NOAA Teacher At Sea Liz Harrington Aboard NOAA Ship Oregon II August 10 – 25, 2013
Mission : Shark/Red Snapper Bottom Longline Geographical area of cruise: Western Atlantic Ocean and Gulf of Mexico Date: Aug 25 , 2013
Weather: current conditions from the bridge:
Partly Sunny
Lat. 30.15 °N Lon. 88.46 °W
Temp. 80 °F (26.9 °C)
Humidity 82 %
Wind speed 8.26 knots
Barometer 30.08 in (1018.75 mb)
Visibility 10 mi
Science and Career Log
It has been just over two weeks since I boarded the Oregon II. In that time I have had the chance to speak with many people who work aboard the ship. These people are either members of the NOAA Corps, members of the scientific team or civilian mariners employed by NOAA. The NOAA Commissioned Officers Corps is one of the seven uniform services of the United States. Corps graduates operate NOAA’s ships and aircraft and work in positions to support NOAA’s environmental and scientific missions. Their job assignments alternate between sea duty (or air duty if associated with the aviation program) and land duty. It is an interesting career that offers the opportunity to travel as well as to be a participant in NOAA missions.
Of the five ship officers, four are members of the NOAA Corps: the Executive Officer (second in command of the ship) LCDR Eric Johnson, Operations Officer LTJG Matthew Griffin, Navigation Officer Brian Adornato and Junior Officer Rachel Pryor. The Commanding Officer, Master Dave Nelson, is a civilian captain who has spent his life on the water and has worked his way up from a deck hand. All of the ship’s officers are friendly, knowledgeable and professional. I’m in great hands with them in charge.
During some free time away from her NOAA Corps duties, ENS Rachel Pryor would sometimes help the day shift. Here she teaches Micayla how to remove otoliths.Officers and Chief Scientists often discuss the best possible course when sites are clustered together.One possible route for the day. This may change depending on weather, tide and currents.
The deck crew who worked the day shift with me consisted of the Chief Boatswain Tim Martin and the Skilled Fishermen Chuck Godwin and Mike Conway. They work well together and they were very helpful to me while I was learning the deck routines. The Chief Boatswain (pronounce bō´ sun) supervises members of the deck crew and oversees all deck operations, including safety, training and maintenance.
There are four NOAA scientists onboard, two for each shift. Scientists Lisa Jones and Eric Hoffmayer are both on the night shift with the three volunteers Dave, Al and Muri. The day shift is covered with research biologists Kristin Hannan and Amy Schmitt, along with volunteers Mikayla, Cliff and Daniel. Kristin is the Chief Scientist for this leg of the cruise, so she is in charge of making the decisions dealing with the scientific portion of the cruise. This involves coordination between herself, officers on the bridge (where the ship is being driven) and the deck shift leader. This role is rotated among the some of the scientists. Lisa will be the Chief Scientist for the next leg of the cruise.
Kristin and Tim are ready to set the line. They will receive word from the bridge when the ship has reached the correct coordinates.
One important job on this ship that I have to mention is the Chief Steward, which is held by Walter Coghlan. Walter is in charge of feeding everyone on board and he is great at what he does. As a Chief de Cuisine, he is very well trained and it shows in his meals. When living aboard a ship I think the food takes on more importance. It is not easy to keep everyone happy but Walter is doing it. The menu always has a number of choices and the meals are prepared fresh daily. I’m eating like a queen.
Chief Steward Walter Coghlan keeps everyone well fed.
Personal Log
My days aboard the Oregon II are coming to an end. We had been working our way north along the western coast of Florida. Now the fishing has stopped and we are traveling along the panhandle towards the home port of Pascagoula, Mississippi. This morning, far on the horizon, I could just barely make out the rectangular shapes of beachside hotels and condominiums. But the fishing remained good to the end with two different shark species being caught. One was an Angel Shark (genus Squatina), which I’m told is not normally caught on a longline. The other was a Cuban Dogfish(Squalus cubensis), which was the first one caught this season. So, we are ending on a good note. We will now travel to the harbor entrance off the coast of Pascagoula. We will wait until morning and arrive at the dock bright and early.
