NOAA Teacher at Sea – Page 297 – NOAA Teacher at Sea Blog

June 21, 2012March 12, 2021

Nicolle von der Heyde, June 21, 2010

NOAA Teacher at Sea
Nicolle Vonderheyde
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: Monday, June 21

Weather Data from the Bridge

Time: 0800 hours (8 am)
Position: Latitude: 28º 09.6 minutes N
Longitude: 094º 18.2 min. W
Visibility: 10 nautical miles
Wind Direction: variable
Water Temperature: 30.6 degrees Celsius
Air Temperature: 27.5 degrees Celsius
Ship’s Speed: 5 knots

Science Technology Log

Atlantic Spotted dolphins are the graceful ballerinas of the sea. They are just incredible! The Gulf of Mexico is one of the habitats of the dolphin because they live in warm tropical waters. The body of a spotted dolphin is covered with spots and as they get older their spots become greater in number.

Here you can see the spots on an older Atlantic Spotted Dolphin. To read more about dolphins go to http://www.dolphindreamteam.com/dolphins/dolphins.html

Because Dolphins are mammals they breathe air through a single blowhole much like whales. Dolphins live together in pods and can grow to be 8 feet long and weigh 200-255 pounds. Like whales, dolphins swim by moving their tails (flukes) up and down. The dolphin’s beak is long and slim and its lips and the tip of its beak are white. They eat a variety of fish and squid found at the surface of the water. Since dolphins like to swim with yellow fin tuna, some dolphins die by getting tangled in the nets of tuna fishermen.

Newborn calves are grey with white bellies. They do not have spots. Calves mature around the age of 6-8 years or when the dolphin reaches a length of 6.5 feet. Calving takes place every two years. Gestation (or pregnancy) lasts for 11 1/2 months and babies are nursed for 11 months.

While watching the dolphins ride the bow wave, Nicolle and I wondered, “How do dolphins sleep and not drown?” Actually, we found that there are two basic methods of sleeping: they float and rest vertically or horizontally at the surface of the water. The other method is sleeping while swimming slowly next to another dolphin. Dolphins shut down half of their brains and close the opposite eye. That lets the other half of the brain stay “awake.” This way they can rest and also watch for predators. After two hours they reverse this process. This pattern of sleep is called “cat-napping.”

Dolphins maintain a deeper sleep at night and usually only sleep for two hours at a time. This method is called “logging” because in this state dolphins look like a log floating in the ocean.

The 1972 Marine Mammal Protection Act (MMPA) prohibits the hunting, capturing, killing or collecting of marine mammals without a proper permit. Permits are granted for the Spotted Dolphins to be taken if it is for scientific research, public display, conservation, or in the case of a dolphin stranding. The maximum ffor violating the MMPA is $20,000 and one year in jail.

Personal Log

The best part of this trip is all the marine life I see in the Gulf. In the past few days, dolphins have been swimming up to the boat and riding the bow wave of the ship. They are so graceful and playful in the water. In addition to the Tiger Shark seen feasting on the dead Sperm Whale, I have seen quite a few sharks swimming in the water near our ship. One, called a Silky Shark, took the bait as some of the crew was fishing from the stern of the boat (shown to the left). It was hauled up so the hook could be taken out and released back into the water. The second was a baby shark swimming near the bow of the ship as I watched the dolphins in the distance. I also saw a shark swimming near the starboard side of our ship while the deckhands were hauling up one of the camera arrays.

The fourth shark was the most exciting. As the crew was working at the stern of the ship to release a line that was caught in the rudder, I looked over the stern to see a large shark very near the surface swimming toward the starboard (right) side of the ship. I hurried to look and to my surprise it was a giant Hammerhead! I never expected to see one of these in its natural habitat. Unfortunately, by the time I got my camera out, the Hammerhead was too far away and too deep to get a clear shot, but what a sight to see!

The photo on the right is from Monterey Bay Aquarium. For more information, go to http://www.montereybayaquarium.org/animals/AnimalDetails.aspx?enc=C53nR+hhcrXgfKW+bt/MWA==

I often mistake the fish shown on the left for sharks. Actually they are Cobia, also known as Lemonfish. Once in a while thefish approach the boat as we are hauling fishup on the bandit reel. I have also seen bojellyfish in the water as we are working on the starboard side of the ship and I spotted a brief glimpse of an Ocean Sunfish (Mola mola) from the bridge of the ship as I was talking to our Commanding Officer (CO). I wish I could have seen this fish up close. They are the largest bony fish in the oceans and as someone on the ship described, they resemble a giant Chiclet swimming in the water.

