New England – Page 5 – NOAA Teacher at Sea Blog

October 14, 2008March 18, 2021

Jacob Tanenbaum, October 14, 2008

NOAA Teacher at Sea
Jacob Tanenbaum
Onboard NOAA Ship Henry Bigelow
October 5 – 16, 2008

Mission: Survey
Geographic Region: Northeast U.S.
Date: October 14 2008

Here is Doctor Kunkel collecting samples with Watch Chief Mel Underwood.

Science Log

Dr. Joseph Kunkel from the University of Massachusetts at Amherst is investigating a mystery on board our ship. In the last few years, fisherman and biologists have all noticed that lobsters are disappearing from waters south of cape cod near shore. This includes Narragansett Bay and our own Long Island Sound. Why? Thats’ what Dr. Kunkel is trying to find out.

He and other scientists have found that the lobsters are infected with a bacteria. Dr. Kunkel has a hypothesis. He believes that some lobsters get the bacteria because their shells are not as strong as other lobsters and don’t protect them as well. He is here collecting samples to test his hypothesis.

He has even made a discovery. He and another scientist, named Dr. Jercinovic, discovered that this shell fish actually has boney material in certain places in the shell. The boney material helps make the lobster strong enough to resist the bacteria. Effected lobsters may not have as much bone, so their shells are weaker. Why are the shells weaker? There may be a few reasons. The water South of Cape Cod is warmer than it normally is. Climate change may be to blame. The water has a lot of pollution from cities like New York and Boston. There are many streams and rivers pouring into the area that are Affected by acid rain. All of these things may effect the lobsters in the sea. They may effect other creatures in the sea as well. Can you think of things that are happening in our neighborhood that may contribute to this problem? Post your ideas on the blog and I will share them with Dr. Kunkel. What does shell disease look like? Can you see the red spots on the photo on the right? That is shell disease. It can get much worse. Thanks Dr. Kunkel for sharing your work and your photograph.

The art teachers, Mrs. Bensen in CLE and Mrs. Piteo in WOS had groups of students decorate Styrofoam cups for an experiment on the ship involving technology, water pressure in science and perspective in art. You probably have felt water pressure. When you swim to the bottom of the deep end of a pool, you may have felt your ears pop. This is water pressure. It is caused by the weight of the water on top of you pushing down on you. Well, a pool is only 10 or 12 feet deep. Just imagine the pressure at 600 feet down. We wanted to do an experiment with water pressure. Since Styrofoam is has a lot of air in it, we wanted to see what happened when we sent the decorated cups to the bottom of the sea. Click here for a video and see for yourself. If you decorated a cup, you will get it back when I come in next week.

Here are some more interesting creatures that came up in our nets overnight. We have been in deeper water and some some of the creatures have been quite interesting.

This is a sea-hag. It is a snake-like fish that has some amazing teeth. We put one inside a plastic bag for a few minutes to watch it try to eat its way out. Take a look at this video to see what happened.

Here are three Spoon Arm Octopi. Each octopi has three hearts, not one. One pumps blood through the body and the other two pump blood through the gills. There are three octopi in this photo. How many hearts to they have in all?

This redfish are also an interesting criters. When they lay eggs, you can see the babies inside. They live in deep water. We caught this one at a depth of 300 meters. How many feet is that?

Here is a bobtail squid and a sea-start. The squid looks like an octopus, but it is not.

This skate case had a baby skate inside. Here is what it looked like as the tiny creature emerged.

Finally, the red on the underside of this crab are the eggs. Biologists call them roe.

Zee and Snuggy paid a visit to the ship’s hospital to take a look around. The hospital is amazing. They are able to treat a wide variety of injuries and ailments without having to call for help. They can even put in stiches if they need to. In cases of serious injury, however, the Coast Guard would have to take the patient to land with the helicopter or fast boat. Zee and Snuggy had a great time touring the hospital, and all three of us are just fine.