I have mixed feelings about the going to shore. I’m happy to be going home to see my family and begin school, but I am sorry this experience is coming to an end. I have enjoyed every minute of this trip. Of course it is the people that have made it so rewarding. They have been so friendly and welcoming to me. The science has been very interesting to me as well. I have lots of stories to share and a new interest in sharks. Back at school we’ll be following the sharks with the satellite tags. One part of this experience that I hadn’t put much thought into before coming is the life at sea. Living aboard a ship is a unique experience with the limited amount of space, the 24/7 schedules, the weather and the constant motion of the waves. It bonds the people into a big family, one that I’m going to miss but will be talking about for a long time.
New Term- Dock rock = The sensation the ground is moving after spending time at sea.
David holds an Angel Shark caught on the last haul back. (photo courtesy of David Seay)Liz with Tile Fish (photo courtesy of Micayla Keipert)Pale Spotted Eel can be difficult to measure.There is lots of life on this piece of coral that was brought up on the line.Cliff weighs a Barracuda.Tagging a Nurse SharkEverything aboard a ship needs to be secured due to the motion of the waves. The doors are secured with a hook like this one.Getting ready for the haul back – rain or shine. (photo courtesy of Micayla Keipert)Chuck and Kristin remove a hook from a Sandbar Shark.“The Day Shift”. In back from left: Cliff, Daniel, Kristin and Micayla. Front from left: Liz and Amy. (Photo courtesy of Tim Martin)Scientists Kristin Hannan and Amy Schmitt prepare to weigh a shark that has been brought up on deck.One last picture before leaving the Oregon II. (photo courtesy of Lisa Jones)
This blog is titled Yakutat or Bust because there is a great deal of hope to complete the survey around Yakutat, Alaska in the southeast. On the map below, the green mark is our position in the water near Kodiak Island (the survey actually began a bit west near the islands of Four Mountains) and the red is our final destination of Yakutat Bay. (Photo courtesy of GoogleEarth)
The purpose of this cruise is to survey the walleye pollock (Theragra chalcogramma)in the Gulf of Alaska. Pollock is a significant fishery in the United States as well as the world. Pollock, a certified sustainable fishery, is processed into fish sticks, fish patties and imitation crab. Last year, about 3 million tons of pollock were caught in the North Pacific. The scientists on board will collect data to determine the pollock biomass and age structure. These data are used with results from other independent surveys to establish the total allowable pollock catch.
Our First Pollock Catch
According to the Alaska Fisheries Science Center, typically pollock grow to about 50 cm and weigh about .75 kg. They live in the water column and feed on small krill, zooplankton, and small fish as they grow. As they age they will eat other pollocks. Sexual maturity is reached around age 4. Spawning and fertilization occurs in the water column in early spring. The eggs stay in the water column and once hatched are part of the zooplankton until they are free swimming.
The general process used to catch the pollock involves multiple parts. I will break down those steps in a series of blogs. But basically, acoustics are used to locate fish in the water column. Once the scientists have located the fish along the transect (transects are the paths that the ship will travel on so the scientists can collect data), the Oscar Dyson sets out a trawl equipped with a camera. The trawl is brought in and data from the catch is documented. And then the ship continues on.
Bringing in the Aleutian Wing Trawling (AWT) Net
Trawling is usually completed only during daylight hours. Fortunately the sun does not set here in Alaska right now until after 10 pm. When it is dark, work aboard the Oscar Dyson continues. For example, one of the scientists is documenting the sea floor with a drop camera. She is looking at life that is there as well as potential threats to the trawl nets for the bottom trawl surveys.
Preparing the Drop Camera
Questions to Think About:
How do scientists use acoustics to locate pollock?
How are the transects locations determined?
How are pollock and the rest of the catch processed?
What information is retrieved from the trawl camera and other types of sensors?
What is a bottom trawl and how is it different from a mid-water trawl?
What types of careers are available on the Oscar Dyson?
Personal Log:
Before we left Kodiak Island on July 22, I was able to spend a day exploring alone and with some of the members of the science team while the crew prepared the ship. The town of Kodiak is one of seven communities on the island and the central location for all commercial transportation on and off the island either by airplane or ferry boat.
