Shark/Red Snapper Longline Survey – Page 3

September 28, 2018

Anne Krauss: The Reel Whirl’d, September 15, 2018

NOAA Teacher at Sea

Anne Krauss

Aboard NOAA Ship Oregon II

August 12 – 25, 2018

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Western North Atlantic Ocean/Gulf of Mexico

Date: August 26, 2018

Weather Data from the Air

Conditions at 0634

Altitude: 9585 meters

Outside Temperature: -38 ℃

Distance to Destination: 362 km

Tail Wind: 0 km/h

Ground Speed: 837 km/h

(While NOAA Ship Oregon II has many capabilities, flight isn’t one of them. These were the conditions on my flight home.)

Science and Technology Log

The idea of placing an elementary school teacher on a Shark/Red Snapper Longline Survey seems like a reality show premise, and I couldn’t believe that it was my surreal reality. Several times a day, I took a moment to appreciate my surroundings and the amazing opportunity to get so close to my favorite creatures: sharks!

Anyone who knows me is aware of my obsession with sharks. Seeing several sharks up close was a hallowed, reverential experience. Reading about sharks, studying them through coursework, and seeing them on TV or in an aquarium is one thing. Being only a few feet away from a large tiger shark (Galeocerdo cuvier) or a great hammerhead (Sphyrna mokarran) is quite another. Seeing the sharks briefly out of the water provided a quick glimpse of their sinewy, efficient design…truly a natural work of art. Regardless of size, shape, or species, the sharks were powerful, feisty, and awe-inspiring. The diversity in design is what makes sharks so fascinating!

A tiger shark at the surface. — Even just a quick peek of this tiger shark (*Galeocerdo cuvier*) reveals her strong muscles and powerful, flexible design.

A large tiger shark lies on a support framework made from reinforced netting. The shark and the structure are being lifted out of the water. — This female tiger shark was large enough to require the shark cradle. The reinforced netting on the cradle provided support for the 10.5 foot shark.

The snout and eye of a sandbar shark being secured on a netted shark cradle. — The shape of this sandbar shark’s (*Carcharhinus plumbeus*) head and eye is quite different from the tiger shark’s distinct design.

A great hammerhead's cephalofoil. — Even in the dark, the shape of the great hammerhead’s (*Sphyrna mokarran*) cephalofoil is unmistakable.

I envied the remora, or sharksucker, that was attached to one of the sharks we caught. Imagine being able to observe what the shark had been doing, prior to encountering the bait on our longline fishing gear. What did the shark and its passenger think of their strange encounter with us? Where would the shark swim off to once it was released back into the water? If only sharks could talk. I had many questions about how the tagging process impacts sharks. As we started catching and tagging sharks, I couldn’t help but think of a twist on the opening of MTV’s The Real World: “…To find out what happens…when sharks stop being polite…and start getting reeled.”

Sadly for my curiosity, sharks have yet to acquire the ability to communicate verbally, despite their many advantageous adaptations over millions of years. To catch a glimpse of their actions in their watery world, scientists sometimes attach cameras to their fins or enlist the help of autonomous underwater vehicles (AUVs) to learn more. The secret lives of sharks… reality TV at its finest.

Underwater camera footage is beginning to reveal the answers to many of the questions my Kindergarten-5th grade students have about sharks:

How deep can sharks swim?

How big can sharks get? How old can sharks get?

Do sharks sleep? Do sharks stop swimming when they sleep? Can sharks ever stop swimming?

Do sharks have friends? Do sharks hunt cooperatively or alone?

Is the megalodon (Carcharocles megalodon) still swimming around down there? (This is a very common question among kids!)

The answers vary by species, but an individual shark can reveal quite a bit of information about shark biology and behavior. Tagging sharks can provide insight about migratory patterns and population distribution. This information can help us to better understand, manage, and protect shark populations.

Various tools are spread out and used to weigh (scale), collect samples (scissors and vials), remove hooks (pliers, plus other instruments not pictured), apply tags (leather punch, piercing implement, and tags), and record data (clipboard and data sheet). — These tools are used to weigh (scales on bottom right), collect samples (scissors and vials), remove hooks (pliers, plus other instruments not pictured), apply tags (leather punch, piercing implement, and tags), and record data (clipboard and data sheet).

