high flyer – NOAA Teacher at Sea Blog

August 19, 2025August 19, 2025

Robert Markuske: Land to Sea, Early Days, August 17, 2025

Robert Markuske

Aboard NOAA Ship Oregon II

August 13 – 29, 2025

Mission: Long Shark and Snapper Survey

Geographic Area of Cruise: Gulf of America

Date: August 17, 2025

Weather Data from the Bridge:

Greenwich mean Time: 23:51

Latitude: 25 22.739′ N
Longitude: 82 24.980′ W
Relative Wind speed: 2 Knots
Wind Direction: North – Northwest
Air Temperature: 32.8 Celsius
Sea Surface Temperature: 30.8 Celsius

Hello from the Gulf of America. Hereafter, it will be referred to as the Gulf.

We departed the Port of Miami at 14:20pm EST on August 13th. Below are my early experiences leaving port and getting a crash course before our survey starts. It’s been lots of info quickly; from living at sea on the Oregon II, how we fish, why we fish, what we use to fish, and all the different roles NOAA corps, Steward Crew, Deck Crew, Engineer Crew, and Science team do function on the water.

First and foremost, I have better service and internet at sea than I do at home—definitely better than at New York Harbor School. Maybe it’s time we really bring marine and maritime tech beyond the decorative portholes on our classroom doors. 😉

Although funny, it makes sense. At sea, doing scientific research on fisheries, things need to be a certain way—for the sake of quality science directives, the life of the organisms studied, and the quality of life for those walking the corridors and decks of the ship. While transiting from port to our first station in the Gulf, it’s been overwhelming—in a good way—but exciting, learning all that’s needed to truly be a part of the crew.

Why does the Oregon II even go to sea?

An assignment given to my students – albeit over the summer – comment on the blogs. Maybe they were hoping I’d have no internet connection. They were wrong. Let’s get those comments going.

Mission Objectives:

Ready to learn and assist in Oregon 2’s objectives

Conduct a study to assess the distribution, abundance trends, life history (age structure, growth, and reproduction), movement patterns, and habitat of coastal sharks and red snapper (Lutjanus campechanus).
Collect biological and environmental data at survey sites (including water quality parameters).
Tag and release sharks.

For some context on fisheries scientific surveys:

I’m currently on Leg 2. This survey has four legs. A leg is a separate time at sea within the overall survey. In each leg, different stations are worked to reach objectives. This survey runs down the Atlantic Coast from North Carolina to West Palm Beach, FL, then transits back around past the Florida Keys, and into the Gulf to begin sampling again north of the Dry Tortugas. The legs in the Gulf , data is collected at three different depth strata: shallowest and closer to the coast (9-55 m), midway (55-183 m), and farther out on the continental shelf (183-366 m)—bouncing back and forth along shelf as we move up the western coast of Florida..

The gear used on this survey is bottom longline. But first—safety. I’ll get to the science and tech in a bit.

Safety Training & Protocol

Before the ship got underway, we went over a lot of safety procedures in case something were to occur while at sea. We went over what emergency signals are: fire is a 10-second alarm, man overboard is three long blasts, and abandon ship is six short blasts and one long. We were given cards that list our locations for where to muster in the event something occurred. We went over protocol and procedures if any of these events happen. While underway, we did some drills.

Rob dons an orange survival suit on deck. He stands with his arms completely outstretched. Behind him, the sky is blue and mostly clear, and the ocean is deep blue. — Training for Abandoning Ship in Emergency

an orange life ring mounted on a wall, printed with the words Oregon II, R-332, Pascagoula, MS. — Training for Abandoning Ship in Emergency

While on the ship, we did some drills. I would have to say, practicing for an event where I have to abandon ship was a little fun and emotional. Putting on the immersion suit to save my life—keeping you warm, afloat, illuminated, and with your head above water—in the event I need to abandon ship, is an iconic “teacher at sea” shot, I am told. I should have known; we have them at Harbor School. I’ve seen lots of selfies of kids and VIPs in them, but never had the chance. It’s an exciting and necessary drill aboard a working vessel.

Parachute Flare Training

We were demoed and practiced two types of flares to be used in different emergency situations. It was the best birthday candle I’ve witnessed to date. I got to set off the parachute flare, and some folks lit off other flares with a birthday serenade. It goes without saying, the reusable Grateful Dead birthday candle from Clara—my partner—is out of the league of candle celebrations. But the flare demo came close.

