Long time no hear from, right? The explanation is quite simple…there was no Wifi on my research vessel. I was definitely writing about my experience and taking pictures of my observations but I had no way to share the information with you in a blog post. Now that I have been home for several weeks, I have been working hard to complete my blog (6 posts in particular) which are in the process of being completed and am now ready to begin posting.
In a prior post, I described my participation in the Teacher at Sea program and how I plan to translate my experience and observations into classroom activities and projects for my students. In fact. As I prepared for my upcoming cruise assignment, I developed a Google Site that not only provides more detail about my upcoming experience as a Teacher at Sea educator, but also instructional resources and project ideas related to ocean sciences. What I would like to do in this post is talk about the opportunity presented to me and all other educators in the Teacher at Sea program.
Teacher at Sea Program
The Teacher at Sea program is a unique Teacher Research Experience (TRE) opportunity managed by NOAA that allows teachers to learn by doing rather than by reading about it. In these types of experiences, the teacher is placed with a team of research scientists and immersed into their scientific work, serving as an honorary member of the team. The TRE provides the teacher with an opportunity to not only conduct the research, but to also ask questions, engage in detailed investigations about aspects of the research, and most importantly, distill these experiences into lessons, activities and projects for classroom implementation to the benefit of my students. I would strongly encourage my educator colleagues to explore the Teacher at Sea program
and should you qualify, please consider applying for this unique educator experience.
SEAMAP
I would like to now speak about the research I would be involved in during my assigned cruise. I was assigned to participate in Leg 1 of the Summer Groundfish Survey conducted in the Gulf of Mexico in collaboration with NOAA Fisheries as part of SEAMAP (Southeast Area Monitoring and Assessment Program)
The survey consists of a series of collected samples of marine life at positions determined by SEAMAP to make decisions about damaged marine ecosystems, depleted populations and destruction of habitats. Exactly what was entailed in the collected samplings will be described in an upcoming post.
Assigned Cruise
Cruises designed to engage in SEAMAP Surveys are seasonal (generally occurring in the Summer and Fall from April to November) and are typically executed aboard NOAA vessels in legs or segments consisting of 2 – 3 weeks with cruises occurring over 3 – 4 legs per survey. My assigned cruise underwent a change in schedule and vessel from my initial assignment. My original assigned cruise was scheduled as Leg 2 of the Summer Groundfish Survey aboard the NOAA Ship Oregon II from June 20, 2022 departing from Galveston, TX to July 3, 2022 arriving in Pascagoula, MS for a 15-day cruise. However, due to maintenance issues, the Oregon II was not seaworthy for the scheduled cruise which required a replacement vessel. The replacement vessel was the R/V Tommy Munro. There is a lot to say and pictures to show about the R/V Tommy Munro which will be the subject of the next blog post.
In this installment of my exercise of the Ocean Literacy Framework, I would like to ask you to respond to three questions about the second essential principle:
The ocean and life in the ocean shape the features of Earth.
presented in a Padlet accessed by the following link:
Remember, there are no right or wrong answers – the questions serve not as an opportunity to answer yes or no, or to get answers right or wrong; rather, these questions serve as an opportunity not only to assess what you know or think about the scope of the principle but also to learn, explore, and investigate the demonstrated principle. If you have any questions or would like to discuss further, please indicate so in the blog and I would be glad to answer your questions and initiate a discussion.
Allow me to provide a summary of the survey and what was accomplished on this leg. June 9, we departed from Galveston and made our way out to sea. The survey started the next day. We traveled 1,866.6 nautical miles (or 2,148.04 miles) along the continental shelf. That’s like driving from Florida to California! On this leg of the survey we (they) deployed 169 cameras, 22 CTDs, 13 bandit reels, and 12 XBTs (still don’t know what that is). We collected 15 eDNA samples (go Caroline!) and mapped 732 nautical miles. This year’s survey started in April, and this was the last leg. We’re making our way back to Pascagoula (yes, I can pronounce it now), a near 28 hour transit. We will be docking and unloading at the Gulf Marine Support Facility. The next survey on the Pisces starts next week, deploying Remote Operated Vehicles (ROVs). The science never stops, folks.
The SEAMAP Reef Fish Survey began as a fish trap survey in 1980’s and transitioned to a video survey in 1991, and the technology continues to evolve year after year. This over thirty years of data provides abundance and distribution information on Gulf of Mexico reef fish. Reef fish abundance and size data are generated directly from the videos. So though the work feels slow, it is essential. An index of abundance for each species is determined as the maximum number of a fish in the field of view in a single video frame. Here are some snippets of the footage recording during our trip.
A school of amber jacks recorded on the camera array.Marbled grouperSnappersA stunning tiger shark
*NOTE: The tiger shark shot was not from our leg of the survey, but too cool not to include.
This survey combined with all research approaches (i.e. traps, bandit reels, eDNA) allows for a comprehensive stock assessment of the fish populations in the Gulf of Mexico. Stock assessments collect, analyze, and report demographic information to estimate abundance of fish, monitor responses to fishing, and predict future trends. This significant data is used in managing fish populations and preserving our oceans resources.
Mapping Operations
One of the scientific operations I have not yet mentioned is bathymetric mapping. Senior Survey Technician Todd Walsh works the night shift running the mapping show – multibeam echo-sounder hydrographic survey to be precise. An echo-sounder determines the depth of the seafloor by measuring the time taken for sound echoes to return. The technology is impressive. Todd is straight up 3D mapping the bottom of the ocean. He watches it come to life, line by line. That’s freaking cool. I see you, Todd.
Though mapping occurred overnight, Todd was sure to point out any interesting finds in the morning. The Pisces mapped an area south of the Flower Garden Banks National Marine Sanctuary and found an impressive geological feature hosting two mud volcanoes. A mud volcano is a landform created by the eruption of mud or slurries, water and gases. Man, the ocean floor is like a whole other world. It was so interesting to watch the mapping unfold right before your eyes. Maybe the seafloor will be my next destination.
The long days take their toll. This crew has worked so hard and is ready to decompress. Some have been out here for months and are counting down the days. You really can’t blame them. You ask anyone out here, “how many days?” and you will hear “three days and a wake up.” “Two days and a wake up.” “One day and a wake up.” They have all earned some serious rest and recovery, and long awaited time with their families and friends. I mean, I’d like to call them friends, but I get it, you can have lots of friends.
I cannot believe it is already my last day out here. Though each day felt like 100 hours, somehow it still flew by. The last CTD hauled out of the water last night marked the end of the SEAMAP survey. I cheer and shout in solitude and run round giving high fives. Good work, everyone! They are all exhausted, but certainly excited and proud of the work they have accomplished. Listen guys, if you aren’t proud, let me remind you that you most certainly should be.
