Diane Stanitski – Page 3 – NOAA Teacher at Sea Blog

August 20, 2002March 18, 2021

Diane Stanitski: Day 10, August 20, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 10: August 20, 2002

Our location and the weather observations at 1500 today were:
Latitude: 15°37.4’N
Longitude: 145°25.0’W
Visibility: 12 nautical miles (nm)
Wind direction: 030 (direction from which the wind is blowing)
Wind speed: 18 kts
Sea wave height: 4-5′
Swell wave height: 5-7′
Sea water temperature: 26.0°C
Sea level pressure: 1011.9 mb
Dry bulb temperature: 25.8°C
Wet bulb temperature: 24.2°C
Cloud cover: 7/8, Cumulus

Today’s quote:

“A man is ethical only when life is sacred to him…and when he devotes himself helpfully to all life that is in need of help.”
– Albert Schweitzer

WELCOME to a new time zone! We are now 9 hours off Greenwich Mean Time (GMT), the current time in Greenwich, England along the 0° meridian. We just crossed into this new time zone overnight as we cruised southeast toward 8°N latitude, 125°W longitude. At 8°N, 125°W we’ll find the first buoy that needs to be replaced, which is typical after floating in the water for one year (see the web site http://www.pmel.noaa.gov/tao for a map and description of the Tropical Atmosphere Ocean (TAO) buoy array). During our travels southward along the 125°W longitude line, a few of the moorings (buoys) will simply need to be repaired instead of replaced. The sensors that will be replaced may have been vandalized by fishermen, damaged due to severe weather, or the sensors may need to be recalibrated. In any case, we’ll either replace sensors or fix them at each buoy.

I just walked (well, swayed) out on the buoy deck and discovered that the ship’s first replacement buoy is being constructed. This buoy will replace the one currently floating at our first stop. It’s amazing how the whole project comes together with many scientists working in harmony. See today’s photo log for pictures of the newest buoy at various stages of completion.

Dr. Paul Freitag, our Chief Scientist, provided some more information about the instruments on the buoys. First, the buoys are anchored to the ocean floor, which is still hard for me to believe. All of the buoys have sensors to measure temperature/relative humidity and an anemometer to measure wind speed along with wind direction. Some of the buoys have sensors measuring precipitation and solar radiation, but not all are equipped to with this expensive instrumentation. The buoy itself (the orange and white donut part) is composed of a foam core surrounded by fiberglass. Below this there is a rigid stainless steel bridle connected to a wire rope which is used for the first 500 meters of the mooring. On these 500 meters of wire rope there are nine subsurface temperature sensors (thermistors) followed by two pressure sensors accompanying two more thermistors. The pressure readings correspond well with measurements of ocean depth. Water temperatures are measured below the surface at 1 meter (m), 20 m, 40 m, 60 m, 80 m, 100 m, 120 m, 140 m, 180 m, 300 m, and 500 m. Below 500 m, eight-strand plaited nylon line is used down to the anchor, with some sites requiring nearly 3 miles of line (see the diagram at http://www.pmel.noaa.gov/images/atlas.gif). The amazing thing is that the subsurface temperature sensors transmit and receive data from the buoy with an inductive coupling technique, which means that they’re not wired directly to the main line, yet data are transmitted along the cable. The sensors simply clamp onto the wire rope that serves as one of the inductive elements. This makes it much easier to assemble and deploy the extremely long cable. One aspect of meteorology that I find fascinating is the instrumentation, so I spend much of my time looking at the wiring and instrument manufacturers and asking the scientists many questions about what and why and how…they haven’t seemed to mind so far.

