Cathrine Prenot: Why Math Matters. July 29, 2016.

Posted on July 29, 2016 by cathrineprenot

NOAA Teacher at Sea
Cathrine Prenot
Aboard Bell M. Shimada
July 17-July 30, 2016

Mission: 2016 California Current Ecosystem: Investigations of hake survey methods, life history, and associated ecosystem

Geographical area of cruise: Pacific Coast from Newport, OR to Seattle, WA

Date: Thursday, July 29, 2016

Weather Data from the Bridge

Lat: 4901.93N (We’re in Canada!)
Lon: 12651.64W
Speed: 5.7 knots
Windspeed: 34.2 deg/knots
Barometer: 1018.10 mBars
Air Temp: 15.0 degrees Celsius
Water Temp: 13.92 degrees Celsius

Science and Technology Log

Panoramic view of the back deck of the Bell M. Shimada from the wet lab.

There is a book on the bridge of most sailing vessels called “The American Practical Navigator.” Most people call it Bowditch, for short. It is a thick tome, and has an insane wealth of information in it, as Nathanial Bowditch vowed to “put down in the book nothing I can’t teach the crew.” He evidently thought his crew could learn anything, as Bowditch is an encyclopedia of information. You can find distances to nearby planets, how magnetic fields change around iron vessels, what to do if you are lost at sea, what mirages are, and rules to navigate around hurricanes. It’s been updated multiple times since Bowditch’s version in 1802, but one fact has remained. There is math—oodles and oodles of geometry and algebra and calculus—on every page. In fact, a lot of the Bell M. Shimada runs on math—even our acoustic fishing is all based on speed and wavelengths of sound.

Screenshot from the Bell M. Shimada’s Acoustics Lab showing the visual rendition (left to right) of 18,000Hz, 38,000Hz, and 120,000Hz. The ocean floor is the rainbow wavy line 250-450meters below. This was transect #38; we fished the red/orange splotches approx 150 meters deep. They were all hake!

Sonar was first used in World War I to detect submarines, and began to be used to sense fish soon after the war ended, with limited success. Sonar advanced rapidly through World War II and fishermen and scientists modified surplus military sonar to specifically detect ocean life. Since sound will bounce off “anything different than water,” we can now use different frequencies and energy to determine an incredible amount of information on a fish’s life. We can “try to tell what kind of fish, where they are, map vertically what they do, and determine their density.” The chief scientist, Dr. Sandy Parker-Stetter says it best. “My job is to spy on fish.” In my opinion, Sandy seems good enough to be in the Acoustics CIA. Click on Adventures in a Blue World; Why Math Matters, to learn all about fish spying and other reasons you should pay attention in algebra class.

Adventures in a Blue World, CNP. Why Math Matters.

Personal Log

Life onboard continues to be interesting and fun. The wind has picked up a bit, which has translated into higher seas. I tried to film the curtains around my rack last night opening and closing of their own accord, but every time I’d pick up the camera, they’d stop. I did get a few seconds of some wave action outside the workout room; riding a bike is now much easier than running on the treadmill. Pushups are insanely easy when the ship falls into the waves, and ridiculously difficult when rising.

Porthole video.

I’ve also been involved in a chemical spill drill (that does say drill), and was lucky to be given the helm for a brief moment on the Bell Shimada.

Staging a chemical spill for the crew’s spill drill

Prenot at the Helm

Did You Know?

NOAA has been around since 1970! Thanks to our great Survey Tech Kathryn Willingham for keeping our science team working so seamlessly. Well… …and making it fun too.

Kathryn Willingham

Resources:

Ocean frequencies: explore sound in the ocean.
Check out this great TED talk about the importance of mathematics at sea.

Cathrine Prenot: Sea Speak. July 25, 2016

Posted on July 26, 2016 by cathrineprenot

NOAA Teacher at Sea
Cathrine Prenot
Aboard Bell M. Shimada
July 17-July 30, 2016

Mission: 2016 California Current Ecosystem: Investigations of hake survey methods, life history, and associated ecosystem

Geographical area of cruise: Pacific Coast from Newport, OR to Seattle, WA

Date: Sunday, July 24, 2016

Weather Data from the Bridge

Lat: 47º32.20 N
Lon: 125º11.21 W
Speed: 10.4 knots
Windspeed: 19.01 deg/knots
Barometer: 1020.26 mBars
Air Temp: 16.3 degrees Celsius
Water Temp: 17.09 degrees Celsius

Science and Technology Log

Typical evening view from the flying bridge of the Bell M. Shimada

We have been cruising along watching fish on our transects and trawling 2-4 times a day. Most of the trawls are predominantly hake, but I have gotten to see a few different species of rockfish too—Widow rockfish, Yellowtail rockfish, and Pacific Ocean Perch (everyone calls them P.O.P.)—and took their lengths, weights, sexes, stomachs, ovaries, and otoliths…

…but you probably don’t know what all that means.