The smallest living things I have seen while at sea are the tiny creatures that live in the Sargassum, a type of seaweed that floats freely within and on the surface of the Gulf waters. The Sargassum provides a habitat for tiny creatures that are the foundation of the food web, even providing food for some of the largest animals in the sea like whales. The picture below on the left shows a giant patch of Sargassum, while the picture on the right shows some of the creatures that live within it including tiny shrimp, krill, and very small crabs.

Creatures that live within the sargassum including tiny shrimp, krill, and very small crabs

Seeing all this life has been reassuring as the oil continues to gush into Gulf waters off the coast of Louisiana, however I can’t help but think what the overall impact of this spill will be for the future of the Gulf. Will we see the negative environmental impact spread to the Eastern Gulf? Are microscopic droplets of oil and chemical dispersants infecting the food chain beyond the area that we visibly see being impacted? These questions will be answered as NOAA scientists continue to collect and analyze the type of data that I am helping gather on this SEAMAP Reef Fish Survey. I feel so fortunate to be a part of this scientific endeavor.

Animals Seen

Silky Shark (Carcharhinus falciformis)

Hammerhead (Sphyrna mokarran)

Cobia (Rachycentron canadum)

Ocean Sunfish (Mola mola)

Krill, Shrimp, Crab (species unidentified)

June 21, 2012August 11, 2021

Lesley Urasky: Fish, fish, where are all the fish? June 18, 2012

NOAA Teacher at Sea
Lesley Urasky
Aboard the NOAA ship Pisces
June 16 – June 29, 2012

Mission: SEAMAP Caribbean Reef Fish Survey
Geographical area of cruise: St. Croix, U.S. Virgin Islands
Date: June 18, 2012

Location:
Latitude: 17.6568
Longitude: -64.9281

Weather Data from the Bridge:

Air Temperature: 28.5°C (83.3°F)
Wind Speed: 17.1 knots (19.7 mph), Beaufort scale: 5
Wind Direction: from SE
Relative Humidity: 75%
Barometric Pressure: 1,014.80 mb
Surface Water Temperature:28.97 °C (84.1°F)

Science and Technology Log

Alright, so I’ve promised to talk about the fish. Throughout the science portions of the cruise, the scientists have not been catching the anticipated quantities of fish. There are several lines of thought as to why: maybe the region has experienced overfishing; possibly the sampling sites are too shallow and deeper water fish may be more likely to bite; or they might not like the bait (North Atlantic mackerel) since it is not an endemic species/prey they would normally eat.

So far, the night shift has caught more fish than the day shift that I’m on. Today, we have caught five and a half fish. The half fish was exactly that – we retrieved only the head and it looked like the rest of the body had been consumed by a barracuda! These fish were in the grouper family and the snapper family.

Blackfin snapper (Lutjanus buccanella). This little guy was wily enough to sneak into the camera array and steal some squid out of the bait bag! The contents of his stomach – cut up squid – can be seen to the left between the forceps and his head.

Once the fish have been caught, there are several measurements that must be made. To begin, the fish is weighed to the nearest thousandth (three decimal places) of a kilogram. In order to make sure the weight of the fish is accurate, the scale must be periodically calibrated.

Then there are several length measurements that are made: standard length (SL), total length (TL) and depending on the type of fish, fork length (FL). To make these measurements, the fish is laid so that it facing toward the left and placed on a fish board. The board is simply a long plank with a tape measure running down the center. It insures that the fish is laid out flat and allows for consistent measurement.

Standard length does not measure the caudal fin, or tail. It is measured from the tip of the fish’s head and stops at the end of the last vertebra; in other words, if the fish is laying on its side, and you were to lift the tail up slightly, a crease will form at the base of the backbone. This is where the standard length measurement would end. Total length is just as it sounds – it is a measurement of the entire length (straight line) of the fish. Fork length is only measured if the type of fish caught has a forked tail. If it does, the measurement begins at the fish’s snout and ends at the v-notch in the tail.

