Tag Archives: shark

Denise Harrington: Let Kids Be Kids, October 18, 2016

Posted on by deniseharrington

NOAA Teacher at Sea

Denise Harrington

Aboard NOAA Ship Oregon II

September 16-30, 2016

Mission: Longline Survey

Geographic Area: Gulf of Mexico

Date: Tuesday, October 18, 2016

Location: 45 27’19″ N  123o 50’33″ W, Tillamook, Oregon

Weather: Rainy, windy, cloudy, and cold (nothing like the Gulf of Mexico).

Meet a Scientist: Dr. William “Trey” Driggers

Trey Drigger’s passion for aquatic predators was born in a lake at his grandparents’ house in Florida, while his dad, a jet pilot, was off fighting in the war in Vietnam.  When his dad left, Trey’s mom loaded the two boys and two dogs into the car and headed north to her parents’ lakefront home in Florida.  Soon thereafter, one of the dogs, used to swimming in safer waters, got eaten by an alligator that lived in the lake.  Trey feared the gators but also must have been fascinated by the life and death struggle between two animals.

With thoughts of fighter pilots and alligators, Trey was one of those students teachers might find challenging. He had trouble focusing on the mundane.  But through books, he could get a little bit of the thrill he sought.

shark-dictionary

He knew he was destined to do something cool, just like his dad. Yet by the end of college Trey was still unsure of what he wanted to become.  One day, he was in the library when the spine of a book caught his eye: Sharks Attack.  After reading this book his childhood fascination with aquatic predators was reinvigorated. During a trip to the Smithsonian Museum of Natural History, Trey purchased a book entitled “Sharks in Question.” The last chapter was about how to become a shark specialist.  What, he thought, I can make a living studying sharks?!

sharks-in-question

Trey quickly finished up his history degree and began two years of science classes he had missed.  In Marine Science 101, the professor said “If you are here for sharks, whales, or dolphins, you can leave right now.”  Trey took the warning as a challenge, and began his now spectacular career with sharks.

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Trey and Chief Boatswain Tim Martin measure a sandbar (Carcharhinus plumbeus) shark while fisheries biologist, Paul Felts, records data.  Photo: Matt Ellis/NOAA Fisheries

His attraction to the mysteries of the deep and the written word has resulted in many discoveries, including a critical role in the discovery of a new species, the Carolina hammerhead (Sphryna gilberti). Recently, Trey’s research has focused on, among other things, examining the movement patterns of sharks. However, understanding the movement patterns of sharks is tricky.  Many have large ranges and occupy numerous habitats under the surface of the ocean that covers over 70% of our planet.  Most sharks can’t be kept in captivity.  For all these reasons and more, sharks are mysterious and fascinating creatures.

Trey and Kevin Rademacher, fellow fisheries biologist, watch for bait, sharks, and other animals as they haul in the longline. Photo: Matt Ellis/NOAA Fisheries
Trey and Kevin Rademacher, fellow fisheries biologist, watch for bait, sharks, and other animals as they haul in the longline. Photo: Matt Ellis/NOAA Fisheries
Trey quickly readies the shark for data collecting, tagging, and release.
Trey quickly readies the shark for data collecting, tagging, and release.
Here, Trey takes one of four measurements, the precaudal length or distance from the nose to where the tail begins.
Here, Trey takes one of four measurements, the precaudal length or distance from the nose to where the tail begins.
One of Trey's many qualities was his willingness to share his passion and knowledge of sharks. Here, he taught me all about blacktip (Carcharhinus limbatus) shark reproduction. Photo: Matt Ellis/NOAA Fisheries
One of Trey’s many qualities was his willingness to share his passion and knowledge of sharks. Here, he taught me all about blacktip (Carcharhinus limbatus) shark reproduction. Photo: Matt Ellis/NOAA Fisheries

So which sharks are currently catching Trey’s attention? One of his many interests is a group of bonnethead  (Sphyrna tiburo) sharks that have been recaptured over multiple summers in specific estuaries in South Carolina.

Like other hammerhead sharks, the bonnethead shark has a cephalofoil.  Why do hammerheads look like that?

bonnethead-sphyra-tiburo

The photo of this bonnethead shark was taken in 2010 by a fellow TAS, Bruce Taterka, also aboard the Oregon II.

Theories abound about the funny looking hammerheads, whose heads look more like wings than hammers.  As Trey says, many people have speculated “the hammerhead has a cephalofoil because ….” giving a single reason.  Some say the cephalofoil acts as a dive plane, pulling the shark up or down as it swims, others say the distance between the nostrils allows it to smell better, honing in on prey, some say it is to compensate for their blind spot, and still others hypothesize that the shark uses its head to pin down prey.