The science team sorts all of the catch down to Genus species, and randomly select smaller sub-samples of each type of organism. We weigh the total mass of each species. Sometimes we save whole physical samples—for example, a researcher back on shore wants samples of fish under 30cm, or all squid, or herring, so we bag and freeze whole fish or the squid.

For the “sub samples” (1-350 fish, ish) we do some pretty intense data collection. We determine the sex of the fish by cutting them open and looking for ovaries or testes. We identify and preserve all prey we find in the stomachs of Yellowtail Rockfish, and preserve the ovaries of this species’ females and others as well. We measure fish individual lengths and masses, take photos of lamprey scars, and then collect their otoliths.

Fish Otolith showing concentric growth rings from here.

Otoliths are hard bones in the skull of fish right behind the brain. Fish use them for balance in the water; scientists can use them to determine a fish’s age by counting the number of rings. Otoliths can also be used to identify the species of fish.

Here is how you remove them: it’s a bit gross.

Otolith instructions from here.

Cod, Redfish, and Hake otoliths from here.

A bigger fish species does not necessarily mean a larger otolith. From here.

If you want to check out an amazing database of otoliths, or if you decide to collect a few and want to see what species or age of fish you caught, or if you are an anthropologist and want to see what fish people ate a long time ago? Check out the Alaska Fisheries Science Center—they will be a good starting spot. You can even run a play a little game to age fish bones!

Pacific Ocean Perch, or P.O.P.

Personal Log

I haven’t had a lot of spare time since we’ve been fishing, but I did manage to finagle my way into the galley (kitchen) to work with Chief Steward Larry and Second Cook Arlene. They graciously let me ask a lot of questions and help make donuts and fish tacos! No, not donut fish tacos. Gross.

How to make friends and influence people

Working in the galley got me thinking of “ship jargon,” and I spent this morning reading all sorts of etymology. I was interested to learn that the term crow’s nest came from the times of the Vikings when they used crows or raven to aid navigation for land. Or that in the days of the tall ships, a boat that lost a captain or officer at sea would fly blue flags and paint a blue band on the hull—hence why we say we are “feeling blue.” There are a lot more, and you can read some interesting ones here.

You can also click on Adventures in a Blue World below (cartoon citations 1 and 2).

TAS Cat Prenot 2016 cartoon4 v2

And here is a nautical primer from Adventures in a Blue World Volume 1:

A Nautical Primer part I from 2011 aboard the Oscar Dyson

A Nautical Primer from 2011 aboard the Oscar Dyson

Did You Know?

Working in the wet lab can be, well, wet and gross. We process hundreds of fish for data, and then have hoses from the ceiling to spray off fish parts, and two huge hoses to blast off the conveyor belt and floors when we are done. But… …I kind of love it.

Yay Science!

Resources

Etymology navy terms: http://www.navy.mil/navydata/traditions/html/navyterm.html

Interestingly enough, the very words “Sea Speak” have a meaning. When an Officer of the Deck radios other ships in the surrounding water, they typically use a predetermined way of speaking, to avoid confusion. For example, the number 324 would be said three-two-four.

Cathrine Prenot: Lights in the Ocean. Thursday, July 21, 2016

Posted on July 21, 2016 by cathrineprenot

NOAA Teacher at Sea
Cathrine Prenot
Aboard Bell M. Shimada
July 17-July 30, 2016

Mission: 2016 California Current Ecosystem: Investigations of hake survey methods, life history, and associated ecosystem

Geographical area of cruise: Pacific Coast from Newport, OR to Seattle, WA

Date: Thursday, July 21, 2016

Weather Data from the Bridge
Lat: 46º18.8 N
Lon: 124º25.6 W
Speed: 10.4 knots
Wind speed: 12.35 degree/knots
Barometer: 1018.59 mBars
Air Temp: 16.3 degrees Celsius

Science and Technology Log

The ship’s engineering staff are really friendly, and they were happy to oblige my questions and take me on a tour of the Engine Rooms. I got to go into the ‘belly of the beast’ on the Oscar Dyson, but on the tour of the Shimada, Sean Baptista, 1st assistant engineer, hooked us up with headsets with radios and microphones. It is super loud below decks, but the microphones made it so that we could ask questions and not just mime out what we were curious about.