Here is some more information about the people and activities on the ship. There are 31 people on board (seven of us are women) with bunk space available for only two more. There are 5 officers, 1 cadet, 10 scientists, and the remaining crew members who focus on making the ship and science work efficiently. We all greatly appreciate their help. Everyone eats breakfast from 7:00-8:00 AM (0700-0800), lunch from 11:00-12:00 (1100-1200), and dinner from 4:30-5:30 PM (1630-1730). There is a small store selling candy and snacks, soda, shirts and hats on the ship that is open each night from 1930-2000 hours. We can email from any computer on board (I’ve counted at least 14 computers) and all of our email messages are sent and received in a bundle two times a day around 0900 and 1600. There is a laundry room with three washers/dryers on the second deck forward on the starboard side of the ship. There are two lounges with library materials including books, magazines and board games. Movies are shown every night on two channels in the lounges at both 1730 and repeated at 2000. So, you can see that it’s easy to keep busy on the ship. Two extra treats on this cruise include guitar/music playing sessions for all those who brought their musical instruments on board, and French lessons every other night. Je m’appelle Diane. J

After seeing more flying fish today, I decided to do some research to find out exactly what these fish are all about. I learned that they’re often referred to as “bluebirds of the sea” and that they spread their pectoral fins, glide for a few seconds, and then splash back into the sea. When they swim, their long fins are folded against their body. Flight speeds of up to 35 miles per hour have been monitored and flights as long as 13 seconds covering up to 450 feet have been timed. Photography has proven that they are gliders and not true flyers (all information obtained in “Fishes of the Pacific Coast” by Gar Goodson, Stanford University Press, 1988). I’ll keep my eye on these beauties and attempt to take a photo so you can share this delight!

The first person to answer my question of the day posed in my August 17th log was Tom Taddeo (my incredibly smart uncle from Mechanicsburg, PA – thanks for responding!) who gave the correct answer regarding the definition of pitch, roll, and yaw of a ship. Yes, pitch is when the ship tips in a fore-and-aft direction (from front to back), roll means the ship tips from side to side due to the sea or swell, and yaw means that the ship swings involuntarily from side to side when advancing forward. I’d love to hear from more of you so I can acknowledge more people in my logs.

The afternoon was spent testing the computer and camera equipment that will enable us to connect with all of you via upcoming live webcasts. Fortunately, everything seems to be working very well! We even managed to get a wireless microphone to work. We’ll be testing again tomorrow and hope to have a general broadcast ready to go by the end of the week. Please contact Jennifer Hammond at jennifer.hammond@noaa.gov if you’d like to receive the live broadcast. We’ll be interviewing scientists and talking about life at sea!

We enjoyed a wonderful dinner again tonight and I’m nearly ready for bed. It was great to hear from Dana Tomlinson (our last Teacher at Sea!), Nancy from ASU, and as always, my husband, family members, and friends. I invite more of you to email with questions that you might have about the Ka’imimoana or what it’s like to live on a ship.

Until tomorrow when I discuss CTD’s (what are they, you ask?!? – more tomorrow!)…bon soir.

Question of the day: What is the difference between sea wave height and swell wave height?

More tomorrow…
Diane

P.S. I just walked outside and rain was falling on the buoy deck under bright pink clouds – beautiful!

August 19, 2002March 18, 2021

Diane Stanitski: Day 9, August 19, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 9: August 19, 2002

We enjoyed mostly cloudy skies today as we headed southeast toward the 125°W longitudinal line.

Our location and the weather observations at 1300 today were:
Latitude: 16°22.1’N
Longitude: 149°09.5’W
Visibility: 12 nautical miles (nm)
Wind direction: 050 (on a 0-360° scale) which means NE
Wind speed: 22 kts
Sea wave height: 6-8′
Swell wave height: 6-8′
Sea Water Temperature: 26.8°C
Sea level pressure: 1011.5 mb
Dry bulb temperature: 25°C
Wet bulb temperature: 23°C

Today’s quote:
“How far high failure overleaps the bounds of low success.” – Lewis Morris

John Kermond and I sat down this morning after breakfast to sketch out the webcast that we hope to produce during the next two weeks. We discovered that we can probably create 10 live videos that will be sent to the general public, Shippensburg University, and possibly the BBC and a local television station near Shippensburg, PA. Be sure to look for these videos on the web site as I will interview our chief scientists and crewmembers, and will also teach my undergraduate and graduate classes from the ship.