The last day is the first sunrise I didn’t catch – sleeping in was just too tempting. Friends at home have to literally drag me out of bed to catch a sunrise, but out here, it just feels right. We ease into our day and clean and prepare the working spaces and equipment for arrival. I mop. That’s about all I am good for. TAS card. I spend the day roaming as usual, this time reflecting on my arrival and experience at sea. Time slows down even more (if you can believe that) when it’s your last day. I do my best to take in every last moment. I balance the day with some relaxation, a nice game of “bugs” with my pals, a good deal of snacking, revisiting the views, and saying my goodbyes.
Though thrilled to be heading back, most everyone finds their way outside for the last sunset. I soak up every colorful ripple. Mother Nature does not disappoint in those last hours. Dolphins put on a show jumping out of the water at a distance. The stars start to appear, not a cloud in the sky. I stargaze for what felt like hours. We’re greeted by multiple shooting stars. These are the moments I live for – when I feel most at rest. I am overcome with humility and gratitude.
Some of the most memorable moments.
I consider myself lucky to have met and worked with the Pisces crew. Every person on this trip has left an impression on me. From day one, the crew has been so welcoming and willing to let me participate, committed to providing me an exceptional experience. For that, I am grateful. I had so much fun learning from each department and goofing off with the best of them. The work that goes in to the research is remarkable, from navigation, the science, to vessel operations. I learned much more than expected. It’s hard to summarize my experience, but here are some valuable takeaways, in no particular order.
NOAA research is vital in protecting our most precious natural resource.
Ocean conservation is the responsibility of every one of us.
Remember why you do the job you do and the impact you have.
Never pass up an opportunity to learn or do something new.
Everyone should have the opportunity to connect to our natural world.
You can never see too many sunsets.
Expose your toes to the great outdoors.
I can’t express enough how grateful I am to have been selected for the NOAA Teacher at Sea Program and be a part of its mission. The experience was so much more than I could have even imagined. Participating in the research was so rewarding, and offered valuable insight into fisheries research and scientific operations. The questions never stopped coming. The novelty of the work kept me hooked. If there is one thing above all that I took away from this trip is – never stop learning. Continuous learning is what enhances our understanding of the world around us, in so many ways, and why I love what I do.
I look forward to sharing my experience with the many students I have the opportunity to work with, and hopefully inspiring them to continue to learn and grow, building a better understanding and appreciation for our planet. NOAA, your investment in me will not go unnoticed. The biggest THANK YOU to all involved in making this experience a reality.
We ride together, we die together. Pisces for life. – Junior
NOAA Teacher at Sea Jordan Findley Aboard NOAA Ship Pisces June 9-22, 2022
Mission: SEAMAP Reef Fish Geographic Area of Cruise: Gulf of Mexico Date: June 20, 2022
Science and Technology Log
Fishing Operations
Alright, it’s time for the good stuff, the moment you’ve been waiting for (whether you knew it or not). It’s fishing time. FPC Paul Felts monitors depth and habitat to determine suitable fishing sites. When the crew hears “I’d like to set up for bandit reels” over the radio, they come running. I mean they come out of the woodworks like the Brady Bunch on Christmas morn. Let me remind you, the days can be real slow out here. Lots of transiting and waiting. Fishing offers just enough excitement to keep us going.
Three bandit reels are deployed once or twice per day. I promptly insert myself into the fishing operation on day one. Thank you, Rafael and Junior. The reels are motorized and mounted to the side of the ship. The line starts with a weight and then ten baited hooks are clipped on. When deployed, it sinks to the bottom. We get five minutes. Five short minutes for the fish to bite. Boy does anticipation build in that five minutes. If you have a good one, you can feel it on the line. “One minute to haul back.” By this time, everyone is leaning over the side (the gunwale if you want to be fancy) staring at the water. “Reels two and three you can haul back.” “Reel one you can haul back.” We start reeling back in, from somewhere between 85-100 meters deep. Click, click, click on the reel as we impatiently wait.
Baiting the lineWaiting for the haul backReeling in
We start to see a glimpse of the bait coming up around 40-60 meters and try to make out what we’ve hooked. RED SNAPPER! 11 red snapper caught between the three reels on the first fish. This is what I’m talkin’ about. I can handle two weeks of this. Everyone rotates between stations to see what we caught and we all celebrate like we just won some sort of tournament. Let’s remember folks, we are doing this for science. All fish captured on the bandit reels are identified, measured, weighed, and have the sex and maturity determined. Select species have otoliths and gonads collected for age and reproductive research. I excitedly follow the science crew into the lab to get the run down.
Caroline with red snapperAmanda with a marbled grouperRafael with a red porgyMarbled grouperQueen snapper
*Read no further if you are squeamish.*
The work up of the fish start with some measurements and weights. Of course it immediately became a competition. Game on. Now these fish aren’t your regular ol’ fish. These suckers are huge. Next we dissect the fish to extract and weigh the gonads. That’s right, I said gonads. You can learn the age and maturity of a fish by examining a sample of the gonads under a microscope. From that, you can estimate lifespan, spawning patterns, growth rate, and possibly even migration patterns. Knowing the age distribution of a fish population helps to better monitor, assess, and manage stocks for long-term benefits. Fish gonads, that’s a first for me.
Next step is the fun part, extracting the otolith. Otoliths (ear bones) are calcium carbonate structures found enclosed inside the heads of bony fish. This bone tells us how old the fish is. Otoliths are removed from the fish’s head either by entering through the top of the head or by pulling back the gills. At first, I observe. They really get in there. By the third or so time, I am ready to get my hands dirty. Remove the gills and start digging. Once you find the inner ear, you crack it open and inside is the otolith. Some species are much easier than others. It’s no walk in the park folks. One grouper took us two hours. It’s like a real life game of operation. Though intense, it’s a fun challenge.
On this leg of the survey we caught 20 red snappers, 2 silky snappers, 1 queen snapper, 2 scamp, 1 marbled grouper, 1 yellow edge grouper, and 1 red porgy. Sampling these organisms strengthens the data. Employing multiple research methods produces a comprehensive description and interpretation of the data. The workup of the fish was one of my favorite parts of this experience. Not only did I actually get to participate in the research, I learned valuable new skills, most of which I teach about, but have never had the chance to do it. This is the exact reason I applied for the Teacher at Sea Program.
Have I convinced you that science is cool yet?
Meet the Deck Crew
I’d like to give a shout out to my friends on the deck. NOAA Ship Pisces couldn’t do the research they do without the Deck Department – Chief Boatswain James, Lead Fisherman Junior, and ABs Dee and JB. The Deck keep up general maintenance of the boat and on deck, operate equipment and machinery, support scientific operations, and stand watch. These guys might be salty, but they have good spirits and make me smile. I have enjoyed every minute working with them.
