1 December, 1999
As the day for my departure draws closer, my thoughts quite naturally turn towards thoughts of "How am I going to get out of here?". I flew from Christchurch, New Zealand on October 16th in a C-141 Starlifter. This was a wheeled aircraft that lands on the sea ice runway. Since then, the weather has gotten warmer and the sea ice runway is not stable enough for the C-141 to land. The only aircraft that fly from New Zealand to McMurdo now are the smaller C-130 Hercules aircraft. About 4 to 5 Hercs are deployed to Antarctica by the 109th Airlift Wing of the New York Air National Guard. The New Zealand Air Force also operates two wheeled C-130s between Christchurch and Antarctica. Even though the planes of the 109th are ski-equipped, they are presently landing with their wheels. About the middle of December the sea ice will become too unstable to use at all and air operations will be shifted to Williams Field. Willie Field is on the permanent ice shelf. It is farther away from McMurdo, so travel time to and from the aircraft will be increased. Due to the deep snow on the ice shelf, only the ski-equipped C-130s of the Air National Guard will be able to support McMurdo. Still later in the season, a third airfield, named Pegasus, is opened. This is also on the ice shelf, but snow is cleared from the ice so wheeled aircraft can land. This allows for larger amounts of personnel and equipment at the end of the summer season.
As you can see, airplanes are a vital lifeline for the people in Antarctica. Virtually all personnel and much of the needed supplies are brought in by airplane. Large amounts of supplies are also brought in and removed by ships that start arriving at McMurdo in January. A Coast Guard icebreaker clears a passage from the open sea to the harbor at McMurdo Station. A tanker arrives to refill the fuel storage tanks for the year. A cargo ship, the "Green Wave", arrives in late January to off load supplies for the year and remove the garbage, recycled trash as well as scientific samples and equipment. The name for the logistical operation that supports the science efforts in Antarctica is called "Operation Deep Freeze". ODF used to be coordinated entirely by the U.S. Navy. The operation now involves a combination of U.S. military and civilian organizations along with the support of other countries like New Zealand and Italy.
Right now, the 109th and the New Zealand Air Force supply the only airlink to between New Zealand, McMurdo and the South Pole. They fly 5 to 6 missions a day, weather permitting, including two to the South Pole. They also fly missions to remote field camps all over the continent. Many of the men and women of the 109th are Air Guard personnel who come to Antarctica for about 2-3 weeks. They work at regular jobs the rest of the year and fulfill their commitment to the Air Guard on a part time basis. Many of the Herc pilots are commercial airline pilots. I had the opportunity to tour the Air Guard Headquarters and go out to the ice runway. Many of the people working on the ice with the 109th have been here before. This is considered a good assignment because of the uniqueness and the natural beauty. The New York Air National Guard takes great pride in the fact that they are the only ski-equipped aircraft fleet in the world. They often fly supplies to Antarctic bases for other countries. They supply the Russian base at Vostok Station and have been for quite some time. It takes a great deal of training to learn how to fly in the special conditions of Antarctica and land a ski-equipped Herc. Even an experienced Herc pilot requires an additional two years of training before she or he can pilot a mission on the ice. Unpredictable weather, white outs, and untested landing areas are just some of the problems that pilots must deal with. After the austral summer flying season ends, usually in February, the 109th starts preparing for missions on another ice-covered landmass, Greenland.
I am confident that the people of the 109th will make my flight off the continent a safe one, if not short or comfortable. Now, if they could only do something about the weather.
Those of you who have been running the evaporation experiment, here is my final set of data for the experiment I ran in Antarctica. Because the last set of data I sent out in table form did not come out right, I am going to present the data this time as ordered pairs. I am listing the time elapsed since the beginning of the experiment first followed by the depth of the water in the pan, (Time Elapsed (hr), Average Depth (mm)). I would suggest you graph this data and compare the rate of evaporation that I got with the rate that you determined. Your math teacher can help you determine how to graph this data and determine the evaporation rate.
Evaporation Experiment Data, November 11 though December 1, 1999, McMurdo Station, Antarctica
Average temperature of the water = 63F
(0,35), (26,35), (45,33), (62,32), (86,31), (110, 30), (134,28), (158,27), (172,26), (196,24), (218,23), (254,21), (266,21)
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