Flying into the Kodiak Airport
Kodiak is the ancestral land of the Sugpiaq, native Alaskans of the Alutiq Nation, who subsisted by hunting, fishing, farming, and gathering. Russian explorers were the first outsiders to visit the island, and under Grigory Shelikof, established a settlement in 1792 that became the center of Russian fur trading. Following the 1867 Alaska Purchase from Russia, the island and the rest of Alaska became the 49th of the United States in 1959. Russian influence is still apparent on Kodiak: the Shelikof Strait separates Kodiak Island from mainland Alaska and the Holy Resurrection Russian Orthodox Cathedral holds a full house on Sunday mornings.
Holy Resurrection Russian Orthodox Church
Flora and fauna are abundant in this beautiful location. On a short hike, I was able to sample the delicate salmonberries; fear the beautiful, yet invasive and poisonous hogweed; and watch a gorgeous sunset.
Delicate SalmonberriesInvasive HogweedSunset on Kodiak Island
Did You Know?
The background of scientists on the Oscar Dyson varies; however, most have a strong affinity for the ocean and spent a lot of time outdoors exploring nature and playing with various critters as children. Kirsten, for example, is a post-doctoral researcher funded by the National Research Council. She has a BS degree in Marine Biology from Roger Williams University in Rhode Island as well as MS and PhD degrees in Oceanography and Coastal Sciences with a concentration in Fishery Science from Louisiana State University in Baton Rouge. She came aboard the ship to develop a time series of krill distribution in the Gulf of Alaska and to relate that to other species of importance such as pollock.
Kirsten’s Krill Collection
Something to Think About:
STEM (Science, Technology, Engineering, and Math) are not the only important subjects to know to work on the Oscar Dyson. All three crews on the ship (NOAA Corp, Deck/Fishery Crew, and Scientists) use writing every day. Below are pictures of two log books: one records Weather Data by the NOAA Corp and the other Scientists’ notes.
NOAA Corp Weather LogScientists’ Trawling Log
Fun Fact:
Alaska’s official flag is based on a design by Benny Benson, a thirteen year old boy. It was submitted in a territory-wide contest for schoolchildren sponsored by the American Legion in 1926. Benny Benson chose the background color of the flag to represent both the blue sky and the forget-me-not. The Alaska legislature later named the forget-me-not as Alaska’s official state flower. The flag inspired the state song, the lyrics of which are seen in the picture below. Marie Drake wrote the lyrics, and Elinor Dusenbury composed the song.
NOAA Teacher at Sea
Scott Davenport
Aboard NOAA Ship Bell M. Shimida
May 21-May 27, 2012
Mission: Rockfish Survey Geographical area of cruise: Eastern Pacific, off the California coast and next to the Mexican Border Date: May 21, 2012
Personal Log
Hi, my name is Scott Davenport and I am excited to be a part of NOAA’s Teacher at Sea Program. It is going to be great. I teach at Paul T. Albert Memorial School located in scenic Tununak, Alaska. It is a Yup’ik village on the Bering Sea. Most families practice subsistence living. My subject is junior high generalist, meaning I teach everything. Last year, I had a great group of seventh and eighth graders. It was my first year in Alaska and as a full-time teacher. Everyone learned a lot.
Tununak Seventh and Eighth Graders. Can you tell it is the last day of school?
Teacher at Sea intrigued me because it opens wide array of possibilities. A consistent issue at our school is what comes next? Graduation is a celebration, but it also brings apprehension and uneasiness. There are not a wide range of jobs in the village. It is normally limited to fishing, teaching, being a cashier, store stocker, or bush pilot. A NOAA boat offers a wider range of careers. My experience on the ship will help my students make connections to new possibilities. The long cruises followed by long breaks fit with subsistence living. They can have the time to go on a two week moose hunt and not miss work. Being located on the sea, most of my students are acclimated to spending time on the water. My experience will open eyes.