AB Jamison “JB” BoydLead Fisherman Farron “Junior” Cornell Jr. AB Delwin “Dee” Jackson
Personal Log
Yesterday, we did another fire drill. This time, with the help of firefighter Jordan Findley. LT Duffy set me up to participate in the drill. He shows me the gear and how it works. It’s hot up in there. Two days later when the alarm sounds, I jump to attention. Not really. It took me a minute to remember I was involved. I pop up out of my usual lounging in the lab and swiftly head out to the deck. 0% do I remember where I am supposed to go. Thank god I pass JO ENS Gaughan. She points me in the right direction. By the time I make it to the locker, they’re all dressed out and on their way to “fight the fire.” They’re impressive.
Though late to the game, JB helps me get suited up and I head down to the scene. As you might expect, the “fire” is out by the time I arrive. I provided moral support. Following the drill, we (I trail behind and try not to trip) walk the hose outside to test the pressure. I get to shoot this sucker over the side. I can barely even hold the nozzle in place. LT Duffy comes in for reinforcement on the hose and I go for it. I sprinkle here, I sprinkle there, hose checks out. Good deal. This was a blast. See what I did there? Later I come to find they had stamped the hose nozzle with my name as a memento. This is such a thoughtful way to remember my time on NOAA Ship Pisces. I shall carry it with me always. Not true, this thing is heavy, but I will certainly cherish it. I have so much respect for our firefighters and first responders (on board and beyond), and even more so today.
Fire fighting gearFire station
At this point, I have been out at sea for 12 days. That’s a record for me. My previous PR is one night on a lake in Indiana. I really had no idea what to expect on this trip. I was pretty nervous I would be violently ill and concerned I may not sleep and they wouldn’t have enough coffee to sustain me. None of these were issues, actually far from it, and man am I grateful. No seasickness, I’ve slept like a baby, and there is coffee for days. They even have espresso. Winning. They’ve really spoiled me out here. We have had some really tasty meals, including the fish. No fish goes to waste! I am going to miss being out here at sea. I think I might stick around.
Did You Know?
So you now know that otoliths are basically ear bones. What is cool about them is that they grow throughout the life of a fish, leaving traces on the ear bone. Seasonal changes in growth are recorded on the bone and appear as alternating opaque and translucent rings. Under a microscope, scientists count the number of paired opaque and translucent rings, or annuli, to estimate the age of a fish. Just like trees!
Obviously, safety is of the utmost importance out here at sea. Respect. When working on deck, crew must wear life vests, hard hats, sometimes safety belts, and closed-toe shoes. I don’t know how these people wear closed-toe shoes all day long. I hate it. My piggies are suffocating.
The plan of the day for Friday (6/10) included safety drills at noon. Noon rolls around and I am not really sure what to do. No surprise there. Confirm with Paul what to do and where to be. Oh, okay. Amanda, Caroline, and I go grab our safety getup and start to head to our assigned life raft muster stations (where we gather). On the way down, Commanding Officer LCDR Jeffery Pereira, passes by. “Wow, you ladies are ready.” …… something tells me it’s not quite time. We promptly return to our stateroom. I casually go check our muster stations. Yep, there’s no one. Turns out drills commence with a signal. I’m on to you CO, you just getting a kick out of us roaming around like fools with our safety gear. It’s okay, I have accepted my role onboard.
We run through fire and abandon ship drills. At sea, everyone aboard ship, be they crew, scientist, or passenger, is a member of the fire department. When the alarm sounds, everyone jumps to respond. My response, go to the back deck and wait. Meanwhile, the crew is hard at work donning firefighting PPE and preparing fire stations. Great work, team!
Then we move on to the abandon ship drill. Abandoning ship in the open sea is an action of last resort. Only when there is no reasonable chance of saving the ship will the order ever be given to abandon it. When signaled, everyone reports to their assigned life raft muster station with their protective survival gear. We throw on our survival suits, or immersion suits, and in the actual event, would launch the life rafts. This immersion suit is intended to protect your body while out in the open ocean. Now, I know safety is serious business, but these suits are ridiculous looking. We somehow make them look good. I’ve said it before; I’ll say it again – safety is sexy.
Immersion suitFire stationPPE
Science and Technology Log
We spent our first day at a reef known as Claypile Bank, approximately 80 miles offshore. The second day we headed to East Flower Garden Banks, 125 miles offshore. Flower Garden Banks National Marine Sanctuary was expanded from 56 mi² to 160 mi² to protect critical habitat in the Gulf of Mexico in 2021 and is now made up of 17 different reefs and banks. Cameras were dropped at around 48 meters (or 157 ft) the first go around and 116 meters (380 ft) the second. Since the start, we have sampled Rankin Bank, Bright Bank, and started on Geyer Bank, with a total of 62 cameras deployed. That’s a lot of cruisin’ and droppin’.
Mapped sampling sitesFPC Paul FeltsEcho Sounder
Camera Operations
Let’s talk about these cameras. Deploying and retrieving cameras occurs ALL DAY LONG. Man, the days are long. Here is a quick summary of the work…
Dropping the camera
There are two camera arrays, one 48” tall and the other 36” tall. These things are beastly. Each Spherical/Satellite camera array has six video cameras and a satellite camera, battery, CTD, tensiomet… tramsmiss… transmit…. What it is Ken? … TRANSMISSOMETER (measures visibility/turbidity), sonar transmitter, trawl net ball, and bait bag. The first camera goes out at 7 AM and the last by 6:15 PM. Predetermined sampling sites are selected along the U.S. continental shelf using random stratified selection (dividing the area into subgroups).
When at the site, cameras are lifted by the A-frame, dropped with the yank of a chain, and boom, they sink to the bottom. They sit on the seafloor and soak (record footage) for 30 minutes. First camera goes in, we head to the next site, second camera goes in, we retrieve the first, we retrieve the second, and repeat.
Though the deployment itself only takes like two minutes, there is a lot of coordination involved. It’s amazing how the Bridge (NOAA Corps), Deck, and Lab crews work together to effectively deploy and retrieve the cameras. The communication is nonstop. Field Party Chief (FPC if you know him), Paul Felts, is the brains of this operation. Paul keeps scientific operations running smoothly, providing coordinates to selected sites, monitoring conditions, keeping time, processing data, and I am sure so much more. This guy doesn’t stop. The Bridge are they eyes and ears – they are on watch, navigating to sites, and maneuvering and position the ship all while working against the elements. You guys deserve more credit than that, I know. The Deck are the hands (this is a terrible analogy, but I am committed at this point) – they are operating the deck equipment, raising and lowering cameras, and working the lines and buoys. I, Teacher at Sea Jordan Findley, am the appendix. I have potential, but am mostly useless, and can be a real nuisance from time to time.
