Author: Nancy Lewis

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Nancy Lewis, September 22, 2003

Nancy Lewis
Onboard NOAA Ship Ka’imimoana
September 15 – 27, 2003

Mission: Tropical Atmosphere Ocean (TAO)/TRITON
Geographical Area: Western Pacific
Date: September 22, 2003

Sunrise:  0610
Sunset:  1817

0515:  4 N CTD

0900:  Shellbacks on bow

1215:  Deploy Test Wind Buoy

Repair 5 N 140 W Buoy

SOLO

Weather Observation Log

Latitude:  4 degrees.,  22.7’ N
Longitude:  139 degrees, 58.8’ W
Visibility:  12 nautical miles (nm)
Wind direction:  160 degrees
Wind speed:  10 knots
Sea wave height:  2-3 feet
Swell wave height:  4-6 feet
Sea water temperature:  28.0 degrees C
Sea level presuure:  1013.0 mb
Dry bulb pressure:  27.8 degrees C
Wet bulb pressure:  24.6 degrees C
Cloud cover:  4/8 Cumulus, altocumulus, cirrus
Air temperature:  27.8 degrees C

Science and Technology Log

I promised that I would return to a discussion of the ADCP, or Acoustic Doppler Current Profiler.   You can see from the Daily Log’s Plan of the Day when these were deployed, but they are deployed at the following locations:  (0-147 E, 0-165 E, 0-170 W, 0-140 W).  On which of these locations did we deploy the ADCP on this leg of the cruise?

These moorings are subsurface, and the data is only available after their recovery. Typically, the depth is 300 meters, and these buoys use the Doppler effect to gather data on ocean currents at that depth.  I have posted several pictures on the website of the ADCP, and to me, it looks like a satellite when it was on board the ship.  In the water, it looked like a big orange fishing bobber.

Our buoy ops (operations) are beginning to wind down, and we recovered no TAO buoy today, as you can see from the plan of the day.  There was a repair done to the 5 N 140 W buoy.  A whole group went out to do that, and used the time while out at the buoy to do a little fishing.  Two large fish came back on the RHIB, a yellow-fin tuna and a mahi-mahi. Kamaka was preparing the fish by cutting filets and making poke for tomorrow’s lunch.

I’d like to make available for teachers a lesson plan submitted by Suzanne Forehand from Virginia Beach City Public Schools.  Because the schools have been closed due to the hurricane,  it is not available as yet on the web.  Teachers may request a copy from me, and I will send it as an attached file to an e-mail.  I would like to thank Ms. Forehand for her collaboration on this project, andI  hope that their electricity is restored soon.  I look forward to hearing from the students at Plaza Middle School in Virginia Beach.

Personal Log

Oh, the life of a lowly Wog!  Traditionally,  those who have crossed the equator at sea for the first time are treated to a variety of secret initiation ceremonies where one is designated a “wog”.  Shellbacks are those people who have already made the passage, and it is their delight to devise various tortures to inflict on the wogs.  The 6 of us on board here were ordered up on the forward deck early this morning, and the fun began.  I cannot give away any of these secrets, but suffice it to say that we all got a saltwater shower.  From here on until we complete the initiation, we have to wear our clothes in ridiculous ways, and bow and scrape to the honorable shellbacks.  At the end of several days of this entertainment for all the shellbacks,  we then become a shellback ourselves and will be issued certificates and a card that we will hold on to forever to avoid having to endure the same in the future. In the 19th century this tradition was carried to extremes with such measures as keel-hauling the wogs, and some very serious, life-threatening acts of hazing.  It is toned way down from those days, and all is done with a spirit of fun and good humor.

I have been busy looking at the photos I have taken on the digital camera, and of course selecting ones to be sent to Maryland to be posted on the website.  There were various glitches today with the computer I am working on, so my work had to be done in fits and starts throughout the day.