Using several low-tech methods, a great deal of information could be gleaned from our very brief encounters with the sharks we caught and released. In a very short amount of time, the following information was collected and recorded:

• hook number (which of the 100 longline circle hooks the shark was caught on)
• genus and species name (we recorded scientific and common names)
• four measurements on various points of the shark’s body (sometimes lasers were used on the larger sharks)
• weight (if it was possible to weigh the shark: this was harder to do with the larger, heavier sharks)
• whether the shark was male or female, noting observations about its maturity (if male)
• fin clip samples (for genetic information)
• photographs of the shark (we also filmed the process with a GoPro camera that was mounted to a scientist’s hardhat)
• applying a tag on or near the shark’s first dorsal fin; the tag number was carefully recorded on the data sheet
• additional comments about the shark

Finally, the hook was removed from the shark’s mouth, and the shark was released back into the water (we watched carefully to make sure it swam off successfully)!

A metal tag is marked with the number eight. This is one of 100 used in longline fishing. — Longline fishing uses 100 numbered hooks. When a fish is caught, it’s important to record the hook number it was caught on.

Two kinds of shark tags: plastic swivel tags used for smaller sharks and dart tags used for larger sharks. — Depending on the shark’s size, we either attached a swivel tag (on left and middle, sometimes called a Rototag or fin tag; used for smaller sharks) or a dart tag (on right, sometimes called an “M” tag; used for larger sharks).

For more information on shark tagging: https://www.nefsc.noaa.gov/nefsc/Narragansett/sharks/tagging.html

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Other fish were retained for scientific samples. Yellowedge grouper (Epinephelus flavolimbatus), blueline tilefish (Caulolatilus microps), and red snapper (Lutjanus campechanus) were some of species we caught and sampled. Specific samples from specific species were requested from various organizations. Generally, we collected five different samples:

• fin clips: provide genetic information
• liver: provides information about the health of the fish, such as the presence of toxins
• muscle tissue: can also provide information about the health of the fish
• gonads: provide information about reproduction
• otoliths: These bony structures are found in the inner ear. Similar to tree rings, counting the annual growth rings on the otoliths can help scientists estimate the age of the fish.

A yellowedge grouper on a table surrounded by sampling equipment. — Samples were taken from this yellowedge grouper (*Epinephelus flavolimbatus*).

Samples were preserved and stored in vials, jars, and plastic sample bags, including a Whirl-Pak. These bags and containers were carefully numbered and labeled, corresponding with the information on the data sheets. Other information was noted about the fish, including maturity and stomach contents. Sometimes, photos were taken to further document the fish.

An empty plastic bag used for storing samples. — This Whirl-Pak sample bag will be used to store samples from a bony fish. To close it, the yellow tabs are held tight and the bag is whirled around until it closes.

A fish tissue sample inside a plastic bag. — A tissue sample containing muscle from a fish was placed inside the Whirl-Pak and frozen. Later, it will be studied at a lab.

Personal Log

Thinking of the Oregon II as my floating classroom, I looked for analogous activities that mirrored my elementary students’ school day. Many key parts of the elementary school day could be found on board.

A 24-hour analog clock. — Sometimes, my students struggle to tell the time with analog clocks. The ship uses military time, so this 24-hour clock would probably cause some perplexed looks at first! We usually ate dinner between 1700-1800.

Weights, an exercise bike, resistance bands, and yoga mats. — Physical Education: Fitness equipment could be found in three locations on the ship.

A dinner plate filled with cooked vegetables. — Health: To stay energized for the twelve-hour shifts, it was important to get enough sleep, make healthy food choices, and stay hydrated. With lots of exercise, fresh air, and plenty of water, protein, and vegetables, I felt amazing. To sample some local flavors, I tried a different hot sauce or Southern-style seasoning at every meal.

A metal first aid cabinet. — There wasn’t a nurse’s office, but first aid and trained medical personnel were available if needed.

A can of white paint, a paintbrush, painting tape, a paint roller, and tray. — Some fresh paint for the ship.

Painted stripes in various shades of blue. — Fresh NOAA blue stripes echoed the sky and surrounding water.

A metal plaque describing the design and shipbuilding history of the Oregon II. — Art and music: While I was there, the ship received a fresh coat of paint. Many people on board enjoyed creative pursuits in their free time. We listened to and talked about music while deploying the longline gear.