 

Many people have asked this question, but very few get to work like Trey does, collecting data, making observations, and analyzing the data. He says the best part of his job is “when I figure something out that no one else knows.” One day, looking at data a friend collected in Bull’s Bay estuary, near Charleston, South Carolina, he noticed a pattern of the same sharks getting recaptured there year after year.  A small group of different aged, different size friends going to enjoy their summer together to Bull’s Bay while another group always going to the North Edisto estuary every year?  Why?

Trey hypothesizes that in the summer, blue crab abound in that spot, and are thick with eggs. The bonnetheads have the shortest gestation period of all sharks, four months, and need a lot of nutrients.  Their heads, shaped just right for holding down a blue crab, and their convergence at Bull’s Bay on the fertile female crabs, may just be the elements necessary to get a shark pup from embryo to viability.  Pretty cool!

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Here, a juvenile bonnethead shark is being measured.  Photo: NOAA Fisheries

With all this evidence supporting a hypotheses that the bonnethead shark cephalofoil is used for holding down prey, one might predict that Trey’s next publication on the topic will make that conclusion.

“People want to pick one answer,” Trey says, but “there is a lot more that we don’t know than we do.”   There is often more than one right answer, he continues, more than one solution to a problem.  Speaking about fishing regulation, conservationists and fishermen, Trey suggests that both sides need to understand that the other side has positive things to contribute.  He lives his life this way, moving fluidly among the deck crew, officers, stewards, and scientists looking for commonalities.  Together, all the members of the team play an essential role in keeping the ship and survey moving forward.

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Kevin, Matt Ellis, NOAA Science Writer, Paul, and Trey were the four other members of the day shift science team.  I took my christened baiting gloves home with me as a souvenir.

Personal Log

Each member of the crew shared insights and skills that I will take back to my classroom and incorporate into my life

My work as a NOAA Teacher at Sea was one of the most challenging experiences of my life. I knew very little about fish before stepping aboard the Oregon II, and from the crew have gained understanding of and appreciation for fish, other marine species, and the diversity of life on our planet.  I’ve learned that while the Gulf of Mexico is home to the world’s largest fisheries, the human impact from industries, watershed runoff, development, and other sources is unbelievable.

When the time for science arrives, or weaves its way into the other subjects as it always does, students’ eyes light up.  I know I am far from a professional scientist, but through NOAA,  I can now speak authentically and accurately about what happens in the field and why.  My students have become mini-scientists, speaking among themselves about collecting data as if it were a playground game.

As I listened to NOAA Corps Officer David Reymore share memories of a Make a Wish trip with his son to Disneyland, I learned to take each moment with a child as a gift and was also reminded of the sacrifice crew members and their families make in support of science during their weeks, months, and years at sea. Thank you, each and every NOAA crew member aboard the NOAA fleet, for your service.  With the time away from family as the only negative, I learned that the many different careers available through NOAA provide great learning opportunities, adventure, and inspiration to those who are ready for some very hard work.

What advice can you give me as a teacher, I ask Trey.  “Quote me on this,” he says with a smile, “don’t give kids so much —- homework.  Let them be kids.”

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NOAA Corps Officer Brian Yannutz wears his lucky shark hat as we bring in the long line.

Laughing, shaking my head in amazement, leafing through my journals, I have enough inspiration from these two weeks to last a lifetime.  How did I get so fortunate?

Matt took amazing sunset photos. NOAA FIsheries
Matt took amazing sunset photos. NOAA FIsheries
Another beautiful day in paradise. Matt Ellis/NOAA Fisheries
Another beautiful day in paradise. Matt Ellis/NOAA Fisheries

 

 

Denise Harrington: Joining the Longline Crew, September 17, 2016

Posted on by deniseharrington

 

NOAA Teacher at Sea

Denise Harrington

Aboard NOAA Ship Oregon II

September 16-30, 2016

Mission: Longline Survey

Geographic Area: Gulf of Mexico

Date: Saturday, September 17, 2016

Location: 29 2.113’ N  93o 24.5’ W

Weather from the Bridge: 28.9C (dry bulb), Wind 6 knots @ 250o, overcast, 2-3′ SE swell.

Science Log

The muggy afternoon air did not dampen my excitement as we left Galveston, Texas, aboard the National Oceanic and Atmospheric Administration (NOAA) Ship Oregon II.  I am a NOAA Teacher at Sea, participating in a  longline survey in the Gulf of Mexico, surveying sharks and bony fish.