Measuring fish lenth — How to measure the three types of lengths: standard, fork, and total. (Source: Australian Government: Department of Sustainability, Environment, Water, Population, and Communities)

Red hind (Epinephelus guttatus) on the fish board being measured for standard length. Ariane’s thumb is on the crease marking the end of its backbone.

Once the physical measurements are made, the otoliths must be extracted and the fish sexed. You’re probably anxious to learn if you selected the right answer on the previous post’s poll – “What do you think an otolith is?” An otolith can be thought of as a fish’s “ear bone”. It is actually a structure composed of calcium carbonate and located within the inner ear. All vertebrates (organisms with backbones) have similar structures. They function as gravity, balance, movement, and directional indicators. Their presence helps a fish sense changes in horizontal motion and acceleration.

In order to extract the otoliths, the fish must be killed. Once the fish has been killed, the brain case is exposed and peeled back. The otoliths are in little slits located in the underside of the brain. It takes a delicate touch to remove them with a pair of forceps (tweezers) because they can easily break or slip beyond the “point of no return” (drop into the brain cavity where they cannot be extracted).

Otoliths are important scientifically because they can tell many important things about a fish’s life. Their age and growth throughout the first year of life can be determined. Otoliths record this information just like tree ring record summer/winter cycles. More complex measurements can be used to determine the date of hatch, once there are a collected series of measurements, spawning times can be calculated.

Otolith rings shown under a polarizing microscopes. — A cross-section of an otolith under a microscope. The rings are used to determine age and other life events. Source: Otolith Research Laboratory, Bedford Institute of Oceanography, Dartmouth, Nova Scotia, Canada.

Because they are composed of calcium carbonate (CaCO3), the oxygen component of the chemical compound can be used to measure stable oxygen isotopes; this is useful for reconstructing temperatures of the waters the fish has lived in. Scientists are also able to look at other trace elements and isotopes to determine various environmental factors.

Extracted otoliths. Often they are around 1 cm long, although the larger the fish, the slightly larger the otolith.

The final step we take in measurement/data collection is determining the sex and maturity of the fish. To do this, the fish is slit open just as if you were going to clean the fish to filet and eat it. The air bladder must be deflated if it isn’t already and the intestines moved out of the way. Then we begin to search for the gonads (ovaries and testes). Once the gonads are found, we know if it is female or male and the next step is to determine its stage or maturity. This is quite a process, especially since groupers can be hermaphroditic. The maturity can be classified with a series of codes:

U = undetermined
1 = immature virgin (gonads are barely visible)
2 = resting (empty gonads – in between reproductive events)
3 = enlarging/developing (eggs/sperm are beginning to be produced)
4 = running ripe (gonads are full of eggs/sperm and are ready to spawn)
5 = spent (spawning has already occurred)

Ovaries of a coney (grouper family). These are the pair of flesh colored tubular structures running down the center of the fish.

Personal Log

Today is my birthday, and I can’t think of a better place to spend it! What a treat to be having such an adventure in the Caribbean! This morning, we were on our first bandit reel survey of the day, and the captain came on over the radio system, announced my birthday and sang Happy Birthday to me. Unbeknownst to me, my husband, Dave, had emailed the CO of the Pisces asking him to wish me a happy birthday.

We’ve had a very successful day (compared to the past two days) and have caught many more fish – 5 1/2 to be exact. The most exciting part was that I caught two fish on my bandit reel! They were a red hind and blackfin snapper (see the photos above). What a great birthday present!

Father's Day surf and turf dinner — Father’s Day surf and turf dinner

My birthday fish! The blackfin snapper is on the left and the red hind on the right.

I even got a birthday kiss! — I even got a birthday kiss from the red hind!

Last night (6/17) for Father’s Day, we had an amazing dinner: filet mignon, lobster, asparagus, sweet plantains, and sweet potato pie for dessert! Since it was my birthday the following day (6/18), and one of the scientists doesn’t like lobster, I had two tails! What a treat!

Our best catch of the day came on the last bandit reel cast. Joey Salisbury (one of the scientists) caught 5 fish: 4 blackfin snapper and 1 almaco jack; while Ariane Frappier (another scientist) caught 3 – 2 blackfin and 1 almaco jack. This happened right before dinner, so we developed a pretty good assembly line system to work them up in time to eat.

