NOAA Teacher at Sea
Clare Wagstaff
Onboard NOAA Ship Nancy Foster
September 11 – 18, 2009
Mission: Florida Keys coral reef disease and condition survey Geographical Area: Florida Keys – Dry Tortugas National Park Date: Saturday, September 12, 2009
Contact Information
Clare Wagstaff Sixth and Eighth Grade Science Teacher Elmwood Franklin School 104 New Amsterdam Ave Buffalo, NY 14216
cwagstaff@elmwoodfranklin.org
Weather Data from the Bridge (information taken at 12 noon)
Weather: Sunny with scattered showers and thunderstorms
Visibility (nautical miles): 10
Wind Speed (knots): 10
Wave Height (feet): 2
Sea Water Temp (0C): 30
Air Temp (0C): 30
Science and Technology Log
Mike Henley, Kathy Morrow and Dr. Joshua Voss, the survey team aboard NF4.
With another early start under our belts, the science team and I are up, breakfast eaten, briefed on today’s mission, and ready to embark on another day of coral surveying. The ship deployed three v-hulled small boats for us to reach our dive sites. The divers have been split up into three teams and I get to go along with Joshua, Kathy and Mike on the NF4. Out of the boats, this is the newest and fastest, much to the delight of our science team! Having done the practice run yesterday at the QA site, the divers seem keen and eager to get into the water and identify the coral.
So how do they actually survey the area?
Each group works in a team of three, surveying a radial arc belt transect. Each of the sites has already been previously marked, normally with a large metal or PVC pipe inserted into the area to be surveyed.
Mike is the line tender, which means that his job is to hold the ten meter line straight out from the post, just a few feet above the coral. He slowly moves the line around the pole in an arc. The line is marked at eight and ten meters. At each of these lengths a short marker hangs down to signal the two-meter survey area. The objective is then for Kathy and Joshua to observe the coral and note the number of species of coral present, their size and how they interact with each other, while also recording the presence of disease (type and percentage cover) within the 113.1m2 area.
Chief Scientist, Scott Donahue showed me some of the months of paperwork that was required for this mission to happen. Scott stated that he started work on preparing for this trip nearly four years ago, first requesting time aboard the Nancy Foster and then proceeding with recruiting scientists and permits. Today we are required to have a ‘Scientific Research and Collecting Permit’ for the surveys in Dry Tortugas National Park.
Personal Log
Survey team of Kathy Morrow (top, middle), Mike Henley (top, left) and Dr. Joshua Voss (bottom, right) surveying site LR6.
What a great day! I am starting to find my feet and get more comfortable with how the ship works, getting to know the science team, and learning more about the actual coral. I haven’t been sea sick, which seems pretty remarkable to me considering my past history with boats! The sun has been shining and the water is clear and reasonably warm at around 30 oC.
Even though the water may sound warm, I am still wearing my wetsuit, much to the amusement of some of the other divers who are complaining that they are too warm in the shorty wetsuits (only to the knee and elbow). I classify myself as part of the “wimp divers” association. I was quite content and comfortable in my 3mm, full body wetsuit and had hours of enjoyment snorkeling around. However, wearing a full wetsuit does let you forget that there are some parts of your body that still get exposed to sunlight. The tops of my hands are bright red and are nicely sunburned from being in the water most of the day with no sunscreen on them! Oh well, I’ll remember next time.
“Did You Know”
Being a novice at coral identification, Blade Fire coral (Millepora complanta) looks similar to Fused Staghorn coral (Acropora prolifera). However, they are actually very different. Fire coral is a hydroid and is in fact more closely related to the Portuguese Man ‘O’ War than other classes of coral! Hydrozoans usually consist of small colonies of polyps that are packed with stinging cells called nematocysts on the tentacles of the polyps. Watch out though, it can give you a very nasty sting and rash!
Long-spined Urchin (Diadema antillarum) and Boulder star coral (Montastraea annularis)
The variety of marine wildlife observed was much greater today than previous dives. The dive sites were much shallower, which meant that as a snorkeler I could really observe much more and in more detail. At only eight to ten feet in depth and with good visibility, this made for a great and interesting dive. One of the science team commented that it was good to observe these echinoderms in the coral reefs. They eat algae that can negatively compete with the coral. So there presence is excellent news for the coral.