I think the job of the engineers is pretty interesting for three main reasons.

On the way to see the bow thruster below decks

One, they get to be all over the ship and see the real behind-the-scenes working of a huge vessel at sea. We went down ladders and hatches, through remotely operated sealed doors, and wound our way through engines and water purifiers and even water treatment (poo) devices. Engineers understand the ship from the bottom up.

One of four Caterpillar diesel engines powering the ship

Second, I am sure that when it is your Job it doesn’t seem that glamorous, but an engineer’s work keeps the ship moving. Scientists collect data, the Deck crew fish, the NOAA Corps officers drive the ship, but the engineers make sure we have water to drink, that our ‘business’ is treated and sanitary, that we have power to plug in our computers (the lab I am writing in right now has 6 monitors displaying weather from the bridge, charts, ship trackers, and science data) and science equipment.

I did not touch any buttons. Promise.

Finally, if something breaks on the ship, engineers fix it. Right there, with whatever they have on hand. Before we were able to take the tour, 1st Assistant Engineer Baptista gave us a stern warning to not touch anything—buttons, levers, pipes—anything. There is a kind of resourcefulness to be an engineer on a ship—you have to be able to make do with what you have when you are in the middle of the ocean.

The engineers all came to this position from different pathways—from having a welding background, to being in the navy or army, attending the U.S. Merchant Marine Academy, or even having an art degree. The biggest challenge is being away from your family for long periods of time, but I can attest that they are a pretty tight group onboard.

In terms of the science that I’ve been learning, I’ve had some time to do some research of some of the bycatch organisms from our Hake trawls. “Bycatch” are nontargeted species that are caught in the net. Our bycatch has been very small—we are mostly getting just hake, but I’ve seen about 30-40 these cute little fish with blue glowing dots all over their sides. Call me crazy, but anything that comes out of the ocean with what look like glowing sparkling sapphires is worthy of a cartoon.

So… …What is small, glows, and comprises about 65% of all deep-sea biomass? Click on the cartoon to read Adventures in a Blue World 3.

Adventures in a Blue World, CNP. Lights in the Ocean

Personal Log

The weather is absolutely beautiful and the seas are calm. We are cruising along at between 10-12 knots along set transects looking for hake, but we haven’t seen—I should say “heard” them in large enough groups or the right age class to sample. So, in the meanwhile, I’ve taken a tour of the inner workings of the ship from the engineers, made an appointment with the Chief Steward to come in and cook with him for a day, spent some time on the bridge checking out charts and the important and exciting looking equipment, played a few very poor rounds of cornhole, and have been cartooning and reading.

I was out on the back deck having a coffee and an ice cream (I lead a decadent and wild life as a Teacher at Sea) and I noticed that the shoreline looked very familiar. Sure enough—it was Cannon Beach, OR, with Haystack Rock (you’ll remember it from the movie The Goonies)! Some of my family lived there for years; it was fun to see it from ten miles off shore.

Chart showing our current geographic area. Center of coast is Cannon Bean, Oregon.

Chart showing our current geographic area. Center of coast is Cannon Beach, Oregon.

View of Tillamook Head and Cannon Beach. It looked closer in person.

Did You Know?

One of the scientists I have been working with knows a lot about fish. He knows every organism that comes off the nets in a trawl down to their Genus species. No wonder he knows all the fish—all of the reference books that I have been using in the wet lab were written by him. Head smack.

One of the books written by Dan Kamikawa, our fish whisperer

Resources

My sister (thank you!) does my multi media research for me from shore, as I am not allowed to pig out on bandwidth and watch lots of videos about bioluminescence in the ocean. This video is pretty wonderful. Check it out.

If you want to geek out more about Lanternfish, read this from a great site called the Tree of Life web project.

Interested in becoming a Wage Mariner in many different fields–including engineering? Click here.

