bandit reel – Page 2 – NOAA Teacher at Sea Blog

June 19, 2010March 12, 2021

Melinda Storey, June 19, 2010

NOAA Teacher at Sea
Melinda Storey
Onboard NOAA Ship Pisces
June 14 – July 2, 2010

NOAA Teacher at Sea: Melinda Storey
NOAA Ship Pisces
Mission: SEAMAP Reef Fish Survey
Geographical Area of Cruise: Gulf of Mexico
Date: June 19, 2010

Weather Data from the Bridge
Time: 1000 hours (10:00am)
Position: latitude = 27°34 N, longitude = 096°28 W
Present Weather: mostly clear
Visibility: > 10 nautical miles
Wind Direction: SSE Wind Speed: 13 knots
Wave Height: 2 feet
Sea Water Temp: 29.5°C
Air Temperature: dry bulb = 29.4°C, wet bulb = 27.8°C

Science and Technology Log

One of the goals of the SEAMAP Reef Fish survey is to monitor the health and abundance of reef fish to establish limits on how much fish the fishing industry can take out of Gulf waters. SEAMAP stands for Southeast Area Monitoring and Assessment Program and is a State/Federal/University program for collection, management and dissemination of fishery-independent data and information in the southeastern United States.

Due to the oil spill in the Gulf, the fish we capture will be weighed, measured, frozen, and delivered to the Seafood Inspection Laboratory (NSIL) in Mississippi to be tested for hydrocarbons (oil) or other contamination to ensure that the seafood is safe to eat. Since the oil spill is far to the east of where we are doing the survey, our data will serve as a baseline and be compared to future studies to see what the extent and future impact of the oil will be in these waters.

The fish are taken out of the Chevron Trap or off the Bandit Reel and brought into the wet lab.

The first measurement we take is the weight (or mass) of the fish in kilograms (kg) using a motion compensating scale. One scientist will take the measurements while another records the data in a data table.

Next, we take three different measurements of length by placing the fish on a board that has a metric measuring tape attached. All length measurements are measured in millimeters (mm). First, we take the Total Length (TL) measurement which is from the mouth of the fish to the longest point on the tail. Then we measure the Fork Length (FL) from the mouth of the fish to the indention of the tail. The last measurement is the Standard Length (SL) which is from the mouth of the fish to the base of the tail.

Personal Log

I’m loving the gross and slimy science that we are doing here. The other teacher on board likes logging the data onto the charts and all the numbers. That suits me fine because I like hands-on science! The messier the better.

You can see me holding the squid that we use to bait the Chevron fish trap. I even like picking up the fish and weighing them and measuring them too. Our Chief Scientist, Paul Felts, let me calibrate the scale. This scale compensates for the rolling of the ship so we get a very accurate weight. I think the scientists get a kick out this old woman doing some of the gooey, messy work like baiting the fish trap with the slimy squid and the Bandit Reel with pieces of mackerel, but what they don’t know is that I don’t mind at all!

I have been amazed at the number of oil rigs in the Gulf. Wherever we’ve been – 100 miles out or 40 miles out – we’ve seen oil and gas platforms (rigs). Rigs that are out 100 miles start drilling at 5,000 feet deep. At night the rigs are all lit up and are beautiful but the number just overwhelms me.

The CO showed me a chart they were using on the bridge and it looked like someone shook pepper on a white sheet of paper, only each pepper flake was an oil rig. He said that most of those rigs have been built since 1997. At first, ships from oil companies were sent out to map the ocean floor and that would help them decide WHERE to drill. On the nautical chart there were two levels of ocean depths – shallow water and deep water. I was looking at the deep water chart. When I commented on the number of oil rigs, the CO said there were even more rigs in the shallow part. He said that when he “steams” through the shallow water rigs it’s “like driving through traffic.”

There is a bird that has been catching a ride with us for the last 24 hours. We Googled ocean birds and found out it was a Brown Booby. They look like the blue footed Boobies that live in the Galapagos Islands. He is black with a white belly and white face with bright yellow beak. He also has yellow webbed feet. He just sits on top of a weather post in the bow and grooms himself. He poops too. Sometimes he flies off to catch a flying fish but always returns.

New Term/Vocabulary

Bridge – the top level of the ship where the Commanding Officer steers the ship

Steam ahead – to move forward

“Something to Think About”

Nicolle found a moth in her room last night. Now, how did a moth get way out here? I caught him and released him but who knows what will happen to him. It doesn’t look good for the little guy!

“Did You Know?”