October 13, 2008March 18, 2021

Jacob Tanenbaum, October 13, 2008

NOAA Teacher at Sea
Jacob Tanenbaum
Onboard NOAA Ship Henry Bigelow
October 5 – 16, 2008

Mission: Survey
Geographic Region: Northeast U.S.
Date: October 13, 2008

Science Log

Happy Columbus Day everyone, and, since were in Canada, Happy Thanksgiving. Yes, that’s right, Thanksgiving. Here in Canada, Thanksgiving is celebrated on the second Monday in October. So a special note to my son Nicky: Happy Canadian Thanksgiving! Back to Columbus Day, though. Since that’s probably what your all talking about at home. In honor of Columbus Day, I thought I would try something interesting.

I made a replica of the instrument Columbus used to navigate his ship. It is called a Quadrant. Columbus would sight the North Star with his quadrant and measure its angle above the horizon. That angle is equal to your latitude. He used a quadrant to measure that angle.

This is what a quadrant looks like. You hold it up so you can see the star you want in your site. The weighted rope simply falls over the scale of numbers and indicates the angle. What instrument in math looks like this? Post your answers on the blog if you think you know. So did I beat the GPS? You will have to watch this video to find out.

Want to try sighting the North Star yourself? Here is how: Find the Big Dipper. Trace an imaginary line from the spoon up. The first bright star you come to is the North Star. Want to find our more about using the stars to find your way, or Celestial Navigation, click here.

We are fairly far out to sea right now. There is a point of land in Nova Scotia, Canada about 100 miles to our north, but most land is around 200 to our west. We are seeing a lot of off-shore birds like the Shearwaters pictured here. These little birds spend most of their lives in the open water feasting on fish. They come on shore only to breed, so landlubbers don’t see them very much. What a treat. They were part of a large flock that was foraging in the nets yesterday afternoon during a tow.

We also have a few land birds on board. They may have been blown out to sea by storms and have stopped on our ship for a rest. Several were eating what they could find out of the nets on deck yesterday. The nets on the Bigelow have 6 sensors, each reporting different variables, such as depth, the width of the net opening and the height of the opening back to the scientists on deck. One of the sensors stopped working and had to be replaced yesterday. Take a look at this video of how the repair was done.

The water temperature outside is changing. It is now much colder than it was. When we were further west, we were towards a warm current called the Gulf Stream that moves north along the east coast of the USA. The water was about 63 degrees. Now we are in a cold water current called the Labrador Current. This current brings water south from the Arctic along the Canadian coast and ends in the Gulf of Main. The water here is about 55 degrees or so. We are not seeing the dolphins anymore and some of the science crew thing the water temperature may be too cold for them. Take a look at this map of the water temperatures. Brighter colors are warmer in this picture. We have moved from the warmer greener colored water into the cooloer blue colored water. The red line represents our course.

WOS students who have not had a chance yet, should compare our ship to the one Columbus Sailed. Go back and look through the blog at the pictures of Snuggy and Zee in the different parts of our ship to help you. Post your answers on the blog. Finally, something very interesting came up in our nets today. We got this off the bottom in 1000 feet of water. It is wood. Clearly cut and shapped by a person and for a purpose. It appears to have been down there for a long time. How do you think it got there? Post your answers on the blog!

CLE students, try using these images of ships in the past as a story starter. Write me a short story about a trip on an old sailing vessel and incorporate some of what you have learned about their technology in your story. Can you tell me the story of how that wood ended up on the bottom of the ocean? Please don’t post these to the blog. They will be too long. Print them and show them to me when I get back on land next week.

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And now some answers to your questions:

RM – Good question: A sea spider is a sea-creature related to the horseshoe crab. It just looks a lot like the spiders we see on land.

Have we seen any sharks? We have seen a lot of dog-fish, which are a type of shark, but are not very ferocious. Our captain saw a great white off the bridge. Unfortunately, I was working below decks at that moment and did not get out to see it in time.

October 12, 2008March 18, 2021

Jacob Tanenbaum, October 12, 2008

NOAA Teacher at Sea
Jacob Tanenbaum
Onboard NOAA Ship Henry Bigelow
October 5 – 16, 2008

Mission: Survey
Geographic Region: Northeast U.S.
Date: October 12, 2008

Science Log

Here is a sample of what has come up in the nets overnight.