While on board the Bell M. Shimada, we have seven objectives. Objective #1: Sample the epi-pelagic micronekton. That means–thanks to Cynthia explaining it to me–we are going to see what is living in the upper water column. The specific fish we are looking for are the juvenile rockfish. We will also survey Pacific whiting, juvenile lingcod, northern anchovy, Pacific sardine, market squid and krill. Objective #2: Characterize prevailing ocean conditions and examine prominent hydrographic features. Objective #3: Map the distribution and abundance of krill. Objective #4: Observe seabird and marine mammal distribution and abundance. Objective #5: Collect Humboldt squid. Objective #6: Conduct deep midwater trawls to examine mesopelagic specimen. Finally Objective #7: Examine feeding habits of jellyfish. My personal objective is to not vomit at sea.
The three things I am looking forward to most are meeting new people, witnessing scientific research, and learning new, unexpected items. My three biggest concerns are falling overboard at night into a never-ending dark abyss, the food, and making sure I contribute to the work/use my time wisely. I am also excited to have a break from snow.
NOAA Teacher at Sea Ellen O’Donnell Onboard NOAA Ship Delaware II May 14 – May 25, 2012
Mission: North Atlantic Right Whale Survey Geographical area of the cruise: Atlantic Ocean; Georges Basin heading back to Woods Hole
Date: May 23, 2012
Weather Data from the Bridge: Light winds, fog, ocean swells between 3 to 5 feet.
Science and Technology Log:
Tropical Storm Alberto brought in a low pressure system so Tuesday evening we headed back to Provincetown to wait out the effects. It takes about 12 hours to get between Georges Basin and Provincetown. We spent the day in port and everyone caught up on work and reading. It was a welcome rest from the excitement of the past 4 days.
Beth Josephson consolidating ocean survey data from around the US
Tuesday evening we pulled up anchor and headed back out to our right whale spot. Unfortunately, the fog creeped in and it was decided to head back to Woods Hole and cut our survey short. I have to say I am disappointed, but Mother Nature isn’t always cooperative and you can’t beat our previous successful days. While my trip is just about over, the scientists still have a great deal to do. The photos need to be matched up with known right whale individuals, whale poop and biopsies need to be analyzed, and reports need to be written. Data collection is very important, but don’t forget you need to handle the data correctly in order to make correct conclusions.
Being a NOAA scientist is a very exciting career. For many of these folks, this research survey was one of many. Two of our group will be doing an aerial survey next week searching for previously tagged seals. Other future trips include going to New Zealand on a southern right whale survey trip, and a trip to Alaska on an arctic ocean mammal survey. These people not only get to travel around the world, but they are top in their field and really making a difference in conserving our ocean environment. I feel incredibly lucky to have been one of their team on this survey cruise. It has definitely been an opportunity of a lifetime.
The scientist crew aboard the Delaware II including me!
Personal Log:
It has been fascinating learning about NOAA. While I have always heard of this organization, and even used their materials for lesson plans, I never fully understood its place in our government until now.
NOAA’s Mission:
Science, Service, and Stewardship To understand and predict changes in climate, weather, oceans, and coasts, To share that knowledge and information with others, and To conserve and manage coastal and marine ecosystems and resources
So I have mentioned three key groups that are important to this organization; the scientists, the NOAA Commissioned Corps, and the wage mariners. I already mentioned the scientists so now I’ll explain about the NOAA Corps. The NOAA Corps is one of the seven uniformed services of the United States. Officers operate ships, fly aircraft, facilitate research projects, conduct diving operations, and serve in staff positions throughout NOAA. To be eligible for the NOAA corps you need to have a baccalaureate degree, preferably in a major course of study related to NOAA’s scientific or technical activities. You also need a certain number of science and math course work hours while at college. Once accepted, recruits attend a 4-5 month training camp, and then are placed on a 2 to 3 year permanent assignment aboard a NOAA research vessel. Here is a link to a great video which describes the NOAA Officer Corps program. If only I were younger! http://www.corpscpc.noaa.gov/flash/recruit_video.html
Executive Officer, Lieutenant Commander Sean CimillucaCommanding Officer, Lieutenant Commander Rick Hester and Ensign Junie Cassone on the bridge
You can also be a part of NOAA by becoming a wage mariner. Wage mariners are civilians who perform various functions within NOAA. Civilian vessel jobs include deck mates, engineers, stewards, survey and electronic technicians. I talked about several of these groups in my previous blogs. The wage mariner program is a great way to see the world without joining the Corps. Some wage mariners stay with one vessel for many years, whereas others put themselves in a pool where they travel to whatever ship may need them. Here is a link to watch a video about the wage mariner program. http://www.moc.noaa.gov/shipjobs/WMvideos/WMv3_Complete_640x480_Caps.mov
So it’s hard to believe my trip is coming to an end. I can’t thank NOAA enough for this opportunity and I can’t wait to bring what I’ve learned into the classroom. This has been a rich experience for me that I will never forget. Memories of trying to walk normally on a rocking ship, to getting within 15 feet of a right whale, and working with these dedicated people will be with me for the rest of my life!