With my young readers and writers in mind, I applied my literacy lens to many of the ship’s activities. Literacy was the thread that ran through many of our daily tasks, and literacy was the cornerstone of every career on board. Several ship personnel described the written exams they’d taken to advance in their chosen careers. Reading and writing were used in everything from the recipes and daily menu prepared by Second Cook Arlene Beahm and Chief Steward Valerie McCaskill in the galley to the navigation logs maintained by Ensign Chelsea Parrish on the ship’s bridge.

A clipboard shows the daily menu for breakfast, lunch, and dinner. — The menu changed every day. You could also make your own salad, sandwiches, and snacks. If you had to work through mealtime, you could ‘save-a-meal,’ and write down your food choices to eat later. This was kind of like indicating your lunch choice at school. Instead of a cafeteria, food was prepared and cooked in the ship’s galley.

Shelves of books in the ship's library. — Library: The ship had a small library on board. To pass the time, many people enjoyed reading. (And for my students who live vicariously through YouTube: that sign at the bottom does say, ‘No YouTube’! Computers were available in the lab, but streaming wasn’t allowed.)

I often start the school year off with some lessons on reading and following directions. In the school setting, this is done to establish routines and expectations, as well as independence. On the ship, reading and following directions was essential for safety! Throughout the Oregon II, I encountered lots of printed information and many safety signs. Some of the signs included pictures, but many of them did not. This made me think of my readers who rely on pictures for comprehension. Some important safety information was shared verbally during our training and safety drills, but some of it could only be accessed through reading.

A collage of safety-related signs on the ship. Some have pictures, while others do not. — Without a visual aid, the reader must rely on the printed words. In this environment, skipping words, misreading words, or misunderstanding the meaning of the text could result in unsafe conditions.

A watertight door with a handle pointing to 'open'. — On a watertight door, for example, overlooking the opposite meanings of ‘open’ and ‘closed’ could have very serious consequences.

A watertight door with a handle pointing to 'closed'. — Not being able to read the sign or the words ‘open’ and ‘closed’ could result in a scary situation.

Did You Know?

Thomas Jefferson collected fossils and owned a megalodon tooth. The Carcharocles megalodon tooth was found in South Carolina. One of the reasons why Jefferson supported expeditions to lands west of the Mississippi? He believed that a herd of mammoths might still be roaming there. Jefferson didn’t believe that animal species could go extinct, so he probably liked the idea that the megalodon was still swimming around somewhere! (There’s no scientific evidence to support the idea that either Thomas Jefferson or the megalodon are still around.)

Recommended Reading

If Sharks Disappeared written and illustrated by Lily Williams

This picture book acknowledges the scariness of sharks, but explains that a world without sharks would be even scarier. Shown through the eyes of a curious young girl and her family, the book highlights the important role that sharks play in the ocean food web. As apex predators, sharks help to keep the ocean healthy and balanced.

The book includes some mind-blowing facts, such as the concept that sharks existed on Earth before trees. Through easy-to-follow examples of cause and effect, the author and illustrator explores complex, sophisticated concepts such as overfishing, extinction, and trophic cascade. The glossary includes well-selected words that are important to know and understand about the environment. Additional information is provided about shark finning and ways to help save sharks. An author’s note, bibliography, and additional sources are also included.

The cover of a children's book about the important role that sharks fill in the ocean food web. — *If Sharks Disappeared* written and illustrated by Lily Williams; Published by Roaring Brook Press, New York, 2017

September 24, 2018

Kristin Hennessy-McDonald: Flotsam and Jetsam, September 23, 2018

NOAA Teacher at Sea

Kristin Hennessy-McDonald

Aboard NOAA Ship Oregon II

September 15 – 30, 2018

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: September 23, 2018

Weather Data from the Bridge

Latitude: 3006.07N

Longitude: 08741.32W

Sea Wave Height: 1m

Wind Speed: 8.64 knots

Wind Direction: 199.7

Visibility: 7 nautical miles

Air Temperature: 27.6

Sky: 95% cloud cover

Science and Technology Log

Over the past few days, we’ve fished a mix of station depths, so I’ve gotten to see a number of new species as we’ve moved out into deeper waters.

At a C station, which is a station at depths between 183 and 366 meters, we caught a Mako Shark (Isurus oxyrinchus). This catch was so unexpected that a number of crew members ventured out to the well deck to snap a picture. She was a beautiful juvenile between 1-2 years old.

