NOAA Teacher at Sea Lynn M. Kurth Aboard NOAA Ship Oregon II July 25 – August 9, 2014
Mission: Shark/Red Snapper Longline Survey Geographical area of cruise: Gulf of Mexico and Atlantic Date:July 28, 2014
Lat: 24 17.334 N Lon: 082 30.265
Weather Data from the Bridge: Wind: 7.52 knots
Barometric Pressure: 1017.85 mb
Temperature: 31.1 Degrees C
Science and Technology Log:
We have been traveling across the Gulf over the past two days and will continue traveling until Monday night when we will reach our first testing station. Wondering exactly where we are? You can see the ship’s location live at: NOAA Shiptracker
Our official survey has not begun but Dr. Jim Nienow, an instructor from Valdosta University, is aboard for the cruise and has been doing some basic plankton sampling while we are on the move. Dr. Nienow participated in his first shark longline survey back in 2008 and this is his sixth cruise aboard the Oregon II. He enjoys being part of the shark longline survey because it provides him with the opportunity to collect the samples that he analyzes with his students when he returns to the university. In the first few years that Dr. Neinow began collecting plankton samples he was interested in the overall biodiversity he found in the samples.
But over the past few years his work has evolved and he is currently focused on the distribution of diatoms. Diatoms are microscopic single celled photosynthesizing algae and are the most common type of phytoplankton found. Diatoms represent approximately half of the ocean’s production. In other words, these little buggers are important because they serve as the base of the food chain for the ocean. By studying diatoms scientists are able to study the overall health of the particular environment that they were collected from.
We have spent some time preparing the gear for the survey by getting the fishing lines ready. Circle hooks are used for the shark long line survey vs. J hooks so that the sharks are rarely hooked deep which makes the hook easier to remove and reduces the potential of harming the shark.
Did you Know?
Diatoms are used for the following:
as mild abrasives found in cleaning products and sometimes toothpaste
as filter material when making alcoholic/non alcoholic drinks, syrup and medicines
as insulation in sound proof or fire proof doors
During our time traveling we had an abandon ship drill. If we were to abandon the ship we would put on a full neoprene survival suit before entering the water. The water temperature in the Gulf of Mexico is around 87 degrees Fahrenheit so the suit protects folks from hypothermia that would occur over time.
NOAA Teacher at Sea
Onboard NOAA Ship David Starr Jordan June 26 – July 6, 2006
Mission: Shark Abundance Survey Geographical Area: California Coast Date: July 1, 2006
Weather Data from Bridge
Visibility: 10 nautical miles (nm)
Wind direction: 315 degrees
Wind speed: 12 kts
Sea wave height: 1’
Swell wave height: 2-4’
Seawater temperature: 19.6 degrees C
Sea level pressure: 1012.5 mb
Cloud cover: Clear
Science and Technology Log
Today’s first run was sharkless but instead we did catch eight pelagic stingrays. In the afternoon we caught two smaller makos and another ray. As I mentioned yesterday, chimera, skates and rays, and sharks make up Class Chondrichthyes. The chimera are the most ancient grouping of these cartilaginous fish. Later came the skates, rays, and sharks in the Subclass Elasmobranch which make up 96% of the cartilaginous fish species. In general, the rays and skates are characterized by a flattened body with their pectoral fins fully attached to the head. This design is an adaptation to living on the seafloor. Creatures that live here are described as benthic. This lifestyle is in contrast to sea life that lives in the open ocean, which is described as pelagic.
The pelagic stingray is the only stingray that is not benthic. This behavior may be a relatively recent occurrence on evolutionary time scales, however, as it retains a number of characteristics best designed tails. Like all skates and rays, their mouths are located under their flattened body. In this position, they can swim along the bottom and suck in prey off the seafloor. I recently witnessed such feeding as I fed a bat ray at SeaWorld last week.
The gills of skates and rays (collectively known as the batoids) are located underneath, or ventral, to the body. When resting on the bottom, water flow through the gills is limited and so obtaining oxygen would be a problem if it weren’t for another feature common in cartilaginous fish, the spiracle. Most sharks also have spiracles, which are small holes on either side of their head. They have a respiratory function. In rays and skates these spiracles are located just behind the eyes up on the top of the head. When the pelagic rays are out of the water, the opening and closing of the spiracles as they breathed was obvious. There are two features most useful in distinguishing a skate from a ray. Most skates have one or two dorsal fins located far back on their tails, and they never have spines that are typical of rays.