NOAA Teacher at Sea
Clare Wagstaff
Onboard NOAA Ship Nancy Foster
September 11 – 18, 2009
Mission: Florida Keys coral reef disease and condition survey Geographical Area: Florida Keys – Key West Date: Saturday, September 11, 2009 (Day 1)
Contact Information
Clare Wagstaff Sixth and Eighth Grade Science Teacher Elmwood Franklin School 104 New Amsterdam Ave Buffalo, NY 14216
cwagstaff@elmwoodfranklin.org
Weather Data from the Bridge (12 noon)
Weather: Overcast early am and sunny pm
Visibility (nautical miles): 10
Wind Speed (knots): 2
Wave Height (feet): <1
Sea Water Temp (0C): 30.4
Air Temp (0C): 27.5
Science and Technology Log
“The first few days are always a settling in period,” commented one of the scientists this morning. It seems as if there is so much to do and already there may not be enough time! The majority of the science crew and I arrived yesterday afternoon into the warm and sunny Key West. A pleasant change to the cold, Autumnal weather I had been experiencing in Buffalo, NY. We boarded our new home for eight days, the NOAA ship Nancy Foster. The objective of the eight-day research cruise is to survey multiple preselected coral reef sites and study the coral for its condition and the presence of disease. The assessment of each dive site will be done by a group of NOAA qualified SCUBA divers who are also trained scientists, mainly marine biologists. This study has been performed for the last 13 years and has so far amassed a large quantity of data that has produced technical memorandums, peer review papers, and an EPA (Environmental Protection Agency) publication based on the data from cruises 1997 through to 2002 cruises.
I have been kindly invited along as a Teacher At Sea to witness the science team in action and serve as part of the project’s outreach messaging service. The objective is to give the general public a broader understanding of the cruise’s mission.
The science team on board the Nancy Foster is made up of the following people:
Scott Donahue – Chief Scientist NOAA’s Florida Keys National Marine Sanctuary Interesting Fact: Scott’s main inspiration to study lobsters early on in his academic research, was partially based on the fact that he loves to eat them! Scott commented that there are always a few lobsters leftover after a study, but that they never go to waste!
Geoff Cook – Co-Principal Investigator George Mason University, Virginia. Interesting fact: Geoff is currently writing his dissertation for his Ph.D. on comparing bacterial communities associated with diseased and apparently healthy corals.
Lauri MacLaughlin – Co-Principal Investigator NOAA’s Florida Keys National Marine Sanctuary Interesting Fact: Lauri has close to 2,000 dives logged and has personally mapped the majority of the coral reef sites this cruise is studying. She has a special rapport with the ocean and corals, knowing individual coral heads and jokingly referring to them as her “babies!”
Josh Voss, Ph.D. – Co-Principal Investigator Robertson Coral Reef Program
Lonny Anderson – Survey Team Member NOAA’s Florida Keys National Marine Sanctuary, Florida. Interesting Fact: Lonny used to help his parents with their commercial spear fishing business, catching grouper and red snapper off Daytona Beach. Now Lonny is working to protect the things he used to kill!
Paul Chetirkin – Videographer Monterey Bay National Marine Sanctuary
Mike Henley – Survey Team Member Smithsonian’s National Zoological Park, Washington D.C. Interesting Fact: Mike is interested in all invertebrates and will happily skip the panda bear exhibit at the zoo in preference to watching the cutle fish!
George Garrett – Survey Team Member City of Marathon
Sarah Fangman – Cruise Dive Master and Survey Team Member NOAA’s Gray’s Reef National Marine Sanctuary
Interesting Fact: Originally from Minnesota, as a young child Sarah went to the Grand Cayman on vacation. She became so captivated with the underwater life there that even when she got extremely sunburned she still wanted to snorkel and was only allowed to fully clothed! Sarah has also ventured 10,000 ft down in the submersible ALVIN in the Gulf of Mexico.