Don Shea and Kirby Worthington, our NASA scientists on board, offered to provide an overview of their iron limitation study. It is felt that an iron deficiency in the mid-Pacific Ocean might be the limiting factor with regard to phytoplankton (e.g., algae) development. Iron in the water tends to absorb carbon, which in turn provides what is necessary for plant growth. The Atlantic Ocean doesn’t seem to experience this same situation as iron found in conjunction with sand blowing west off the African continent, seems to provide the ocean with an ample amount of iron. This study tests the effect of iron, nitrates, phosphates, and ammonium against a controlled sample collected from the Pacific Ocean water. They use a Fast Repetition Rate flourometer to measure the flourescence of each water sample. Surface seawater is drawn from the ship’s continuous flow through system of clean seawater. As I learn more about the study I’ll provide an update.

I discovered that the KA’s call signal is WTEU (Whiskey, Tango, Echo, Uniform) and it is displayed when going into each port. Every ship has its own signal that it reveals via flags exposed on the ship. There are other single letter signals exhibited when there is an emergency or used as a warning sign. Some of these include the (A)lpha flag meaning diver down, the (B)ravo flag representing dangerous cargo, and the (H)otel signal showing that there is a pilot on board.

I also learned to use The Nautical Almanac for 2002 to calculate sunrise tomorrow morning based on how far we will travel overnight and the latitude and longitude of our final destination. Since the boat is moving, it becomes more challenging to calculate solar angle and sunrise. I am planning to meet Rachel Martin on the bridge at 6:00 AM tomorrow morning to learn more about celestial navigation, provided the clouds have cleared and stars are visible. We need to remember to move our clocks forward by one hour since we’re moving into a new time zone as we travel toward 125°W longitude.

Steve Kroening, the FOO (Field Operations Officer), showed us a PowerPoint slide show presentation featuring the Ka’imimoana and crew along with many of the scientific experiments conducted on board. It was very uplifting because everyone obviously works efficiently together. I was amazed at the sheer number of people who have been involved in the research.

I discussed lesson plans related to El Niño with Paul Freitag, Chief Scientist. He will access some current data that my students at Shippensburg University can use for a lab. Another great day on board! More travel news tomorrow!

All the best to you all!
Diane

August 18, 2002March 18, 2021

Diane Stanitski: Day 8, August 18, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 8: Sunday, August 18, 2002

The weather observations at 1700 today were:
Temperature: 26.0°C
Sea Water Temperature: 26.7°C
Visibility: 12 nautical miles
Wind direction: 055 (on a 0-360° scale) – NE
Wind speed: 20 kts
Sea wave height: 5-7′
Swell wave height: 6-8′
Sea level pressure: 1013.2 mb
Cloud cover: 3/8, cumulus

Today’s quote: “Best be yourself, imperial, plain and true!” – Robert Browning

The crew was abuzz today due to the fact that we were about to deploy a test buoy after surveying a 3×3 mile stretch of the ocean to find an area with a flat surface for the buoy’s anchor to rest upon. The entire exercise took all morning and a part of the afternoon. I interviewed John Bumgardner, our mechanical engineer on the boat, about the buoy array and videotaped a short segment to be used in one of our upcoming webcasts.

A buoy deployment is serious business on the ship. One of two cranes is used to lift the extremely heavy buoy off the starboard side of the ship onto the water. Thousands of meters of durable nilspin and nylon are then spooled out into the ocean behind the buoy with a large anchor (a railroad wheel) weighing approximately 2 tons dropped as a final way to secure the buoy in its location and anchor it to the ocean floor (see photos in the photo log). The buoy drifts off into the sea for a few km as the ship slowly drifts in the opposite direction so that the rope doesn’t become tangled. An acoustic release device is then discharged into the water, which will allow the buoy to become detached from the anchor after it’s at the bottom of the ocean. This will be handy when the buoy is retrieved from the water at the end of September during the return of the KA to Honolulu.