Did you know that if you get “pooped on” by an ocean bird, it means you’ll have good luck? Fortunately I’m not lucky!!!
There is a bird that has been catching a ride with us for the last 24 hours. We Googled ocean birds and found out it was a Brown Booby. They look like the blue footed Boobies that live in the Galapagos Islands. He is black with a white belly and white face with bright yellow beak. He also has yellow webbed feet. He just sits on top of a weather post in the bow and grooms himself. He poops too. Sometimes he flies off to catch a flying fish but always returns.

June 17, 2010March 12, 2021

Melinda Storey, June 17, 2010

NOAA Teacher at Sea
Melinda Storey
Onboard NOAA Ship Pisces
June 14 – July 2, 2010

Mission: SEAMAP Reef Fish Survey
Geographical Area of Cruise: Gulf of Mexico
Date: June 17, 2010

Weather Data from the Bridge

Time: 1000 hours (10:00am)
Position: latitude = 26.52.6 N, longitude = 096.46.7 W
Present Weather: 3/8 cloudy
Visibility: 10 nautical miles
Wind Speed: 17 knots
Wave Height: 1-2 feet
Sea Water Temp: 29.5 degrees Celsius
Air Temperature: dry bulb = 29.2 degrees Celsius, wet bulb = 27.5 degrees Celsius

Science and Technology Log

Camera Array being "dropped" into the ocean by a crane — Camera Array being lowered into the ocean by a crane

The depth of the ocean varies at each station but today the depth was somewhere around 68 meters (223.04 feet). The camera array has 4 sets of cameras pointing in each direction. Each set of cameras contains one video recorder and two still-shot cameras that take turns snapping pictures, sort of like closing your right eye, then your left eye, then your right eye, and so on. The purpose of the still-shots is to help the scientists, along with the use of lasers, to estimate the length of the fish in the images. The cameras stay submerged for 45 minutes and then they are hauled back up to the surface.

This data is transmitted directly to a computer graph where a technician watches and monitors to make sure the CTD is working properly and stays within 2 meters of the ocean floor.

The camera array and CTD are lowered at every station, but two stations are chosen randomly to drop a Chevron trap and two stations are chosen randomly to lower a Bandit Reel. The Chevron trap is baited with squid and physically picked up and thrown over the deck. The trap is fitted with weights on the bottom to make sure it lands in the right position on the ocean floor and soaks for one hour before being hauled back to the surface. During the first drop of the trap, we hauled in a giant Warsaw Grouper weighing over 16 kilograms (35.2 pounds)!

Mackeral bait for chevron trap — Mackerel bait for chevron trap

The Bandit Reel is like a long line sent straight down to the bottom of the ocean. It has 10 hooks that are baited with fresh mackerel and lowered to soak for 10 minutes.

Luck was on our side again as the first drop of the bandit reel hooked 9 Red Snapper! This was our first look at the fish that is the main subject of our Reef Fish Survey.

Personal Log

WHOOO HOOOOO! I’ve just done REAL NOAA science!!!!! Today we are dropping the CTD and the camera ray and then dropping the Bandit Reel line that has 10 hooks. The first Bandit Reel drop we caught 9 big red snapper. The largest one was 1.89 kilos (4.15 lbs).

This is the camera array – four cameras take footage of the fish down there.

The next time we dropped the line, they let ME take the snapper off the hook, weigh them, and then measure them. I measured the total length, the fork length, and the standard length. Then I bagged them all up and put them in the freezer to take back to the Pascagoula lab.

I also got to hold a sucker fish that accidently got caught on the line. Its sucker was on the top of the head. It looked like someone had stepped on his head and left tennis shoe marks! The sucker fish attaches itself to the bottom of a shark and rides along with him. We saw 2 sharks hovering around as we brought up the line which is baited with mackerel. The next time we deployed the Bandit Line they let me bait the hooks with mackerel and then put the hooks on the line. It was great! I love getting messy!

This is a sucker fish that attaches to shark.

This afternoon the crew got out their personal fishing poles and fished off the stern. The XO caught a shark but he didn’t bring it on board. It was impressive to me. Then we threw out the fish trap that was sunk to the bottom of the ocean. We caught a HUGE Warsaw grouper in the trap. One of the scientist said it was the largest grouper he’d ever seen – 16 kilos (35.2lbs). Its eyes were bulging and its mouth was huge! Teeth and all! Nicolle and I were left alone with it in the bay when it started flopping and flipping all over the place. We squealed like little girls!

So far we’ve had two “never seen before” experiences! This is GREAT!

New Term/Vocabulary

Camera array

CTD – conductivity, temperature, and depth

Bandit Reel

“Something to Think About”

Why do you think it’s important to take measurements and weights of the fish for NOAA research? What are they doing with all that research?

