goosefish – Page 2 – NOAA Teacher at Sea Blog

May 12, 2009April 5, 2021

Lollie Garay, May 12, 2009

NOAA Teacher at Sea
Lollie Garay
Onboard Research Vessel Hugh R. Sharp
May 9-20, 2009

Mission: Sea scallop survey
Geographical Area: North Atlantic
Date: May 12, 2009

Weather Data from the Bridge
High pressure ridge building late today until wed
Temperature: 12.22˚ C
True winds: 5KTS Seas: 2-4 ft.

Science and Technology Log

As soon as our shift began today, the dredge was already on deck so we went straight to work. After several stations I noticed that the scallop and crab count was lower than yesterday. We are working in an area called Elephant Trunk. It is named this because the bathymetry of the sea floor makes it look like one. We have many stations in this Closed area, so we may see an increase in scallop numbers as the shift progresses.

Today I learned about “clappers”. Clappers are scallop shells that have no meat in them. They are sorted out from the rest and counted. I asked Vic Nordahl why they were important and he said that clappers give us an estimation of natural mortality or predation, so they need to keep count of how many are found.

Can you see the Red Hake tucked in the scallop shell?

Between dredges today, I spoke with Wynne Tucker. Wynne is an oceanographic tech from the University of Delaware and is in her third season on this research vessel. Wynne does a CTD cast every third station. A CTD measures conductivity, temperature, and depth. She takes samples in the water column at depths of 50-70M. Sensors on the CTD send information to a computer where the data is recorded. The CTD also records information about fluorescence, presence of particulates, and oxygen. The data gives us a visual of the water column which is then sent to NOAA (the National Oceanic and Atmospheric Administration) for analysis. When Wynne is not doing CTD casts, she is working at many different jobs Larry Brady and I processed some special samples this evening. We usually measure 5 scallops. Two of the samples had a larval or young Red Hake inside. It lives inside the scallop shell for protection from predators and is tucked on one side of it. This is not a symbiotic relationship, rather more commensalism. I continue to be amazed about the life systems in these waters!

Personal Log

Elise Olivieri (the teacher from New York) and I have made plans to photograph each other as we work. We work different 12 hour shifts so we do not see each other except during the shift change. And as we have both learned, there is not time for picture taking once the work begins! Unfortunately, our pictures will not be included in our journals at this time, but will be added upon our return!

My day ended with two incredible sights. First, as I carried the special samples up to the storage cage, I looked out from the portside at a totally dark scene. You could not make out sky or sea- it all blended into …black! I have never seen anything quite like that before. The second occurred on the starboard side just as I was ending my shift. Glen Rountree (NOAA Fisheries Service volunteer) told me he had seen a strange red light in the sky and after looking through his binoculars realized it was the Moon. Elise and I grabbed our cameras and went out on deck. It was beautiful! One solitary red light in the middle of black! It was a good way to end the day.

Question of the Day
What is the difference between symbiosis and commensalism?

Animals Seen Today
Spider Crab, Sea Squirts, Gulf Stream Flounders, and Bobtail Squid.

September 20, 2008April 2, 2021

Marilyn Frydrych, September 20, 2008

NOAA Teacher at Sea
Marilyn Frydrych
Onboard NOAA Ship Delaware II
September 15-25, 2008

Mission: Atlantic Herring Hydroacoustic Survey
Geographical area of cruise: New England Coastal Waters
Date: September 20, 2008

Weather Data from the Bridge
42.53 degrees N, 67.51 degrees W
Cloudy, wind out of the E at 11 knots
Dry Bulb Temperature: 15.2 degrees Celsius
Wet Bulb Temperature: 14.0 degrees Celsius
Waves: 1 foot
Visibility: 10 miles
Sea Surface Temperature: 16.9 degrees Celsius

Science and Technology Log

We did a CTD with an attached water bottle and then deployed a net. We backtracked today and redid the sites we found yesterday which had good herring potential. About 10:30 in the morning we collected about 1/3 of a clothesbasket of fish. Most of that were herring and mackerel, with the usual small butterfish, goosefish or lumpfish, red hake fish, small jellyfish, and Ilex squid. The catch included an unknown two inch fish which Mike, the chief scientist, conjectured had gotten caught in a warm eddy off the Gulf Stream and ended in the wrong part of the ocean much like the jet stream blows birds off course. Part of sorting the fish involved gutting one to three each of the different lengths of herring to determine their sex, age, and what they had been eating. With practice and much patience on Robert and Jacquie’s part I learned to recognize the stomach and sex organs of the fish. None of the herring today had anything in their stomachs, while those of two days ago had lots, mostly krill. With two of us working it took about 45 minutes to measure the length and weight of each herring. They varied When we finally collected the net we had 3 basketsful of redfish, half a basket of silver hake, 4 herring, one large goosefish about a foot long, and a rare Atlantic Shad about 2 feet long.

To measure our fish we used the magnetized pointer in the upper right hand corner of the picture. It looks like a cigarette. We lined up the fish’s head against the black backstop. Then we stretched the body straight out. When we pressed the pointer against the end of the fish’s body an electrical circuit closed and the computer automatically recorded the fish’s length. The fish are silver hake. — To measure our fish we used the magnetized pointer. We lined up the fish’s head against the black backstop and stretched the body straight out. When we pressed the pointer against the end of the fish’s body an electrical circuit closed and the computer automatically recorded the fish’s length. The fish are silver hake.