The deployment was successful except for one rope that was caught over the sonic wind sensor. A group of us decided to ride the RHIB to the buoy in order to pull the rope off of the sensor. It was a rough ride through the 6-8′ swells, but boy was it fun! We all hung on and received a nice salty shower during our return to the ship.

While all of this was going on, Larry, our Electronics Technician, hooked me up to my email account so that I could keep in touch with all of you. He also downloaded software so that I could provide photos of my experience for you to view. Larry keeps the ship rolling with his expertise in so many areas. We’re definitely lucky to have him on board.

After turkey, stuffing and mashed potatoes for dinner, John videotaped me on the back deck in front of a beautiful sunset. I then came inside for a short French lesson. Takeshi, our foreign observer, is from France and is teaching us some basic French before our arrival in Nuku Hiva, the French Marquesas. It’s all coming back to me after 3 years of French in High School – definitely worthwhile classes to take in school.

I’m off to bed after a long day in the fresh air. Looking forward to tomorrow’s adventures.

Today’s question: What percent of the ocean’s water is saline?

All the best,
Diane

August 17, 2002March 18, 2021

Diane Stanitski: Day 7, August 17, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 7: Saturday, August 17, 2002
Time: 0700 military time (based on a 24-hour time schedule)

Latitude: 21°14.715’North (N) Cruising just south of the Big Island of Hawaii visible this morning from the port (left) side of the ship when facing forward
Longitude: 157°57.378’West (W)

Weather Observations taken from the bow of the ship with Shippensburg University’s hand-held Kestrel 3000 instrument:

Air Temperature: 27°C (80.6°F)
Average Wind Speed: 6.3 knots (7.3 mph)
Cloud Cover: 8/10 with mostly altocumulus (middle level, puffy) and cirrocumulus (high level, puffy) clouds
Precipitation in previous 24 hours: 0 cm (0 inches)
Relative Humidity: 89%
Dew Point Temperature: 24.8°C (76.6°F) Relatively calm seas; beautiful sunrise; Porpoises spotted on the port (left) side of the ship

Quote written on the Plan of the Day (POD) posted outside the Main Mess (meal) area: “All excellent things are as difficult as they are rare.”
– Benedict Spinoza

After a restful night’s sleep on my upper bunk, I awoke ready for a new day! It struck me as I was lulling into a peaceful sleep that my mattress felt just like a waterbed. I thought that I was rolling around on a bowl of jello, a neat feeling which made me relax. I am fortunate that I haven’t experienced any seasickness yet. A few others haven’t been so lucky. Michelle, our fearless Medical Officer on board, has distributed medication for seasickness to those needing it. It is recommended that you breathe in fresh air and watch the horizon for a while if ever you feel queasy.

After touring the outer decks of the ship watching the sun rise above the morning clouds on the horizon, I stopped to speak with crew member Roger Stone who said that every day is slightly different because the sky is always changing. He recalled seeing a white rainbow at night under a full moon. I had never heard of this so I’m intrigued about what would cause such a remarkable feature.

Breakfast was interesting because I spoke with Rachel, a Cadet, and Steve, our Field Operations Officer (FOO) who received a degree in Meteorology at the University of Nebraska. We discussed Steve’s research and he said that I could come up to the bridge to take weather observations anytime. Yahoo! For some reason beyond me, weather obs are not everyone’s favorite activity of the day. Rachel taught me the difference between a pitching and rolling boat. She said that a pitching boat rocks front to back (up and down), while a rolling boat rocks side to side. She is currently taking a course requiring that she write a complete report of all of her activities while on board. I hope to learn many things from her, including celestial navigation — how to find your way using the stars. Can’t wait!

