teamwork – Page 3 – NOAA Teacher at Sea Blog

NOAA Teacher at Sea
Jennifer Fry
Onboard NOAA Ship Miller Freeman (tracker)
July 14 – 29, 2009

Mission: 2009 United States/Canada Pacific Hake Acoustic Survey
Geographical area of cruise: North Pacific Ocean from Monterey, CA to British Columbia, CA.
Date: July 17, 2009

Hake are unloaded into holding containers, soon to be weighed and measured

Weather Data from the Bridge
Wind speed: 20 knots
Wind direction: 340°from the north- north west
Visibility: foggy
Temperature: 15.2°C (dry bulb); 13.0°C (wet bulb)

Science and Technology Log

Each day I observe the NOAA scientists using the scientific process. These are the same process skills we learn in the classroom. The scientists determine what they want to find out and state it in a question form. These are some of the questions/hypotheses that they are trying to answer.

What and where are the populations of hake?
In what environments do the hake best thrive?
When do they migrate?
What do they feed on?
What feeds on the hake?

Once the hake are observed on the sonar, the trawl net is dropped into the water. The fish are hauled out onto the deck where they are emptied into huge holding bins. Scientists want a good sampling of hake for the survey, not too much and not too little. Getting a good sample is important to the scientists; both for their research and the environment. The scientists don’t want to take too many hake each time they fish, doing this might diminish the hake population.

Collecting Data: Observing – Using the senses to collect information.

Classifying – Sorting or ordering objects or ideas into groups or categories based on their properties.

Measuring – Determining dimensions (length/area), volume, mass/weight, or time of objects or events by using instruments that measure these properties.

Otoliths—fish ear bones—are extracted and placed in vials (test tubes) for later study.

The scientists then collect their data. Fish are separated by species or classified. All hake collected are then weighed. A certain number of them are measured in length, and their sex is determined. Scientists observe; dissect a group of hake, and collect the fish’s ear bones, called the otoliths, (2 white oval shapes pictured above). Otoliths are stored in small vials, which are like test tubes, for later study. The test tube has a serial number which is fed into a computer as well. Later, scientists will observe the otoliths under a microscope. The otolith helps determine the age of the fish. When observed under a microscope, the otolith, or ear bone has rings similar to rings of a tree. The more rings, the older the fish. The age of the fish or data is then recorded in a computer spreadsheet.

Communicating – Using pictorial, written, or oral language to describe an event, action, or object.

Making Models – Making a pictorial, written or physical representation to explain an idea, event, or object.

Recording Data Writing down the results of an observation of an object or event using pictures, words, or numbers.

As data is collected, it is recorded into a computer database, then scientists create tables and graphs from information in this database.

Inferring – Making statements about an observation that provide a reasonable explanation.

Predicting – Guessing what the outcome of an event will be based on observations and, usually, prior knowledge of similar events.

Interpreting Data – Creating or using tables, graphs, or diagrams to organize and explain information.

The otoliths look like small oval “winglike” structures.

Once all the data is in the computer, scientists can analyze or figure out the answers to these questions.

What and where are the populations of hake?
In what environments do the hake best thrive?
When do they migrate?
What do they feed on?
What feeds on the hake?

Scientists use the data to infer or make a statement about the data that gives a reasonable explanation. Scientists also make predictions by guessing what the outcome might be based on the data/observations.

Marine Mammal Watch – NOAA Fisheries instructs the scientists to conduct a “marine mammal watch” prior to a fishing trawl. This is to protect the marine mammals, such as dolphins, whales, sea lions, and seals. When the nets go into the ocean, the curious sea lions want to see what’s going on and play around the nets. This can prove dangerous for the animals because if they get tangled in the net, they cannot come up for air, and being mammals, they need air. As it happened, a half a dozen sea lions were spotted around our trawl net. To protect the inquisitive animals we found another spot in which to put our net.

Personal Log

Everyone aboard the Miller Freeman is a team. It’s an amazing working environment. The ship runs like a well oiled machine. The crew is always so helpful and are dedicated to their work. The scientists are incredibly dedicated to their specific field and are committed to helping the world and the ocean’s biome. Everyone is so patient with all my questions. I am so grateful and honored to be part of this hake survey which is so scientifically important in determining the health of our ocean.

Animals Seen Today
California sea lions
Hake Myctophidae: lantern fish

NOAA Teacher at Sea
Maggie Prevenas
Onboard US Coast Guard Ship Healy
April 20 – May 15, 2007

Mission: Bering Sea Ecosystem Survey
Geographic Region: Alaska
Date: April 15, 2007

Species Profile: A Member of the Team!

Yes! I am an official ice observer, a real member of the scientific team. My job is to tag team with Robyn Staup, my fellow PolarTREC teacher, to record the conditions of the ice every two hours.

The Healy breaks a path through the ice. But what KIND of ice?

It’s not as easy as it sounds. So every two hours one of us takes flights of steps up to the bridge. We are set-up in a corner. Our station is made up of a computer, camera, pencil, piece of paper and the guide for Official Ice Observers.

I get help and advise from my friends up on the bridge.

I try to time my observations to be at the same time that the ship has stopped to take some samples. I need to take three pictures there, all in certain places, upload them to a website form, and interpret certain environmental conditions.

This satellite image of ice on the Bering Sea is very accurate.

How much ice? What kind of ice? How cloudy is the sky? How cold is it? Is there ice algae? How much? What is the visibility?

After that’s all recorded in the form, I have to stop the observation so that the observation has a start and end time. I reread what I wrote, check the links to the photos and upload the form. Then I double check it again by going out of the website and back into it and rechecking the data and photos. At first it took us over an hour. Now we have it down to about 15 minutes.

Kolohe gives me advise sometimes. But he gets into so much trouble I have to keep him close to me when I am on the bridge.

The hardest part is getting outside to take a picture of the ice horizon. On one side of the boat, there is a big gust of wind that takes your breath away, it’s that cold. I don’t stand around, I just take the picture and get back into the bridge.

Spotted seals are found by ridges and waffles on the ice. They are often hiding. Can you spot the spotted seal?

Why are we doing this? All the scientists need to see how abiotic factors influence their sample. Ice is an ever-present factor here in the Bering Sea. When scientists get off the ship and go back to their research labs, they will want to know what the weather was like and what the ice was like on the days and times they took samples.

Jeff Napp, a senior scientist onboard Healy, puts fine nets in the water to trap phytoplankton and zooplankton. He will use the ice observation data.

We were told it’s the first time anyone has been so regular in reporting this data. And what we are doing is very valuable to them.

Hooray for science and teamwork!

Tag: teamwork

Jennifer Fry, July 17, 2009

Maggie Prevenas, April 15, 2007