Camera array deployment
Personal Log
We are almost one week in and I am still just as excited as day one. Have I encountered challenges, yes, but being out here in the middle of the Gulf is something special. I am greeted every day with a beautiful sunrise and evening sunset. It is spectacular. The water is so beautiful. One of the things I really hadn’t considered to impact my experience at sea is how amazing the people would be. You all inspire me. Every single person on this ship has been so kind and accommodating, allowing me to participate and taking the time to teach me, despite how long they’ve been out at sea or how long their day has been. It’s like one big (mostly) happy family out here. They have me cracking up all the time. Now, they could just be on their best behavior for the ol’ teach (that’s me), but I am convinced they’re just good people. I mean, I even like most of them before my morning coffee. That’s something right there.
SunsetMoon rise
I think I am getting my groove. On a typical day on the ship, we wake up at 6 AM (oof), breakfast, then to the lab. I like to take a minute on the back deck to drink my coffee and look out over the water. First deployment (CTD and camera) is at 7 AM. They do some science, and then continue to deploy and retrieve cameras about every 10-30 minutes until sunset. I pop in and out of the lab all day to observe, but try to keep myself busy. When I am not “helping out,” you will find me in my office. Some call it the mess. I don’t mind. It’s also conveniently where all the food is prepared and served, and where the coffee and snacks are located.
We all refuel on coffee during lunch. Shout out to Paul for making that coffee a real punch in the face. Fishing occurs in the afternoon, almost daily. More to come on this, but man it is fun. The rest of the day is a waiting game (at least for me). Living on a ship is weird; there is only so much you can do. Honestly, the first couple of days, I had some concern I might die of boredom, but as things progressed, I got more involved in every aspect of the operation – even driving this beast! Also, been trying to sneak in a workout. Don’t forget to hydrate. That breaks up the day a bit. Dinner rolls around at 5 PM. All I do is eat. I have been eating like a grown man. The crew starts to wrap things up, reset for the next day, and then transition to mapping operations. The day isn’t complete without watching the sunset. Then we just hunker in until bedtime. The ship “rock-a-bye babies” everyone to sleep.
Generally speaking, I have improved immensely on my ability to open doors – solid 8/10. Those heavy brown doors though, they still kick me in the butt on my way through. I am learning my way around the ship for the most part. Mmmm, kind of. There is a door like every five feet. What I have not improved on is my ability to walk. I am walking all sorts of ways but straight. Everyone stands clear when I walk by. They say you’ll get your sea legs, but I am not sure I am convinced.
The Mess (cafeteria)ExpectationReality
Did You Know?
A continental shelf is the edge of a continent that lies under the ocean. Though underwater, continental shelves are still considered part of the continent. The boundary of a continent is not the coastline, but the edge of the shelf. The shelf extends to a drop-off point called the shelf break. From the break, the shelf descends deep to the ocean floor. Depths of the shelf where we sample range from 45-165 meters, mostly because it gets to be too dark much past that. The depth of the Gulf of Mexico can be more than 5,000 meters deep! Sorry friends, I am done converting units – we’re doing science out here. Just know that it’s deep.
NOAA Teacher at Sea Jordan Findley Aboard NOAA Ship Pisces June 9-22, 2022
Mission: SEAMAP Reef Fish Geographic Area of Cruise: Gulf of Mexico Date: June 5, 2022
Series of Events
In October of 2019, I learned of the NOAA Teacher at Sea Program. Without hesitation – yep, sign me up, and applied in November. In January of 2020, I received the following message:
Dear Applicant,
On behalf of the National Oceanic and Atmospheric Administration’s (NOAA) Teacher at Sea Selection Committee, we are pleased to inform you that you were selected to be a finalist for the 2020 season! Now onto the next steps…
Stoked. Couldn’t be more thrilled. February 2020, medically cleared and ready for the more information call.
(Insert Record Scratch Sound Effect)
January 2020, the U.S. Center for Disease Control and Prevention confirms the first U.S. laboratory-confirmed case of COVID-19, and by March of 2020 the United States declares a nationwide emergency. On March 9, 2020, I was notified of the cancellation of the 2020 NOAA Teacher at Sea season in response to the pandemic.
As for all of us, COVID put a screaming halt to my travel plans, but more importantly the world around us. As the pandemic progressed, the 2021 Teacher at Sea season was also canceled. No, this is not a blog about COVID, and I am in no way downplaying the impact of the pandemic, but it is a part of my story. I, much like all of us, have gained a great deal of perspective, patience, and gratitude (and maybe a few gray hairs) during the last two years, and the anticipation of this trip has made me that much more grateful and excited for the opportunity to participate this season.
Okay, back to the good stuff. March 2022, we are back in action and in April, I received the official cruise offer. NOW I can get excited. In just a few days, June 9-22, 2022, I will be participating in a Gulf SEAMAP Reef Fish Survey on NOAA Ship Pisces. The Pisces will conduct a survey of reef fish on the U.S. continental shelf of the Gulf of Mexico using a custom built spherical stereo/video stationary camera systems and bandit reels. The ship’s EM 2040 multibeam system will be used to map predetermined targeted areas on a nightly basis to improve or increase the reef fish sample universe. A patch test of the EM 2040 multibeam echosounder….
You lost yet? Yea, me too. Looking forward to learning what this actually entails. I shall follow up in layman’s terms.
NOAA Ship Pisces (R-226).Photo courtesy of NOAA.
Introduction
Oh, ahem. Let me introduce myself. Hi, I’m Jordan Findley.
My resume reads, “I am an environmental professional dedicated to demonstrating environmental advocacy and sustainability, while fostering a generation of future environmental stewards.” Professional is relative here. My professional background is in husbandry and environmental education. On a personal level, those who know me well might describe me as an educator, traveler, and outdoor enthusiast. My interests have always aligned with nature, wildlife, and the outdoors and I am continually astonished by our planet and passionate about protecting it.
I grew up in rural Indiana and spent all of my time outside. At an early age, I gained an appreciation for a simple life, a grand adventure, and the beauty of the natural world around me; and that is the essence of my being. I would simply describe myself as a bit of a wanderer with a thirst for life and motivation to inspire others. I’ve spent my entire existence chasing the next big opportunity, and because of that, life has afforded me some amazing opportunities. I often hear, “I live vicariously through you,” but that really isn’t my hope. My hope is that I inspire and empower others to have their own amazing experiences in life, do what they love, and be the best version of themselves.
Loved nature from the startSwimming with sharksEl Yunque National Forest
“Professional” Profile
To be honest, my background is all over the place and true to myself. I hold a B.A. in Zoology and M.A. in Biology from Miami University (that’s Ohio). My education provided fundamental knowledge of animal, environmental, and social sciences and science education. I traveled to Mexico, Australia, and Kenya during graduate school to study human impact on the environment and community-based approaches to conservation. These experiences abroad vastly broadened my view of the world and the environmental challenges it faces.