NOAA Teacher at Sea: Margaret Stephens NOAA Ship:Pisces Mission: Fisheries, bathymetric data collection for habitat mapping Geographical Area of Cruise: SE United States continental shelf waters from Cape Hatteras, NC to St. Lucie Inlet, FL Date: May 28, 2011 (Last day!)
NOAA Ship Pisces. Photo credit: Richard Hall
Weather Data from the Bridge As of 06:43, 28 May
Latitude 30.15
Longitude 80.87
Speed 7.60 knots
Course 285.00
Wind Speed 10.77 knots
Wind Direction 143.91 º
Surface Water Temperature 25.53 ºC
Surface Water Salinity 36.38 PSU
Air Temperature 24.70 ºC
Relative Humidity 92.00 %
Barometric Pressure 1011.10 millibars
Water Depth 30.17 m
Skies: clear
NOAA Teacher at Sea Margaret Stephens and Scientist David Hoke in Pisces attire.
Science and Technology Log
These scientists are not only smart, but they are neat and clean, too! After completing final mapping and fish sampling on the second-to-last day, we spent the remainder of the time cleaning the wet (fish) lab, packing all the instruments and equipment, and carefully labeling each item for transport. We hosed down all surfaces and used non-toxic cleaners to leave the stainless steel lab tables and instruments gleaming, ready for the next research project. The Pisces, like other NOAA fisheries ships, is designed as a mobile lab platform that each research team adapts to conform to its particular needs. The lab facilities, major instruments and heavy equipment are permanent, but since research teams have different objectives and protocols, they bring aboard their own science personnel, specialized equipment, and consumable supplies. The primary mission of NOAA’s fisheries survey vessels, like Pisces, is to conduct scientific studies, so the ship’s officers and crew adjust and coordinate their operations to meet the requirements of each research project. The ship’s Operations Officer and the Chief Scientist communicate regularly, well before the project begins and throughout the time at sea, to facilitate planning and smooth conduct of the mission.
Gag grouper (top, Mycteroperca microlepis) and red snapper (Lutjanus campechanus) specimens, labeled for further study Photo credit: David Berrane
“Wet” (fish) lab aboard Pisces, cleaned and ready for next research team
We made up for the two days’ delay in our initial departure (caused by mechanical troubles and re-routing to stay clear of the Endeavor space shuttle launch, described in the May 18 log), thanks to nearly ideal sea conditions and the sheer hard work of the ship’s and science crews. The painstaking work enabled the science team to fine tune their seafloor mapping equipment and protocols, set traps, and accumulate data on fish populations in this important commercial fishing area off the southeastern coast of the United States. The acoustics team toiled every night to conduct survey mapping and produce three dimensional images of the sea floor. They met before sunrise each morning with Chief Scientist Nate Bacheler to plan the daytime fish survey routes, and the fish lab team collected two to three sets of six traps every day. The videographers worked long hours, backing up data and adjusting the camera arrays so that excellent footage was obtained. In all, we obtained ten days’ worth of samples, brought in a substantial number of target species, red snapper and grouper, recorded hours of underwater video, and collected tissue and otolith samples for follow-up analysis back at the labs on land.
Models
Scientists and engineers often use models to help visualize, represent, or test phenomena they are studying. Models are especially helpful when it is too risky, logistically difficult, or expensive to conduct extensive work under “live” or real-time conditions.