Tom and I played 2 games of sequence this evening against the CO and Doc and we won the championship!  The competition is fierce around here because the winners get a T-shirt or cap from the ship’s store.  I guess I’ll find out if it was wise to beat the Captain hands down like that.  I am scheduled to play him next in Scrabble.

Question of the Day:  What is the origin of the word “hurricane”?

Aloha until tomorrow!

Nancy Lewis

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Nancy Lewis, September 21, 2003

Nancy Lewis
Onboard NOAA Ship Ka’imimoana
September 15 – 27, 2003

Mission: Tropical Atmosphere Ocean (TAO)/TRITON
Geographical Area: Western Pacific
Date: September 21, 2003

Sunrise:  0609
Sunset:  1819

Plan of the Day:

0045:  1.5 N CTD

0445:  pH profiler Cast

0700:   Recover/Deploy 2 N 140 W Buoy

CTD after anchor drop

AOML after buoy fly by

2230:  3 N CTD and AOML

Weather Observation Log

Latitude:  2 degrees, 2.2’ N
Longitude:  140 degrees, 2.5’ W
Visibility:  12 nautical miles
Wind direction: 140 degrees
Wind speed:  15 knots
Sea wave height:  3-4 feet
Swell wave height:  4-6 feet
Sea water temperature:  27.7 degrees C
Sea level pressure:  1012.2 mb
Air Temperature:  26.7 degrees C
Dry bulb pressure:  26.3 degrees C
Wet bulb pressure:  24.0 degrees C
Cloud cover:  2/8 Cumulus

Science and Technology Log

Several other scientists are utilizing the CTD casts in their projects.  The first thing that is done when the CTD is brought to the surface is to collect what we have been calling the “Dickson” sample  A .5 liter sea water sample is collected from the surface and then capped using a small bench-top press.  These samples are sent to the Scripps Institution of Oceanography in San Diego and are analyzed for dissolved inorganic carbon.  This procedure is done by the Survey Technician, and yours truly has learned to do it.  Also, scientist Charles Gutter-Johnson, from Bloomsburg University, uses the CTD water samples for the Monterey Bay Aquarium Research Institute research.  This involves taking chlorophyll and nutrient samples using a bench-top flourometer.  Charles also works to collect barnacles off the retrieved buoys for the Bloomsburg University Barnacle Census.

Tom Nolan from NASA’s Jet Propulsion Laboratory has been calibrating his instrument, called the MISR, which stands for Multi-angle Imaging  SpectroRadiometer. What Tom is doing is checking this instrument against NASA’s  satellite in order to check its calibration. The instrument basically looks like a small oblong box, which he points to the sun to get a reading, and then down at the ocean to get another reading.

Lewis 9-21-03 Tom Nolan
Tom Nolan, from NASA’s Jet Propulsion Lab, calibrates the Multi-angle Imaging SpectroRadiometer (MISR).

These checks have to be done at precise times in order to catch the satellite in its orbit overhead.  The satellite images are used in weather forecasting and tracking of storms, such as hurricane Isabel. Here is the website address for viewing the satellite image of Isabel taken by MISR: http://www-misr.jpl.nasa.gov.  I would love to look at the image myself, but we do not have the internet on the KA.

I would also like to give you a website address where you can view a labeled diagram of a buoy.  It is: http://www.pmel.noaa.gov/tao/images/nexgen.gif.  Here is a question for you: why do the buoys measure conductivity?  To give you somewhat of a hint, conductivity is actually measuring the salinity of the ocean water.  How does salinity relate to ocean currents?

Personal Log

Today we dedicated the TAO buoy to Naalehu Elementary and Intermediate School!  On a large NOAA sticker, I wrote the name of our school, and we had a dedication ceremony where the Captain, John Kermond, our videographer, Tom Nolan and myself signed the sticker. Captain Ablondi and myself then fixed the sticker to the central shaft of the buoy, which is above the water.