Cathrine Prenot: A Fish Tale, Too Big to Fail. July 18, 2016

Posted on July 20, 2016 by cathrineprenot

NOAA Teacher at Sea
Cathrine Prenot
Aboard the Bell M. Shimada
July 17-July 30, 2016

Mission: 2016 California Current Ecosystem: Investigations of hake survey methods, life history, and associated ecosystem

Geographical area of cruise: Pacific Coast from Newport, OR to Seattle, WA

Date: July 18, 2016

Weather Data from the Bridge:
Lat: 45º19.7 N
Lon: 124º21.6 W
COG: 11.2
Speed: 17.1 knots
Air Temp: 16.4 degrees Celsius
Barometer (mBars): 1019.54
Relative Humidity: 84%

Science and Technology Log

It is exciting to be out to sea on “Leg 2” of this cruise! The official title of our research is “2016 California Current Ecosystem: Investigations of hake survey methods, life history, and associated ecosystem.” One of the key portions of this leg of the trip is to collect data on whether or not a piece of equipment called the “Marine Mammal Excluder Device” (MMED) makes any difference in the fish lengths or the species we catch. Here is how it works (all images from Evaluation of a marine mammal excluder device (MMED) for a Nordic 264 midwater rope trawl):

The catch swims towards the codend of the net and encounters the MMED

The catch swim towards the codend of the net and encounter the MMED

The catch encounters the grate; some go through the grate while others escape the net through the hatch (shown by the orange buoy).

Some of the catch go through the grate (to the codend) while others escape the net through the hatch (shown by the orange buoy).

Why is this important? For example, if all of one type of fish in a trawl escape through this MMED, we would be getting a different type of sample than we would if the equipment was off the nets. Our lead scientist, Dr. Sandy Parker-Stetter explained: “If all the rockfish go out the top escape panel, how will we know they were there?” To collect data on this, we will be doing a lot of trawls—or fishing, for those non-sea faring folk—some with the MMED and others without it. These will be small catches, we need about 300-400 fish, but enough to be able to make a determination if the equipment effect the data in any way.

We have done a few trawls already, and here are some of the photos from them:

‘Young of the Year’ Hake

Pacific Hake sample

Wanted: must love fish. And science.

All of this reminds me of why we are so concerned with accurately estimating the population of a little fish. To illustrate, let me tell you a story—a story of a fishery thought too big to fail—the Great Banks Atlantic Cod fishery. Why don’t you click on Issue 2 of Adventures in a Blue World: A Fish Tale, Too Big to Fail.

Adventures in a Blue World, CNP. A Fish Tale: Too Big to Fail

Cod populations decreased to such a degree (1% of previous numbers), that the Canadian Government issued a moratorium on Cod fishing in 1992. Our mission—to investigate of hake survey methods, life history, and associated ecosystem—is designed to prevent such a devastating result. We don’t want Hake or other species to go the same route.

Atlantic Cod circa 1920s: from here

Personal Log

We left the left the dock on Sunday at 1145, and made our way under the Newport Bridge and out to sea. It was really wonderful to watch the ship leave the harbor from way up on the Flying Bridge—the top-most deck of the ship. There are four tall chairs (bolted to the deck) at the forward end of the deck, an awning, and someone even rigged a hammock between two iron poles. It is rather festive, although again, there were no drinks with umbrellas being brought to us.

View of Newport, OR from the flying bridge of the Shimada

I didn’t have any problems with seasickness on my last voyage, but I did take some meds just in case. One of the researchers said that he doesn’t take any meds any more, he just gets sick once or twice and then feels much better. If you are interested, here is a link to my previous cartoon about why we are sea-sick, and how and why ginger actually works just as well as other OTC drugs. All I can say now is that I’m typing this blog in the acoustics lab, and the ship does seem to be moving rather alarmingly from fore to aft–called pitching. Maybe I should find a nice porthole. In the meanwhile, you can read “Why are we seasick.”

Did You Know?

The end of the fishing net is called the codend. Who knew? This and many more things can be learned about fishing from reading this handy reference guide.

Cathrine Prenot: Introduction, July 8, 2016

Posted on July 11, 2016 by cathrineprenot

NOAA Teacher at Sea
Cathrine Prenot
Aboard the Bell M. Shimada
July 17-July 30, 2016

Mission: Pacific Hake Research
Geographic area of cruise: Newport, OR – Seattle, WA
Date: Friday, July 8, 2016
Weather Data from the Bridge: N/A

Personal Log
In 2011 I was honored to learn and work aboard the NOAA ship the Oscar Dyson in Alaska as a Teacher at Sea, and I can’t tell you how many people told me that it was the trip of a lifetime. Imagine my excitement to learn that I get to return to sea as a Teacher at Sea alumni aboard the Bell M. Shimada. The way I see it is that I get two trips of a lifetime, in one lifetime! I feel pretty lucky.