Kathy Morrow – Survey Team Member Auburn University, Alabama. Interesting Fact: Kathy is actually studying coral “snot” as part of her Ph.D. program. Strangely enough, she is extremely passionate about it and has had a great interest in marine biology since she went to Sea Camp in 6th grade!
Cory Walter – Survey Team Member Mote Marine Laboratory’s Tropical Research Lab, Florida.
Day one begins with a 7am breakfast followed by a gear check and a brief meeting with the science team. The ships Operations Officer and Chief Scientist go over the day’s dive plan. The objective today is to ensure that all the divers are identifying the correct species of coral, correctly estimating their size, and identify any coral disease present.
The dive teams quickly collected all the necessary dive gear and prepared to board two small boats borrowed from the Florida Keys National Marine Sanctuary. These take us from the Nancy Foster to the shallower dive sites. The first location today is set within the Florida Keys Marine Sanctuary and is located near to one of the 5 lighthouses in the area that mark the shallow reefs. Certain areas have been marked off with buoys that signal a “No Take Zone”, where extractive activities are not allowed (e.g. fishing, collecting coral, catching lobsters).
Each of the dive sites that we will be surveying has a unique name. The sites to be surveyed were originally randomly generated by a computer program when the research first began in 1997. The first dive site we visit today is called Sand Key Reef also referred to as SK01. This is the location for QA/QC dive survey, which stands for quality assurance/quality control. The objective is for each diver to assess the same area of coral and identify each species over 10cm in diameter (except Agarica (all species) and Dichocoenia stokesii which are measured if they are over 5cm). This site is always used to establish a baseline in identification. Inter and intra quality assurance takes place, checking not only each diver against each other, but also against themselves by each diver repeating the surveying process of surveying this site twice.
Where are we?
A map of the Florida Keys National Marine Sanctuary
The Florida Keys is a chain of islands at the southern most tip of Florida. About 100,000 years ago the area was under the waters of the Atlantic Ocean and existed as a string of living coral reefs at the edge of the continental shelf. The sea level was 25 feet higher then than today. As the last glacier period (the Wisconsin) began, the ocean receded and the sea level dropped, exposing the coral reefs. The combination of various environmental factors killed the coral, but left bedrock of limestone exposed as land. As the climate and sea level changed over the preceding years, the lower elevation limestone has partially resubmerged and allowed living corals to attach and grow again, forming a new coral reef “highway”, 4 to 5 mile offshore. The science team will be surveying coral reef sites inside the Florida Keys National Marine Sanctuary and Dry Tortugas National Park.
Staghorn Coral (Acropora cervicornis), in the same family as the Elkhorn (Acropora palmata)
On the third dive site for the day, Lauri MacLaughlin pointed out multiple Elkhorn Corals (Acropora palmata) whose appearance is just as its name suggests! Lauri noted that these were relatively young corals, perhaps just a few years old due to their size. She also stated that they had reproduced through sexual reproduction because there was no fragmentation of their flattened branches, which would happen in asexual reproduction. This coral is on the United States Endangered Species list and classified as threatened.
Because we departed early this morning on board the sanctuary boats, the science team missed the safety drills that are performed within 24 hours of each ship departing port. Instead the Operations Officer, Abigail Higgins gave us a run down of the safety procedures. We were also required to try on our survival emersion suits.
Personal Log
The science team and Teacher at Sea, Clare Wagstaff in their survival suits
Well here I am at last! My second attempt at being a NOAA Teacher At Sea! In May of 2008 I was on board the JOHN COBB studying harbor seals when the engine crankshaft broke just a few days into the mission. The JOHN COBB was not only the smallest, but also the oldest ship in NOAA’s fleet. With a crew of just eight, everyone knew each other well and lived in very close proximity. However, the NANCY FOSTER is very different. At 187ft in length it is nearly doubles the size of the JOHN COBB. In fact, the NANCY FOSTER has it beaten on almost all fronts regarding scale. Built originally as a Navy yard torpedo test (YTT) craft, she was outfitted in 2001, to conduct a variety of oceanic studies along the U.S. Atlantic and Gulf coasts and within the Caribbean Sea. It is crewed by 21 people and can accommodate 15 scientists. It seems quite strange to be at sea again on a NOAA ship, but in such very different circumstances. I keep comparing it to the JOHN COBB and I still feel a little sad that I was on the JOHN COBB’s last mission before it was decommissioned.