Here are several different types of sea-stars. I am always amazed by the wide variety of these creatures that exist in the ocean.

This little fellow might not look like much, but it has an interesting history. This creature is called a brachiopod. It belongs to one of the oldest family of creatures on earth. There have been brachiopods in the sea for at least 550 million years. That is long before there were even plants on land, let alone animals and dinosaurs. It is a simple shelled animal that has a single stalk that helps is stay attached to the rocks around it. Click here to learn more about this amazing creature.

Here is a sea cucumber. They live at the bottom of the sea and can be found all over the world. They are used to make medicine in some countries in Asia.

Remember that large raft of sargassum weed we saw yesterday? Some came up in the nets today. Here is what it looks like close up. She the little pockets that hold air? They help the sargassum stay afloat.

And of course, there is always garbage. We keep getting bits and pieces each time the nets come up. Here is a sampling. We found one entire Butterfinger candy bar with the chocolate still inside (no, we did not eat it), as well as some rope. How do you think it got here?

Let take a closer look at a sensor called a CTD. That stands for conductivity, temperature and depth. Remember the drifter buoy that we released a few days ago? It measures temperature on the top of the water and it can drift all over the ocean taking readings. A CTD takes its measurements as it descends through the water column and can go all the way to the bottom.

Have you ever seen barnicles move? They do. We found these huge barnicles in our net and we put them in water to encourage them to come out. Check out this video!

A lot of people have asked me about sea-sickness. Sea Sickness happens when your brain and body, which are constantly working to keep you balanced, get confused by the rocking of the ship. It is a terrible feeling, and I’m glad I have not been sea-sick at all on this trip. Some people do better than others on boats. I do not tend to get sea-sick unless the waves are very high, and I am used to the rocking of the ship now. The other night I was working on deck and I caught sight of the moon moving quickly across the sky. I wondered why it was moving so fast until I realized it was my ship that was moving in the sea and me with it. The moon only seemed to move. I guess that means I’m used to the rocking back and forth and hardly notice it now.

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MLL, SPL and MCL, Snuggy and Zee are having a great time and none of us are sea-sick. I put more information about it in the upper part of the blog entry. Thanks for writing.

SQ, CS, KM and VM: It is nice fall weather. Not too hot, not too cold. I love it. I have not felt uncomfortable even when I am working out on the wet deck of the ship.

GG: It is not hard to sleep at all most nights. There was only one night where the waves were high and I bounced around too much to sleep well. The rest of the nights were fine. The ship rocks me to bed at night. I do miss WOS. See you soon.

October 11, 2008March 18, 2021

Jacob Tanenbaum, October 11, 2008

NOAA Teacher at Sea
Jacob Tanenbaum
Onboard NOAA Ship Henry Bigelow
October 5 – 16, 2009

Mission: Survey
Geographic Region: Northeast U.S.
Date: October 11, 2008

Science Log

Greetings from Canada, my son Nicky’s favorite place! We are now in Canadian waters. We have crossed the international boarder. More amazing things keep coming up in our nets. Today we had some interesting sea-stars. Take a look. The larger ones are called Sun-Stars. Do they look like the sun to you? Sea stars are scavengers. They will move around the bottom looking for whatever food is laying around. The legs of the sea star have small tentacles that push food towards the mouth in the center.

Did you know that squid can change color? Often male squid change color to attract a mate or to scare off other males who are competing with them. If there are two males near one female, they able to turn one color on the side facing the female, and then turn another color on the other side facing the male.

We had more dolphins circling the ship last night. We think our lights may be attracting certain fish or squid, then the dolphins come to eat that. They are not with us during the day at all. One of the benefits, I guess, of being on the night watch. I cannot shoot still photos due to the low light, but have wonderful video. The sounds that you hear on the video were recorded with the ship’s hydrophone. This is a special microphone that can record sounds underwater. The sounds were recorded as the dolphins swam around the ship. You can hear the sound of them swimming by as well as the sound of their sonar as they locate fish to eat. Click here to watch and listen. Thanks to survey technician Pete Gamache for recording this for us. Click here to see the video. Don’t miss it!