I learned from Steve that the reason it was a bit rocky in the ship last night was due to our travels through currents emerging from between the Hawaiian Islands. The currents disturbed the forward motion of the boat. Unknown to me, currents are named for the direction toward which they flow, unlike winds, which are named for the direction from which they blow. So, if ocean currents and winds are moving in the same direction, they have opposite directional names – very interesting!

I spent part of the day organizing my thoughts regarding my upcoming lesson plans. There are so many exciting ideas generated each day by the scientists as we talk. I will definitely interview the scientists on the ship about their current research as well as use the opportunity to describe the many mechanical and electronic sensors on board to everyone watching the webcasts. Please let me know what you would like to know more about and I’ll try to include it in a future webcast.

John pointed out flying fish on the port side of the boat today. They are quite small and it is believed that they fly to flee from whatever is gaining on them. They don’t have great ability to determine direction and they stay in the air for just a few seconds before splashing into the water again.

Our location and the weather observations at 1300 today were:
Latitude: 18°37.8’N
Longitude: 155°23.7’W
Visibility: 12 nautical miles (nm) which is about the greatest distance you can see due to the curvature of the earth
Wind direction: 060 (on a 0-360° scale) which means ENE
Wind speed: 19 kts
Sea wave height: 5-7′
Swell wave height: 6-8′
Sea Water Temperature: 26.6°C
Sea level pressure: 1015.0 mb
Dry bulb temperature: 26.2°C
Wet bulb temperature: 23.5°C

Sarah and Rachel gave me a tour of the ship’s bridge this afternoon. They discussed every aspect of their job and it was fascinating! They have radar on the ship to detect nearby ships and severe weather. On the front panel of the bridge there is an automatic pilot system for the ship. There are also throttles for the main engines, which allow us to travel at approximately 10-12 kts under ideal conditions. The bow thruster controls movement of the front of the ship from left to right. They described radio communication procedures with other ships, explained who has right of way when two ships are merging, and provided details about the nautical charts used during each journey. I made the mistake of calling nautical charts “maps” and was politely corrected. I will place this new term in my memory bank for future reference. I also was privy to a chart showing our upcoming transit line with waypoints approximately every 200 miles. The ship remains in a straight path until a certain point where a slight change of direction is made, otherwise, the bearing would constantly change as the ship’s path slowly curved.

After a workout and excellent meal of chicken stirfry, cauliflower, rice and pecan pie prepared by Helen and Doretha, I met with John who informed me that there would be a deployment of a test buoy tomorrow around 0900 and that he would like to videotape me on the buoy before it’s sent out to sea to explain the instrumentation on the mast. Earlier today I met with Dave and Paul, our Chief Scientists on board, and they explained the entire array of sensors and the purpose behind the buoy. It will be deployed and removed during this trip with data collected every few seconds and stored in a datalogger on the mast. During the return voyage of the KA to Honolulu in late September the buoy will be removed from the water and the data analyzed immediately following the trip. A compass comparison test and a buoy motion monitor test will be conducted. A specially engineered tube containing 3 different compasses and an accelerometer will enable the pitch, roll, and yaw of the buoy to be determined. As of yet, I believe that these movements on the buoy are unknown.

Today’s question: What is the pitch, roll, and yaw of a ship? Be the first to answer and I’ll acknowledge your response in my next log. I’ll write again tomorrow after a peaceful night under the millions of visible stars above.

Peace to all and to all a good night,
Diane

August 16, 2002March 18, 2021

Diane Stanitski: Day 6, August 16, 2002

NOAA Teacher at Sea

Diane Stanitski

Aboard NOAA Ship Ka’imimoana

August 16-30, 2002

Day 6: Friday, August 16, 2002
Time: 12:47 PM
Latitude: 21°14.715’North (N)
Longitude: 157°57.378’West (W)

My first daily log…I love every minute on the ship! Everything is so interesting. I have already learned a great deal about the science to be conducted on board during the next 24 days. Before departing from Pier 7 at the Hickam Air Force Base, Dr. John Kermond, who will be directing and videotaping the Teacher at Sea (that’s me), filmed me on land in front of the ship as I described my weeklong activities in Honolulu. After climbing aboard, the ship then separated from the pier at 0830 as the gangplank was lifted onto the ship.