On my first Teacher at Sea voyage, I documented my trip via a cartoon series called Adventures in a Blue World, a tribute to Sylvia Earle’s book The World is Blue. This time I will once again do my best to bring to life my Teacher at Sea experiences via a second volume of cartoons. You can read the introduction below on being selected as a Teacher at Sea, Hake, and the beginning of this next adventure. (Cartoon citations 1, 2, and 3)

Adventures in a Blue World, CNP, 2016 Click on the image to open in a new window

I have been an educator for nineteen years, and now live and work in West Texas–on the Llano Estacado–in Lubbock. I’m a science instructional coach at Estacado High School, which basically means that I get to collaborate with teachers and students to develop great labs and activities. It is a wonderful job, and I am looking forward to bringing back real-world research and developing curriculum for our students.

I am going to miss my family, Ike, Madalyn, and Eva. The girls love the water (even bringing inflatable fish into the house…), and Ike has run rivers all over the Southwest, but I get to go where no family and friends are allowed–from Newport, Oregon, to Seattle, Washington on the NOAA ship the Bell M. Shimada. They will also be following along with me remotely.

Gulf of Mexico, 2014

The girls ‘water’ the garden

Found Nemo: in living room

Did you Know?

Some quick math for you: since its inception in 1990, Teachers at Sea have logged over 100,000+ hours of research on 8,200+ days at sea. Crunching some quick numbers, this equals about 67 school years of professional development in Real Science-Real Research-and Real Experience. Pretty nifty, eh? See this link for more.

Until our next adventure,

Cat

Lynn Kurth: The Ocean and Humans are Inextricably Interconnected, July 1, 2016

Posted on July 5, 2016 by lynnkurth

NOAA Teacher at Sea

Lynn M. Kurth

Aboard NOAA Ship Rainier

June 20-July 1, 2016

Mission: Hydrographic Survey

Geographical area of cruise: Latitude: 58˚03.973 N Longitude: 153˚34.292 W

Date: July 4, 2016

Weather Data from the Bridge
Sky: Cloudy
Visibility: 10+ Nautical Miles
Wind Direction: 010
Wind Speed: 10 Knots
Sea Wave Height: 0-1 ft. (no swell)
Sea Water Temperature: 11.1° C (51.9° F)
Dry Temperature: 12° C (53.6° F)
Barometric (Air) Pressure: 1013.3 mb

Science and Technology Log

Throughout my experience as a Teacher at Sea, it has been evident that the ocean and humans are inextricably interconnected. This was apparent from my very first evening in Homer when I came across an eagle poised next to its colossal nest assembled in the middle of three rusty pier pilings. An illustration of nature conforming to our presence on the water and what we deem to be acceptable for our environment.

Eagle with nest located in deep water port of Homer, AK

But, humankind must sometimes accept and conform to nature. The fishermen of Uganik Bay have built their fishing camps above the tidal line and strung out their nets where the fish traditionally run. Most of the men and women who live here have chosen to do so because this is where the fish are found. One such gentlemen is Toby Sullivan, a commercial fisherman, who in 1975 headed to Alaska from Connecticut to work on the Alaskan pipeline. Instead, he found himself fishing vs. working on the pipeline and to this day is still gill-netting salmon to make a living. Toby’s fishing camp, East Point, located on the south shore of the Uganik Bay, has had a net on the site for the past 80 years. And, unfortunately, we drifted into that site when a strong current took us by surprise while we were gathering water quality data over the side of the small sonar vessel. When this happened, Toby and his crew worked swiftly and diligently to secure their fishing gear while NOAA divers were summoned from the Rainier to safely help our vessel leave the area.

Toby Sullivan and crew work to install an additional line on their fishing set

A few evenings later, Mr. Sullivan and his crew came on board the Rainier as dinner guests and a rich discussion of hydrographic work and fishing gear followed. He explained in detail how he sets his fishing gear and offered the idea that a radio channel be utilized between NOAA’s small vessels that are working around fishing gear and the local fisherman, in order to facilitate better communication.