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Fellow volunteers Leah Rucker and Evan Pettis and I bid farewell to Galveston. Evidence of human influence, such as development, oil rigs, barges, and ships, is not hard to spot. Photo: Matt Ellis, NOAA

When I tell people about the Teacher at Sea program, they assume I teach high school or college, not second grade in rural Tillamook, Oregon.  Yet spend a few moments with any seven or eight year old and you will find they demonstrate significant potential as scientists through their questions, observations, and predictions. Listen to them in action, documented by Oregon Public Broadcasting, at their annual Day at the Bay field trip.

Just as with language acquisition, exposing the young mind to the process of scientific inquiry ensures we will have a greater pool of scientists to manage our natural resources as we age.  By inviting elementary teachers to participate in the Teacher at Sea program, NOAA makes it clear that the earlier we get kids out in the field, the better.

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Each year, my students develop a science or engineering project based upon their interests.  Here, South Prairie Elementary students survey invertebrates along a line transect as part of a watershed program with partners at Sam Case Elementary School in Newport, Oregon.

The NOAA Teacher at Sea program will connect my students with scientists Dr. Trey Driggers, Paul Felts, Dr. Eric Hoffmayer, Adam Pollock, Kevin Rademacher, and Chrissy Stepongzi, as they catch sharks, snapper, and other fish that inhabit the Gulf of Mexico. The data they collect is part of the Red Snapper/Shark Bottom Longline Survey that began in 1995. The survey, broken into four legs or parts each year, provides life cycle and population information about many marine species over a greater geographic distance and longer period of time than any other study of its kind.

Leg IV is the last leg of the survey.  After a long season of data collection, scientists, sailors, and fishermen will be able to return to their families.

My twelve hour shift begins tomorrow, September 17, at noon, and will continue each day from noon until midnight until the most eastern station near Panama City, Florida, is surveyed.  Imagine working 12 hour shifts, daily, for two weeks straight!  The crew is working through the day and night, sleeping when they can, so shutting the heavy metal doors gently and refraining from talking in the passageways is essential.  I got lucky on the day shift:  my hours are closer to those of a teacher and the transition back to the classroom will be smoother than if I were on the night shift.

Approximately 200 stations, or geographic points, are surveyed in four legs. Assume we divide the stations equally among the legs, and the first three legs met their goal. Leg IV is twelve days in duration. How many stations do we need to survey each day (on average) to complete the data collection process?  This math problem might be a bit challenging for my second graders, but it is on my mind.

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Mulling over the enormity of our task, Skilled Fisherman Chuck Godwin and I discuss which 49 year old fisherman will end up with more wrinkles at the end of the survey. Currently, I am in the lead, but I bet he’s hiding some behind those shades. Photo: Mike Conway

I wonder what kind of sharks we will catch.  Looking back at the results of the 2015 cruise report, I learned that there was one big winner.  More than half of the sharks caught were Atlantic sharpnose (Rhizoprionodon terraenovae) sharks. Other significant populations of sharks were the blacktip (Carcharhinus limbatus) shark, the sandbar (Carcharhinus plumbeus) shark, and the blacknose (Carcharhinus acronotus) shark.

My fellow Teacher at Sea, Barney Peterson, participated in Leg II of the 2016 survey, and by reading her blog I learned that the shark they caught the most was the sandbar shark.

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In this sample data sheet from the end of Leg III, all but one of the sharks caught were the blacknose sharks.  Notice the condition of two of the fish caught: “heads only.”  Imagine what happened to them!

 

 

Personal Log

My first memory of a shark was when my brother, an avid lifetime fisherman, took several buses across the San Francisco Bay area to go fishing.  That afternoon, he came home on the bus with a huge shark he’d caught.  I was mesmerized. We were poor at the time and food was hard to come by, but mom or dad insisted sharks were not edible, and Greg was told to bury the shark in the yard.  Our dog, Pumpkin, would not comply, and dug that shark up for days after, the overpowering smell reminding us of our poor choice. I don’t have many regrets, but looking back on that day, I wish we had done something differently with the shark.

Since then, I’ve learned that shark is a popular source of protein in the diets of people around the world, and is growing in popularity in the United States.  In our survey area, Fisheries Biologist Eric Hoffmayer tells me that blacktip and sandbar sharks are the two most commercially important species. Our survey is a multispecies survey, with benefits beyond these two species and far beyond our imagination. As demand increases, so too does the need for careful management to keep fisheries sustainable. I am honored to be part of a crew working to ensure that we understand, value, and respect our one world ocean and the animals that inhabit it.

Barney Peterson: What Are We Catching? August 28, 2016

Posted on by Barney Peterson

NOAA Teacher at Sea

Barney Peterson

Aboard NOAA Ship Oregon II

August 13 – 28, 2016

Mission: Long Line Survey

Geographic Area: Gulf of Mexico

Date: Sunday, August 28, 2016

Weather Data is not available for this post because I am writing from the Biloxi/Gulfport Airport.