Dinner was a nice Chinese meal, but between the ship beginning to travel to the South coast of St. Thomas and working on the computer, I began to feel a touch seasick (not the best feeling after a large meal!). I took a couple of meclazine (motion sickness medication) and still felt unwell (most likely because you’re supposed to take it before the motion begins). My roommate, Kelly Schill, the Operations Officer, made me go to bed (I’m in the top bunk – yikes!), gave me a plastic bag (just in case!), and some saltine crackers. After 10 hours of sleep, I felt much, much better!

I had some time in between running bandit reels, baiting the hooks, and entering data into the computers,to interview a member of the science team that joined us at the last-minute from St. Croix. Roy Pemberton, Jr. is the Director of Fish and Wildlife for the Department of Planning and Natural Resources of the U.S. Virgin Islands. The following is a snippet of our conversation:

LU: What are your job duties as the Director of Fish and Wildlife?

RP: I manage fisheries/wildlife resources and try to educate the population on how to better manage these resources to preserve them for future generations of the U.S. Virgin Islands.

LU: When did you first become interested in oceanography?

RP: I’m not really an oceanographer, but more of a marine scientist and wildlife biologist. I got interested in this around 5-6 years old when I learned to swim and then snorkel for the first time. I really enjoyed observing the marine environment and my interest prompted me to want to see and learn more about it.

LU: It’s such a broad field, how did you narrow your focus down to what you’re currently doing?

RP: I took a marine science class in high school and I enjoyed it tremendously. It made me seek it out as a career by pursuing a degree in Marine Science at Hampton University.

LU: If you were to go into another area of ocean research, what would it be?

RP: Oceanography – Marine Spatial Planning

Roy Pemberton with coney — Roy Pemberton holding a recently caught coney.

LU: What is the biggest challenge in your job?

RP: It is a challenge to manage fisheries and wildlife resources with respect to the socioeconomic and cultural nuances of the people.

LU: What do you think is the biggest issue of contention in your field, and how do you imagine it will resolve?

RP: Fisheries and coral reef management. We need to have enough time to see if the federal management efforts work to ensure healthier ecosystems for future generations.

LU: What are some effects of climate change that you’ve witnessed in the reef systems of the U.S. Virgin Islands?

RP: Temperatures have become warmer and the prevalence of disease among corals has increased.

LU: In what areas of Marine Science do you foresee a lot of a career paths and job opportunities?

RP: Fisheries management, ecosystem management, coral reef diseases, and the study of coral reef restoration.

LU: Is there an area of Marine Science that you think is currently being overlooked, and why?

RP: Marine Science management that takes into account cultural and economic issues.

LU: What are some ideas a layperson could take from your work?

RP: One tries to balance resource protection and management with the cultural and heritage needs of the population in the territory of the U.S. Virgin Islands.

LU: If a high school student wanted to go into the fish/wildlife division of planning and natural resources, what kinds of courses would you recommend they take?

RP: Biology, Marine Science, History, Botany, and Math

LU: Do you recommend students interested in your field pursue original research as high school students or undergraduate students? If so, what kind?

RP: I would suggest they study a variety of life sciences so they can see what they want to pursue. Then they can do an internship in a particular life science they find interesting to determine if they would like to pursue it as a career.

Too many interesting people on the ship and so little time! I’m going to interview scientists as we continue on to San Juan, Puerto Rico. Once they leave, I’m continuing on to Mayport, Florida with the ship. During this time, I’ll explore other careers with NOAA.

June 20, 2012August 11, 2021

Janet Nelson: Sand Dollars and Sea Stars! June 20, 2012

NOAA Teacher at Sea
Janet Nelson Huewe
Aboard R/V Hugh R. Sharp
June 13 – 25, 2012

Mission: Sea Scallop Survey
Geographic Area: North Atlantic
Wednesday, June 20, 2012

Weather Data from the Bridge:
Latitude: 41.03.21 North
Longitude: 071 32.79 West
Air temp: 21 C
Wind Speed: 15.6 kt
Depth: 135.2 feet

Science and Technology Log:

I came on shift yesterday at noon with three back to back dredge tows (we have done 30 dredges thus far on Leg II). We are off the coast of Long Island. Most of the dredges around here have been filled with sand dollars and sea stars. In total, we have processed and counted on this leg of the survey 5, 366 scallops, 453 skates, and 58 Goosefish, a very interesting fish that buries itself in the sand and uses a filamentous lure to attract prey and engulf them. In addition, we have counted 132, 056 sea stars (wow!) and 590 crabs. The HabCam had some glitches yesterday but we began running the vehicle on our shift at approximately 1245 hrs. It made a run for approximately three hours and 57 minutes, with approximately 22.387 nautical miles of pictures before we dredged again.