“Did You Know?”

Boyle’s Law at Sea

Did you know that when the fish are brought up from the deep (60-70 meters) the decrease in pressure causes the swim bladder to expand? That’s because the swim bladder is full of air and if you’ll remember Boyle’s Law, a decrease in pressure creates an increase in volume. Here you see a swim bladder that came out of the mouth.

June 17, 2010March 12, 2021

Nicolle von der Heyde, June 17, 2010

NOAA Teacher at Sea
Nicolle von der Heyde
Onboard NOAA Ship Pisces
June 14 – July 2, 2010

Nicolle von der Heyde
NOAA Ship Pisces
Mission: SEAMAP Reef Fish Survey
Geographical Area of Cruise: Gulf of Mexico
Dates: Thursday, June 17

Weather Data from the Bridge

Science and Technology Log

We reached our first research station 40 miles off the coast of Southern Texas sometime in the early morning. To maximize the use of daylight, the scientists begin collecting data one hour after sunrise (around 0730 hours) and work until one hour before sunset (around 1930 hours). At each station, a camera array is lifted and lowered by a crane into the water column, down to the ocean floor. The depth of the ocean varies at each station but today the depth was somewhere around 68 meters (about 224 feet). The camera array has 4 sets of cameras pointing in each direction. Each set of cameras contains one video recorder and two still-shot cameras that take turns snapping pictures, sort of like closing your right eye, then your left eye, then your right eye, and so on. The purpose of the still-shots is to help the scientists, along with the use of lasers, to estimate the length of the fish in the images. The cameras stay submerged for 45 minutes and then they are hauled back up to the surface.

The next thing that happens at each station is the lowering of a CTD (conductivity, temperature, and depth) into the water column. The CTD measures the changes in salinity (salt level), temperature, and dissolved oxygen as it passes through the water column. This data is transmitted directly to a computer graph where a technician watches and monitors to make sure the CTD is working properly and stays within 2 meters of the ocean floor.

The Bandit Reel is like a long line sent straight down to the bottom of the ocean. It has 10 hooks that are baited with fresh mackerel and lowered to soak for 10 minutes. Luck was on our side again as the first drop of the bandit reel hooked 9 Red Snapper! This was our first look at the fish that is the main subject of our Reef Fish Survey.

Personal Log:

Before venturing on this journey out to sea, I wasn’t sure if I would experience the dreaded sea-sickness caused by the constant motion of the ship rolling back and forth in the waves. Even the most seasoned of seafarers can suffer from this ailment caused by imbalances sensed by the inner ear bones. Ensign Schill, who has suffered from sea-sickness on past cruises, recommended that I be safe rather than sorry. I took medicine to prevent sea-sickness the first two days and decided to skip it on the third day. The rolling of the ship increased on the third day but as of now, I haven’t experienced anything unpleasant from the motion. In fact, I find it soothing and have slept well since being at sea. I hope this lasts for the rest of the trip!

Thursday morning I woke up early to make sure I wouldn’t miss anything on the first day of the survey. Immediately upon stepping out on the deck, one of the deckhands handed me a hard hat and a life vest. This is necessary anytime the crane is in operatioRaising and lowering the equipment can be dangerous with ropes and cables that quickly unravel and follow the cameras as they sink into the water. I tried to stay out of the way as the deckhands, scientists, and officers on the bridge coordinated to place the instruments in just the right location. Things moved a little slowly at first but after a few drops everyone seemed to get into a rhythm and the pace picked up.

Certainly the most exciting time of the day is setting out the trap or lowering the Bandit Reel. Everyone waits in anticipation to see what rises from the depths of the ocean. When the first trap came up I couldn’t believe my eyes at the size of what was inside! I thought it was a shark at first. The opening to the trap is not very big and I could not believe a fish that large was able to swim inside. It was quite a struggle to get the giant Grouper out of the trap and into the wet lab to weigh and measure. It was even more of a sight to see the fish flip flop itself completely on its side while on the lab table. This was one of the biggest fish I have ever seen – outside of the water that is. It was also exciting to see our first Bandit Reel haul in 9 Red Snappers. Some of them had their air bladders popping out of their mouths because of the drastic pressure change from the ocean floor – a sight I had to quickly get used to as we worked to take weight and length measurements of all the fish we caught.

Animals Seen Today:

Red Snapper (Lutjanus campechanus)

Warsaw Grouper (Epinephelus nigritis)

Sharksucker (Echeneis naucrates): Caught on Bandit Reel before it sank into the depths. It was released – after Melinda had a chance to kiss it goodbye. The picture on the right is of the top of its head.