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).
NOAA Teacher at Sea
Methea Sapp-Cassanego
Onboard NOAA Ship Delaware II July 19 – August 8, 2007
Mission: Marine Mammal Survey Geographical Area: New England Date: August 4, 2007
Weather Data from Bridge
Visibility: 5 in haze lowering 3 to 5 in showers
Wind Direction: Southwest
Wind Speed: 10-15 knt increasing to 20 knt.
Swell height: 3-5 feet building 4-6 feet
A solitary ocean sunfish basks in the sun while a shearwater skims by.
Science and Technology Log
Rotations have been going like clock-work, although today’s sightings have again been numerous we still have not found any more right whales. Again I’ll fill today’s blog with some species profiles of animals we’ve seen today. By the way, the sightings list for today includes, pilot whales, minke whales, offshore bottlenose dolphins, common dolphins, white-sided dolphins, beaked dolphins and harbor porpoise. We’ve also seen a few Mola mola which are not tallied since they are not marine mammals.
Atlantic White-sided Dolphin (Lagenorhynchus acutus) Researchers and scientists also refer to this animal as a “Lag.” Identification: At first glance the Atlantic white-sided dolphin looks very much like the common Atlantic dolphin. Its body is slightly more robust then that of the common Atlantic dolphin; its tail stock is also thicker. The upper portions of the body are black while the lower belly and chin are white; a long horizontal grey strip bisects the upper and lower body portions. The flippers are also grey. Max length and weight: 510 pounds and 9 feet. Diet and Feeding: Fish and squid Migration: No organized or seasonal migration Distribution: Found in cold waters of the northern North Atlantic from the Northeast United States to Northern Europe and Southern Greenland. Special Note: Atlantic White-sided Dolphins are especially gregarious and are often seen swimming along the side of boats and bow riding. They will also mingle and feed with fin and humpback whales. Several hundred are caught and killed each year as a source of food by the Faroese Island people.
References
Collins Wild Guide: Whales and Dolphins. HarperCollins Publishers, New York, New York. 2006.
Identification: This oddly shaped fish is most easily identified when it is basking at the surface. Its large disk-like body is pale grey to white in color; lacks a true tail; both the dorsal fin and anal fin are extremely elongated so that the fish is as tall as it is long. Sunfish are solitary but may occasionally be found in pairs.
Max length and weight: Averages 5 feet 9 inches in length and 2,200 pounds. Records exist of sunfish spanning 10.8 feet in length and weighting just over 5,000 pounds.
Diet and Feeding: Primarily seajellys but also feeds on salps, squid, crustaceans, comb jellies and zooplankton. Sunfish are pelagic and may feed at depths just shy of 2,000 feet.
Migration: No organized or seasonal migration
Distribution: Ocean sunfish are found globally in both temperate and tropical waters. Research suggests that populations of sunfish inhabiting the Atlantic and Pacific have greater genetic differences than populations in the Northern and Southern Hemispheres.
Special Note: The ocean sunfish poses no threat to humans and is commonly approached by divers. Its meat is of minimal economic importance although there seems to be an increasing popularity in sunfish cuisine and it is considered a delicacy in some parts of the world. The sunfish has few natural predators due to the thickness of its skin which can measure up to 3 inches in some places. More often than not the sunfish encounters its greatest threat when caught in fishing gear. Sunfish by-catch totals ~30% of the total swordfish catch off the coast of California and ~90% of the total swordfish catch in the Mediterranean.
Impressive size and startling appearance make the ocean sunfish a favorite attraction at the Monterey Bay Aquarium. This photo is freely licensed via Wikimedia Commons and is courtesy of Fred Hsu.
NOAA Teacher at Sea
Elizabeth Eubanks
Onboard NOAA Ship David Starr Jordan July 22 – August 3, 2007
Mission: Relative Shark Abundance Survey and J vs. Circle Hook Comparison Geographical Area: Pacific Ocean, West of San Diego Date: August 3, 2007
Weather Data from the Bridge taken at 1300 (5am)
Visibility: 10+ miles
Air temperature: 18.7 degrees C
Sea Temperature at surface: 21.9 degrees C
Wind Direction: 010N
Wind Speed: 5 kts
Cloud cover: partially cloudy– stratus
Sea Level Pressure: 1014.2 MB
Sea Wave Height: 1-2 ft
Swell Wave Height: <1 ft
Science and Technology Log
Cleaning – Cleaning – Cleaning. We fuel for 4+ hours – Amazing! We will be in port by 2pm today.
Personal Log
Thank you, thank you, thank you. I have been honored to be selected to participate in NOAA’s Teacher at Sea program. This has been a life-changing adventure. I am wiser and have so much to share with my students and community.
