NOAA Teacher at Sea Alexandra Keenan (Almost) Onboard NOAA Ship Henry B. Bigelow June 18 – June 29
Mission: Cetacean biology Geographical Area of Cruise: Gulf of Maine Date: June 16, 2012
Personal Log
Saludos! My name is Alexandra Keenan, and I teach Astronomy and Physics at Rio Grande City High School. Rio Grande City is a rural town located at the arid edge of the Rio Grande Valley. Because of our unique position on the Texas-Mexico border, our community is characterized by a rich melding of language and culture. Life in a border town is not always easy, but my talented and dedicated colleagues at RGC High School passionately advocate for our students, and our outstanding students gracefully rise to and surmount the many challenges presented to them.
Me in downtown Rio Grande City. Our historic buildings are evocative of the old “Wild West.”Taquerias dot the highway running through our town– evidence of the binational character of the community.
I applied to the NOAA Teacher at Sea program because making careers in science seem real and attainable to students is a priority in my classroom. NOAA, the National Oceanic and Atmospheric Administration, provides a wonderful opportunity for teachers to have an interdisciplinary research experience aboard one of their research or survey ships. I believe that through this extraordinary opportunity, I can make our units in scientific inquiry and sound come alive while increasing students’ interest in and enthusiasm for protecting our ocean planet. I will also be able to provide my students firsthand knowledge on careers at NOAA. I hope to show my students that there is a big, beautiful world out there worth protecting and that they too can have an adventure.
The adventure begins on June 18th when the NOAA ship Henry B. Bigelow departs from Newport, RI. I’ll be on the vessel as a member of the scientific research party. We will be monitoring populations of the school-bus-sized North Atlantic right whale by:
using photo-identification techniques
obtaining biopsies from live whales (wow!)
catching zooplankton
recovering specials buoys that have been monitoring the whales’ acoustic behavior (the sounds they make)
Aerial view of North Atlantic right whale swimming with calf. (photo: NOAA)
Why would we do all of this? Because North Atlantic Right Whales are among the most endangered whales in the world. Historically, they were heavily hunted during the whaling era. Now, they are endangered by shipping vessels and commercial fishing equipment. The data we gather and analyze will help governing bodies make management decisions to protect these majestic animals.
NOAA ship Henry B. Bigelow (photo: NOAA)
The next time you hear from me, it’ll be from the waters of the Gulf of Maine!
NOAA Teacher at Sea Barbara Koch NOAA Ship Henry B. Bigelow
September 20-October 5, 2010
Mission: Autumn Bottom Trawl Survey Leg II Geographical area of cruise: Southern New England Date: Tuesday, October 5, 2010
Weather from the Bridge Latitude 40.63 Longitude -72.92 Speed 4.80 kts Course 293.00 Wind Speed 19.13 kts Wind Dir. 139.69 º Surf. Water Temp. 18.76 ºC Surf. Water Sal. 31.62 PSU Air Temperature 16.20 ºC Relative Humidity 89.00% Barometric Pres. 101.44 mb Water Depth 28.52 m Cruise Start Date 10/2/2010
Science and Technology Log
In addition to collecting data about fish species in the Southern New England Atlantic Ocean, NOAA Ship Henry B. Bigelow is also collecting information about the ocean’s climate and plankton numbers. lankton refers to microscopic plants (phytoplankton), animals (zooplankton), decomposers (bacterioplankton), and the fish eggs and larvae of larger fish (ichthyoplankton). Plankton forms the base of the ocean food web. Phytoplankton is the food source for zooplankton, which in turn is the food source for larger fish. Water salinity and termperature (climate) are directly related to the production of plankton. A change in climate can cause a decrease in the production of plankton, therefore, less food for developing fish species. Low numbers of fish at the bottom of the food web means less food for fish at the top of the food web.
Reviewing Data
Plankton samples are taken at random trawl stations during the cruise. I had the opportunity to observe and assist the Senior Survey Technician, Jim Burkitt, during one sampling. Burkitt uses a Bongo Paired Zooplankton net system, which consists of two stainless steel cylinders with instruments that measure water flow, and two cone-shaped, fine mesh nets attached. The nets are lowered into the ocean and dragged alongside the ship for a specified amount of time, and at all levels of the ocean column. Burkitt monitors the location of the nets via computer during the sampling to ensure that the nets do not touch the ocean floor, thus gathering sediment instead of plankton.
Sampling
Retrieving the nets
The crew retrieves the nets at the end of the sampling period and places it on the deck of the ship. Once the nets are back on deck, we rinse the plankton from the top to the narrow, tied end of the nets byspraying the nets from the top towards the bottom.
Rinsing the plankton
PlanktonFinished Sample
When the catch is located at the bottom of the nets, we untiethe bottom and continue rinsing the sample into metal strainers. The top strainer has a large mesh screen to trap jelly fish and other organisms trapped in the net and to allow the smaller plankton to fall through to the lower strainer, which has a very small mesh screen used to collect the plankton sample. Here is what the sample looked like.
Finally, we carry the samples into the lab where we rinse the plankton into jars, add formaldehyde as a preservative, and seal the jars. The jars will be taken to the lab in Woods Hole for further analysis.
Personal Log
Northern StargazerArmored Searobin
Even though many of our towing days were lost to gale force winds, we did end the cruise by catching some interesting species. First, was the Northern Stargazer (Astroscopus guttatus). The Northern Stargazer is found in shallow waters along the eastern seaboard from North Carolina to New York. It has a large head, small eyes on top of its head, and a large upward turned mouth. The Northern Stargazer buries itself in the sand on the ocean floor and waits for prey to swim by. Northern Stargazers also have an electrical organ around the eyes that can give us a jolt if we touch it.