I am sharing the smallest room with one of the ships crew, Jody Edmond. Jody is a Mate in Training. It is a simple, yet comfortable room, with two bunks, a small wardrobe, a desk and a sink. However, for two people to both standup in the same space let a lone get dressed or brush your teeth, it is very difficult due to the cramped conditions! Jody is living on the boat full time and so has a lot more “stuff” than I, so I am trying very hard not to take up too much room. Because the ship needs to be constantly manned 24 hours a day, the crew on the bridge is on a shift system working 12-4 (am and pm), 4-8 (am and pm), or 8-12 (am and pm). Some of the crew even work a schedule of 12 hours on and then 12 hours off, a pretty long day! Jody is on the 12-4 shift, which means during the majority of the time I am a wake she is sleeping. This isn’t uncommon so everyone on the ship has to be respectful of the noise level and keep relatively quiet during all hours of the day near the sleeping berth areas.
One of the many barracuda that would circle around snorkelers
Unfortunately, although I am a qualified NAUI (National Association of Underwater Instructors) scuba diver, I am not certified by NOAA (National Oceanic and Atmospheric Administration) to dive. This means that during the dives I will only be able to snorkel and so I must watch from above what the scientists are doing below. I thought this would lead to some frustration on my part, as I would love to be working side by side with the science team 30 feet below the surface.
However, while the divers survey the area, I snorkel around on the surface watching them. I am not alone though! I am surrounded by moon jellyfish and one rather large barracuda that seemed to take quite a liking to me. I am very careful to avoid swimming into the jellyfish, which can cause a nasty sting and keep my hands close to my body incase the barracuda thinks my fingers might be dinner!
“New Term/Phrase/Word” Hyperplasia – is a general term referring to the proliferation of cells within an organ or tissue beyond that which is ordinarily seen. This can be seen in coral species such as symmetrical brain coral (Diploria strigosa). Geoff Cook described this as a coral looking like Arnold Schwarzenegger or a coral having Botox!
A brain coral
Coral Mucus or “coral snot”– secreted by the coral. When too much dirt (sediment) collects on the sticky mucus layer, the coral sloughs it off and makes a new one, acting as a replaceable defense mechanism. Some corals also use it to catch food and it is loaded with microbes, not unlike our skin.
“Who are they?”
Florida Keys National Marine Sanctuary
Established in 1990 it was done so to protect a spectacular marine ecosystem. It encompasses 2,800 square miles. It is the only sanctuary that completely surrounds a community, that of all the Florida Keys.
NOAA
National Oceanic and Atmospheric Administration Formed in 1970, it is a Federal agency focused on the conditions of the oceans and the atmosphere. It encompasses, daily weather forecasts, severe storm warnings and climate monitoring to fisheries management, coastal restoration and supporting marine commerce.
“Did You Know?” Key West got its name after the Spanish conquistadores reportedly found a beach in the southern most islands stern with the bleached bones of the Native Americans. They called the key, Cayo Hueso (pronounced KY-o WAY-so) or “Island of bones”. Bahamian settlers pronounced the Spanish name as Key West!
Flamingo Tongue on a common sea fan (Gorgonia ventalina)
“Animals Seen Today”
Among many different species of coral and other animals, was a personal favorite of mine Flamingo Tongues. These are a variety of snail that are predators that feed on gorgonians (sea fans).
NOAA Teacher at Sea
Miriam Hlawatsch
Onboard NOAA Ship Nancy Foster July 29 – August 10, 2007
Mission: Lionfish Survey Geographical Area: Atlantic Ocean, off the coast of North Carolina Date: August 6-7, 2007
The science team awoke to this notice on Monday, August 6th.