Superpod of dolphins in BajaGreat Barrier Reef diveMaasai students in Kenya
I worked seasonally until hired as an educator at Tampa Bay Watch (TBW) in 2016. I will spare you all the details of me bouncing from job to job, but I will say it was then that I had some of the most unique experiences and learned of my passion for education. As much as I thought otherwise, I am an educator at heart, but I knew the classroom was never for me. And though I have mad, mad respect for formal educators (you are all saints), I knew that any facilitation I would be doing had to take place outside. Experiential education became my niche and has been such a rewarding job. I get to teach about what I love, be immersed in nature, and be a part of creating meaningful experiences.
A snapshot of my classroom
As the Education Program Coordinator at Tampa Bay Watch, I coordinate and facilitate field trips and camps for students K-12 known as Estuary EDventures. Our programs hosted at the Auer Marine Education Center in Tierra Verde, FL focus on estuary ecology and conservation. Students are exposed to the wonders of our natural world through hands-on, marine science labs and immersive field experiences. Our most popular programs are otter trawling and seining. Why wouldn’t they be? We have so much fun collecting animals of the bay, learning about their unique adaptations, and connecting to the marine environment.
A typical trawl at Tampa Bay Watch finds crabs, seahorses, pufferfish, and other organisms [no sound].
Another view of organisms sampled in a trawl [no sound].
Ready for Sea
I cannot even describe how excited I am to be out at sea working with scientists, and learning something new. Let’s be real, I am not sure I really know what to expect, but I’m here for it.
My time at sea will be spent in my home waters of the Gulf of Mexico. I have so much to learn from this trip and such a great platform to share that knowledge thereafter. I am inspired by the students I see every day, some of whom experience a sea star or puffer fish for the first time. The spark in their eyes I will carry with me on this trip. I have been teaching marine science informally for nearly six years and it never ceases to amaze me. I mean, it’s pretty amazing, right? Our oceans are essential for life and home to millions of species, and its conservation is one of the greatest challenges our scientists face.
I am so incredibly grateful to have been selected to participate in the NOAA Teacher at Sea Program. The allure to this program was the opportunity to be immersed in the research, the hands-on, real-world experience at sea. The goal is to provide my students first-hand exposure to the exciting NOAA research projects at sea. Making their learning relevant through my experience will hopefully ignite a curiosity and excitement for science and build a better understanding and appreciation for our planet.
Weather
Data from the Bridge (at beginning of log)
Latitude: 28.07 Longitude: 93.27.45 Temperature: 84°F Wind Speeds: ESE 13 mph large swells
Science and Technology Log
9/21/19-We left Galveston, TX late in the afternoon once the backup parts arrived. After a few changes because of boat traffic near us, were able to get to station 1 around 21:00 (9:00 pm). We baited the 100 hooks with Atlantic Mackerel. Minutes later the computers were up and running logging information as the high flyer and the 100 hooks on 1 mile of 4mm 1000# test monofilament line were placed in the Gulf of Mexico for 60 minutes. My job on this station was to enter the information from each hook into the computer when it was released and also when it was brought onboard. When the hook is brought onboard they would let me know the status: fish on hook, whole bait, damaged bait, or no bait. Our first night was a huge success. We had a total of 28 catches on our one deployed longline.
NOAA TAS Kathy Schroeder with a red snapper caught on the Oregon II
We caught 1 bull shark (Carcharhinus leucas), 2 tiger sharks (Galeocerdo cuvier), 14 sharp nose sharks (Rhizoprionodon terraenovae), 2 black tip sharks (Carcharhinus limbatus), 7 black nose sharks (Carcharhinus acronotus), and 2 red snappers (Lutjanus campechanus). There were also 3 shark suckers (remoras) that came along for the ride.
Sandbar shark – no tag. Oregon II
I was lucky to be asked by the Chief Scientist Kristin to tag the large tiger shark that was in the cradle. It took me about 3 tries but it eventually went in right at the bottom of his dorsal fin. He was on hook #79 and was 2300mm total length. What a great way to start our first day of fishing. After a nice warm, but “rolling” shower I made it to bed around 1:00 am. The boat was really rocking and I could hear things rolling around in cabinets. I think I finally fell asleep around 3:00.
9/22- The night shift works from midnight to noon doing exactly what we do during the day. They were able to complete two stations last night. They caught some tilefish (Lopholatilus chamaeleonticeps) and a couple sandbar sharks (Carcharhinus plumbeus). My shift consists of Kristin, Christian, Taniya, and Ryan: we begin our daily shifts at noon and end around midnight. The ship arrived at our next location right at noon so the night shift had already prepared our baits for us. We didn’t have a lot on this station but we did get a Gulf smooth hound shark (Mustelus sinusmexicanus), 2 king snake eels (Ophichthus rex), and a red snapper that weighed 7.2 kg (15.87 lbs). We completed a second station around 4:00 pm where our best catch was a sandbar shark. Due to the swells, we couldn’t use the crane for the shark basket so Kristin tried to tag her from the starboard side of the ship.
We were able to complete a third station tonight at 8:45 pm. My job this time was in charge of data recording. When a “fish is on,” the following is written down: hook number, mortality status, genus and species, precaudal measurement, fork measurement, and total length measurement, weight, sex, stage, samples taken, and tag number/comments. We had total of 13 Mustelus sinusmexicanus; common name Gulf smooth-hound shark. The females are ovoviviparous, meaning the embryos feed solely on the yolk but still develop inside the mother, before being born. The sharks caught tonight ranged in length from 765mm to 1291mm. There were 10 females and 3 male, and all of the males were of mature status. We took a small tissue sample from all but two of the sharks, which are used for genetic testing. Three of the larger sharks were tagged with rototags. (Those are the orange tags you see in the picture of the dorsal fin below).
Taking the three measurements
King snake eel caught on a longline.