Another interesting catch was the Armored Searobin (Peristedion miniatum). This species is bright crimson and is totally covered with bony plates. It can grow to be 13-14 inches long. It is found in the warm waters along the outer edge of the continental shelf in waters from Georges Bank off of Cape Cod, Massachusetts all the way down the Atlantic to Charleston, South Carolina.
Monkfish
We also caught Monkfish or Goosefish (Lophius americanus). This fish is found along the eastern seaboard of the United States from Grand Bank down to Cape Hatteras, North Carolina. Monkfish live on the bottom of the ocean in sand, mud and shell habitats, and feed on whatever prey is abundant. The meat is said to taste a lot like lobster tail, and therefore is often referred to as “poor man’s lobster.”
striped sea bassMore striped sea bass
Our most exciting catch came when we hauled in 212 striped sea bass! Striped bass occur along the Atlantic coast from the St. Lawrence River in Canada all the way down to Florida. They live near the coast, in bays and tidal rivers. Striped bass have been very important to the United States fishing industry for centuries. The largest one we caught was 103 cm long and weighed 11.26 kg!
I thoroughly enjoyed my time working and learning during the second leg of the Autumn Bottom Trawl Survey cruise. It was a great opportunity to see research at work in a real world setting, and I’m sure my students will benefit from everything I’ve experienced. I want to thank the scientists from the Northeast Fisheries Science Center (NEFSC), the NOAA Teacher at Sea Program, and the crew aboard NOAA Ship Henry B. Bigelow for allowing me to be a part of your lives for twelve days. If any of you teachers out there are interested in applying to the Teacher at Sea Program, I highly recommend it. Check out their website at http://teacheratsea.noaa.gov/.
NOAA Teacher at Sea Barbara Koch NOAA Ship Henry B. Bigelow
September 20-October 5, 2010
Mission: Autumn Bottom Trawl Survey Leg II Geographical area of cruise: Southern New England Date: Tuesday, October 4, 2010
Weather from the Bridge
Latitude 39.94 Longitude -73.47 Speed 1.10 kts Course 22.00 Wind Speed 34.25 kts Wind Dir. 69.54 º Surf. Water Temp. 19.70 ºC Surf. Water Sal. 31.85 PSU Air Temperature 15.80 ºC Relative Humidity 88.00% Barometric Pres. 1015.72 mb Water Depth 45.00 m Cruise Start Date 10/02/2010
Science and Technology Log
The Bridge
I visited the bridge of NOAA Ship Henry B. Bigelow to see how the ship is run. Thebridge sits atop the ship and is the command center for all navigation andcommunications operations during the cruises. Windows surround the entire bridge, giving NOAA Corps officers a 360 degree view of the surrounding ocean. Here, Commanding Officer, Anne Lynch, and Junior Officer, ENS Kyle Sanders stand at the main bridge console of the ship. NOAA Corps officers chart the ship’s course, control the speed, steer the ship, detect other objects in the ocean via sonar, monitor weather conditions, and communicate with others at sea, on the ship, and on shore from this console.
Console for steering the shipAft Control Station
The Aft Control Station (ACS) is located at the rear of the bridge and overlooks the working deck. The ACS provides control ofthe Auto Trawl System to pull the research net at a constant andstraight trawl. A closed circuit television improves the crew’s visibility while operating the gear from the bridge. Here is a picture of the ACS control panel on the bridge and the research net on the rear deck.
Henry B. Bigelow is also equipped with two scientific SONAR systems used for gathering data on fish and plankton and for collecting oceanographic data, such as water salinity and water temperature. Transducers are mounted at the center of the hull and extend below the ship to take acoustic readings of water depth or the location of schools of fish. One of the SONAR transducers on this ship can work at depths as deep as 5000 meters and can detect objects under water as close as one meter or as far away as 800 meters. It also detects objects on the sea floor, as well as in the water column. This system is controlled from the bridge, as well.
SONAR controls
A separate control panel is used to monitor and control power and water usage on board the ship. Two generators provide electricity for the ship. There are also tanks in the hull designated for different purposes, such as holding water, fuel, and potable water. This control board monitors all of the tank and power usage levels for the entire ship.
Personal Log
The lounge
Today is my birthday! Spending my birthday aboard a NOAA research vessel is a great gift! Today is also the second day spent waiting for the seas to calm down so we can take more samples. Wind speeds are 34.25 kts. and the waves are about 11-16 feet high. The boat is rocking and rolling, and makes it very difficult to move around. The night watch is sleeping, so we cannot go in our staterooms, and we must be quiet everywhere we go. It is too windy to go outside on the deck, as well. The only thing we can do is wait in the lounge. The lounge is equipped with a television, two computers, couches, a conference table, games, movies, and reading material. Since it is my birthday, I have the honor of selecting one of the movies we will watch. That’s a hard thing to do when you are with a group of people with so many different tastes and personalities. . . the “A Team” it is! It’s great that the crew and scientists have a place to go for entertainment, because waiting for so many hours on end can start to get on everyone’s nerves.
Gym
Luckily, the ship also has a workout room, which I visited briefly. It’s very difficult to lift weights when the ship is rocking, and the elliptical machine seemed to run by itself. The stationary bicycle was a little easier to manage, and it felt good to move my legs after sitting for so long in the lounge.
Galley
However, I think the biggest morale booster for me, the crew and the scientists is thewonderful food that Dennis and Randy make in the galley. Their menus rival those of some finer restaurants I’ve visited, and we are treated to their artistry every day way out here in the ocean. I’ve truly been spoiled!
