tour
Emily Cilli-Turner: Catching Pollock with Mathematics! August 1, 2018
- the mathematics of underwater acoustics, partial photo tour of ship
Jessica Cobley: Resurrection Bay, July 28, 2019
- survey in Resurrection Bay, Methot net
Richard Chewning, pollock survey, June 18, 2010
- pollock survey, why and how
Kathryn Lanouette, why study pollock, July 25, 2009
- why study pollock

Looking at the back of the NOAA Ship Oscar Dyson — *View of NOAA Ship Oscar Dyson just as she docked in Kodiak, Alaska, on February 6, 2022*

Old Ships, New Ships

The first NOAA ship I sailed on, Thomas Jefferson, started its life as US Naval Ship Littlehales. From January 1992 to January 2003, Littlehales recorded 85,018 hydrographic survey miles along the coast of Africa and in the Red Sea and Mediterranean Sea. Littlehales ended its time with the Navy and then renamed Thomas Jefferson and officially entered the NOAA fleet on July 8, 2003 (*see About Thomas Jefferson which also explains why the ship was named after the former U.S. president).

Oscar Dyson was new construction, the first of four planned 208-foot NOAA fisheries survey vessels.

In my first post, I mentioned how I’m reflecting upon this year being the 150+-year celebration of H.M.S. Challenger expedition. Launched in 1858, Challenger was a small warship with cannons assigned to coastal patrols and to support larger ships in the British naval fleet, not built for a science expedition. Modifications to Challenger were funded by the British government through the navy to include laboratories and accommodations for six civilian scientists to join the 250 British Royal Navy sailors and officers for the 3+ year journey at sea. I could not find information on why the navy chose “Challenger” as the name of the ship – but this ship’s name was the inspiration for the NASA space shuttle, the lunar module on the Apollo 17 mission, the scientific ocean drilling vessel Glomar Challenger, and even Sir Author Conan Doyle is said to have named his recurring character Professor Challenger after this ship. (*information from Macdougall, 2019)

Sketch of ship H.M.S. Challenger from Challenger Expedition Report, published in 1800's — *Sketch of H.M.S. Challenger.* *Image in public domain, from Freshwater and Marine Image Bank*

June 12, 2023June 12, 2023

Laura Guertin: NOAA and NOAA Fisheries, June 12, 2023

NOAA Teacher at Sea

Laura Guertin

Aboard NOAA Ship Oscar Dyson

June 10 – June 22, 2023

Mission: 2023 Summer Acoustic-Trawl Survey of Walleye Pollock in the Gulf of Alaska

Geographic Area of Cruise: Islands of Four Mountains area, Western Gulf of Alaska
Location (site of calibration, June 11): 57^o 32.6154′ N, 153^o 55.8318′ W

Data from 2PM (Alaska Time), June 11, 2023
Air Temperature: 8.29 ^oC
Water Temperature (mid-hull): 6.3^oC
Wind Speed: 10.35 knots
Wind Direction: 166.14 degrees
Course Over Ground (COG): 222.34 degrees
Speed Over Ground (SOG): 0.13 knots

COG = The direction the ship is heading relative to land. Over Ground means in relation to the Earth, so COG means the true direction free from the effects of sea currents.
SOG = Speed, real progress with respect to Earth. SOG means the true speed free from the effects of sea currents.

Date: June 12, 2023

I am pretty sure that, on a daily basis, I mention NOAA in my classroom, during public outreach events, and in conversations with colleagues and neighbors. But too often, individuals are not aware of this government agency and the critical role NOAA plays in our lives, even for those that are not scientists. So this blog post is for everyone not familiar with the services NOAA provides us all, along with a focus on NOAA’s National Marine Fisheries Service (aka “NOAA Fisheries”).

NOAA is an agency that enriches life through science. Our reach goes from the surface of the sun to the depths of the ocean floor as we work to keep the public informed of the changing environment around them. — from About our agency

The letters N-O-A-A stand for National Oceanic and Atmospheric Administration, an agency in the U.S. Department of Commerce. NOAA has a fascinating history, going back to 1807 and President Thomas Jefferson founding America’s first physical science agency, the Survey of the Coast. Fast-forward to 1870, when the Weather Bureau was establshed as the first agency dedicated to the atmospheric sciences. In 1871, the first conservation agency, the U.S. Commission of Fish and Fisheries, was in place. All three of these agencies were brought together in 1970 with the formation of NOAA. (*yes, NOAA recently celebrated its 50th anniversary! See this playlist of videos to learn even more about its history and the people of NOAA from over the years. There is an additional video that goes back to the original agency and mission of 1807.)