Personal Log
I spend most of my downtime between stations in the science dry lab. I have my laptop to work on my blog and there are 5 computers and a TV with Direct TV. We were watching Top Gun as we were waiting for our first station. I tried to watch the finale of Big Brother Sunday night but it was on just as we had to leave to pull in our longline. So I still don’t know who won. 🙂 I slept good last night until something started beeping in my room around 4:00 am. It finally stopped around 6:30. They went and checked out my desk/safe where the sound was coming from and there was nothing. Guess I’m hearing things 🙂
Shout out! – Today’s shout out goes to the Sturgeon Family – Ben and Dillon I hope you are enjoying all the pictures – love Aunt Kathy
Mission: Leg III of SEAMAP Summer Groundfish Survey Geographic Area of Cruise: Gulf of Mexico Date: July 18, 2019
Weather Data from the Bridge Latitude: 29.43° N Longitude: 86.24° W Wave Height: 1 foot Wind Speed: 7 knots Wind Direction: 220 Visibility: 10 nm Air Temperature: 31°C Barometric Pressure: 1017.5 mb Sky: Few clouds
Science Log
Over the course of this research experience, I have realized that I was not entirely prepared to assist on this voyage. While I think I have pulled my weight in terms of manpower and eagerness, I quickly realized that not having a background in the biological sciences limits my capacity to identify species of fish. Not growing up in the Gulf region, I am already limited in my understanding and recognition of fish variety through their common names like shrimp, grouper, and snapper. Countless other varieties exist most of which have no commercial fishing value such as boxfish, sea robin, spadefish, and scorpionfish. Fortunately, the microbiology grad student paired with me during wet lab processing has been patient and the fishery biologists assigned to this research party have been informative showing me the basics to fish identification (or taxonomy).
Sorting fish species in the wet lab.
Measuring and weighing a specimen in the wet lab.
The wet lab aboard Oregon II is the nexus of the research team’s work. While the aft deck and the computer lab adjacent to the wet lab are important for conducting research and collecting data, the wet lab is where species are sorted, identified, and entered into the computer. The lab has a faint smell of dead fish and briny water. While the lab is kept clean, it is hard to wash the salt off the surfaces of the lab entirely after every research station.
Alongside the buckets and processing equipment are textbooks, quick reference guides, and huge laminated charts of fish species. Most of the reference material has distinctive color photographs of each fish species with its scientific name listed as the caption. The books in this lab are focused on Gulf and Atlantic varieties as these are what are likely to be found during the surveys. Fishery biologists have a wealth of knowledge, and they pride themselves on knowing all the species that come through the lab. However, occasionally a variety comes through the lab they cannot identify. Some species are less common than others. Even the experts get stumped from time to time and have to rely on the books and charts for identification. To get experience in this process, the biologists have given me crustaceans to look up. I struggle to make matches against pictures, but I have gotten better at the process over the weeks.
Calappa flammea.
As I have learned more about the scientific names of each species we have caught, I have also learned that scientists use a two-name system called a Binomial Nomenclature. Scientists name animals and plants using the system that describes the genus and species of the organism (often based on Latin words and meaning. The first word is the genus and the second is the species. Some species have names that align close to the common name such as scorpionfish (Scorpaena brasiliensis). Others seem almost unrelated to their common name such as scrawled cowfish (Acanthostracion quadricornis).
Acanthostracion quadricornis
Fortunately for those of us who do not identify fish for a living, technology has provided resources to aid in learning about and identifying species of fish we encounter. The FishVerify app, for example, can identify a species, bring up information on its habitat and edibility, and tell you its size and bag limits in area based on your phone’s Global Positioning System (GPS). The app is trained on over a thousand different species with the beta version of the app focused on 150 species caught in the waters of Florida. On our research cruise, we have encountered over 150 species so far.
Me and a large specimen of Epinephelus moiro.
Did You Know?
The naming system for plant and animal species was invented by the Swedish botanist Carl Linnaeus in the 1700s. It is based on the science of taxonomy, and uses a hierarchical system called binomial nomenclature. It started out as a naming system for plants but was adapted to animals over time. The Linnaean system has progressed to a system of modern biological classification based on the evolutionary relationships between organisms, both living and extinct.
Personal Log
Nearly two weeks into this experience and the end of my time with NOAA aboard Oregon II, I find that I have settled into a routine. Being assigned to the “dayshift,” I have seen several sunsets over my shoulder as I have helped deploy research equipment or managed the bounty of a recent trawls. I have missed nearly all the sunrises as the sun comes up five hours after I have gone to bed.
However, these two features along the horizon cannot match the view I have in the morning or late at night. After breakfast and a shower midmorning, I like to spend about 30 minutes gazing at the water from one of the upper decks. The clean light low along the water accentuates its blueish-green hue. In my mind, I roll through an old pack of crayons trying to figure out what color the water most closely represents. Then I realize it’s the Green-Blue one. It is not Blue-Green, which is a lighter, brighter color. The first part of the crayon color name is an adjective describing the second color name on the crayon. Green-blue is really blue with a touch of green, while blue-green is really green with some blue pigment in the crayon. Green-Blue in the crayon world is remarkably blue with a hint of green. The water I have admired on this cruise is that color.
View from fore deck of NOAA Ship Oregon II.
The Gulf in the east feels like an exotic place when cruising so far away from shore. While I have been to every Gulf state in the U.S. and visited their beaches, the blue waters off Florida seem like something more foreign than I am accustomed. When I think of beaches and seawater in the U.S., I think of algae and silt mixed with the sand creating water with a brown or greenish hue: sometimes opaque if the tide is rough such as the coast of Texas and sometimes clear like the tidal pools in Southern California. Neither place has blue water, which is okay. Each place in this world is distinct, but to experience an endless sea of blue is exotic to me.
Retrieving the trawling net at night.
In contrast to vibrant colors of the morning, the late evening is its own special experience. Each night I have been surprised at how few stars I can see. Unfortunately, the tropic storm earlier in the week has produced sparse, lingering clouds and a slight haze. At night the horizon shows little distinction between the water and the sky. The moon has glided in and out of cover. However, the lights atop the ship’s cranes provide a halo around the ship as it cruises across the open water. What nature fails to illuminate, the ship provides. The water under this harsh, unnatural light is dark. It churns with the movement of the boat like thick goo. Yet that goo teems with life. Every so often a crab floats by along the ships current. Flying fish leap from the water and skip along the surface. Glimpses of larger inhabitants dancing on the edge of the ship’s ring: creatures that are much larger than we work up in the wet lab but illusive enough that it can be hard to determine if they are fish or mammal. (I am hopeful they are pods of dolphins and not a frenzy of sharks).
Mission: Leg III of SEAMAP Summer Groundfish Survey Geographic Area of Cruise: Gulf of Mexico Date: July 16, 2019
Weather Data from the Bridge Latitude: 28.51° N Longitude: 84.40° W Wave Height: 1 foot Wind Speed: 6 knots Wind Direction: 115 Visibility: 10 nm Air Temperature: 30.8°C Barometric Pressure: 1021 mb Sky: Clear
Science Log
In my previous blog, I mentioned the challenges of doing survey work on the eastern side of the Gulf near Florida. I also mentioned the use of a probe to scan the sea floor in advance of trawling for fish samples. That probe is called the EdgeTech 4125 Side Scan Sonar. Since it plays a major role in the scientific research we have completed, I wanted to focus on it a bit more in this blog. Using a scanner such as this for a groundfish survey in the Gulf by NOAA is not typical. This system was added as a precaution in advance of trawling due to the uneven nature of the Gulf floor off the Florida Coast, which is not as much of a problem the further west one goes in the Gulf. Scanners such as these have been useful on other NOAA and marine conservation research cruises especially working to map and assess reefs in the Gulf.