WHAT ARE WE CATCHING?

This is a long-line survey.  That means we go to an assigned GPS point, deploy hi-flyer buoys, add weights to hold the line down, add 100 baited hooks, leave it in place for an hour, and retrieve everything.

mackerel-bait-fish

Mackerel is used to bait the hooks.

As the equipment is pulled in we identify, measure and record everything we catch.  Sometimes, like in the case of a really large, feisty shark that struggles enough to straighten or break a hook or the lines, we try to identify and record the one that got away.  We tag each shark so that it can be identified if it is ever caught again.  We tally each hook as it is deployed and retrieved, and the computer records a GPS position for each retrieval so scientists can form a picture of how the catch was distributed along the section we were fishing.  The target catch for this particular survey was listed as sharks and red snapper.  The reality is that we caught a much wider variety of marine life.

We list our catch in two categories: Bony fish, and Sharks.  The major difference is in the skeletons.  Bony fish have just that: a skeleton made of hard bone like a salmon or halibut.  Sharks, on the other hand, have a cartilaginous skeleton, rigid fins, and 5 to 7 gill openings on each side.  Sharks have multiple rows of sharp teeth arranged around both upper and lower jaws.  Since they have no bones, those teeth are embedded in the gums and are easily dislodged.  This is not a problem because they are easily replaced as well.  There are other wonderful differences that separate sharks from bony fish.

Bony Fish we caught:

The most common of the bony fish that we caught were Red Groupers (Epinephelus morio), distinguished by of their brownish to red-orange color, large eyes and very large mouths.  Their dorsal fins, especially, have pointed spikes.

chrissy-with-enormous-grouper

Chrissy holding an enormous grouper

We also caught Black Sea Bass (Centropristus striata) which resemble the groupers in that they also have large mouths and prominent eyes.

sea-bass

Black Sea Bass

A third fish that resembles these two is the Speckled Hind (Epinephelus drummondhayi).  It has a broad body, large mouth and undershot jaw giving the face a different look.  Yes, we did catch several Red Snapper (Lutjanus campechanus), although not as many as I expected.  Snappers are a brighter color than the Red Groupers, and have a more triangular shaped head, large mouth and prominent canine teeth.

red-snapper

Red Snapper

The most exciting bony fish we caught was barracuda (Sphyraena barracuda).  We caught several of these and each time I was impressed with their sleek shape and very sharp teeth!

barracuda

TAS Barney Peterson with a barracuda

Most of the bony fish we caught were in fairly deep water.

Eel
Eel
Flying Fish
Flying Fish

 

Sharks:

We were fortunate to catch a variety of sharks ranging from fairly small to impressively big!

The most commonly caught were Sandbar Sharks (Carcharhinus plumbeus): large, dark-gray to brown on top and white on the bottom.

sandbar-shark

Sandbar Shark

Unless you really know your sharks, it is difficult for the amateur to distinguish between some of the various types.  Experts look at color, nose shape, fin shape and placement, and distinguishing characteristics like the hammer-shaped head of the Great Hammerhead (Sphyrna mokarran) and Scalloped Hammerhead (Sphyrna lewini) sharks that were caught on this trip.

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Great Hammerhead Shark

The beautifully patterned coloring of the Tiger Shark (Galeocerdo cuvier) is fairly easy to recognize and so is the yellowish cast to the sides of the Lemon Shark (Negaprion brevirostris).

Tiger Shark
Tiger Shark
Lemon Shark
Lemon Shark

Other sharks we caught were Black-nose (Carcharhinus acrontus), Atlantic Sharp-nosed (Rhizoprionodon terraenovae), Nurse Shark (Ginglymostoma cirratum), Blacktip (Carcharhinus limbatus) and Bull Sharks (Carcharhinus leucus).

Atlantic Sharp-nosed
Atlantic Sharp-nosed
Nurse Shark
Nurse Shark
Bull Shark
Bull Shark

Several of the sharks we caught were large, very close to 3 meters long, very heavy and very strong!  Small sharks and bony fish were brought aboard on the hooks to be measured against a scaled board on the deck then weighed by holding them up on a spring scale before tagging and releasing them.  Any shark larger than about 1.5 meters was usually heavy and strong enough that it was guided into a net cradle that was lifted by crane to deck level where it could be measured, weighed and tagged with the least possibility of harm to either the shark or the crew members.  Large powerful sharks do not feel the force of gravity when in the water, but once out of it, the power of their weight works against them so getting them back into the water quickly is important.  Large powerful sharks are also pretty upset about being caught and use their strength to thrash around trying to escape.  The power in a swat from a shark tail or the abrasion from their rough skin can be painful and unpleasant for those handling them.

