Melinda Storey

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

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.

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.

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 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 15, 2010March 12, 2021

Melinda Storey, June 15, 2010 part2

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 15, 2010

Weather Data from the Bridge

Date: 6/15/2010
Time: 1000 hours
Position: Latitude: 27.38.1 N Longitude: 088.18.9 W
Present Weather: cloudy
Visibility: 10 nautical miles
Wind Direction: SSW
Water Temperature: 30.4 degrees Celsius
Air Temperature: 29.5 degrees Celsius
Ship’s Speed: 12.2 knots

Science and Technology Log

Today at around 1000 hours (10:00 am) our CO sighted a dead Sperm Whale from the bridge. Our scientists say it is extremely rare to see a floating sperm whale. In fact, a whale expert who communicated with one of our scientists said he has only seen one in 25 years of studying them! The Gulf of Mexico is a habitat of Sperm Whales. Females stay here year round and birth their young in these waters while male Sperm Whales travel to many different locations, some as far as the Antarctic Ocean. Sperm Whales are the deepest diving whales. Although they live at the surface, they dive to hunt Giant Squid that are bottom dwellers. They have been known to dive as deeply as 10,500 feet (3,200 meters) but average dives are about 4000 feet (1,200 meters) deep. The Sperm Whale can hold its breath for about an hour!

storey_log2-3 — Here you see a close up of the teeth of the whale and some of the small fish swimming around it.

As you can see, the whale was covered in some black substance. Our scientists are not experts on marine mammals; however they spoke with Dr. Keith Mullin, the Southeastern Fisheries Science Center Marine Mammals Program manager, who stated that this is typical for the skins of dead whales to blister, char, and fall off. Upon seeing photos of the whale, the experts stated that it appeared to have died of natural causes; however we were asked to take samples from the whale to eliminate the possibility of oil as the cause of death. The ship positioned itself next to the dead whale and scientists swabbed the carcass in order to test for oil toxins and took tissue samples for DNA. NOAA catalogues mammal DNA to record species information and migration of different animals.

As we watched the whale float next to the ship, a 12 foot Tiger shark approached. It was obvious that sharks had been feasting on the whale because we could see definite bite marks along the side.

The Tiger Shark (Galeocerdo cuvier) is a fierce predator that has tiger-like markings and can grow to be over 14 feet (4.2 meters) long. It eats just about anything: fish, turtles, crabs, clams, mammals, seabirds, reptiles, other sharks, and just about anything else they can catch. It apparently likes to eat dead whales too! The Tiger Shark is one lean, mean eating machine. Each of its teeth is shaped like those found on a circular saw with a flat and curved hook at the end. A power saw might not even equal this shark’s power since it can cut through turtle shells with a single bite.

The shark circled the whale carcass and suddenly attacked, twisting back and forth in typical shark style. A bit later, the shark came along side the whale, bobbed up and down and took several chomping bites. Everyone was amazed at what we were witnessing!

Personal Log

As I watched the stunning display before me, I felt like I was a National Geographic videographer! I’ve had some interesting experiences in my lifetime, but this has got to be up at the top of the list! The thrashing and bloody water was unbelievable and watching the bobbing motion of the shark eating the side of the whale was like nothing I’ve ever seen – even on TV! And the SMELL! UGH! Ensign Schill fitted us with respirators so we could go out on deck and not gag.

I’ve also seen thousands of flying fish that actually do fly! They are tiny silver fish whose bodies are streamlined in a torpedo shape that helps them gather enough underwater speed to break the surface and take to the air. Flying fish are thought to have evolved this ability to escape predators.

“Something to Think About”

If this whale did die because of the oil, will we see more dead fish and mammals? How is the oil affecting birds, fish, and mammals along the coast? What will the long term affect be for the Coast?

“Did You Know?”

The tiger shark is one lean, mean, eating machine. Each of its teeth is shaped like those found on a circular saw, with a flat and curved hook at the end. A power saw might not even equal this shark’s power, since it can cut through turtle shells with a single bite.