Preparing to put the side scan over board.
Having seen the side scanner used at a dozen different research stations on this cruise, I wanted to learn more about capabilities of this scientific instrument. From the manufacturer’s information, I have learned that it was designed for search and recovery and shallow water surveys. The side scanner provides higher resolution imagery. While the imagining sent to our computer monitors have been mostly sand and rock, one researcher in our crew said he has seen tanks, washing machines, and other junk clearly on the monitors during other research cruises.
This means that the side scanner provides fast survey results, but the accuracy of the results becomes the challenge. While EdgeTech praises the accuracy of its own technology, we have learned that accurate readings of data on the monitor can be more taxing. Certainly, the side scanner is great for defining large items or structures on the sea floor, but in areas where the contour of the floor is more subtle, picking out distinctions on the monitor can be harder to discern. On some scans, we have found the surface of the sea floor to be generally sandy and suitable for trawling, but then on another scan with similar data results, chunks of coral and rock have impeded our trawls and damaged the net.
Sample scan from monitor in the computer lab. The light areas are sandy bottom. The dark is either seaweed or other plant material or rocks. The challenge is telling the difference.
Did You Know?
In 1906, American naval architect Lewis Nixon invented the first sonar-like listening device to detect icebergs. During World War I, a need to detect submarines increased interest in sonar. French physicist Paul Langévin constructed the first sonar set to detect submarines in 1915. Today, sonar has evolved into more sophisticated forms of digital imaging multibeam technology and side scan sonar (see https://oceanexplorer.noaa.gov/explorations/lewis_clark01/background/seafloormapping/seafloormapping.html for more information).
Personal Log
When I first arrived aboard Oregon II, the new environment was striking. I have never spent a significant amount of time on a trawling vessel or a research ship. Looking around, I took many pictures of the various features with an eye on the architectural elements of the ship. One of the most common fixtures throughout the vessel are posted signs. Lamented signs and stickers can be found all over the ship. At first, I was amused at the volume and redundancy, but then I realized that this ship is a communal space. Throughout the year, various individuals work and dwell on this vessel. The signs serve to direct and try to create consistency in the overall operation of the ship and the experience people have aboard it. Some call the ship “home” for extended periods of time such as most of the operational crew. Others, mostly those who are part of the science party, use the vessel for weeks at a time intermittently. Before I was allowed join the science party, I was required to complete an orientation. That orientation aligns with policies of NOAA and the expectation aboard Oregon II of its crew. From the training, I primarily learned that the most important policy is safety, which interestingly is emblazoned on the front of the ship just below the bridge.
Safety First!
The signs seem to be reflective of past experiences on the ship. Signs are not only reminders of important policies and protocols, but also remembrances of challenges confronted during past cruises. Like the additional equipment that has been added to Oregon II since its commission in 1967, the added signs illustrate the history the vessel has endured through hundreds of excursions.
Bureau of Commercial Fisheries Ship Oregon II (1967), which was later transferred to NOAA when the administration was formed in 1970.
NOAA Ship Oregon II in 2017 on its 50th Anniversary.
Examples of that history is latent in the location and wording of signs. Posted across from me in the computer lab are three instructional signs: “Do not mark or alter hard hats,” “Keep clear of sightglass do not secure gear to sightglass” (a sightglass is an oil gauge), and “(Notice) scientist are to clear freezers out after every survey.”
A collage of four signs around NOAA Ship Oregon II
Another collage of four signs around NOAA Ship Oregon II
Another collage of signs around NOAA Ship Oregon II
Author and journalist Daniel Pink talks about the importance of signs in our daily lives. His most recent work has focused on the emotional intelligence associated with signs. Emotional intelligence refers to the way we handle interpersonal relationships judiciously and empathetically. He is all about the way signs are crafted and displayed, but signs should also be thought of in relation to how informative and symbolic they can be within the environment we exist. While the information is usually direct, the symbolism comes from the way we interpret the overall context of the signs in relation to or role they play in that environment.
Mission: Leg III of SEAMAP Summer Groundfish Survey
Geographic Area of Cruise: Gulf of Mexico
Date: July 8, 2019
Weather Data from the Bridge
Latitude: 30.35° N Longitude: 88.6° W Wave Height: 1-2 feet Wind Speed: 10 knots Wind Direction: Northwest Visibility: 10 nm Air Temperature: 33°C Barometric Pressure: 1012 mb Sky: Few clouds
Science Log
Day one of my trip and we are delayed leaving. Growing up in Oklahoma, you think you know weather until one of the NOAA fishery biologists assigned to the ship provides you a lengthy explanation about the challenges of weather on setting sail. As he put it, the jet stream is throwing off the weather. This is true. Studies have suggested that for a few years the polar jet stream has been fluctuating more than normal as it passes over parts of the Northern Hemisphere. The jet stream is like a river of wind that circles the Northern Hemisphere continuously. That river meanders north and south along the way. When those meanders occur over the Atlantic and the Pacific Oceans, it can alter pressure systems and wind patterns at lower latitudes and that affects how warm or raining it is across North America and Europe.
This spring in Oklahoma, it has led to record-breaking rains that have flooded low lying areas across the Great Plains and parts of the southeastern United States. Thunderstorms have generally been concentrated in the southern and middle section of the US as the jet stream dips down. The NOAA biologist also indicated that the delay in our departure could be blamed on the El Niño effect.
El Niño is a natural climate pattern where sea water in the central and eastern tropical Pacific Ocean is warmer than average. This leads to greater precipitation originating from the ocean. According to NOAA scientists, El Niño is calculated by averaging the sea-surface temperature each month, then averaging it with the previous and following months. That number is compared to average temperatures for the same three-month period between 1986 and 2015, called the Oceanic Niño index. When the index hits 0.5 degrees Celsius warmer or more, such as right now, it’s classified as an El Niño. When it’s 0.5 degrees Celsius cooler or more, it’s a La Niña. During an El Niño, the southern part of the U.S. typically experiences wetter than average conditions, while the northern part is less stormy and milder than usual. During a La Niña, it flips, with colder and stormier conditions to the north and warmer, less stormy conditions across the south. However, the El Niño this year has been classified as weak, which means typically the wetter conditions do not push into the Gulf of Mexico region, but exceptions can occur. With the fluctuating jet stream, the El Nino has vacillated between the Plains region and the upper South and regions closer to the Gulf. Thus, the storm causing our delayed departure comes from a weather condition that has been pushed further south by the jet stream.