PERSONAL LOG

The Night Sky

I am standing alone on the well deck; my head is buzzing with the melodies of the Eagles and England Dan.  A warm breeze brushes over me as I tune out the hum of the ship’s engines and focus on the rhythm of the bow waves rushing past below me.  It is dark! Dark enough and clear enough that I can see stars above me from horizon to horizon: the soft cloudy glow of the Milky Way, the distinctive patterns of familiar favorites like the Big Dipper and the Little Dipper with its signature bright point, the North Star.  Cassiopeia appears as a huge “W” and even the tiny cluster of the “Seven Sisters” is distinct in the black bowl of the night sky over the Gulf of Mexico.  The longer I look the more stars I see.

This is one of the first really cloudless nights of this cruise so far.  Mike Conway, a member of the deck crew came looking for me to be sure I didn’t miss out on an opportunity to witness this amazingly beautiful show.  As I first exited the dry lab and stumbled toward the bow all I could pick out were three faint stars in the bowl of the Big Dipper.  The longer I looked, the more my eyes grew accustomed to the dark, and the more spectacular the show became.  Soon there were too many stars for me to pick out any but the most familiar constellations.

As a child I spent many summer nighttime hours on a blanket in our yard as my father patiently guided my eyes toward constellation after constellation, telling me the myths that explained each one. Many years have passed since then.  I have gotten busy seeing other sights and hearing other stories.  I had not thought about those long ago summer nights for many years.  Tonight, looking up in wonder, I felt very close to Pop again and to those great times we shared.

 

Barney Peterson: What is NOAA? August 20, 2016

Posted on by Barney Peterson

Barney Peterson
Aboard NOAA Ship OREGON II
August 13 – 28, 2016

 

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: August 20, 2016

Weather Data from the Bridge:

Latitude: 28 10.999 N

Longitude:  084 09.706 W

Air temperature: 90.68 F

Pressure: 1020.05 Mb

Sea Surface Temperature: 32.6 C

Wind Speed: 4.74 Kt

Science Log:

Teacher at Sea

Teacher at Sea Barney Peterson working on line long deployment aboard the OREGON II.

 

NOAA is a big organization!  To say I am working for NOAA this summer is like saying I am visiting the USA…way too non-specific to mean much.

NOAA (National Oceanic and Atmospheric Administration) is a part of the US Department of Commerce.  The NOAA mission: Science, Service and Stewardship, is further stated simply as to understand and predict changes in climate, weather, oceans and coasts; to share that knowledge and information with others; to conserve and manage coastal and marine ecosystems and resources.

To carry out that mission NOAA is further split into divisions that use a broadly diverse set of skills and abilities including satellite systems, ships, buoys, aircraft, research, high performance computing, and information management and distribution systems.*  In later posts I will introduce you to some of the people who use those resources as they perform their jobs.

As a Teacher at Sea I am working under NOAA Fisheries.  This program (TAS) “is designed to give teachers a clearer insight into our ocean planet, a greater understanding of maritime work and studies and to increase their level of environmental literacy by fostering an interdisciplinary research experience.”*

This summer I am assigned to NOAA Ship Oregon II, a fisheries research vessel of the National Marine Fisheries Service.  We are conducting a long-line survey of fish in the Gulf of Mexico.  The information we gather on species diversity and abundance will help the Service make decisions for management of our marine resources. What this boils down to for the average citizen may seem like what you are allowed to catch where, when, and how many; really the results are much, much more important.  These decisions will be part of a plan to respond to changes in the health of our planet and the needs of all of us who inhabit it.  “There is just one big ocean.”*

To understand what that last statement means, find a globe or an inflatable Earth Ball™.  Put your index finger on a point in the Arctic Ocean.  Now move your finger around the globe, always moving to your right, maybe a little up or down sometimes, until you get back to where you started.  Your finger should never leave the “water” as it moves around the world.  See!  JUST ONE BIG OCEAN!

one ocean

There is just one big ocean.

*1) ppi.noaa.gov              *2)teacheratsea.noaa.gov           *3)oceanexplorer.noaa.gov/facts/bigocean.html

Barney Peterson: Rescue at Sea, August 23, 2016

Posted on by Barney Peterson

NOAA Teacher at Sea
Barney Peterson
Aboard NOAA Ship OREGON II
August 13 – 28, 2016

 

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: Tuesday, August 23, 2016

Weather Data from the Bridge:

Latitude: 28 10.999 N

Longitude:  084 09.706 W

Air temperature: 90.68 F

Pressure: 1020.05 Mb

Sea Surface Temperature: 32.6 C

Wind Speed: 4.74 Kt

Science Log:

Rescue At Sea!