Kristin and Mako Shark — Our current NOAA Teacher at Sea, Kristin Hennessy-McDonald is all smiles when grabbing this quick picture before releasing the female Mako shark. [Photo Credit: Ensign Chelsea Parrish, NOAA]

juvenile female mako shark — Juvenile Female Mako Shark

I also saw my first kingsnake eel, a long eel with a set of very sharp teeth. On a later station, we caught a juvenile that we were able to bring on deck and examine. We also caught a Warsaw grouper (Hyporthodus nigritus), which had parasites on its gills and in its fins. Gregg Lawrence, a member of the night shift on loan from Texas Parks and Wildlife Coastal Fisheries unit, and I removed the otoliths and took samples of the parasites.

Measuring the Warsaw Grouper [Photo Credit: Gregg Lawrence]

We had one catch that brought in 20 Red Snappers. Red Snappers are brought on deck, and a number of samples are taken from each one of them for ongoing assessment of the Red Snapper population. In addition to the otoliths, which allow the scientists to determine the age of the fish, we also take samples of the gonads, the muscle, the fins, and the stomach. These allow the scientists to perform reproductive and genetic tests and determine what the snappers ate. While 4 members of the science team onboard collected samples, Caroline Collatos, the volunteer on the day shift, and I insured that the samples were properly packaged and tagged. Everyone working together allowed the process to run smoothly.

On the latest B station, which was about 110 meters deep, we caught a number of species, some of which I had not gotten to see yet. In addition to Gulf smoothound sharks (Mustelus sinusmexicanus), we caught a Scalloped hammerhead shark (Sphyrna lewini) and a Sandbar shark (Carcharhinus plumbeus) that we had to cradle due to their size. The Sandbar shark was a bit feisty, but I got the chance to tag her before we released her.

Gulf smoothound shark (Mustelus sinusmexicanus)

Scalloped hammerhead shark (Sphyrna lewini)

We work in the rain. Thankfully, they had some extra rain gear for me to put on, so that I would not get drenched while we were setting the line. For the most part, the rainstorms have been sprinkles, but we did have one downpour while we were going toward a station.

Personal Log

Between setting lines, I have been busy checking up on my studenats’ work back in Memphis. One of the great things about having a one-to-one school is that the students are able to do their work on Microsoft Teams and turn it in for me to grade it thousands of miles away. I have loved seeing their how they are doing, and answering questions while they are working, because I know that they are learning about the cell cycle while I am out at sea learning about sharks.

One of the things that has really surprised me over the past week is how much my hands hurt. It was unexpected, but it makes sense, given how much of the work requires good grip strength. From insuring that the sharks are handled properly to clipping numbers on the gangions to removing circle hooks from fish on the lines, much of the work on the science team requires much more thumb strength than I had thought about. I know my students have commented that their hands hurt after taking notes in my class, so I thought they would get a kick out of the fact that the work on the ship has made my hands hurt.

Did You Know?

Sharks are able to sense electrical fields generated by their prey through a network of sensory organs known as ampullae of Lorenzini. These special pores are filled with a conductive jelly composed primarily of proteins, which send the signals to nerve fibers at the base of the pore.

Quote of the Day

Remove the predators, and the whole ecosystem begins to crash like a house of cards. As the sharks disappear, the predator prey balance dramatically shifts, and the health of our oceans declines.

~Brian Skerry

Question of the Day

How many bones do sharks have in their bodies?

September 19, 2018

Kristin Hennessy-McDonald: Engineer for a Day, September 18, 2018

NOAA Teacher at Sea

Kristin Hennessy-McDonald

Aboard NOAA Ship Oregon II

September 15 – 30, 2018

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: September 18, 2018

Weather Data from the Bridge

Latitude: 2901.62N

Longitude: 0932.87W

Sea Wave Height: 0m

Wind Speed: 6.63 knots

Wind Direction: 203֯

Visibility: 10 nautical miles

Air Temperature: 32.4

Sky: 0% cloud cover

Science and Technology Log

My first day onboard was spent following around 2^nd Engineer Will Osborn. Will is an officer in the Merchant Marines, and a NOAA Augmentation Pool Engineer assigned to the Oregon II. He invited me to follow him around and learn how the engineers prepare the ship for sea. One of the duties of the engineers is to check the liquid levels of each of the tanks prior to sailing. They do this by performing soundings, where they use a weighted measuring tape and a conversion chart to determine the number of gallons in each of the tanks.