Toby Sullivan and XO (executive officer) Jay Lomincky

As I watched the exchange of ideas between Commanding Officer E.J. Van Den Ameele and Mr. Sullivan it appeared that both men recognized that both parties were interested in Uganik Bay because the ocean and humans are inextricably interconnected. The Rainier’s primary mission in Uganik Bay is to gather the necessary data to create accurate and detailed charts for navigational use by the local fisherman and other mariners. As a commercial fisherman, Mr. Sullivan’s primary interest is to keep his gear and crew safe while continuing to make a living from the harvest of local fish.

Toby Sullivan shares information about how he sets his fishing gear

Today the Rainier continues on with its mission of hydrographic work at sea using the multibeam sonar which is located on the hull of the Rainier. The swath that multibeam sonar on the Rainier covers is similar to the swath of the multibeam sonar on the smaller boats; the coverage area depends on the depth of the water. For example, at our current water depth of 226 meters, the swath of each pass that the multibeam sonar makes an image of is 915 meters wide. This evening, upon the completion of the work with the Rainier’s multibeam sonar we will depart the area and be underway for Kodiak, AK.

All Aboard!

Michael Bloom serves as as survey technician aboard the Rainier and kindly took some time with me to discuss his background and work aboard the Rainier.

Survey Technician Michael Bloom completes the collection of a bottom sample in Uganik Bay

Tell us a little about yourself:

I grew up in a military family, so I was actually born in England and have lived in Florida, Nebraska, Montana, Oregon and Washington. I went to college at Oregon State University located in Corvallis, OR and majored in earth systems with a focus on marine science.

How did you discover NOAA?:

Ever since I was a little kid instead of having posters of bands etc… I had posters of maps. NOAA Corps participated in career fairs at my university. I stopped at their booth my sophomore year and again my junior and senior year to learn more about their program. After learning more about NOAA I also focused on the marine aspect of earth science because I knew I wanted to work with them. Initially I didn’t know about the civilian side of NOAA, so I applied for the NOAA Corps two times and wasn’t accepted into the program, although I was an alternate candidate once. At some point, when speaking with an officer he told me to apply for a civilian position with NOAA. So, I applied and was accepted.

I’m happy to be on the civilian side because I get to work on the science side of the operations all of the time and I get to keep my beard!

Survey Technician Michael Bloom monitors the settings of the Rainier’s multi beam sonar

What are your primary responsibilities when working on the ship?:

I am survey tech and my primary duties include data acquisition and data processing. We can work to become the Hydrographer in Charge on the surveys after enough time working in the field and, if after the Field Operations Officer observes us, he feels confident that we are ready. Eventually I’d like to work for NOAA as a physical scientist, a job that would have me going out to sea several times a year but one that is primarily land based.

What do you love about your work with NOAA?:

I get paid to travel! I go to places that people pay thousands of dollars to visit and I actually get paid thousands of dollars to go there. I enjoy that I can see the real world application of the work that I do. Scientists are using our data and ultimately we could be saving lives by creating such accurate charts.

Personal Log

NOAA’s website for the Rainier states that the Rainier is one of the most productive and advanced hydrographic ships in the world. After spending two weeks working on board the Rainier, I couldn’t agree more. However, I don’t believe that it is only the cutting-edge technology that makes the Rainier one of the best hydrographic ships in the fleet. But rather a group of outstanding people at the helm of each of the different technical aspects of hydrography. Hydrographic surveying has many steps before the end product, a chart, is released. The people I met on board who are part of that process are teaching each other the subtle nuances of Rainier’s hydrographic mission in order to become even better at what they do. I am grateful for the time that the crew and Officers have graciously given me while I have been on board. I felt very welcome from the moment a NOAA Corps member picked me up at the airport throughout my stay on the Rainier as I continued to pepper everybody with questions. Thank you Rainier! I am confident that when I return to my classroom your efforts to help me better understand your work of hydrographic surveying will pay off. You have given me the gift of new knowledge that, when shared with my students has the potential to ignite in them the same excitement and passion for science that so many of you possess.