About mid-morning today the ship’s electrician found me to tell me that the night shift crew had just reported seeing a Sea Turtle near the line that they were currently deploying.  The turtle swam over the line and then dove toward the baited hooks some 30 meters down near the bottom.  Nobody is supposed to catch Sea Turtles; the stress of being on the hook can be fatal so immediate recovery and release is required in the case of an accidental catch.  The crew went into immediate pro-active rescue mode!

Loggerhead Turtle

File photo of a Loggerhead Turtle.

The deployment was stopped. The line was cut and a final weight and a second hi-flyer were deployed to mark the end of the set for retrieval.  The Captain altered course to bring the ship back around to a point where we began retrieving the line.  Crew moved to the well deck and prepared the sling used to retrieve large sharks; it would be used to bring a turtle gently to the deck in the event that we had to remove a hook.

As retrieval started and gangions were pulled aboard, it became obvious that this set was in a great location for catching fish.  8 or 9 smallish Red Grouper were pulled in, one after another. Many of the other hooks were minus their bait.  The crew worked the lines with a sense of urgency much more intense than on a normal retrieval!  If a turtle was caught on a hook they wanted it released as quickly as possible to minimize the trauma.

As the final hi-flyer got closer and the last of the gangions was retrieved, a sense of relief was obvious among the crew and observers on the deck.  The turtle they spotted had gone on by without sampling the baited hooks.

On this ship there are routines to follow and plans in place for every emergency.  The rescue of an endangered animal is attended to with the same urgency and purpose as any other rescue.  The science and deck crews know those routines and slip into them seamlessly when necessary to ensure the best possible result.  This is all part of how they carry out NOAA’s mission of stewardship in our oceans.

Personal Log:

Here is Where I Live

I am assigned a bunk in a stateroom shared with another science crew member.  I am assigned to the top bunk and my roomie, Chrissie Stepongzi, is assigned to the bottom.  Climbing the ladder to the top bunk when the ship is rolling back and forth is like training to be an Olympic gymnast!  But, I seem to have mastered it!  Making my bed each morning takes determination and letting go of any desire for perfection: you just can’t get to “no wrinkles!”

stateroom

Find the Monroe Eagle in my nest aboard the OREGON II

Chrissie works the midnight to noon shift and I work noon to midnight so the only time we really see each other is at shift change.  Together, we are responsible for keeping our space neat and clean and respecting each other’s privacy and sleep time.

I eat in the galley, an area open to all crew 24/7. Meals are served at 3 regular times each day.  The food is excellent!  If you are on shift, working and can’t break to eat at meal time, you can request that a plate be saved for you.  The other choice for those off-times is to eat a salad, sandwich, fruit or other snack items whenever you need an energy boost.  We are all responsible for cleaning up after ourselves in the galley.  Our Chief Steward Valerie McCaskill and her assistant, Chuck Godwin, work hard to keep us well-fed and happy.

Galley

Everyone on the ship shares space in the galley where seats are decorated with the symbol of the New Orleans Saints… somebody’s favorite team.

There is a lounge, open to everyone for reading, watching movies, or hanging out during down time.  There is a huge selection of up-to-date videos available to watch on a large screen and a computer for crew use.  Another place to hang out and talk or just chill, is the flying deck.  Up there you can see for miles across the water while you sit on the deck or in one of two Adirondack chairs.  Since the only shade available for relaxing is on this deck it can be pretty popular if there is a breeze blowing.

Lounge

During off-duty times we can read, play cards or watch movies in the lounge.

Flying Bridge

The flying bridge is a place to relax and catch a cool breeze when there is a break in the work.

My work area consists of 4 stations: the dry lab which has computers for working with data, tracking ship movements between sample sites, and storing samples in a freezer for later study;

Dry Lab

The dry lab where data management and research are done between deployments

the wet lab which so far on this cruise, has been used mainly for getting ready to work on deck, but has equipment and storage space for processing and sampling our catch; the stern deck where we bait hooks and deploy the lines and buoys; the well deck at the front of the ship where lines and buoys are retrieved, catch is measured and released or set aside for processing, and the CTD is deployed/stored for water sampling.

We move between these areas in a rhythm dictated by the pace of our work.  In between deployments we catch up on research, discuss procedures, and I work on interviews and journal entries.  I am enjoying shipboard life.  We usually go to bed pretty tired, that just helps us to sleep well.  The amazing vistas of this ocean setting always help to restore my energy and recharge my enthusiasm for each new day.

sunset

Beautiful sunsets are the payoff for hot days on the deck.