Divers exploring hardbottom habitat Photo Credit: Douglas E. Kesling, UNCWilmington, CIOERT
As described in previous logs, this fisheries work aboard Piscesinvolves surveying and trapping fish to analyze population changes among commercially valuable species, principally red snapper and grouper, which tend to aggregate in particular types of hardbottom habitats. Hardbottom, in contrast to sandy, flat areas, consists of rocky ledges, coral, or artificial reef structures, all hard substrates. By locating hardbottom areas on the sea floor, scientists can focus their trapping efforts in places most likely to yield samples of the target fish species, thus conserving valuable time and resources. So, part of the challenge is finding efficient ways to locate hardbottom. That’s where models can be helpful.
The scientific models rely on information known about the relationships between marine biodiversity and habitat types, because the varieties and distribution of marine life found in an area are related to the type of physical features present. Not surprisingly, this kind of connection often holds true in terrestrial (land) environments, too. For example, since water-conserving succulents and cacti are generally found in dry, desert areas, aerial or satellite images of land masses showing dry environments can serve as proxies to identify areas where those types of plants would be prevalent. In contrast, one would expect to find very different types of plant and animal life in wetter areas with richer soils.
Traditional methods used to map hardbottom and identify fish habitat include direct sampling by towing underwater video cameras, sonar, aerial photography, satellite imaging, using remotely operating vehicles (ROV’s), or even setting many traps in extensive areas. While they have some advantages, all those methods are labor and time-intensive and expensive, and are therefore impractical for mapping extensive areas.
This Pisces team has made use of a computer and statistical model developed by other scientists that incorporates information from previous mapping (bathymetry) work to predict where hardbottom habitat is likely to be found. The Pisces scientists have employed the “Dunn” model to predict potential hardbottom areas likely to attract fish populations, and then they have conducted more detailed mapping of the areas highlighted by the model. (That has been the principal job of the overnight acoustics team.) Using those more refined maps, the day work has involved trapping and recording video to determine if fish are, indeed, found in the locations predicted. By testing the model repeatedly, scientists can refine it further. To the extent that the model proves accurate, it can guide future work, making use of known physical characteristics of the sea floor to identify more areas where fish aggregate, and helping scientists study large areas and develop improved methods for conservation and management of marine resources.
Deploying CTD. Photo credit: David HokeDeploying CTD. Photo credit: David Hoke
Conductivity, Temperature and Depth (CTD) Measurements
Another aspect of the data collection aboard Pisces involves measuring key physical properties of seawater, including temperature and salinity (saltiness, or concentration of salts) at various depths using a Conductivity, Temperature and Depth (CTD) device.
Salinity and temperature affect how sound travels in water; therefore, CTD data can be used to help calibrate the sonar equipment used to map the sea floor. In other instances, the data are used to help scientists study changes in sea conditions that may affect climate. Increases in sea surface temperatures, for example, can speed evaporation, moisture and heat transfer to the atmosphere, feeding or intensifying storm systems such as hurricanes and cyclones.
Pisces’ shipboard CTD, containing a set of probes attached to a cylindrical housing, is lowered from the side deck to a specified depth. A remote controller closes the water collection bottles at the desired place in the water column to extract samples, and the CTD takes the physical measurements in real time.
Fresh Catch
Of all the many species collected, only the red snapper and grouper specimens were kept for further study; most of the other fish were released after they were weighed and measured. A small quantity was set aside for Chief Steward Jesse Stiggens to prepare for the all the ship’s occupants to enjoy, but the bulk of the catch was saved for charitable purposes. The fish (“wet” lab) team worked well into overtime hours each night to fillet the catch and package it for donation. They cut, wrapped, labeled and fresh froze each fillet as carefully as any gourmet fish vendor would. Once we disembarked on the last day, Scientist Warren Mitchell, who had made all the arrangements, delivered over one hundred pounds of fresh frozen fish to a local food bank, Second Harvest of Northern Florida. It was heartening to know that local people would benefit from this high-quality, tasty protein.
Careers at Sea
Crewmen Joe Flora and Vic Pinones
Many crew members gave generously of their time to share with me their experiences as mariners and how they embarked upon and developed their careers. I found out about many, many career paths for women and men who are drawn to the special life at sea. Ship’s officers, deck crew, mechanics, electricians, computer systems specialists, chefs and scientists are among the many possibilities.