Personal Log
Bad news… late Sunday night the ship’s main computer, the Integrated Vessel Monitoring and Control system failed. The IVMC functions as the brain of the ship —monitoring engineering related systems such as propulsion, ship’s power, fire main, tank levels, alarms, etc. CDR James Verlaque returned NANCY FOSTER to the Ft. Macon Coast Guard Station. We awoke to find the mission on hold—so, for two days; I became a Teacher in Port. At one point during our stay, NANCY FOSTER was relocated from the Coast Guard station to the state port in Morehead City. To everyone’s delight, we learned we would be underway again at 0900 hours, August 8th. As most of the scientists live nearby, they returned to their homes and jobs at the NOAA research facility in Beaufort, NC. The ship was very quiet while they were away…
CDR James Verlaque supervises as ENS Marc Weekley docks NOAA ship NANCY FOSTER in the Morehead City port.
Science Log
Objective #6: Deploy and retrieve temperature sensors…
Understanding that lionfish are tropical and their survival is dependent upon temperature, Chief Scientist Paula Whitfield continues to collect data to answer questions regarding the role temperature plays in lionfish distribution in North Carolina waters. Along the North Carolina shelf, temperature in waters deeper than 90 feet are moderated year round by the warm Gulf Stream current. Data collected from surveys on this research cruise suggest lionfish are not found in high numbers in water shallower than 90 feet. Laboratory studies have revealed lionfish will not tolerate temperatures below 11ºC (52ºF) and it appears they stop eating at temperatures below 16ºC (61ºF). Lionfish will die at 10ºC (50ºF). To better understand the role temperature plays in limiting lionfish distribution, temperature sensors were deployed along the seafloor to monitor seasonal bottom water temperatures. Sensors deployed during the 2006 mission were retrieved and will be analyzed. New sensors are being deployed during this mission and will be retrieved in 2008.
NOAA divers, Thor Dunmire and Roger Mays analyze air supply tanks during our stay in the Morehead City port.How do the warm waters of the Gulf Stream contribute to lionfish distribution along the southeastern coast of the US?Gulf Stream winter temperature gradient for Onslow Bay, NC.Chief Scientist Paula Whitfield
NOAA Teacher at Sea
Miriam Hlawatsch
Onboard NOAA Ship Nancy Foster July 29 – August 10, 2007
Mission: Lionfish Survey Geographical Area: Atlantic Ocean, off the coast of North Carolina Date: August 5, 2007
Crew of the NOAA ship NANCY FOSTER deploys a small boat at a pre-marked dive site.
Weather Data from the Bridge
Visibility: 10 miles
Wind Direction: 0º
Wind Speed: 0
Sea Wave Height: 0 ft.
Swell Wave Height: 2-3 ft.
Seawater Temperature: 29ºC
Sea Level pressure: 1015.5 mb (millibars)
Cloud Cover: 0-1 oktas
Personal Log
The weather continues to be extremely favorable for dive operations and I look forward to assisting as dive tender again tomorrow morning. For the past week, I’ve observed as the NOAA divers and crew of the NANCY FOSTER work together to facilitate the study of lionfish in their watery habitat. Also, I’ve watched with great interest as the divers prepared themselves for their underwater excursions. Having purchased a wet suit in preparation for my Teacher at Sea adventure I thought I had an appreciation for these preparatory activities. Imagine my surprise when Coxswain Leslie Abramson informed me my wetsuit was too big (I couldn’t imagine squeezing into anything smaller). NOAA diver Roger Mays clarified the issue noting, tongue in cheek, that the proper fitting wetsuit should take at least five minutes to put on and the experience should hurt. Obviously there is more to diving than the wetsuit “experience,” so I asked Doug Kesling from NOAA’s Undersea Research Center (NURC) for specific information regarding diver training and specialized equipment.
A team of NOAA divers leaves the NANCY FOSTER. Small boats are used to transport the scientists and their equipment to and from the actual dive sites.