A huge thanks to all of the scientist for being so nice and so helpful. I feel honored to have worked with Dr. Suzi Kohin, Dr. Russ Vetter and Dr. Jeff Graham as well as grad students Lyndsay Field, Heather Marshall, Dovi Kavec (thanks for being my on board conscience!), Noah Ben Aderet, Alfonsia “Keena” Romo-Curiel, South West Fisheries staff (including Suzi and Russ), Anne Allen (thanks for taking me to the bow chamber), Eric Lynn, Monterey Bay Aquarium staff, Ann Coleman (thanks for teaching me how to set and haul and collect data), and my roommate Leanne Laughlin from California Department of Fish and Game. The crew has been awesome. I give you many, many thanks and wish you the best at sea. Chico – I am happy and I know it – so my face surely shows it! Jose – “any minute now” and you will catch a fish.
Peter good luck at the Maritime Academy and with the guitar.
LCDR Keith Roberts, thanks for your command. XO Kelley Stroud, thanks for your help with kids’ supplies. I am going to stop here, in case I forget someone, but please know I appreciate all of the folks on the deck, bridge, engine room (Great tour John!) and the galley (the food was amazing) so much. Thanks for your interviews – you will be famous. This trip has been amazing!
Questions of the Day
What sounds most interesting about the adventure at sea? Would you like to go to see to study sharks?
Question of the trip: Which hook, the J or Circle, will catch more sharks?
Please make a hypothesis. Utilize resources to justify your hypothesis. ———Yes, you get extra credit for this.
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 3, 2007
NOAA Teacher at Sea Miriam Hlawatsch recording weather data on the Bridge of the NANCY FOSTER.
Weather Data from Bridge
Visibility: 10 miles
Wind Direction: 186º
Wind Speed: 11 knots
Sea Wave Height: 1-2 ft.
Swell Wave Height: 2 ft.
Seawater Temperature: 28.6ºC
Sea Level pressure: 1017.3 mb (millibars)
Cloud Cover: 8 oktas, cumulous, cumulonimbus
Personal Log
I’ve been recording weather data for the last two days and spent three hours on the Bridge learning the responsibilities of the watch crew. When NANCY FOSTER began hydrographic multi-beaming at 1500 hours, there were several ships (tankers and small craft) in the area. The NOAA Officers on watch had to keep a careful eye on those vessels and, at times, let them know survey work was going on … so move over, please! Also, I’ve been able to watch as our dive locations were plotted on the nautical chart of Onslow Bay. Ensign Lecia Salerno explained that, as Navigation Officer, one of her duties is to update the nautical charts when NOAA informs her of changes. She must record these updates by hand as new charts are only printed every few years.
NOAA Teacher at Sea Miriam Hlawatsch attempting to read sea swells and sea wave height from the Bridge.
Science Log
Objective #3: Conduct cryptic/prey fish sampling using a special enclosure quadrat net.
In order to collect cryptic (small) prey fish, NOAA scientist Dr. Roldan Muñoz sets up a special enclosure net during his dive rotation. Divers in the next rotation retrieve the net with captured specimens. Dr. Muñoz examines the catch to determine the type and number of prey fishes (what lionfish may be eating) within a square meter. Such data provides a better understanding of the habitat community.
Objective #4: Characterize and quantify habitat and macroalgae with digital still photography and specimen collections.
Currently, not much is known about off shore Hard Bottom habitats where lionfish appear to be thriving. In order to understand the impact an outside force (i.e. lionfish) has upon a marine community, scientists must first examine the community in its original state. In other words, a baseline must be established. When Marine Phycologist Dr. D. Wilson Freshwater dives, his goal is to identify habitat characteristics and existing macroalgae. This is done via still photographs and specimen collections gathered every five meters along the transect line.
Dr. Freshwater’s photo showing seven types of algae.
Back in the lab, Dr. Freshwater processes his samples for species identification and DNA analysis. He reviews the photos, creates a list of everything he sees, then uses the computer to establish the percentage of cover and frequency of occurrence for each species. A comparison of the different sites is made and, from this empirical data, an overall picture of the community structure begins to emerge.
Note: I learned the term Hard Bottom refers the rocky outcrops that cover much of the continental shelf along the southeastern US from Cape Hatteras, NC to Cape Canaveral, FL. Fish are drawn to the hard bottom outcroppings; here, they find a source of food and shelter on what is otherwise a vast sandy sea floor. It explains why recreational fishermen often seek out hard bottom areas.
Dr. D. Wilson Freshwater processing algae specimens in the lab aboard NOAA ship NANCY FOSTER.NOAA scientist Dr. Roldan Muñoz counting cryptic fish collected.Hard Bottom habitat with lionfish invader.
NOAA Teacher at Sea
Methea Sapp-Cassanego
Onboard NOAA Ship Delaware II July 19 – August 8, 2007
Mission: Marine Mammal Survey Geographical Area: New England Date: August 3, 2007
Weather Data from Bridge
Visibility: 5 in haze lowering 3 to 5 in showers
Wind Direction: Southwest
Wind Speed: 10-15 knt increasing to 20 knt.
Swell height: 3-5 feet building 4-6 feet
Pilot whales as seen from the zodiac—note the calf in the foreground.