While underway, I’ve noticed and learned little things I would normally take for granted and that we don’t need on land.

Not unfamiliar PPE

Red lights at night help preserve night vision and are just being kind to our shipmates. Watch for the red light blinking on top of the engine room—that means someone’s coming up the stairs. The office chairs don’t have wheels. The computers and equipment are cantilevered to the wall. Hard hats go on when things are overhead, and a PFD (personal flotation device) goes on when working close to the edge or near the stern. And when handling animals or fishing gear, we’ve got different gloves for different jobs.

a travel mug in a bright pink cone that stops it from rolling, on a wooden table. — BK Roasters doesn’t go rolling

My coffee cup really needs a stabilizer for this table. Honestly, I might bring one of these into the classroom—I’m forever spilling or misplacing my coffee.

And of course, the big reminder out here: follow directions. Listen, read, communicate. Feels like I’ve heard that a million times—pretty much every teacher, whether at sea or on land, says it.

coffee maker — You smell it through the galley.

Life at sea has its own lessons. Out here, everything needs backups, and things have to work a certain way. We’re living, working, and doing science on a ship that never stops moving and is always a long way from shore.

Shout out to BK Roasters for supplying a critical piece of material for this mission, good smelling, roasted coffee from the Brooklyn Navy Yard in NYC. My shipmates are saying it’s super smooth!

Science and Technology Log

In order to conduct the data collection and research on sharks, lots of scientific protocols and technology, both computer-based and mechanical, go into the survey. First and foremost, we are fishing. The techniques are similar to those of commercial fishermen. On the longline shark and snapper survey, we use bottom longline.

Graphic design illustration bottom longline fishing gear lying on the sea floor with fish swimming nearby. The bottom long line is connected to a blue fishing vessel in the background. — Bottom longline fishing

Bottom longlines have a mainline weighted to the seafloor with buoy lines marked by flags on either end, called high flyers.

Typically, per watch from 12 p.m.–12 a.m. and/or 12 a.m.–12 p.m., there are 3–4 sets, depending on how far away the stations are and conditions in the Gulf. An orchestrated ballroom dance across the Gulf, except the dance floor is wet, moving, with predictable and sudden changes in environmental conditions. Oh right, and sharks. Brings “the floor is lava” to a new level.

Gangions—short lines clipped to the mainline with hooks—are baited and attached to the mainline (4 mm thick). We bait 100 gangions (3 mm thick) with Atlantic mackerel and circle hooks. This one-nautical-mile line is then deployed off the stern. Note: we use a data collection system on a Toughbook to mark, map, and catalog the numbered hooks that are baited to use later on when hauling.

The most interesting thing I learned, or rather don’t emphasize when I teach about fishing gear types, is that longlines are detached from the vessel. There is a winch (like a big reel) that trails the line from the bow to the stern to set the gear and haul the gear. Upon set, it is released from the ship. Upon hauling it in, we reconnect to the harvesting system.

Mainline Hauling and Setting System; 4mil line
One BIG fishing reel
Its runs from Bow
Line Continues through breeze way
At end of Breeze way, its almost to stern to be in position for setting line.
In middle of stern, line will be set to connect all the gangions.

To set the longline, it’s deployed in this order:

As things go into the water, data is collected on the gear—quantity and location.

This all happens from the stern (back of the ship) of the Oregon II:

Buoy, High-flyer (high visibility, designed and lit) – tossed out at the station coordinates.
Weights – connected after some slack from the high-flyer to keep the line on the bottom.
50 gangions with bait, numbered 1–50 – spaced out along half a nautical mile of mainline.
Weights – to keep the middle section on the bottom.
50 gangions with bait, numbered 51–100 – spaced out along another half nautical mile of mainline.
Weights – attached at the opposite end to keep the line on the bottom.
High-flyer, Buoy (high visibility, designed and lit) – with some slack given after the weight to keep things accurately placed.

a line of clips with round metal tags stamped with numbers

view down at a white barrel lined with empty circle hooks attached to gangions

two gloved hands slide a piece of mackerel onto a circle hook hanging off a white barrel, lined up next to other baited hooks

Rob, wearing a life vest and work gloves, drops a baited gangion over the railing as another crewmembers watches. it is nighttime.

crewmembers in life vests stand around two white barrels lined with baited gangions and look out at the water. the longline extends over their heads and then down into the water.