The spine of a ray is often toxic and used as a defense by the ray. When the pelagic rays were brought on board, the first priority was the safety of the humans. The spine was snipped or if possible, the ray is placed upside down on foam that ultimately will take a spine “hit” and from then on cover the spine. The toxin of a ray’s spine is not delivered in the way a snake’s fangs might inject its poison. A ray’s spine is serrated and acts like a harpoon or barbed hook, preventing removal in the opposite direction from which it was inserted. The spine of a stingray has serrated edges but is in the form of a mucous that fills two that make it virtually impossible to remove a grooves on the underside of the spine.
A pelagic ray is on the shark platform belly up. Its spine is safely lodged into the foam. A puncture made by the spine that may then be infected by the toxic mucous. Telling shark from batoid is not always easy. The order of sharks known as angel sharks bear resemblance to batoids but their pectoral fins are clearly not fully attached to the head, and their mouths are at the front of the head and not underneath as it is in all rays and skates. Other kinds of sharks and rays that can be confused are the sawshark, which is a shark, and the sawfish, which is a ray. Both have a bizarre flattened snout from which teeth stick laterally, or sideways, outwards. They both have a thicker more sharklike body. Both have two dorsal fins, a set of pectoral fins and a set of pelvic fins. But they are no more closely related than any shark is to any ray. When two different types of animals (or plants, or other living thing) are faced with similar challenges, they can sometimes independently evolve in a way that arrives at a similar solution. Bats, birds and butterflies each independently evolved flight. Triceratops and rhinos evolved head horns. Mako sharks and dolphins evolved sleek torpedo shaped bodies for rapid swimming.
And sawsharks and sawfish have independently evolved a saw shaped snout. Each is believed to use their snout to capture and kill prey. But they also retain their sharkiness Angel sharks are flattened like a ray but their pectoral fins are distinctly unattached from the head. Angel sharks have mouths at the front of the head while all batoids have mouths located ventrally, or under the body. There five known species of sawsharks. They, like most other sharks, have their gill slits on the sides of their head. Also, their pectoral fins are not fully attached to the head. Sawsharks have a pair of barbels coming from the sides of their snouts, giving them a mustachioed appearance. Sawsharks like other sharks have a sensitivity to the electrical disturbances created by moving fish and other prey. Their snout enhances this sensitivity. But the sawfish has no such electrical organ. The sawfish does have pectoral fins that attach fully to the head where the sawshark’s pectoral fins do not. Additionally, the pectoral and pelvic fins of the sawfish are flatter and more flush with the body. And the gills of the sawfish are underneath the head, but they are found on the side of the head on the sawshark. Lastly, another feature that distinguishes the two are the sawshark barbels that stick out from the middles of their snouts like moustaches—sawfish do not have these.
I need to address a couple of student questions that I don’t believe I’ve yet answered:
Oxytetracycline (OTC), the dye used to stain the vertebrae for aging studies, is not known to do harm to the shark if given in excess. However, a table of calculated dosages based on length is used because if too much OTC is used, growth layers other than just the present one will also become stained.
The J-hooks typically used are about four inches in length. The shark abundance survey has been going on since 1994, and to maintain consistent and scientifically comparable data, they continue to use these hooks.
Sharks have few enemies in the oceans. They tend to be the top predators in their food webs, but as the vast majority of sharks are less than one meter (three feet) long, they can be come prey for other, larger sharks, or even whales like orca. By far the species that poses the largest threat to them are humans. Mostly humans kill sharks when it is other types of fish that meant to be caught. The shark would then be referred to as “by-catch”. At other times sharks are intentionally caught for their meat or as sport—this is often the case for mako sharks.
Sawfish have their gills located underneath their head like all other batoids.
Oxytetracycline is light sensitive, meaning it reacts and breaks down when exposed to enough light. For this reason the bottle is brown and kept in a bag, and loaded syringes are kept inside a glove for ready use.
The J-hook and somewhat smaller circle hook are used for mako and thresher shark lines.
I continue to have a good time here, if not for the sights and sounds but for the people I am working with. Lots of interesting, friendly, and fun-loving folks. And, happily, they have been quite tolerant, and even obliging of me walking around with my video camera catching this and that.