We started the day with three emergency drills. The first was a collision drill and it required that all scientists go immediately to the computer room while the other crew members simulated what to do in case of a collision with another object on the sea. We then experienced an abandon ship drill, which is activated when we hear more than 6 loud rings of the alarm bell followed by one final long ring. We must immediately go to our stateroom (like a college dorm room) and grab a pair of long pants, a hat, closed-toed shoes, and a long-sleeved shirt. In addition, we have to carry our life jacket and survival suit, otherwise known as the gumby suit, a bright orange neoprene suit with attached booties and gloves that would keep you alive in the water for days if misfortune should reach you.

Three NOAA inspectors also participated in the drills by ensuring that all details were addressed and all materials were up to par. They checked to make sure that the flashlights on our life jackets worked and that we had an attached whistle. After 3 buzzers sounded, the drill was over and everyone returned to their regular activities. We then practiced the man overboard drill with a mannequin floating in the water. The RHIB (Rigid Hulled Inflatable Boat) was lowered and a group of crew members rescued the mannequin in an efficient manner. The inspectors were then to return to shore after 3 days of inspection on the ship. I was asked if I would like to accompany them back to shore on the RHIB… definitely!!! I grabbed a hardhat and life jacket and hopped on board the RHIB before it was lowered into the water. We sailed across the ocean’s surface and dropped off the departing group. I stepped onto land again for the last time for the next 24 days. It was exciting but I was anxious to leap back on board the KA.

We arrived back at the ship and it was then that Doug (aka Nemo) came over and asked if I had the muscle to ratchet and lock away the RHIB on the davits (a holder for the RHIB or life boat when not in use). I immediately agreed to do it and he put me to work while John videotaped the event and the Commanding Officer (CO or Captain), Mark Ablondi, watched along with a few others. Yikes! There was no way that I was going to stop, despite the challenge of the task. I managed to secure it at the top! I’d better watch what I agree to do in the future. I decided to work out in the exercise room, which consists of an air-conditioned space on the second deck all the way forward in the ship holding 2 exercise bikes, a treadmill, row machine, weights, and a mat that you can use to stretch. There is a fan, TV, and radio to keep you preoccupied and motivated. I chose the treadmill and discovered that you’d better hang on because as the ship rolls and/or pitches (the difference will be explained later in my logs), it tends to knock you off balance.

The ship was delayed by 2 days due to the unavailability of a licensed engineer. It was supposed to depart on August 13 (3 days ago), and so I had 2 more days in Honolulu – darn! My husband and I celebrated our 9th wedding anniversary on August 14 and so were pleased that we could actually be together since he came to Hawaii to see me off on the ship. We decided to celebrate by flying to the Big Island of Hawaii where we drove from Kona to Volcanoes National Park to see fresh lava oozing from the surface of Kilauea, the active volcano currently erupting on the southeastern side of the island. It was fantastic! We also toured a coffee plantation and bought some fresh 100% Kona coffee. What a treat! Despite the newly expected departure of August 15, we still didn’t leave until this morning because new batteries needed to arrive before departure. All in all, we had a productive week in Honolulu because of our delays.

This has been a wonderful week and first day. I can’t believe that I’m here, and I know how lucky I am to be a part of this great adventure. The people on board the ship couldn’t be better. They’re extremely helpful and fun people who enjoy discussing their research ideas.

Stay tuned for another log tomorrow. I am looking forward to hearing from each one of you so please email me ASAP!

Cheers!
Diane