CO Ablondi, scientist Tom Nolan, and TAS Nancy Lewis dedicate a buoy to Na’alehu School.
signing the sticker to dedicate the TAO buoy

I am very proud to be a part of the Teacher at Sea program, and be able to share the work on the KA’IMIMOANA of climate observation.  I hope to inspire many of the students at my school, and at schools around the country to a greater interest and study of science, and in particular earth science and oceanography.  If we fail to care for the oceans (and it is all one big ocean despite our giving them separate names) we risk upsetting the entire ecosystem of this planet.  We need the next generation, those of you in school now, to learn as much as they can about this planet, the waters that cover 70% of it, and the atmosphere above us.

We finished filming this afternoon just before sunset, and would like to see who can answer this “brain teaser” of a question:  Why does the ocean foam? Even I do not know the answer to this question, and I pose it for all you budding young scientists out there.

The game tournaments have begun, and I just learned how to place the card game “Sequence”.  Tom is my partner and we won 2 out of 3 games that we played against Nicole Colasacco, the Field Operations Officer (the FOO) and Curt Redman, Engine Utilityman.  The championship game will be against Doc and the CO (Commanding Officer), Mark Ablondi.  According to Doc, whoever wins the first round will be going down when they play her and the CO.  We’ll see!

Questions of the Day:  Quiz for prizes!  First prize will be a KA’IMIMOANA T-shirt, Second prize a ship’s baseball cap, and Third prize a special KA’IMIMOANA patch.  

Here are the questions:

  1. Name the world’s 5 oceans.
  2. Which one is the largest?
  3. How many island groups make up French Polynesia and what are their names?
  4. What is La Nina?
  5. What does NOAA stand for?

Kia Orana!  (May you live long and be at peace, in Cook Islands Maori language)

Posted on

Nancy Lewis, September 20, 2003

NOAA Teacher at Sea
Nancy Lewis
Onboard NOAA Ship Ka’imimoana
September 15 – 27, 2003

Mission: Tropical Atmosphere Ocean (TAO)/TRITON
Geographical Area: Western Pacific
Date: September 20, 2003

9/19/03:

2015  Deep CTD

9/20/03:

0100:  pH Profiler

0800:  Deploy CO2 Buoy

1600:  .5 N CTD

2000:  1 N CTD and SOLO

Weather  Observation Log:  0100

Latitude: 0 degrees, 1.9′ S
Longitude:  139 degrees,  49.7 W
Visibility:  12 nautical miles (nm)
Wind direction:  120 degrees
Wind speed:  15 knots
Sea wave height:  3-5 feet
Swell wave height:  4-6 feet
Sea water temperature:  26.1 degrees C
Sea level pressure:  1-12.0 mb
Dry bulb pressure:  26.3 degrees C
Wet bulb pressure:  24.0 degrees C
Cloud cover:  48 Cumulus, altocumulus, cirrus

 

Science and Technology Log

Last evening  there was a deep cast of the CTD to a depth of 4000 meters.  Tom Nolan and I packed lots of styrofoam cups  that had been decorated by students in mesh bags, as well as several foam wig heads that had been artistically painted by Kamaka.  These bags we attached to the CTD.   The idea was to see what would happen to these cups when subjected to the pressures of the ocean at that extreme depth.  The effect was quite interesting. The cups were scrunched, the heads shrunken, but all in perfect  proportion.   As you can see from the Plan of the Day, 2 other CTD casts were done today, both at the regular 1000 foot depth.

The pH Profiler is a prototype instrument designed and being tested here by scientists from the University of South Florida, Renate Bernstein and Xuewu (Sherwood) Liu.  The purpose of their work is the development of precise, accurate, simple, robust and inexpensive CO2-system measurement procedures for use in global CO2 investigations on NOAA vessels.    What they are trying to do is to assess the accuracy, precision and overall performance of the University of South Florida systems compared to the systems used by NOAA over the past 15 years.  From what I have gathered so far in talking to these scientists,  they are not happy about the performance of their instrument.