Two crewmembers in life vests work together to lower a high flyer - an orange buoy with a pole and a reflective marker - over the railing

view of the aft deck set up at night. a line of numbered clips stretches across a work table. two white barrels are lined with baited gangions. a vertical pole of some sort holds the deploying fishing line - this is hard to describe.

view out over dark water of the high flyer (buoy with tall flag) and another buoy adrift after deployment

During the soak of the 100 gangions, we are also completing water quality data via a CTD Device ( Conductivity, Temperature and Depth) that measures conductivity, depth, temperature, dissolved oxygen, and Ph. I will describe this in more detail in a later post.

a conductivity, temperature, and depth (CTD) rosette on deck, awaiting deployment

photo of a computer screen displaying readout

CTD water quality monitoring device; Watching data on descent and ascent

After being deployed its time to let the longline soak for an hour. Then we flip it and reverse it with some twists.

A big twist through the whole process is that you will have live animals on the ship that need to be returned to sea. The idea is to study these animals.

Lastly, as you are hauling up the line, you are simultaneously thinking of the next set. For example, keeping numbered gangions in order and placing hooks correctly in the barrel. If not careful, things can get squirrely quickly.

Note: as things come out of the water, data is collected on the gear—quantity, location, and status of the hook. How’s the bait looking? Is there a fish on!?!?!

Happens from the bow (front of the ship) of the Oregon II:

Buoy – High-flyer (high visibility, designed and lit) – A grappling hook is tossed to nab the mainline and pull it toward the vessel. The buoy and high-flyer are pulled onto the vessel, detached from the mainline, the mainline is reconnected to the harvesting winch, and the highflyer brought back to the stern.
Weights – Pulled onto the vessel.
50 gangions with bait – Status of the hook. How’s the bait looking? Is there a fish on!?!?
Weights – Pulled onto the vessel.
50 gangions with bait – Status of the hook. How’s the bait looking? Is there a fish on!?!?
Weights – Pulled onto the vessel.
High-flyer (high visibility, designed and lit), buoy

During the hauls, data is collected on the animals; fin clips taken for genetics, sexed, measured, and weighed. Some animals are tagged.

two crewmembers wearing life vests kneel or crouch on deck next to a wooden measuring board, preparing to measure a shark that one crewmember holds in her hands — Measuring different data lengths on sharks

Rob sits and a computer desk with a row of small blue-capped sample vials — Measuring different data lengths on sharks

Rob, in his Teacher at Sea hat, life vest, and work gloves, holds an unidentified shark up (snout facing up, ventral side facing camera) for a photo on deck at night — First “fish on” of our watch

top-down view of an unidentified shark swimming away in bright blue water — First “fish on” of our watch

Fish Hauled in the early days of this mission

Silky Shark – Carcharhinus falciformis

Sandbar Shark – Carcharhinus plumbeus

Barracuda – Sphyraena barracuda

Speckled hind – Epinephelus drummondhayi

Yellowedge grouper – Hyporthodus flavolimbatus

Red Porgy – Pagrus pagrus

Tiger Shark – Galeocerdo cuvier

Sharpnose – Rhizoprionodon terraenovae

Gulf Smoothhound – Mustelus sinusmexicanus

Snake Fish – Trachinocephalus myops

Click Common Name for for more info

Personal Log

I would say writing a personal log is probably the hardest. I’ve been so engaged in learning what we are doing, I haven’t really been thinking about anything other than being a student.

But after some reflection, some workout routines in the corner of the bow, listening to some music, and working off all the great food I’ve been eating—I am a dessert-after-every-meal type of person—the Chief Steward has won my heart. It’s hard walking past the galley and not grabbing the cooking of the day on a 12-hour shift, in between set and haul.

In the early days of taking this journey, it reminded me of my first year of teaching. With eight hours of doing it, the learning curve is steep and continues to climb. You kind of have no choice, especially when you aren’t getting off the vessel for 17 days.

All in all, I am so grateful for this experience. It’s made me realize how much I underestimate the appreciation I have for both the people who do the work to study our marine life and for those who fish the marine life as a wild food source. It’s a massive world out here on the Gulf—in some distances it’s 800 miles from Texas to Florida—and on the open ocean. It takes special people both to do the work of studying these animals and to fish them for money.

Instantly, stepping on this ship, it’s place-based learning in stakeholder engagement. It’s a wild world out there. Living and working on a vessel is both a good way and a crash course in stakeholder engagement and cooperation. You kinda have no choice. We could learn a few things on land from the folks that work on the water for research and/or their economic income, specifically when it’s in the realm of fisheries.