Chief Steward Jesse Stiggens worked as a cook in the U.S. Navy and as a chef in private restaurants before starting work with NOAA. He truly loves cooking, managing all the inventory, storage and food preparation in order to meet the needs and preferences of nearly forty people, three meals a day, every day. He even cooks for family and friends during his “off” time!
First Engineer Brett Jones
Electronics specialist Bob Carter, also a Navy veteran, is responsible for the operations and security of all the computer-based equipment on board. He designed and set up the ship’s network and continually expands his skills and certifications by taking online courses. He relishes the challenges, responsibilities and autonomy that come along with protecting the integrity of the computer systems aboard ship.
First Engineer Brent Jones has worked for many years in the commercial and government sectors, maintaining engines, refrigeration, water and waste management, and environmental control systems. He gave me a guided tour of the innards of Pisces, including four huge engines, heating and air conditioning units, thrusters and rudders, hoists and lifts, fresh water condenser and ionizers, trash incinerator, and fire and safety equipment. The engineering department is responsible for making sure everything operates safely, all day and night, every day. Brent and the other engineers are constantly learning, updating and sharpening their skills by taking specialized courses throughout their careers.
Chief Boatswain James Walker
Chief Boatswain James Walker is responsible for safe, efficient operations on deck, including training and supervising all members of the deck crew. He entered NOAA after a career in the U.S. Navy. The Chief Boatswain must be diplomatic, gentle but firm, and a good communicator and people manager. He coordinates safe deck operations with the ship’s officers, crew, and scientific party and guests.
NOAA officers are a special breed. To enter the NOAA Commissioned Officer Corps, applicants must have completed a bachelor’s degree with extensive coursework in mathematics or sciences. They need not have experience at sea, although many do. They undergo an intensive officers’ training program at a marine academy before beginning shipboard work as junior officers, where they train under more experienced officers to learn ship’s systems and operations, protocols, navigation, safety, personnel management, budgeting and administrative details. After years of hard work and satisfactory performance, NOAA officers may advance through the ranks and eventually take command of a ship.
Operations Officer, Lt. Tracy HamburgerJunior Officer Michael Doig
All the officers and crew aboard Pisces seem to truly enjoy the challenges, variety of experiences and camaraderie of life at sea. They are dedicated to NOAA’s mission and take pride in the scientific and ship operations work. To be successful and satisfied with this life, one needs an understanding family and friends, as crew can be away at sea up to 260 days a year, for two to four weeks at a time. There are few personal expenses while at sea, since room and board are provided, so prudent mariners can accumulate savings. There are sacrifices, as long periods away can mean missing important events at home. But there are some benefits: As one crewman told me, every visit home is like another honeymoon!
Personal Log
One size fits all?
Navy Showers
I had expected that life aboard Pisceswould include marine toilets and salt water showers with limited fresh water just for rinsing off. I was surprised to find regular water-conserving flush toilets and fresh water showers. Still, the supply of fresh water is limited, as all of it is produced from a condensation system using heat from the engines. During our ship orientation and safety session on the first day, Operations Officer Tracy Hamburger and Officer Mike Doig cautioned us to conserve water. They explained (but did not demonstrate!) a “Navy” shower, which involves turning the water on just long enough to get wet, off while soaping up, and on again for a quick rinse. It is quite efficient – more of us should adopt the practice on land. Who really needs twenty minute showers with fully potable water, especially when more than one billion people on our “water planet” lack safe drinking water and basic sanitation?
One size fits all?
“Abandon Ship!”
One size fits all?
The drill I had anticipated since the first pre-departure NOAA Teacher at Sea instructions arrived in my inbox finally happened. I had just emerged from a refreshing “Navy” shower at the end of a fishy day when the ship’s horn blasted, signaling “Abandon ship!” We’d have to don survival suits immediately to be ready to float on our own in the sea for an indefinite time. Fortunately, I had finished dressing seconds before the alarm sounded. I grabbed the survival suit, strategically positioned for ready access near my bunk, and walked briskly (never run aboard ship!) to the muster station on the side deck. There, all the ship’s occupants jostled for space enough on deck to flatten out the stiff, rubbery garment and attempt to put it on. That’s much easier said than done; it was not a graceful picture. “One size fits all”, I learned, is a figment of some manufacturer’s imagination. My petite five foot four frame was engulfed, lost in the suit, while the burly six- foot-five crewman alongside me struggled to squeeze himself into the same sized suit. The outfit, affectionately known as a Gumby, is truly designed for survival, though, as neoprene gaskets seal wrists, leaving body parts covered, with only a small part of one’s face exposed. The suit serves as a flotation device, and features a flashing light, sound alarm, and other warning instruments to facilitate locating those unfortunate enough to be floating at sea.