June 15, 2010March 12, 2021

Melinda Storey, June 15, 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 15, 2010

Weather Data from the Bridge

Time: 2000 hours (8 pm)
Position: latitude = 29.46.02 N, longitude = 088.08.4 W
Present Weather: some cumulus clouds
Visibility: 9 nautical miles
Wind Direction: Variable Wind Speed: Light
Wave Height: 0 feet
Sea Water Temp: 32.6 degrees Celsius
Air Temperature: Dry Bulb = 31 Celsius, Wet Bulb = 30.8 Celsius

Science and Technology Log

This portion of the log will be written by me and my fellow Teacher at Sea, Nicolle von der Heyde from St. Louis, MO. Since we will be cruising for a couple of days to reach our first destination off the coast of southern Texas, we thought we would briefly describe our mission on board Pisces and our first observations of oil in the Gulf of Mexico. We are participating in the first leg of the SEAMAP (Southeast Area Monitoring and Assessment Program) Reef Fish Survey along the continental shelf from Brownsville, TX north to the Flower Garden Banks National Marine Sanctuary. The Chief Scientist on this mission is Paul Felts. Our task will involve sending video cameras down into the water column and onto the ocean floor to record the abundance and relative size of reef fish associated with various geographical features. The video cameras will be submerged for about 45 minutes at a time, starting one hour after sunrise and continuing until one hour before sunset. If conditions are good, Mr. Felts believes we can submerge the cameras about 7-8 times a day. We will view some of the recorded data on the ship to make sure the equipment is working properly, however the analysis will take place back in the laboratory in Pascagoula, MS.

The Pisces left the port of Pascagoula at around 1130 hours (military time, aka 11:30 am) but did not leave the bay until about 1730 hours (5:30 pm).

Nicolle von der Heyde and Melinda Storey standing in front of the docked Pisces

During this time, the ship was cruising back and forth in the bay as engineers conducted tests of the acoustics on the ship. The Pisces, just commissioned in November of 2009, is the quietest vessel in the NOAA fleet and has some of the latest technology on board. Making a ship quiet may not seem like a big deal, but when you are trying to research marine life in an undisturbed natural environment, silent observation is everything. When the engineers finished their testing, a small boat arrived to take 4 of the engineers back to shore. Three other engineers and one intern remained on board to join us on our voyage.

The signs of oil extraction in the Gulf were apparent the moment we boarded the Pisces in Pascagoula. Across the channel from our ship were two old oil rigs no longer in service, one damaged from Hurricane Katrina and destined to be returned to the bottom of the sea to be made into an artificial reef. This is often done with old military battleships as well as they are sunk to the ocean floor and fish begin to use the vessels as a habitat and to hide from predators. Oil booms were placed around the Pisces and other ships in the channel for protection in case oil made its way into the port.

As we headed out to sea, we were surprised at the great number of ships and oil rigs that dotted the horizon. We saw lots of huge tankers that were just anchored, waiting in line to off load their oil into the Chevron refinery. One of the crew told us there are around 43,000 oil wells in the Gulf. Some wells just have pipes attached and pump oil directly through pipes into the refinery. Some wells have rigs that drill deep into the ocean floor. The Deepwater Horizon that exploded in the Gulf was this type of rig. We also saw one rig that had a flame coming out at the very top of the rig. This was the burning off of natural gas. Our Commanding Officer told us that they “burn off” natural gas for two reasons – safety and economics. All rigs let off a certain amount of excess gas and it’s more economical to burn it off rather than pipe it all the way back to the mainland. Also, burning off the excess gas keeps it from building up pressure, which is very dangerous.

It wasn’t until a few hours after leaving the bay that the officers on the bridge notified us that we were traveling through the oil slick. As we looked over the deck of the bridge, we saw a rainbow of sheen on the surface and even some reddish “emulsified” oil. On the map on the next page, you can see the ship’s route (labeled PC in red) as we passed through the oil slick shown in blue.