 

Barney Peterson: Cut Bait and Fish! August 17, 2016

Posted on by Barney Peterson

NOAA Teacher at Sea
Barney Peterson
Aboard NOAA Ship OREGON II
August 13 – 28, 2016

 

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: Wednesday, August 17, 2016

Weather Data from the Bridge:

Latitude: 25 29.664 N

Longitude: 082 02.181 W

Air temperature: 84.56 F

Pressure: 1018.13 Mb

Sea Surface Temperature: 30.5 C

Wind Speed: 13.54 Kt    East 12.72 degrees

Science Log:

The fishing process on the ship repeats itself in a well-defined cycle: cut bait, bait 100 hooks, drop hi-flyer, drop weight,  attach 50 tags and baited hooks, drop weight, attach 50 more tags and hooks, drop weight, deploy hi-flyer.  Put the CTD over the side and retrieve for water quality data.  Wait an hour.  Retrieve hi-flyer, retrieve weight, pull in first 50 hooks and detach tags logging any catch as they come in, retrieve weight, pull in next 50 hooks and detach tags logging any catch as they come in, retrieve last weight, retrieve last hi-flyer.  Process the catch as it comes in, logging tag number, gender, species, lengths at 3 points, life stage, and tag number if the catch is a shark that gets tagged, return catch to water alive as quickly as possible. Transit to the next sample site.  Wash, rinse and repeat.

That boils it down to the routine, but long line fishing is much more interesting and exciting than that!  Bait we use is Atlantic Mackerel, caught farther north and frozen, thawed just before use and cut into 3 pieces per fish.  A circle hook is inserted through each piece twice to ensure it will not fall off the hook…this is a skill that takes a bit of practice.  Sometimes hooks are pulled in with bait still intact. Other times the bait is gone and we don’t know if it was eaten without the hook catching, a poor baiting job, or more likely eaten by smaller fish, too little to be hooked.  When we are successful we hear the call “FISH ON!” and the deck comes alive.

The line with a catch is pulled up as quickly and carefully as possible.  Some fish are not securely hooked and are lost between the water and the deck…not what we want to happen.  If the catch is a large shark (generally 4 feet or longer) it is raised to the deck in a sling attached to the forward crane to minimize the chance of physical injury.  For large sharks a camera with twin lasers is used to get a scaled picture for estimating length.  There is a dynamometer on the line between the sling and the crane which measures pressure and converts it to weight.  Both of these processes help minimize the time the shark needs to be out of water with the goal of keeping them alive to swim away after release.  A tag is quickly attached to the shark, inserted under the skin at the base of the second dorsal fin.  A small clip is taken from a fin, preferably from the pelvic fin, for DNA studies. The sling is lowered back to the water and the shark is free to swim away.  All data collected is recorded to the hook-tag number which will identify the shark as to geographic location of the catch.

Shark in sling

A sandbar shark being held in the sling for measurements.

Sometimes the catch is a smaller shark or a bony fish:  a Grouper, a Red Snapper, or any one of many different types of fish that live in this area.  Each of these is brought onto the deck and laid on a measuring board. Species, length, and weight are recorded. Fin clips are taken.  Many of them are on the list of species of recreational and commercial importance.  These fish are retained for life history studies which will inform future management decisions.  In the lab they are dissected to retrieve otoliths (ear stones) by which their age is determined.  Depending upon the species, gonads (the reproductive organs) may be saved for study to determine the possibilities of future reproductive success.  For certain species a good-sized piece of flesh is cut from the side for fraudulent species voucher library use.

After the smaller sharks are measured, fin clipped, gender identified, life stage is determined and weight is taken, they are tagged and returned to the water as quickly as possible.  Tags on these sharks are a small, numbered plastic tag attached by a hole through the first dorsal fin.

This is a lot to get done and recorded and it all happens several times each shift.  The routine never varies.  The amount of action depends upon the success of the catch from any particular set.  This goes on 24 hours per day.  The only breaks come as we travel between the sites randomly selected for our sets and that time is generally spent in the lab.

(Thanks go to Kevin Rademacher, Trey Driggers and Lisa Jones, Research Fisheries Biologists, for contributing to this entry.  File photo NOAA/NMFS)

Personal Log:

I do not need 12 hours of sleep.  That means I have several hours at the start or end of each shift to write in my journal, talk to the other members of the crew, take care of personal business such as laundry and communicate with home via email.  Even so, every day seems to go by very quickly and I go to bed thinking of all the things I have yet to learn.  In my next posts I will tell more about the different kinds of sharks and introduce you to some of the other people on the ship.  Stay tuned.