Let me address the question of AOML drifters.  AOML stands for Atlantic Oceanographic and Meteorological Laboratory, and these are surface drifting buoys which are deployed by simply tossing them off the fantail of the ship.  They are tracked by the Argos satellite and provide SST (Sea Surface Temperature) and mixed layer current information.  There is a global array of these drifters and they provide ground truth for NOAA’s polar orbiting satellite AVHRR SST maps.  Please email Craig Engler@noaa.gov or check out http://www.aoml.noaa.gov/ for more information concerning the AOML drifters.

Lewis 9-20-03 drifter buoy
AOML drifters buoys are deployed by simply tossing them off the fantail of the ship.

Personal Log

Before leaving Hawaii, I told all my students that it was going to be extremely hot and humid here at the equator.  Surprisingly enough for me, that has not been the case at all.  It  has been actually quite pleasant outside, and of course, there is always a sea breeze blowing.  Inside the ship is sometimes like an icebox, especially in the computer lab which is kept at 70 degrees Fahrenheit.

The ship’s doctor, Michelle Pelkey, affectionately known as “Doc” runs the ship’s store every evening from 0730 to 0800.  Already I have bought a T-shirt and Aloha shirt emblazoned with the NOAA insignia and KA’IMIMOANA.   They also sell soft drinks, popcorn, hats and other sundry items.

Doc is also the ship’s recreation director, and has pressed everyone to sign up for tournaments in cribbage, darts, Scrabble, and a card game called Sequence.

My evening tonight was spent doing a CTD cast from start to finish with Tom, my colleague from NASA’s Jet Propulsion Laboratory.  Tom has written down every step of the procedure, and we were editing  his instructions during the entire procedure. Randy must have had a lot of faith in us, because we did the whole CTD cast without his help.  The last thing to do on the CTD cast is to hose off the rosette, and I got soaked in the process.  Looks like it is a good time to call it a day!
Question of the Day:

What event occurs this year on September 23rd and what is its significance?

Until tomorrow,

Nancy Lewis

Posted on

Nancy Lewis, September 19, 2003

NOAA Teacher at Sea
Nancy Lewis
Onboard NOAA Ship Ka’imimoana
September 15 – 27, 2003

Mission: Tropical Atmosphere Ocean (TAO)/TRITON
Geographical Area: Western Pacific
Date: September 19, 2003

Plan of the Day:

0700:    Recover /Deploy Equatorial ADCP
Recover CO2 Buoy (if there)  OR
Deploy CO2 Buoy ( if Buoy is missing)

Weather Observation Log:  0100

Latitude:  0 degrees,  0.7′ N
Longitude:  140 degrees., 2.3′ W
Visibility:  12 nautical miles (nm)
Wind direction:  120 degrees
Wind speed:  21 knots
Sea wave height:  3-5 feet
Swell wave height:  5-7 feet
Sea water temperature:  26.0 degrees C
Sea level pressure:  1011.2 mb
Dry bulb pressure:  26.0 degrees C
Wet bulb pressure:  23.8 degrees C
Cloud cover:  3/8 Cumulus, altocumulus

Science and Technology Log

The equator!  For me as for most people, it has always just been “that line around the globe,”  but now that I am out here on this project,  I realize that the equator defines more than just the northern and southern hemispheres of the earth.  It is here that the ocean currents are being intensively studied in order for us to understand the relationship between the oceans and climate.  The 1982-83 El Nino was not predicted by scientists, and it had far-reaching, damaging effects on such diverse places as South America and Australia.  It was then that NOAA funded the Tropical Ocean Global Atmosphere project that is the TAO/Triton array.  Approximately 50 of the buoys are maintained by the U.S. and the other 20 are maintained by Japan.  It took 10 years to complete and in essence, it is a 6,000 mile antennae for scientists to monitor conditions in the equatorial Pacific.