2nd Engineer Will Osborne performing a sounding on deck

Performing a sounding on the dirty oil tank

The engineering team then prepared the ship to sail by disconnecting shore power and turning on the engines aboard ship. I got to flip the switch that disconnects the ship from shore power. I followed the engineering team as they disconnected the very large cable that the ship uses to draw power from shore. I then got to follow 2^nd Engineer Will as he turned on the engines aboard ship.

Kristin Hennessy-McDonald turning off the shore power in the engine room

Once we set sail, the science team met and discussed how longline surveys would work. I am on the day shift, which is from noon to midnight. We got the rest of the day, after onboard training and group meetings, to get used to our new sleep schedule. Because I was on the day shift, I stayed up and got to watch an amazing sunset over the Gulf.

Gulf Sunset

Gulf Sunset

Our second day out, we set our first two longlines. The first one was set before shift change, so the night shift crew bated the hooks and set the line. My shift brought the line in, and mostly got back unbaited hooks. We got a few small Atlantic Sharpnose (Rhizoprionodon terraenovae) sharks on the line, and used those to go over internal and external features that differentiated the various species we might find.

After the lines were in, it was time for safety drills. These included the abandon ship drill, which required us to put on a submersion suit, which is affectionately referred to as a Gumby suit. You can see why below. It was as hard to get into as it looks, but it will keep you warm and afloat if you end up in the water after you abandon ship.

Kristin Hennessy-McDonald in the Gumby Suit

Personal Log

I have learned a few rules of the boat on my first days at sea. First, always watch your head. The stairwells sometimes have short spaces, and you have to make sure not to hit them on your way up. Second, always keep a hand free for the boat. It is imperative at sea that you always have a hand free, in case the boat rocks and you need to catch yourself. Third, mealtimes are sacred. There are 31 people aboard the boat, with seating for 12 in the galley. In order for everyone to get a chance to sit down and eat, you can’t socialize in the galley.

Did You Know?

In order for the crew to have freshwater to drink, the Oregon II uses a reverse osmosis machine. They create 1000-1200 gallons of drinkable water per day, running the ocean water through the reverse osmosis generator at a pressure of 950 psi.

Quote of the Day

And when there are enough outsiders together in one place, a mystic osmosis takes place and you’re inside.

~Stephen King

Question of the Day

How do sharks hear in the water?

September 17, 2018

Kristin Hennessy-McDonald: Something Incredible, September 16, 2018

NOAA Teacher at Sea

Kristin Hennessy-McDonald

Aboard NOAA Ship Oregon II

September 15 – 30, 2018

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: September 16, 2018

Personal Introduction

Greetings to those following my adventure from afar. My name is Kristin Hennessy-McDonald, but my students and fellow faculty call me Dr. Hen-Mc. I am so excited to have been selected to be a member of the NOAA Teacher at Sea Program aboard the Oregon II. I am the science lead at T-STEM Academy at East High School, where I teach Honors Biology. My path to the classroom was far from straight. I attended the University of Notre Dame, where I earned a B.S. in Biology. I then continued my academic path at the University of Alabama, Birmingham, where I earned my PhD in Cell Physiology. After spending a little less than 3 years at St. Jude Children’s Research Hospital, I had an epiphany. I found that I enjoyed sharing my passion about science more than doing research at the bench. I made the decision to transition to the classroom and have not looked back. 8 years later, I have found my home at T-STEM, and my family in Team East.

The journey to boarding the Oregon II has been a long one, but well worth it. When my boss brought the opportunity to me, I applied with hope. When I got the acceptance letter, I gasped and started jumping up and down in my classroom. My students were confused, but then excited when they found out that I had gotten this opportunity. I teach many of the same students who were in that class, and they have all been sharing in my excitement over the past months as I have prepared for this adventure.

My first view of the Oregon II

Boarding the NOAA Ship Oregon II

I have always been fascinated by water. From the time I was a small child, my parents would have to watch carefully when we went to the pool or the beach, because I was liable to jump right in. As I grew up, that love of water has remained, and I spend time each summer on the Gulf. I am thrilled to have a chance to study ecosystem of the Gulf of Mexico, and see things that I only read about in National Geographic magazine.

Mark and Kristin Gulf — Me and my husband in Gulfport, MS

I have passed my love of water on to my daughter. Beth is the same way I was when I was young. She wants to run into the water, to play in the waves. She sees the beauty of the sea, watching dolphins alongside the boat when we take trips to Ship Island out of Gulfport, MS. I look forward to sharing my adventures at sea with her. I am sad to leave her and my husband for two weeks, but grateful that they waved me off on my adventures with a smile.