Barney Peterson:Welcome to OREGON II, August 14, 2016

Posted on by Barney Peterson

NOAA Teacher at Sea
Barney Peterson
Aboard NOAA Ship OREGON II
August 13 – 28, 2016

 

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: August 14, 2016

Weather Data from the Bridge:

Latitude: 25 23.297 N

Longitude: 083 40 .794 W

Air temperature: 87.6 F

Pressure: 1017.04 Mb

Sea Surface Temperature: 30.6 C

Wind Speed: 16.6 Kt    East 86.74 degrees

Science Log:

We will set clocks tonight SHIP WIDE.  At 0100 it will become 0000.  Please plan accordingly.

What this translates to is that when we moved into the Gulf of Mexico we went to the Central Time Zone.  That means only a 2-hour difference between the ship and my home in the Pacific Northwest.  That also means I, who am on the noon-to-midnight shift, got one more hour to sleep (or whatever) Sunday night.

I am busy learning about schedules on the ship. The science group is split into 2 shifts.  We work days: noon to midnight; or nights: midnight to noon.  These hours rule our lives. Meals are served at 0630, 1100, and 1700.  You eat your first meal before you go on shift and your last at shift’s end.  During the 12 hours you are off shift your stateroom is yours and your roommate is expected to stay away and let you sleep.  The opposite is true for your time on: take everything you may need with you when you leave.  Showers, laundry and personal business are fit into your 12 hours off.  Shipboard courtesy requires that we keep voices low in the passageways and be careful not to let doors slam.  Somebody is always trying to sleep.  There is always a quiet spot somewhere to relax for a moment if you get the time: on the flying bridge, at the table on the stern, in the lounge or at a galley table.

Sunday, at 1230 hours, we had safety drills, required for all personnel within 24 hours of departure and once a week thereafter on every cruise.  Reporting stations for 3 different types of drills are posted in staterooms and throughout the ship.  Nobody is exempt from participation.

The signal sounds: a 10 second ringing of the bell: FIRE!  The PA announces a drill: “All hands report to assigned stations.”  Members of the science team quickly make their way to the stern.  By the galley stands a crew member with a sign reading: Fire ahead – detour.  After we arrive at our station, get checked off and, when all crew have been accounted for, return to our staterooms.

Next – 7 short and one long ring on the bell: ABANDON SHIP!  Announcement: “Drill.  All hands report to the bow with PFD’s and survival suits.”  We grab our life jackets and “Gumby suits” and head to the bow where we are checked off as we arrive.  We are required to don our “Gumbies” in 2 minutes or less – not impossible, but not simple either.  I’ve done it before.  The hardest part is getting the hood on and zipping up with your hands jammed into the lobster-claw gloves and your shoes and hat crammed into the suit with you…that’s when you discover just how much too long the arms and legs are.  It isn’t pretty, but if we actually end up in the water, those neoprene suits will be our best protection against the deadly, energy-sapping effects of hypothermia!

Just after we have stripped out of the “Gumby” suits, rolled them up and stowed them and our life jackets back in staterooms, we get the next signal.

3 long bells: “MAN OVERBOARD!” This drill is important too, but feels almost like an anti-climax.  It could mean the difference between life and death to a fellow crew member who falls into the water when the ship is moving.  Science team reports again to the stern and, in a real emergency, would receive instructions for participating in spotting or assisting in a rescue.  This time we stay and listen to a safety talk about our work with long lines, hooks, bait, and our possible catch which could include all kinds of fish and sharks.  There are very definite rules and procedures to ensure crew are safe and our catch is handled with care and respect.  If all goes well…our first lines will be set Monday night!

Personal Log:

Sitting on the flying bridge about 1900 Sunday evening, 3 of us spotted a small boat about ½ mile away that seemed to be drifting aimlessly.  There were two enormous cruise ships coming up behind us and they went around it on either side after cutting their engines to reduce their wake.  A crew member from the bridge watched from our deck as somebody on the boat fired a flare.  We were informed that radio contact was established: the boat was adrift, out of fuel, and we would stand by until the Coast Guard arrived. The OREGON II cut speed and circled back to stay closer to the small boat.  One of the cruise ships was also standing by while the other went on its way.  After about 20 minutes the white and red Coast Guard ship appeared and, when it reached the small boat, we were released to go on our way.

Seeing this response to another vessel in need of help put emphasis upon the importance of participating fully in our drills and understanding the measures in place to keep us safe and aid other ships sharing this big ocean.

Did You Know?  What is the largest shark found in the Gulf of Mexico?

going aboard

Teacher at Sea Barney Peterson about to board NOAA ship OREGON II