While these may be causes for the delayed departure, the actual sailing conditions at the time of our voyage are the main concerns. Looking at the NOAA Marine Forecast webpage (https://www.nws.noaa.gov/om/marine/zone/off/offnt4mz.htm), the decision for our delay is based on a storm producing significant wave heights, which are the average height of the highest 1/3 of the waves. Individual waves may be more than twice the average wave heights. In addition, weak high pressure appears to dominate the western Gulf and will likely last mid-week. Fortunately, we are set sail into the eastern Gulf off the coast of Florida. We should be able to sail behind the storm as it moves west. We do have to watch the surface low forming along a trough over the northeast Gulf later in the week. The National Hurricane Center in Miami (which provided weather data in the Atlantic and the Gulf for NOAA) predicts that all of this will intensify through Friday (July 12) as it drifts westward. This will produce strong to near gale force winds and building seas for the north central Gulf. Hopefully by then we will be sailing south of it.
Digital interface map for regions of the Gulf of Mexico and its weather forecasts (National Weather Service, NOAA)
Did You Know?
The weather terms El Niño and La Niña can be translated from Spanish to English as boy and girl, respectively. El Niño originally applied to an annual weak warm ocean current that ran southwards along the coast of Peru and Ecuador around Christmas time before it was linked to a global phenomenon now referred to as El Niño–Southern Oscillation. La Niña is sometimes called El Viejo, anti-El Niño, or simply “a cold event.” El Niño events have been occurring for thousands of years with at least 26 occurring since 1900.
Personal Log
I boarded NOAA’s Oregon II yesterday when the ship was virtually empty. It was Sunday, and we were not set to leave until mid-afternoon the following day (and now Tuesday, July 9). Spending the night on the ship was more comfortable than I had expected. While the stateroom was cramped (I share it with one other crew member), the space is surprisingly efficient. I had plenty of space to store my gear. The bunkbed was more cozy than restricted.
Even though it was Sunday and everything was closed, I had to stop for a selfie.
My first look at NOAA Ship Oregon II.
My first day in Pascagoula, MS was spent learning about the town. Pascagoula is a port city with a historic shipyard. Pascagoula is home to the state’s largest employer, Ingalls Shipbuilding, the largest Chevron refinery in the world, and Signal International, an oil platform builder. Prior to World War II, the town was a small fishing community, but the population jumped with war-driven shipbuilding. The city’s population peak in the late 1970s, but today, there are less than 25,000 in the area. Pascagoula continues to be an industrial center surrounded by the growing tourism industry across the Gulf region to the east and west of the port. The population also declined when Naval Station Pascagoula was decommissioned in 2006. The old naval base is located on manmade strip of land called Singing River Island and is in the middle of the port. The port still maintains a large Coast Guard contingent as well as serving as the home portfor the NOAA Ships Gordon Gunter, Oregon II, and Pisces. The NOAA port is actually called the Gulf Marine Support Facility and is located a block from NOAA’s National Marine Fisheries Service Mississippi Laboratory.
Mission: Microbial Stowaways: Exploring Shipwreck Microbiomes in the deep Gulf of Mexico
Geographic Area: Gulf of Mexico
Date: July 1, 2019
Interview with Scientist Melanie Damour
Melanie Damour is the Co-Principal Investigator and Co-Chief Scientist on the expedition. She is responsible for directing all archaeological aspects of the investigation. We talked about her path to her career, and her advice for young people who might want to pursue ocean science.
Melanie Damour, Marine Archaeologist
When I asked her what sea creature she would choose to be, she immediately answered “A mermaid. Mermaids have the agility of fish, but they are smart.” Melanie may not be a mermaid, but she is agile as a fish and smart.
Melanie knew from early childhood what she wanted to be when she grew up. Her father was a fire and rescue diver, and Melanie sometimes got to see him at work. She was fascinated by scuba diving. With her father’s support, she learned to scuba dive when she was only eight years old. The second event that shaped her career was a visit to the USS Constitution in Boston Harbor. This historic sailing ship is open to the public and played an important role in the war for independence from Britain. When Melanie visited this ship, she was awed by the ship and its history, and decided that somehow she was going to marry her two favorite things – diving and maritime history – for her career.
She got her scuba diving certification when she was 14 years old, and studied history in high school. She went to Florida State University to study anthropology. She took classes in archaeology, cultural and physical anthropology, and linguistics, all the disciplines within Anthropology. She was offered a teaching assistantship which allowed her to get into a graduate program and study submerged paleoindian sites in Florida. The offer was too good to refuse, so she began her graduate work at Florida State right away. Now she works for the federal Bureau of Ocean Energy Management (BOEM) as a marine archaeologist.
Melanie reflected on what makes a good scientist. Her first response was that good scientists are always asking questions; being curious is what leads to new understandings. It’s also important to be open-minded. Scientists can’t expect things to turn out a certain way as this would blind them to what is actually happening. A scientist has to be persistent in the face of problems and always be looking for different ways and better ways to attack a problem. The ability to work well in a team is key. Each member of a good team contributes to the end goal. Taking into account different perspectives leads to a more accurate and complete picture.
Melanie has worked on projects in the Gulf of Mexico, the Atlantic and the Pacific. Her personal research interests led her to Guatemala, where she worked in Lake Petén Itzá on a submerged Mayan port site. She went to Panama to map a Spanish merchant ship that sank off the coast in 1681. This is her favorite shipwreck so far. It is well preserved by the river sediments that poured into the Gulf there. The ship contains hundreds of wooden boxes full of supplies that Spain had sent to the colonies. The boxes contain nails and scissors, and some yet to be opened my contain books that are still preserved. After this expedition, Melanie is heading to Mexico to dive with her husband on a site that may turn out to be her new favorite. They will be looking for the wreck of one of the ships belonging to Hernán Cortés, the Spanish explorer. In 1519, Cortés sank his own ships to prevent his crew from leaving and returning to Cuba. This set the course for the conquest of the Aztecs. Last summer, Melanie and her husband found an anchor and wood that dated to the early 1500s. The wood was determined to be from Spain. This puts the anchor in the right time frame to be one of Cortés’ sunken ships.
Melanie pointed out that it isn’t easy to get a job as a marine archaeologist because it is a small field and there are not many permanent jobs. But she also encourages anyone who wants to pursue this as a career to be persistent and not give up. “It’s not always a straight line from A to B,” she says; in fact, you may discover that when your plan isn’t working out, you actually prefer the new track your life takes – that Plan B option that you may not have known existed when you began your career.
“The greatest threat to our oceans today is humans,” Melanie said. “Our lack of consideration for the consequences of our actions is the greatest threat we face.”
Marine archaeology is one of many subdisciplines in ocean sciences, and the future of our oceans depends on many scientists working together to reverse the trajectory of degradation we are on.