Science and Technology Log
Today was another great day for sightings. Critter counts include sperm whales, white sided dolphins, a whopping 17 minke whales, a Sei whale, offshore bottle nose dolphins, a finback whale, another pod of pilot whales and 100’s of common dolphins. At one point during my starboard observation shift, both I and my portside counterpart were calling off sightings so rapidly that the recorder was having problems keeping up with us. We both paused for a moment and pulled away from the big eyes to look around and discover that we were surrounded by literally 100’s upon 100’s of common dolphins. The sea was frothing with their activities; some doing aerobatics, others charging, some came to bow-ride of the ship, while other could be seen chasing large fish which were identified as yellow-fin tuna.
Researchers position themselves to rejoin the ship.
In a repeat from several days ago the pilot whale sighting prompted another launch of the zodiac…only this time I got to climb down the Jacob’s ladder and go for a zodiac ride which brought me as close to pilot whale as I could ever hope to be. We were able to procure 5 tissue samples for further genetic study along with an untold number of dorsal fin photographs. (Please see log from August 1st for further explanation of these genetic studies and photos.) My job on the zodiac was to fill out the photography data sheets which record the GPS headings, frame numbers, animal position within pod, approximate size of animal, special markings on the animal, if an attempt to biopsy the whale was made, if the shot resulted in a hit or miss….etc. I was madly recording all this information as cameras were shooting and crossbows were firing and the whole experience whizzed past me. I hope I didn’t forget to record anything!
An ill-fated Northern yellow warbler rests on the deck of thevDELAWARE II
Aside from all the sightings (some of which have become rather common place), and my zodiac ride I really have nothing left to report for the day….except of course that the day flew by. In fact every day passes in a blink…even the foggy ones. I suppose that’s what happens when each day is filled with something new to see and do. Before I sign off for the day I’ll leave you with two more species profiles. One of which may surprise you!
Yellow warbler (Dendroica petechia)
There are approximately 40 subspecies of this widely distributed little bird. This bird, in particular, was most likely from the subspecies aestiva thus making it a ‘Northern’ yellow warbler.
As a true bird-lover I’ve been taking notice and taking note of every new bird I’ve seen while out at sea, and naturally all of the birds I’ve seen lately from black-backed gulls to shearwaters are suppose to be out here in the open ocean searching for fish and bobbing around in the waves while resting. The yellow warbler however is not suppose to be here….and in fact being at sea means certain death for the delicate songbird as its food source is almost non-existent out here and it is ill-equipped to handle a lack of freshwater. The warbler pictured above probably hitched a ride with us following our 24 hour port call in Yarmouth, Nova Scotia. Sad to say that this warbler did in fact perish at sea despite my offerings of fresh water and bread crumbs (I was all out of their primary food which are insects!) A second warbler and a grosbeak did however find the boat as we were coming back into harbor so we hope they were more fortunate then the first stowaway.
Common Dolphins Bow-riding off the DELAWARE II: Note the crisp crisscross markings on the dolphins’ side.
Identification: The yellow warbler is fairly large compared to other warblers and has an exceedingly short set of tail feathers. Both sexes have a yellowish green head and back with yellow underbellies. Females tend to be a bit duller in color while males typically have brown streaks on the cheek and breast. Distribution: The Northern Warbler breeds from Alaska to Newfoundland and Southern Labrador, south to South Carolina and into Northern Georgia, and as far west as the Pacific Coast. It is also found periodically in the American Southwest. Migration: Winters in the Bahamas, Northern Mexico, Peru and the Brazilian Amazon. Diet and Habitat: In its northern and eastern distribution the warblers live in damp habitats surrounding swamps, bogs, marshes, ponds and stream or river banks. They will also feed and nest in woodland areas, meadows, and overgrown pasture lands. In the west and southwest the bird is restricted mainly to riparian habitats. Unfortunately riparian habitat is rapidly decreasing in the Southwest as are the population of yellow warblers within this region. The warbler feeds primarily on insects, but will occasionally eat berries. Listen to its songhere.
Common Dolphin
Until recently both the short-beaked and long-beaked common dolphins were considered to be one species. Although much of the recent research and literature still does not differentiate between short-beaked and long-beaked, they are technically two different species. For the purposes of our survey we also did not distinguish between the two as they are nearly identical in physical appearance.
Short Beaked Common DolphinandLong-beaked Common Dolphin
Identification: Very distinctive crisscross patterning on the sides; yellow/tan patches on the side, dark gray over the topside and pale underside. Light grey patch along the peduncle of the tail.
Max length and weight: 330 pounds and 9 feet. Males are just slightly larger then females
Diet and Feeding: Fish and squid
Migration: No organized or seasonal migration
Distribution: Widely distributed throughout the Atlantic, Pacific, and Indian Oceans as well as the Black and Mediterranean Seas. Special Note: Common Dolphins are especially active and are commonly seen doing aerobatics and bow riding. They are also extremely vocal; to such a degree that their high pitched whistles and clicks may be heard above water.
References
Collins Wild Guide: Whales and Dolphins. Harper Collins Publishers, New York, New York, 2006.