Normally,  the trade winds blow from east to west, but in an El Nino event,  the situation is reversed.

The phenomenon has long been observed by South American fisherman,  and usually occurs around the time of Christmas, hence its name which means “Christ child.”  The great ocean currents are moved by the wind, but around the equator, there are counter, below-sea currents.  Instruments in the TAO/Triton array are involved in collecting important data on these below surface currents.

Each TAO buoy is moored to the bottom of the ocean using steel cable surrounded in plastic and railroad wheels are the anchor.  At various depths on the Nilspin, temperature sensors called thermistors are strapped to the cable.  The cable conducts a signal to the surface of the buoy.  These cables can become damaged (by sharks biting them!) or otherwise degraded, and then the signal will be corrupted. Thus, there is the need for the periodic maintenance which is the main mission of the KA’IMIMOANA.

In addition, some of the buoys are equipped with CO2 sensors, which measure the amount of dissolved CO2 in the water, and which can then be used in studies of global warming.  The buoy which we retrieved today stopped working shortly after it was deployed, and it was not known if it had broken free or what had happened.  As it turned out, the buoy was there, and has been replaced with a fully functioning buoy. Right now, I am looking at innards of that CO2 sensor, which is in the computer lab and is being analyzed by the Chief Scientist.

Personal Log

Early this morning, we recovered the ADCP, which is a subsurface buoy.  Shortly thereafter, we deployed a new ADCP.  ADCP stands for Acoustic Dopplar Current Profiler, and this instrument is used to record data on the below surface currents. I will spend time later discussing this buoy, which looks like a giant orange ball.

I spent much of the day catching up on my daily logs, downloading photos and making several video clips to send to the website.  It appears that the hurricane did a number on the East Coast, and we probably will not have email communication until at least tomorrow.  I have been very happy to get some good questions from the students at Na’alehu School on the Big Island, and I am looking forward to hearing from many more of you next week.

I also spent time today chatting with the Chief Boatswain, Kamaka, a very hard working Hawaiian young man who spreads a lot of aloha wherever he goes.  I have invited Kamaka to come to my school when we get back to Hawaii since he is planning to visit the Big Island.  His girlfriend is Marquesan and lives on Nuku Hiva.

The sunset this evening at the equator was stunningly beautiful,  and there was a rainbow under some misty clouds in the east.  I am hoping my photo was able to capture it for you all.  We shall remain here at the equator overnight, and I am looking forward to the gentle rocking of the ship once I tumble into my berth later this evening.

Question of the Day:   What is the Coriolis effect and how does it relate to winds and ocean currents?

Aloha from the KA’IMIMOANA!

Nancy Lewis

Posted on

Nancy Lewis, September 18, 2003

NOAA Teacher at Sea
Nancy Lewis
Onboard NOAA Ship Ka’imimoana
September 15 – 27, 2003

Mission: Tropical Atmosphere Ocean (TAO)/TRITON
Geographical Area: Western Pacific
Date: September 18, 2003

Plan of the Day:  

0130:    4  S CTD and SOLO

0840:    3 S CTD and AOML

1545:    Visit  2 S 140 W Buoy w/CTD and AOML

1800:    Shellback Meeting in Main Mess:  Shellbacks Only!  (If you do not know what a shellback is you are not one)

2345:    1 S CTD and SOLO

 

Weather Observation Log:  0100

Latitude:  2 degrees,55.3′ S
Longitude:  139 degrees,57.2′ W
Visibility:  12 nautical miles (nm)
Wind direction:  080 degrees
Wind speed:  16 knots
Sea wave height:  4-5 feet
Swell wave height:  6-8 feet
Sea water temperature:  26.4 degrees C
Sea level pressure:  1012.7 mb
Dry bulb pressure:  26.3 degrees C
Wet bulb pressure:  24.1 degrees C
Cloud cover:  3/8 Cumulus

 

See Tomorrow’s Log for info