We drove past some seaweed called sargasum weed. It normally grows in an area towards the middle of the Atlantic called the Sargasso Sea. We are well west of the Sargasso, but this seems to have drifted our way. Sargasum Weed grows on the surface of the water. These huge mats of seaweed support an entire ecosystem of sea creatures. Many come to seek shelter in the weeds. Many more come to feed on smaller creatures hiding there.

Snuggy and Zee paid a visit to the fantail of the ship.

The fantail is an area by the stern of the vessel where the nets are deployed. The photos show the area where the work gets done. Our ship works all night long, of course, and trawls are done at night as well as during the day. Take a look at this video which explains how trawls are done.

Our ship is shadowing another NOAA ship, the Albatross. Why? The Albatross is an old ship and will be replaced by the Bigelow in the years to come. At this point, the ships are trawling in exactly the same place to see if they get similar results in their surveys. Making sure the vessels measure the same thing the same way is called calibration. Right now we are doing calibration with the Albatross.

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Now some answers to your questions:

RM – No we did not see Nantucket yet. We were too far out to sea. We may see it on the way back. Thanks for writing.

T – I love Block Island too. Thanks for the warning about rough seas. I am glad you and your mom are both enjoying the blog as much as I enjoy writing it for you. I’m used to the 12 AM shift now. I that I finally got 8 hours of sleep.

AR – There were TONS of skates in the water.

Hello to Mrs Eubank’s Class. Its great to hear from you. Great questions. Now for answers:

— Amanda, I think fish can get smaller pieces of plastic confused with tiny plankton, but our buoy is too large for that. I don’t think it will hurt fish. I think they will stay away from it.

–Tiffany, this is a tough question and a very good question. I guess over time, our buoy will stop working and will become floating trash. The truth is all science effects the environment you study. The trick is to do more good with your work than harm. Our buoy will help us understand our environment better so that all of us will do less harm in the future. Our ship also burns fuel as we study the ocean. That pollutes a little, but hopefully through our work, we do more good than harm to what we study.

Weston, It felt like the drifter weighs about 35 pounds or so.

Bryce, we use a large net to scoop along the bottom. The opening is about 4 meters wide.

Luke, we have not, nor do I expect to find new species. Our purpose is to learn more about the species that we already know about.

Bryce, we were about 140 miles from the nearest land the last time I looked.

RJ, some scientists made our drifter.

Weston, there are about 1000 drifters right now in the open sea.

I enjoyed your questions. Thanks for writing.

Mr. Moretti’s class, I’m not sure what killed the whale, but remember, all things the live also die. We cannot assume that something human beings did killed that whale. With all the pollution we create, we cannot assume, however, that we did not hurt it. We should stop polluting just to be sure we do not hurt other living things.

Many of you have are working hard to figure out our math question from the other day. Here is how it works. If we are going 8 knots for 24 hours, we multiply 8 times 24 and get 192 knots in a day. If we want to convert that to miles, we multiply again by 1.15 because each knot is 1.15 miles. We get 220.8 Congratulations to all who got this correct. It was a tough question.

Several of you have asked how long I would be on the ship. I will be here until the end of next week. I leave the ship on Friday October 17th.

LP – I enjoy the show Deadliest Catch very much. I think it is cool that scientists sometimes do that same kind of exciting work.

SD, there is no way for me to videotape under that water, but tomorrow I will show you how our sonars (we call them echosounders) work. That is one way to see under the water.

DT from SOMS dont’ worry, there is no light pollution out here. I am on the back deck of a working ship, so right where I am there are lights. I need them to do my job. I just have to go to the upper decks to get away from it or ask the bridge to shut them down for a bit.