Personal Log

We are finally on our way! This is a picture of the other Teacher at Sea and myself in front of our ship, the Pisces.

Nicolle von der Heyde, from St. Louis, MO, teaches 8th grade science. I am from Birmingham, AL, and teach Gifted students in grades 3-6. I’m so glad to have another teacher to talk to! We are so excited thinking about all the science experiments and lessons that we can bring back to our students. Our minds are just whirling! I was surprised when ENS Schill said we each had our own staterooms.

I later found out that some of the scientists scheduled to be on this cruise had been reassigned to other missions related to the oil spill in the Gulf. In addition, some of the tasks in our original mission, like longlining (fishing) for sharks and rays, had also been cancelled due to the oil. At first, I was somewhat disappointed that we would not be capturing sharks or hauling in large amounts of fish to sample, then I snapped out of it as soon as I reminded myself that I was about to set sail on the trip of a lifetime on board a research vessel with NOAA!

Yesterday was our first day on ship and right off the bat as we left port, we saw about 20 dolphins riding the bow wave. It was so much fun watching them arc in the water and splash around! Some even swam upside down and sideways! The babies, or calves, stuck real close to their moms! As we peered over the side of the ship we could actually see into their blow holes! What a view!

I was also very pleased to see that there are two women who are Junior Officers – Ensign Kelly Schill and Ensign Laura Gibson. Here you can see Ensign Schill as she prepares our navigation. She is also the Medical Officer. There are three female Commanding Officers in the NOAA fleet. Maybe one of our Ensigns will become a CO one day.

Ensign Schill preparing the navigation of the Pisces

Here you see our CO (Commanding Officer), Jeremy Adams, as he sits in his Captain’s Chair scanning the horizon. He’s the one who spotted the dolphins which sent the crew rushing to the bow of the ship. The officers, who wear blue uniforms, have been so gracious and patient as they explain things to us.

Right now I’m sitting in the bow of the ship as I watch a bird “catching a ride” on the top of a weather pole. It’s interesting to see birds such as terns and pelicans so far from shore. The XO (Executive Officer) says we are 90 miles from shore.

Today we had a Fire drill and a Man Overboard drill – just like in school. The scientists “mustered” (or gathered) in the conference room where our Chief Scientist had to take a head count just like teachers do during our drills. We’ll have an Abandon Ship drill next week. I thought you would like to see the orange Fast Rescue Boat that we would use if we had to abandon ship.

My husband and I went to Gulf Shores right before this trip and saw the oil that had washed ashore. I was expecting “globs” of oil like we’d seen on TV but what we saw was very liquid – oil pooled in puddles. It looked like someone had splattered buckets of motor oil on the beach. There were lots and lots of volunteers cleaning the beach but not too many people on vacations. We saw lots of homes and condos with few cars in the parking lots.

The economic hit that businesses are taking on the Gulf Coast is terrible. Our XO told us that NOAA is hiring boat owners to drive through the densest part of the oil to get data. The smaller boat owners have “closed” boats which means they do not take in sea water for everyday usage like the big NOAA ships. They take their water with them in containers. If the NOAA ships go through heavy oil, the oil could get sucked up and lodged in their water filters and do damage to the equipment. Maybe this way some of the small charter boat owners can recoup some of the money they are losing since no one is chartering boats to go deep sea fishing.

New Term/Vocabulary

Bow – front part of the ship
Stern – back part of the ship
Port – left
Starboard – right
Bow wave – the waves at the front of the ship as it travels through the water
Muster – to gather in one place

“Something to think about”

What qualities would you look for in a Commanding Officer? Do you think a woman will ever become an Admiral in the NOAA fleet?

“Did You Know?”

You can track the Pisces on the Internet at the following site: http://shiptracker.noaa.gov

Just select the ship you want to follow and it will give you our position. Click the last map option to see a map of the oil slick and our path through it.