Moreover, from the shark wranglers that are my current shipmates.

Animal Sighting:

a brown bird with a long bill rests on a railing of an upper deck of NOAA Ship Oregon II at night — Brown Noddy Chilling

Brown Noddy ( Anous stolidus)

The brown noddy forages over the water and dipping down to catch small squid, other mollusks, aquatic insects and super small fish, like sardines and snatching insects in air too.

AKA -Tuna Bird – Fishermen see it as a sign that tuna are near.

Did you know?

Sharks are fish.

They live in water, and use their gills to filter oxygen from the water. They don’t have bones. These are a special type of fish known as chondrichthyans because their body is made out of cartilage instead of bones. The further classification of sharks, rays, and skates are known as “elasmobranchs.”

July 30, 2015August 21, 2021

Kathleen Gibson, Time to Fish! July 29, 2015

High flyer away! Photo Credit : Kristin Hannan — High flyer away!
Photo Credit : Kristin Hannan

NOAA Teacher at Sea
Kathleen Gibson
Aboard NOAA Ship Oregon II
July 25-August 8, 2015

Mission: Shark Longline Survey
Geographic Area of the Cruise: Atlantic Ocean off the Florida and Carolina Coast
Date: July 29, 2015
Coordinates:
LAT 2933.3326N
LONG 8029.065W

Weather Data from the Bridge:
Wind speed (knots): 9.2
Sea Temp (deg C): 29.6
Air Temp (deg C): 28.7

Yesterday was the first full day of sampling. We were off the coast of Miami, FL and it was relatively shallow. I’m not sure how many sharks I expected to see on my first day, but certainly not the 80 + that we did catch!

Science and Technology Log – A, B, C’s of Fishing for Sharks

Kristin Hannan preselected our stations following a random stratified approach. Sampling stations have A, B, or C designations, depending on the depth (A is more shallow than B or C). The night crew went on duty at midnight and completed one station yesterday morning. We completed three stations during our shift yesterday and three more today.

The bridge lets us know when we’re 30 minutes from our station, and we begin preparations. We bait the hooks with mackerel 20 minutes ahead of time.

When we get to the station, the longline is fed out from the stern of the ship and extends one mile. A

Throwing Bait - I'm passing baited gangions to Tim Martin to attach to the Longline. Moments after this photo my TAS hat took flight and joined the sharks of the Atlantic. — Throwing Bait –
I’m passing baited gangions to Tim Martin to attach to the Longline. Moments after this photo my TAS hat took flight and joined the sharks of the Atlantic.

marker, called a high flyer, is attached to the beginning of the line. One hundred baited gangions are attached to the line at intervals after which another high-flyer marks the end of the line. The ship then returns to the starting point, the line is hauled in and the fun begins. If there is a shark on the line, the deck crew fisherman calls out “Shark On!” That’s the signal for someone from the science group to step up and take the shark, remove the hook and collect data.

The following data collected is collected for all sharks:

Species
Precaudal Length: Nose to base of tail
Fork Length: Nose to fork of tail
Natural Length: Nose to tail
Total Length: Nose to end of tail when extended manually
Weight (Kg)
Sex Determination

Tag numbers and tissue sample collection is also noted if applicable.

Early morning haul back by the night shift. Video taken from the highest point on the ship.

Most of the sharks caught were small enough to bring up and hand to the science team. We use a wooden measuring board to determine lengths. Those that were a bit larger were brought up on deck by the fishermen and they required multiple handlers to collect data.

Very large sharks had to be measured with the help of a cradle and hoist. The cradle is lowered to water level and large sharks are coaxed onto the cradle using the hook and line they are still attached to. A hoist brings them to deck height for assessment. Deck Operations Crew manages all shark retrieval and determines when is safe for us to proceed.

Atlantic Sharpnose

Most of the sharks that we’ve caught have been Atlantic Sharpnose. This shark is relatively small (adults average 0.85 M) and are found in shallow Atlantic coastal waters from New Brunswick down into the Gulf of Mexico, and even off the coast of Brazil. They are known by at least 8 common names in different regions. My Biology students would recognize this as a good example of why it’s important to use agreed-upon scientific names for scientific research. The scientific name for this species is Rhizoprionodon terraenova. It has a long snout (longer than the width of the head) and most adults have a few white spots on a gray body.