While looking at the images of the HabCam, it astounds me at seeing prior dredge track marks from commercial scallopers and clamers. By looking at the side scan sonar, some of the dredges are very deep and very invasive. It reminds me of strip mining and clear cutting in terrestrial ecosystems. It is also evident, by observing the images, that little is left in those areas but shell hash. With that said, there are still some interesting species that get photographed, such as jelly fish and sea stars in patterns you would think they orchestrated.

We are working our way toward Georges Bank and will be there, from what I’m told, sometime late this afternoon or evening. All equipment is running well and what time we lost with the late departure has mostly been made up. It’s amazing what technology can do!

Personal Log:

As of yesterday, I have been away from home with little to no contact for six days, so when I was told yesterday morning prior to coming on shift that we had cell phone signal, I immediately went up on deck and called my husband! Although I only got an answering machine, it was good, and familiar, to hear his voice.

We then had a fire drill at noon and after that, set to work. It was nice to be outside working for the next 4 hours. I think I finally have my sea legs. However, the seas have also been cooperating with only 1-3 foot swells, at best. When they are higher, I sometimes feel like the Scarecrow in “The Wizard of Oz”. It’s a good thing I can laugh at myself when I look completely ridiculous while tripping through a door or, with no warning whatsoever, bump into a wall! From what I understand, this ship has a flatter bottom than most so every wave and swell catches it and tosses it in whatever direction that wave is going, despite having just gone in the opposite direction! I am hoping the sea remains calm when we get to Georges Bank.

I am learning a great deal about the critters that live in the ocean around here. It is so strange to have at times hundreds upon hundreds of sand dollars being pulled up in the dredge at one location and then to have mostly sea stars pulled up at another location. My favorite, however, are the hermit crabs! They are so cool! They will begin to crawl out of their shells, see you coming to pick them up and immediately crawl way back inside and stare at you. I actually think I saw one blink at me. Not really, but my imagination does run away at times.

Those are also the times someone, usually me or the watch chief (chief scientist is guilty of this too!), bursts into song or starts quoting a movie line, and then half the crew is joining in. I have gotten more proficient at using the technology equipment on board that does the recording of the measurements of the specimens, and also at cutting/shucking the scallops. Never thought I would know how to do that! I have a feeling there are a few things I never thought I would do before this cruise is over. I have five more days at sea. Anything is possible!

Side note: Today is beautiful for being at sea! Clear sky, moderate winds, and sea legs that are working!!

Cheers!

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June 20, 2012August 11, 2021

Alexandra Keenan: A Whale of an Adventure Begins! June 16, 2012

NOAA Teacher at Sea
Alexandra Keenan
(Almost) Onboard NOAA Ship Henry B. Bigelow
June 18 – June 29

Mission: Cetacean biology
Geographical Area of Cruise: Gulf of Maine
Date: June 16, 2012

Personal Log

Saludos! My name is Alexandra Keenan, and I teach Astronomy and Physics at Rio Grande City High School. Rio Grande City is a rural town located at the arid edge of the Rio Grande Valley. Because of our unique position on the Texas-Mexico border, our community is characterized by a rich melding of language and culture. Life in a border town is not always easy, but my talented and dedicated colleagues at RGC High School passionately advocate for our students, and our outstanding students gracefully rise to and surmount the many challenges presented to them.

Che's — Me in downtown Rio Grande City. Our historic buildings are evocative of the old “Wild West.”

I applied to the NOAA Teacher at Sea program because making careers in science seem real and attainable to students is a priority in my classroom. NOAA, the National Oceanic and Atmospheric Administration, provides a wonderful opportunity for teachers to have an interdisciplinary research experience aboard one of their research or survey ships. I believe that through this extraordinary opportunity, I can make our units in scientific inquiry and sound come alive while increasing students’ interest in and enthusiasm for protecting our ocean planet. I will also be able to provide my students firsthand knowledge on careers at NOAA. I hope to show my students that there is a big, beautiful world out there worth protecting and that they too can have an adventure.