Science Log
Doug Kesling addressed three key components–training, equipment and dive operation procedure. All divers on the NOAA Ship NANCY FOSTER are certified to dive with standard open water SCUBA (Self Contained Underwater Breathing Apparatus) techniques. Additional training in scientific diving research methods is provided by the NOAA Diving Program and the NOAA Undersea Research Program at the University of North Carolina Wilmington. Divers use standard dive equipment that consists of dive mask, fins, snorkel, cylinder, buoyancy compensator, scuba regulator, dive computer and wet suit. Additional tools–tape measures, quadrates, goody bags, video and still photographic equipment–also must be transported by the divers to the sea floor. To conduct their underwater research, the scientists dive to depths of 100 to 120 feet. Prior to each dive, the divers fill their Scuba cylinders with an enriched air nitrox (EANx) mixture to 3500 psig. Each mix must be analyzed to ensure a safe breathing mix for the targeted depth. Compared to tanks of compressed air (21 % oxygen), the enriched mixture enables the scientists to double the amount of time they can spend underwater. In preparation for their dive, divers don wet suits and load their equipment onto the small boats. The boats are lowered from the mother ship onto pre-marked dive sites. Working in buddy teams of two or three, the divers’ underwater work times range from 25 to 30 minutes. To return to the surface divers first ascend to a depth of 20 feet. At this point they conduct a safety stop of three to five minutes to allow off gassing of nitrogen (inert gas) from the body before surfacing. Divers then surface and are recovered by the small boats. The boats return to the mother ship where they are hoisted back on deck and off loaded.
NOAA diver Roger Mays conducts a safety stop to decompress before surfacing.Dive Team A: NOAA divers, Brian Degan, PaulaWhitfield, Doug Kesling, and Wilson FreshwaterDive team B: NOAA Divers Jenny Vander Pluym, Thor Dunmire, and Roldan Muñoz (left) and Dive team C: NOAA divers Brad Teer, Roger Mays, and Tom Potts (right)
NOAA Teacher at Sea
Miriam Hlawatsch
Onboard NOAA Ship Nancy Foster July 29 – August 10, 2007
Mission: Lionfish Survey Geographical Area: Atlantic Ocean, off the coast of North Carolina Date: August 4, 2007
On the Bridge, XO LT. Stephen Meador and CO CDR. James Verlaque plot the course for NOAA ship NANCY FOSTER.
Weather Data from the Bridge
Visibility: 10 miles
Wind Direction: 215º
Wind Speed: 1 knot
Sea Wave Height: 1 ft.
Swell Wave Height: 2-3 ft.
Seawater Temperature: 28.5ºC
Sea Level pressure: 1016.0 mb (millibars)
Cloud Cover: 3-5 oktas, cumulous
Personal Log
While on the Bridge today, Commanding Officer James Verlaque allowed me a brief opportunity to steer the ship and set the course for a new dive location. Activity on the Bridge continues to fascinate me. It takes tremendous attention to detail to keep NANCY FOSTER safe in the water. It is most evident that the success of the scientific mission and the safe efficient operation of the ship are a result of the true spirit of cooperation between the crew and scientists aboard. The fact that everyone (crew and science) shares the mess during meals serves to reinforce the team approach. Certainly, it afforded me an opportunity to get to know many on an individual basis.
NOAA Officers keep NANCY FOSTER safe and on course.
Science Log
Objective #5: Conduct multi-beam sonar transects using RV NANCY FOSTER at multiple locations.
NANCY FOSTER is one of a fleet of research and survey vessels used by NOAA to improve our understanding of the marine environment. She is equipped with sonar technology to conduct hydrographic surveys of the sea floor. Chief Scientist Paula Whitfield explains that, for this mission, specialized multi-beam sonar technology is used to create detailed maps of potential dive areas. Habitat mapping is important because it provides specific information that will allow her to make decisions about where to send divers for sampling; otherwise, there could be a great deal of wasted effort, both in terms of time and resources.Multi-beam Bathymetric Sonar is technology that provides detailed, full-coverage mapping of the sea floor using multiple sonar beams (sound waves) in a fan-shaped pattern or swath. The ship goes back and forth in straight lines over a pre-determined area much like a lawn mower goes back and forth over the grass, making sure the entire area has been covered. In addition to habitat mapping, multi-beam hydrographic surveys have many applications such as navigation safety and civil engineering projects.
Example of a Multi-beam swathMulti-beam survey resultsNOAA scientists Paula Whitfield and Brian Degan compare bottom topography for dive site selection (left) and hydrographic survey technicians Missy Partyka and Mike Stecher (left).