October 10, 2008March 18, 2021

Jacob Tanenbaum, October 10, 2008

NOAA Teacher at Sea
Jacob Tanenbaum
Onboard NOAA Ship Henry Bigelow
October 5 – 16, 2008

Mission: Survey
Geographic Region: Northeast U.S.
Date: October 10, 2008

Science Log

Did you figure out the answer to yesterday’s question? Those creatures were the real cast of Sponge Bob Square Pants TV Show. We saw a sponge, like Sponge Bob, and sea stars like Patrick, plankton, like Sheldon Plankton, some squid like Squidward, a crab like Mr. Krabs next to a sand dollar (because Mr. Krabs loves money), a lobster like Larry the Lobster and a snail like Gary. All the creatures in the program actually exist in the sea, except for squirrels, and we have seen them all on this adventure. Amazing creatures keep coming up in our nets day after day. Let’s take a look at a creature called a skate. The skate makes those funny black rectangles that you find on beaches. Take a look at where those rectangles come from and what is inside of them. Click here for a video!

Skates also have interesting faces. They live along the bottom of the sea. Their eyes are on top of their head to spot predators and their mouthes are below to eat what is on the bottom. They have two nostril -like openings above their mouth called spiracles. They look just like eyes but actually help the skate breathe. Here are a few interesting skate faces.

This sea robin uses three separate parts of its pectoral fin, called fin-rays to move, almost like its walking along the bottom of the sea as it looks for food. This helps is move very quietly, making it able to sneak up on prey unobserved.

These two baby dog-fish show different stages of development. This one is still connected to an egg sack. The other has broken loose from it, but you can still see where it was attached just below the mouth. Usually in this species, just like most fish in the shark family has eggs that develop inside the mother’s body. She gives birth to the pups when they have hatched from their eggs and are ready for the open sea.

Many people have asked me about garbage. Here is some of what we have found so far. We caught part of someone else’s fishing net. Here is a Styrofoam cup and here is a plastic bag, which we caught 140 miles from the nearest land. How do you think it got here?

Finally, we were visited by some dolphins last night. They were eating smaller fish and as they came in for their attack, you can see the smaller fish jumping straight out of the water into the air to try to avoid being caught. Click here for a video.

Snuggy and Zee decided to visit the kitchen today. Here are Zee and Snuggy with our chief Steward Dennis M. Carey and our 2nd cook, Alexander Williams. The food here is fantastic. See how large the kitchen is? We have a lot of people to feed on this ship, and the cooks here work hard. You have seen a few of the many different jobs that people can do on a ship like this. You have seen the scientists at work in the labs, you have seen the engineers who make the engine go. You have been to the bridge where the NOAA Corp officers run the ship. You have been to the kitchen where the cooks keep us so well fed. Tomorrow, you will see how the deck crew trawl our sample nets through the water. Keep checking the blog this weekend. There will be lots to see.

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Now, some answers to your questions and comments:

Hi to KD and to Derek Jeter. We are staying safe. Thanks for writing.

Hello to St. Mark School in Florida. I’m glad you are enjoying the blog. I really enjoyed your thoughts about what these fish have in common. Great work. Here are some answers:

If a ship hit a drifter, the drifter would probably be broken. But the ocean is a big place, and that does not happen very often.

Can your school adopt a drifter? Of course! Take a look here: http://www.adoptadrifter.noaa.gov/. In the mean time, you are welcome to follow the adventures of our buoy. Keep checking this website!

I have Snuggy because some of my kindergarten classes asked me to take a bear with me to sea. So I did!

How heavy are the drifters? It weight 30 pounds or so, I would guess. Enough to make me work to pick it up.

I knew the whale was dead because part of it was decomposing. We could see it and we could smell it. Yuck.

Did any fish try to bite me? Yes. One scallop closed its shell on my finger. I had to be quick to get my hand out of the way in time. Other than that, no.

At 8 knots per hour, the ship could travel 192 knots, or about 220 miles in a day.

Congratulations to all who calculated correctly. The truth is that we have to stop for sample trawls every hour or two, so we seldom make our top cruising speed when we do work like this. So, we usually travel less than we could.

Oh, and to all those who asked, so far I have not gotten sick. Yet.

Thanks all for writing. Keep checking the blog!