Teacher at Sea Kurth on the middle deck of the ship

Julia Harvey: That’s a Mooring: June 29th, 2016

Posted on July 3, 2016 by harvey753

NOAA Teacher at Sea

Julia Harvey

Aboard NOAA Ship Hi’ialakai

June 25 – July 3^rd 2016

Mission: WHOI Hawaii Ocean Timeseries Station (WHOTS)

Geographical Area of Cruise: Pacific Ocean, north of Hawaii

Date: June 29^th, 2016

Weather Data from the Bridge

(June 29^th, 2016 at 12:00 pm)

Wind Speed: 12 knots

Temperature: 26.3 C

Humidity: 87.5%

Barometric Pressure: 1017.5 mb

Science and Technology Log

Approaching Weather

When an anchor is dropped, forces in the ocean will cause this massive object to drift as it falls. Last year, after the anchor of mooring 12 was dropped, an acoustic message was sent to the release mechanism on the anchor to locate it. This was repeated in three locations so that the location of the anchor could be triangulated much like how an earthquake epicenter is found. This was repeated this year for mooring 13 so next year, they will know where it is. From where we dropped the anchor to where it fell, was a horizontal distance of 3oo meters. The ocean moved the 9300 pound anchor 300 meters. What a force!

The next morning as the ship was in position, another acoustic message was sent that triggered the release of the glass floats from the anchor. Not surprisingly, the floats took nearly an hour to travel up the nearly 3 miles to the surface.

A small boat went to retrieve the mooring attached to the floats

Once the floats were located at the surface, a small boat was deployed to secure the end of the mooring to the Hi’ialakai. The glass floats were loaded onto the ship. 17 floats that had imploded when they were deployed last year. Listen to imploding floats recorded by the hydrophone. Implosion.

Selfie with an imploded float.

Next, came the lengthy retrieval of the line (3000+ meters). A capstan to apply force to the line was used as the research associates and team arranged the line in the shipping boxes. The colmega and nylon retrieval lasted about 3 hours.

Bringing up the colmega line and packing it for shipping.

Once the wire portion of the mooring was reached, sensors were removed as they rose and stored. Finally the mooring was released, leaving the buoy with about 40 meters of line with sensors attached and hanging below.

Navigating to buoy.

The NOAA officer on the bridge maneuvered the ship close enough to the buoy so that it could be secured to the ship and eventually lifted by the crane and placed on deck. This was followed by the retrieval of the last sensors.

Bringing the buoy on board.

The following day required cleaning sensors to remove biofoul. And the buoy was dismantled for shipment back to Woods Hole Oceanographic Institution.

Kate scrubbing sensors to remove biofoul.

Dismantling the buoy.

Mooring removal was accomplished in seas with 5-6 feet swells at times. From my vantage point, everything seemed to go well in the recovery process. This is not always the case. Imagine what would happen, if the buoy separated from the rest of the mooring before releasing the floats and the mooring is laying on the sea floor? What would happen if the float release was not triggered and you have a mooring attached to the 8000+ pound anchor? There are plans for when these events occur. In both cases, a cable with a hook (or many hooks) is snaked down to try and grab the mooring line and bring it to the surface.

Now that the mooring has been recovered, the science team continues to collect data from the CTD (conductivity/temperature/depth) casts. By the end of tomorrow, the CTDs would have collected data for approximately 25 hours. The data from the CTDs will enable the alignment of the two moorings.

CTD

The WHOTS (Woods Hole Oceanographic Institution Hawaii Ocean Time Series Site) mooring project is led by is led by two scientists from Woods Hole Oceanographic Institution; Al Plueddeman and Robert Weller. Both scientists have been involved with the project since 2004. Plueddeman led this year’s operations and next year it will be Weller. Plueddeman recorded detailed notes of the operation that helped me fill in some blanks in my notes. He answered my questions. I am thankful to have been included in this project and am grateful for this experience and excited to share with my students back in Eugene, Oregon.

Al Plueddeman, Senior Scientist

The long term observations (air-sea fluxes) collected by the moorings at Station Aloha will be used to better understand climate variability. WHOTS is funded by NOAA and NSF and is a joint venture with University of Hawaii. I will definitely be including real time and archived data from WHOTS in Environmental Science.

Personal Log

I have really enjoyed having the opportunity to talk with the crew of the Hi’ialakai. There were many pathways taken to get to this point of being aboard this ship. I learned about schools and programs that I had never even heard about. My students will learn from this adventure of mine, that there are programs that can lead them to successful oceanic careers.

Brian Kibler

I sailed with Brian Kibler in 2013 aboard the Oscar Dyson up in the Gulf of Alaska. He completed a two year program at Seattle Maritime Academy where he became credentialed to be an Able Bodied Seaman. After a year as an intern aboard the Oscar Dyson, he was hired. A few years ago he transferred to the Hi’ialakai and has now been with NOAA for 5 years. On board, he is responsible for rigging, watch and other tasks that arise. Brian was one of the stars of the video I made called Sharks on Deck. Watch it here.