Beth Gulf — Beth at Ship Island building a sandcastle

I began my career as a teacher because I wanted to share my love of science with young people. I dreamed of someday being a child’s gateway to the wonders and knowledge of science. While none of my students have stood on a desk reciting Whitman, some of my students have allowed my love of science to guide them along science career paths. When I joined Team East at T-STEM Academy at East High School, I knew that I was in a place that would foster the idea of learning by doing. I wanted to exemplify that going on this trip. I cannot wait to bring all of the knowledge and experiences of this trip back to my classroom. Instead of just sharing case studies of Gulf Coast ecosystems, I will be able to share what I learned as a NOAA Teacher at Sea.

Personal Quote of the day

“Somewhere, something incredible is waiting to be known.”
~Carl Sagan

Did You Know?

Red Snappers are considered to be one of the top predators in the Gulf of Mexico?

Question of the day

Given that red snapper hatch at 0.0625 inches long, and can reach sizes of 16 inches within two years, do you think their cells have a long or short G1 phase?

September 12, 2018

Ashley Cosme: Otoliths, Ice Cream, and Annabelle – September 9, 2018

NOAA Teacher at Sea

Ashley Cosme

Aboard NOAA Ship Oregon II

August 31 – September 14, 2018

Mission: Shark/Red Snapper Longline Survey

Geographic Area of Cruise: Gulf of Mexico

Date: September 9, 2018

Weather data from the Bridge:

Latitude: 28 08.58N
Longitude: 92 24.27W
Wind speed: 8.66 Knots
Wind direction: 143 (from Southeast)
Sky cover: Scattered
Visibility: 10 miles
Barometric pressure: 1011.96 atm
Sea wave height: 0-0.5 feet
Sea Water Temp: 30.4°C
Dry Bulb: 28.7°C
Wet Bulb: 25.4°C

Science and Technology Log:

In addition to collecting data on the many species of sharks in the Gulf of Mexico, this survey also collects data that will go towards assessing the population of red snapper (Lutjanus campechanus). One piece of evidence that is collected from the red snapper is their two distinct otoliths. Otoliths are structures that are used for balance and orientation in bony fish. One fascinating characteristic of the otolith is that they contain natural growth rings that researchers can count in order to determine the age of the fish. This information is important for stock assessment of the red snapper in the Gulf of Mexico.

Otoliths from a red snapper (Lutjanus campechanus)

Personal Log:

I would have to say that the hardest part about being out at sea is not being able to see Coral and Kai. I miss them so much and think about them nonstop. Coral is at a very curious stage in her life (I hope the curiosity stays with her forever) and I cannot wait to get home and tell her about all the animals that I have been lucky enough to witness on this adventure. Kai is just the sweetest little boy and I can only imagine the way he will react when I get home.

I am very busy on the boat and when there is down time my team and I are getting shark lessons from the incredibly intelligent Chief NOAA Scientist, Kristin Hannan, or we are in the movie room catching up on all the Annabelle movies. It is almost impossible to get scared while aboard a ship. It may seem that many things could go wrong, but the lights are always on and someone is always awake. It is the perfect environment to watch any horror film because this atmosphere makes it much less scary.

Probably the scariest thing that is happening on this boat is the amount of weight I have gained. All of the meals are delicious and they come with dessert. It is kind of nice to not have to worry about going to the gym or staying on a normal routine. Life is always so hectic day to day when I am at home, but being out here on the water gives me time to relax and reflect on the amazing people I have in my life that made this opportunity possible.

I am sad to report that the Chicago Bears lost tonight to Greenbay, but I did show support for my team! I think the best part of the day was when I was on the bow of the boat and Kristin announced over the radio that the Bears were winning 7 to 0. It is exciting being out here seeing everyone cheer for their fantasy team, as well as their home town team.

Animals seen:

Red Snapper (Lutjanus campechanus)

King Snake Eel (Ophichthus rex)

Bonnethead Shark (Sphyrna tiburo)

Pantropical Spotted Dolphin (Stenella attenuate)

Atlantic Sharpnose Shark (Rhizoprionodon terraenovae)

Blacknose Shark (Carcharhinus acronotus)

Blacktip Shark (Carcharhinus limbatus)

Gulf Smooth-hound Shark (Mustelus sinusmexicanus)