Thankfully, this was only a test run on deck. We were spared the indignity of going overboard to test our true survival skills. I took advantage of the opportunity to try a few jumping jacks and pushups while encased in my Gumby.
Fish bet ‐‐ Rigged results? Photo credit: Jen Weaver
Bets Are On!
These scientists are fun-loving and slightly superstitious, if not downright mischievous. On the last day, Chief Scientist Nate Bacheler announced a contest: whoever came closest to predicting the number of fish caught in the last set of traps would win a Pisces t-shirt that Nate promised to purchase with his personal funds. In true scientific fashion, the predictions were carefully noted and posted for all to see. As each trap was hauled in, Nate recorded the tallies on the white board in the dry lab. Ever the optimist, basing my estimate on previous days’ tallies, I predicted a whopping number: 239.
I should have been more astute and paid more attention to the fact that the day’s survey was planned for a region that featured less desirable habitats for fish than previous days. Nate, of course, having set the route, knew much more about the conditions than the rest of us did. His prediction: a measly 47 fish. Sure enough, the total tally was 38, and the winner was………Nate! Our loud protests that the contest was fixed were to no avail. He declared himself the winner. Next time, we’ll know enough to demand that the Chief Scientist remove himself from the contest.
Chief Scientist Nate Bacheler and red snapper, Lutjanus campechanus Photo credit: David Hoke
Crewman Kirk Perry with Mahi‐mahi
Catching Mahi-mahi
Once the day’s deck work was over, a fish call came over the ship’s public address system. Kirk Perry, one of the avid fishermen among the crew, attached a line baited with squid from the stern guard rail and let it troll along unattended, since a fishing pole was unnecessary. Before long, someone else noticed that the line had hooked a fish. It turned out to be a beautiful mahi-mahi, with sleek, streamlined, iridescent scales in an array of rainbow colors, and quite a fighter. I learned that the mahi quickly lose their color once they are removed from the water, and turn to a pale gray-white once lifeless. If only I were a painter, I would have stopped everything to try to capture the lovely colors on canvas.
Goodbyes
We entered Mayport under early morning light. An official port pilot is required to come aboard to guide all ships into port, so the port pilot joined Commander Jeremy Adams and the rest of the officer on the bridge as we made our way through busy Mayport, home of a United States Naval base. Unfortunately, the pier space reserved for Pisces was occupied by a British naval vessel that had encountered mechanical problems and was held up for repairs, so she could not be moved. That created a logistical challenge for us, as it meant that Pisces had to tie up alongside a larger United States naval ship whose deck was higher than ours. Once again, the crew and scientists showed their true colors, as they braved the hot Florida sun, trekking most of the gear and luggage by hand over two gangplanks, across the Navy ship, onto the pier, and loading it into the waiting vehicles.
The delay gave me a chance to say farewell and thank the crew and science team for their patience and kindness during my entire time at sea.
These eleven days sailed by. The Pisces crew had only a short breather of a day and a half before heading out with a new group of scientists for another research project. To sea again….NOAA’s work continues.
All aboard!
A big “Thank you!” to all the scientists and crew who made my time aboard Pisces so educational and memorable!
Science team. Photo credit: NOAA Officer Michael Doig
Dunn, D, Halpin, P (2009) Rugosity-based regional modeling of hard-bottom habitat. Marine Ecology Progress Series 377:1-11
Safety! I hope I never have to use that fire axe!Sky view from Pisces. Photo credit: David HokeView from Pisces: United States Navy’s Littoral Combat ShipEngineers Abe Goldberg and Bob CarrollLoading gear with crane & hoistLoading gear with crane & hoistCommander Jeremy Adams looks out from Pisces’ bridge Photo credit: Richard Hall