Sharpnose mature relatively quickly and can begin producing offspring within two years; also, they can have up to 5-7 pups at once. These are major factors contributing to the abundance of this species. In comparison, larger sharks may take up to 15 years to reach maturity and typically have fewer offspring in each brood.

Our catch also included one Blacknose (Carcharhinus acronotus) and multiple Scalloped Hammerhead (Sphyrna lewini), Nurse (Ginglymostoma cirratum) and Spinner sharks (Carcharhinus brevipinna).

Larger specimens were brought to deck height using a cradle, for weight, size, and sex determination, and were lowered back into the water after being measured and tagged.

Nurse Shark in cradle (Photo Credit: Ian Davenport)

A Sandbar shark in the cradle. I'm in the yellow helmet tagging the shark. — A Sandbar shark in the cradle. I’m in the yellow helmet tagging the shark. ( Photo Credit: Erica Nu

Hook removal required bolt cutters after I tagged this Sandbar Shark. — Hook removal required bolt cutters after tagging this Sandbar Shark.

Career Spotlight

If your interests tend toward science mixed with heavy machinery, skilled fishing, robotics or electronics, perhaps one of the following careers is for you.

Tim Martin: Chief Boatswain

As the Chief Boatswain, Tim Martin is responsible of all activities that happen on deck and he maintains constant communication with the bridge during all operations. Tim came to NOAA fisheries with a wealth of experience gained while serving in the U.S. Navy and later as a commercial fisherman in the Pacific Northwest. He was initially classified as a “Skilled Fisherman” with NOAA and has worked his way up to Chief Boatswain.

He and his group set and retrieve the longline. They also run all of the heavy deck equipment, such as the cranes that are used to position the shark cradle for large sharks and the CTD (water Sampling device). The Chief Boatswain is also responsible for training new crewmembers and maintaining ship supplies. In addition, Tim has earned Dive Master Certification through the NOAA Diving School, considered to be the best civilian diving school in the US.

Tim Martin and deck Crew cradling a Tiger shark. Note the wooden dowel at center used to attach tags. ( Photo Credit: Erica Nuss) — Tim Martin and deck crew cradling a Tiger shark. Note the wooden dowel at center used to attach tags. (Photo Credit: Erica Nuss)

When asked what keeps him going, Tim is very clear that he believes the work that NOAA Fisheries does is very important, and he is proud to be able to use his expertise to support NOAA’s efforts. This satisfaction somewhat tempers the challenges of the job which include being at sea for at least 6 months of the year, and constantly being in a training flux. Tim feels a strong bond with his crew and there is a clear sense of mutual trust and respect among them.

Ken Wilkinson: Electronic Technician (Supreme), NOAA Fisheries Engineering Unit

Ken has been with the Engineering Unit of NOAA Fisheries for 26 years. The mission of his Unit is to

Ken using his skills to filet a Red Snapper

support NOAA Fishery research by developing innovative technology. Ken always wanted to work on the water and he initially studied Marine Biology in college, but he migrated toward electronics. His work allows him to combine two great interests. His work takes him to sea 50-80 days each year.

A major focus of the electronics unit is to support the Reef Fish program. Trawling nets and longline apparatus will damage reef systems. In order to assess reef fish populations in a non-invasive way, Ken and his group work a number of Remotely Operated Vehicles that capture still and moving images that can be used later to determine abundance and species diversity. Ken’s unit has also developed a device called an Autonomous Underwater Vehicle (AUV). This programmable instrument scans the sea floor using lasers and data collected is used to develop more accurate sea floor maps.

Bathymetric map of the Longline sampling area- NOAA

New device: Kennenator 5000 Dual Laser

Ken is on board the Oregon II testing his new device that can be used to assess the size of large sharks without bringing them to deck height. Ken’s device has two lasers set at a fixed distance from one another. The beams are directed toward the shark while it remains at the surface of the water. Various measurements can be extrapolated from the laser measurement. Large sharks caught on the longline survey are typically brought to the surface in the cradle for assessment. Cradle use is preferred as it allows tagging and tissue sample collection and sex determination. However, there are situations when this is not possible such as when poor weather conditions develop which limit sling operations, and some small vessels are not equipped with sling equipment.

Personal Log

The fast pace of the haul back at early stations was jarring. I stepped up when “Shark On” was called and a writhing Sharpnose was thrust into my hands. The first task is to get the hook out of the shark’smouth and this is no small feat. The circle hook is designed is to reduce the chance that the shark will swallow the hook or get hurt by it, but getting these hooks out of the mouth without hurting the shark requires technique. There will be plenty of opportunities to get the hang of in the next week.