NOAA mission: To understand and predict changes in climate, weather, ocean, and coasts, to share that knowledge and information with others, and to conserve and manage coastal and marine ecosystems and resources. — from Our mission and vision

View this video for an overview of NOAA “meeting the moment.”

When I think of and hear “NOAA”, there are several terms/phrases that pop into my mind – science research, atmosphere, hydrosphere, weather and climate, health and safety, economy, conservation, sustainability, and so many more. The educational resources provided by NOAA are also valuable for additional background reading, citizen science opportunities, and multimedia materials (including podcasts!).

Quilt hanging on a wall with NOAA across the top and images that represent NOAA's areas of work

A STEAM Moment

I mentioned in my first blog post how I have a passion for and explore the integration of science and creative arts, specifically crafting via crocheting and quilting. To help others learn about the mission of NOAA and its key focus areas, I created a quilt to showcase NOAA’s work in research, weather, climate, ocean & coasts, fisheries, charting, satellites, marine & aviation, sanctuaries, and education. This quilt is just another tool in my education/outreach toolkit! To learn more about this quilt and to view a video, see this post.

NOAA Fisheries

NOAA Fisheries provides science-based conservation and management for sustainable fisheries and aquaculture, marine mammals, endangered species and their habitats. — from Fisheries

NOAA Fisheries, also known as the National Marine Fisheries Service, is a NOAA office composed of five regional offices, six science centers, and more than 20 laboratories around the United States and U.S. territories. Working with additional partners, NOAA Fisheries achieves its two core mandates: (1) to ensure the productivity and sustainability of fisheries and fishing communities through science-based decision-making and compliance with regulations; and (2) to recover and conserve protected resources including whales, turtles, and salmon.

There are several NOAA websites and videos that showcase the history and work of this office. I recommend the NOAA Fisheries About Us page, History page, YouTube playlist of NOAA Fisheries videos, and especially this overview video:

The main Fisheries page on NOAA’s website has fascinating facts you can scroll through. For example, I did not know that the total area NOAA Fisheries is responsible for monitoring and enforcing regulations for marine fisheries is 4.4 million square miles! This area is the largest Exclusive Economic Zone (EEZ) in the world! And the Fisheries News & Announcements page is a wealth of articles, press releases, multimedia material and more that will soon become required reading for students in my courses, adding to the materials I already tap into on NOAA’s Climate.gov and NOAA’s Ocean Facts!

#TheMoreYouNOAA

NOAA has an incredible range of resources and materials that are constantly being updated and expanded upon. There is something for everyone! (*including on Twitter, where you will find individuals and organizations highlighting NOAA’s work with the hashtag #TheMoreYouNOAA)

I’ll end this post with one of the fun audio narratives from the NOAA Ocean podcast series, which details phrases we use today that came from the Age of Sail (the period of time between the 16th and 19th centuries, transcript available).

NOAA Ocean Podcast: Episode 29 – The Nautical Origins of 10 Popular Phrases

The Challenger mission – so much more than fish

The mission of H.M.S. Challenger 150+ years ago was not as developed as the statements for NOAA and NOAA Fisheries – terms such as ‘conservation’, ‘management’, and ‘sustainability’ were not part of the expedition. Challenger was all about collecting samples, whether those samples be seafloor mud, manganese modules, corals, crabs, and plant and animal life from the islands they visited over their 3-year journey. The six Challenger scientists were not concerned about aquatic systems or human/environment interactions – this really was a journey of discovery and documenting what exists in these unexplored areas. It took 50 volumes of the Challenger Report to describe what was seen and collected – including roughly 4,700 new plant and animal species!

For the fish samples collected at that time, the “Challenger fishes” were incorporated into the British Museum (of Natural History) collection. There were 688 specimens of shallow water, shore and miscellaneous estuarine and freshwater fishes; 261 deep-sea fishes; and 125 pelagic fishes. Some of the fish were then sent over to the National Museum of Ireland in 1899, including type specimens of sixteen species (*data on the Challenger fishes from Wheeler and O’Riordan, 1969).