We froze samples which we’d opened up for Mike and then one ungutted sample from each of the nine categories for the University of Maine. We did another CTD about 11:30 and deployed the net again. All did not go well this time. The sonar showed that the net was twisted and the opening blocked. The fishermen were called upon to bring it in and straighten it. The first thing they did was to take the two 400 pound chain weights off. Then they sent the net back out hoping it would straighten itself. Alas, they had to bring it in and send it out a couple more times as they manually untangled all the lines. It was very strenuous work and took them about 45 minutes. As a result we steamed about 3 miles past the point where we intended to fish.

We’ve sorted a smaller catch on the measuring board. We measured and weighed these fish, but never opened them to determine their sex. We did that only for herring. The scale is under the gray container on the right. We only had to press a button for the computer to record the weight. — We’ve sorted a smaller catch on the measuring board. We measured and weighed these fish, but never opened them to determine their sex. We did that only for herring. The scale is under the gray container on the right. We only had to press a button for the computer to record the weight

July 15, 2006March 19, 2021

David Riddle, July 15, 2006

NOAA Teacher at Sea
David Riddle
Onboard NOAA Ship Albatross IV
July 13 – 28, 2006

Mission: Sea scallop survey
Geographical Area: New England
Date: July 15, 2006

Not all scallop shells are pretty, but these were outstanding!

Science and Technology Log

We’re in an area now with an abundance of scallops, and most of them are large. When the catch is emptied from the net onto the deck, it takes 6 to 8 people working steadily, on hands and knees, to separate the scallops from the rest of the catch. We’ve gotten up to 16 bushels so far in one 15 minute tow, using an 8 foot dredge. If the next station is nearby, we just have time to get the measurements completed and clean up before it’s time to start again. But it’s not always that busy. If the next station is several miles away, we get time to sit for a few minutes and relax.

During one of my relaxing moments, I photographed some of the fish that were caught along with scallops and starfish and everything else. We catch small skates, which are shaped like stingrays, with a broad, diamond-shaped body and an elongated narrow tail. We also catch goosefish, sometimes called angler fish, with mouths agape, showing rows of needle-like teeth. We catch flounder too. All of these are bottom-dwellers, probably too slow to swim away from the net, or else when they feel the net coming they just hunker down in their standard defensive posture, which unfortunately is no help when the thing that’s coming after you weighs nearly a ton and is being dragged at between 3 and 4 knots.

Scallop eyes are visible as rows of dots inside the shell margin.

As we have moved farther south today, I’ve begun noticing scallops with different patterns on their shells. Some look like sunbursts; some are striped. I’ve collected a few to take home. I want to get some photos of live scallops also. When they open their shells you can see the row of eyes along the margin of the gills. Scallops can swim, which is unusual for a bivalve. The powerful muscle (the part we eat) which holds the shells together, opens and closes the shell in rapid succession. This draws water in between the shells and forces it out the back near the hinge in little concentrated jets. Scallops swim by jet propulsion! Prior to sailing, we saw a brief film clip showing a group of scallops swimming, in a jerky, erratic motion.

Sightings: An osprey landed on the mast about 11:00am. The fishermen say we’re about 20 miles offshore, so I imagine he/she is pretty tired. Maybe it will hang around for a while. Later…It’s 9:00 pm now and the osprey is still perched on the mast. I expect it will still be here in the morning. Another small songbird showed up later in the afternoon. I didn’t see it, so I don’t know the species. The fishermen offered it some fresh water, but it didn’t drink. They say it probably won’t survive this far out, if it won’t drink. Even so, some birds seem quite at home this far out.

Personal Log

Midnight notes: We did 18 stations in 12 hours; several were back to back. Do you think I’m ready for a shower and bed? Does a scallop live in the ocean?

June 14, 2005March 18, 2021

Jeff Grevert, June 14, 2005

NOAA Teacher at Sea
Jeff Grevert
Onboard NOAA Ship Delaware II
June 8 – 16, 2005

Mission: Surf Clam Survey
Geographical Area: New England
Date: June 14, 2005

Weather Data

Latitude: 40° 28′ N
Longitude: 69° 27′ W
Visibility: < 1nm
Wind Direction: 230°
Wind Speed: 12 kts
Sea Wave Height: 1 ft.
Swell Wave Height: 3 ft.
Sea Water Temp: 10.3° C
Sea Level Pressure: 1004.1 mb
Cloud Cover: 1/8 (Altocumulus)

0000- 0600 Went on watch. Conducted a few trawls which yielded ocean quahogs. Bycatch included little skates and starfish. At the end of my watch I ate breakfast and went to sleep.

1200-1800 Conducted more successful trawls. This was the first day that my watch had two uninterrupted watches. We got a lot of work done and had good clam yields. Interesting bycatch included a goosefish. Not knowing any better, my cabin mate stuck his hand in the goosefish’s mouth and got bitten. At the end of my watch I ate dinner and went to work on my lesson plans.

On the next watch the dredge hit an underwater rock field and got mangled. The crew and scientists successfully replaced the front blade assembly with a spare. This halted operations for a while but soon we were back to work.