Tyler Matta, 3rd Engineer

Tyler Matta has been sailing with NOAA for nearly a year. He sought a hands-on engineering program and enrolled at Cal Maritime (Forbes ranked the school high due to the 95% job placement) and earned a degree in maritime engineering and was licensed as an engineer. After sailing to the South Pacific on a 500 ft ship, he was hooked. He was hired by NOAA at a job fair as a 3rd engineer and soon will have enough sea days to move to 2nd engineer.

There are 6 NOAA Corps members on the Hi’ialakai. They all went through an approximately 5 month training program at the Coast Guard Academy in New London, CT. To apply, a candidate should have a 4 year degree in a NOAA related field such as science, math or engineering. Our commanding officer, Liz Kretovic, attended Massachusetts Maritime Academy and majored in marine safety and environmental protection. Other officers graduated with degrees in marine science, marine biology, and environmental studies.

Nikki Chappelle, Bryan Stephan and Brian Kibler on the bridge.

NOAA Ensign Nicki Chappelle

Ensign (ENS) Nikki Chappelle is new to the NOAA Corps. In fact, this is her first cruise aboard the Hi’ialakai and second with NOAA. She is shadowing ENS Bryan Stephan for on the job training. She spent most of her schooling just south of where I teach. I am hoping that when she visits her family in Cottage Grove, Oregon that she might make a stop at my school to talk to my students. She graduated from Oregon State University with degrees in zoology and communication. In the past she was a wildfire fighter, a circus worker (caring for the elephants) and a diver at Sea World.

All of the officers have 2 four hour shifts a day on the bridge. For example ENS Chappelle’s shifts are 8am to 12pm and 8pm to 12am. The responsibilities of the officers include navigating the ship, recording meteorological information, overseeing safety. Officers have other tasks to complete when not on the bridge such as correcting navigational maps or safety and damage control. ENS Stephan manages the store on board as a collateral assignment. After officers finish training they are sent to sea for 2-3 years (usually 2) and then rotate to land for 3 years and then back to sea. NOAA Officers see the world while at sea as they support ocean and atmospheric science research.

ET Frank Russo

Electronics technician (ET) seem to be in short supply with NOAA. There are lots of job opportunities. According to Larry Wooten (from Newport’s Marine Operation Center of the Pacific), NOAA has hired 7 ETs since November. Frank Russo III is sailing with NOAA for the first time as an ET. But this is definitely not his first time at sea. He spent 24 years in the navy, 10 at Military Sealift Command supporting naval assets and marines around the world. His responsibilities on the Hi’ialakai include maintaining navigational equipment on the bridge, making sure the radio, radar and NAVTEX (for weather alerts) are functioning properly and maintaining the server so that the scientists have computer access.

I have met so many interesting people on the Hi’ialakai. I appreciate everyone who took the time to chat with me about their careers or anything else. I wish I had more time so that I could get to know more of the Hi’ialakai crew. Thanks. Special thanks to our XO Amanda Goeller and Senior Scientist Al Plueddeman for reviewing my blog posts. And for letting me tag along.

Did You Know?

The buoy at the top of the mooring becomes a popular hang out for organisms in the area. As we approached mooring 12, there were several red-footed boobies standing their ground. There were also plenty of barnacles and other organisms that are planktonic in some stage of their lives. Fishing line is strung across the center of the buoy to discourage visitors but some still use the buoy as a rest stop. The accumulation of organism that can lead to corrosion and malfunction of the equipment is biofoul.

Red-Footed Boobies

Wires and line to prevent biofoul.

One More Thing

South Eugene biology teacher Christina Drumm (who’s husband was Ensign Chappelle’s high school math teacher) wanted to see pictures of the food. So here it is. Love and Happiness.

Lobster for Dinner

Last supper on the Hi’ialakai

I love the colors of the sea.

Sea colors

NOAA Teacher at Sea Blog

Monthly Archives: July 2016

Cathrine Prenot: Why Math Matters. July 29, 2016.

Cathrine Prenot: Sea Speak. July 25, 2016

Cathrine Prenot: Lights in the Ocean. Thursday, July 21, 2016

Cathrine Prenot: A Fish Tale, Too Big to Fail. July 18, 2016

Cathrine Prenot: Introduction, July 8, 2016

Lynn Kurth: The Ocean and Humans are Inextricably Interconnected, July 1, 2016

Julia Harvey: That’s a Mooring: June 29th, 2016