The adventure begins on June 18^th when the NOAA ship Henry B. Bigelow departs from Newport, RI. I’ll be on the vessel as a member of the scientific research party. We will be monitoring populations of the school-bus-sized North Atlantic right whale by:

using photo-identification techniques
obtaining biopsies from live whales (wow!)
catching zooplankton
recovering specials buoys that have been monitoring the whales’ acoustic behavior (the sounds they make)

Why would we do all of this? Because North Atlantic Right Whales are among the most endangered whales in the world. Historically, they were heavily hunted during the whaling era. Now, they are endangered by shipping vessels and commercial fishing equipment. The data we gather and analyze will help governing bodies make management decisions to protect these majestic animals.

NOAA ship *Henry B. Bigelow (photo: NOAA)*

The next time you hear from me, it’ll be from the waters of the Gulf of Maine!

Fair winds!

June 20, 2012August 11, 2021

Amanda Peretich: Get to Know Me, June 20, 2012

NOAA Teacher at Sea
Amanda Peretich
(Almost) Onboard NOAA Ship Oscar Dyson
June 29 – July 17, 2012

Mission: Pollock Survey
Geographical area of cruise: eastern Bering Sea
Date: June 20, 2012

That's me and one of my loves: the periodic table! — That’s me and one of my loves: the periodic table!

PERSONAL LOG
My first post is supposed to be an introduction to me and what I’ll be doing for three weeks in the middle of the Bering Sea so here goes nothing! My name is Amanda Peretich, and I have been teaching biology, chemistry, and criminal science investigations (get it? CSI) at Karns High School in Knoxville, TN for the past four years. My route to teaching high school was probably not really traditional, but it’s provided me with plenty of adventures along the way, and if you know me, you know I love a good adventure!

I am so excited to arrive on the NOAA ship Oscar Dyson to participate in walleye pollock research in an acoustic trawl survey in the eastern Bering Sea (similar to this one from last summer) in a little over a week. You’ll hear plenty more about this research in the weeks to come. How am I able to do this? Well, NOAA (which is an acronym for National Oceanic and Atmospheric Administration) has a Teacher at Sea program that I had never heard of before last fall when I randomly found it in a Google search for summer teacher-y programs. Ahh, the wonders of the internet and technology! So I applied to the program (really kind of at the last-minute, which also hits on my procrastination problems), wrote some pretty good essays, had some amazing recommendations from people (shout out to Theresa Nixon and Anne Hudnall for what I can only imagine were the best letters ever!), and later found out I’d been selected as one of 25 teachers from across the U.S. for this amazing opportunity!

FUN FACT: Did you know that the Discovery show Deadliest Catch is filmed in the Bering Sea and that the operations base for the fishing fleet is in Dutch Harbor, Alaska where I will be leaving from? However, I think those rough seas on the show are due to filming during the fall and winter seasons, not summer. I’m sure I will update you in a later post about how crazy the waters are during July, but I will have to remember that it could be much more treacherous.

Not that I’ll be able to have so many photos in all of my blogs (being on a ship in the middle of the ocean = sporadic and slow internet access, thus less photos), but this little slideshow will hopefully tell you a little more about myself in picture form:

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Each of my posts (which are limited to about every other day or every 3 days) aboard the ship will include a science & technology log and then a personal log, but we are also able to add additional sections as well. Help me choose which ones to add below! (sidenote: I chose the “sunset” background for the poll because of the birds in it – I hear there are plenty of birds in Alaska – now the palm trees and sun, you’ll want to replace with other trees and clouds)

Did I forget to mention that this experience is also the beginning of a new chapter in my life? My wonderful husband Michael finished his PhD in chemistry at the University of Tennessee and accepted a civilian chemist position in the fuels lab with NAVAIR in Patuxent River, Maryland. I finished out the school year and sold our house in Knoxville while he has been training and traveling to fun places like Pensacola, Florida, but I will officially move up to Maryland the day before I get on a plane for Alaska! Didn’t I say how much I love adventures and the unknown?