A highlight of this first day was getting up close to a 2 meter long Scalloped Hammerhead brought to the surface in the cradle. I was able to feel its head, observe its eyes, and place an identification tag near its dorsal fin before it was lowered back into the water.

Smaller Scalloped Hammerhead on deck. It took two of us to hold this one in place fore measuring and tagging. (Photo Credit: Ian Davenport)

September 19, 2013August 20, 2021

Louise Todd, Setting the Line, September 19, 2013

NOAA Teacher at Sea
Louise Todd
Aboard NOAA Ship Oregon II
September 13 – 29, 2013

Mission: Shark and Red Snapper Bottom Longline Survey
Geographical Area of Cruise: Gulf of Mexico
Date: September 19, 2013

Weather Data from the Bridge:
Barometric Pressure: 1017.17mb
Sea Temperature: 28.8˚C
Air Temperature: 27˚C
Wind speed: 18.05 knots

Science and Technology Log:

Those of you following our progress on the NOAA Ship Tracker might have noticed some interesting movements of the ship. We had some rough weather that forced us to skip a station, and the current by the mouth of the Mississippi River also forced us to skip a station. The safety of everyone on board comes first so if the seas are too rough or the weather is bad we will skip a scheduled station and move to the next one. Now we are off the coast of Florida and hope we can get some good fishing done!

This survey is being done using longlines. Longlines are exactly as their name describes, long stretches of line with lots of hooks on them. The line we are using is 6,000 feet long, the length of one nautical mile. From that long line, there are 100 shorter lines called gangions hanging down with hooks on the end. Each gangion is 12 feet long.

When we arrive at a sampling station, everyone on our shift helps to set the line. In order to set the line, we have to bait each one of the hooks with mackerel.

Once the hooks are baited, we wait for the Officer of the Deck (OOD), driving the ship from the bridge, to let us know that we are in position at the station and ready to start setting the line. The first item deployed is a high flyer to announce the position of our line to other boats and to help us keep track of our line.

High Flyers — High flyers ready to be deployed

This is a bottom longline survey so after the high flyer is deployed, the first weight is deployed to help pull the line to the bottom of the ocean just above the seabed. After the first weight is deployed, it is time to put out the first 50 hooks. This is typically a three person job. One person slings the bait by pulling the gangion from the barrel and getting ready to pass it to the crew member. Another person adds a number tag to the gangion so each hook has its own number.

Numbers for hooks — Number clips are attached to each gangion

A member of the deck crew attaches each gangion to the main line and sends it over the side into the water. The gangions are placed 60 feet apart. The crew members are able to space them out just by sight! The bridge announces every tenth of a mile over the radio so they are able to double check themselves as they set the line. Another weight is deployed after the first 50 hooks. A final weight is placed after the last hook. The end of the line is marked with another high flyer. Once the line has been set, we scrub the gangion barrels and the deck. The line stays in the water for one hour.

Once the line has soaked for one hour, the fun begins! Haul back is definitely my favorite part! Sometimes it can be disappointing, like last night when there was absolutely nothing on the line. Other times we are kept busy trying to work up everything on the line. When the line is set and brought back in, everything is kept track of on a computer. The computer allows us to record the time and exact location that every part of the line was deployed or retrieved. The touchscreen makes it easy to record the data on the computer.

Computer ready to document what is on each hook

Personal Log:

It is nice to be doing some fishing! There have been some long distances in between our stations so my shift has not gotten the opportunity to set the line as much as we would like. I’m hopeful that the weather holds out for us so we can get a few stations in on our shift today. Being able to see these sharks up close has been amazing. I am enjoying working with the people on my shift and learning from each one of them. Before we haul back the line, I ask everyone what their guess is for number of fish on the line. My number has been 45 the past few haul backs and I’ve been wrong every time! Christine was exactly right on one of our last haul backs when she guessed two. I know I’ll be right one of these stations. It is hard to get pictures of what comes up on the line because we get so busy processing everything. I’m going to try to get more pictures of our next stations.

The views out in the Gulf are gorgeous. I never get tired of them!

Did You Know?

When we arrive at a sampling station, the officer on watch must be aware of other ships and rigs in the area. At times the bridge watchstander will make the decision to adjust the location of our sampling station based on large ships or rigs in the area.

Rig and Ship — Rigs and other ships in the area of a sampling station can force us to move the station