Title:  1998-99 Antarctic Research Season Highlights
Date:   October 7, 1998




                   NATIONAL SCIENCE FOUNDATION

Media contact:                                   October 7, 1998
Beth Gaston                                         NSF PR 98-63
(703) 306-1070/egaston@nsf.gov

          1998-99 ANTARCTIC RESEARCH SEASON HIGHLIGHTS

     Research ranging from sea floor sediments to the origins of
the universe will be conducted during the 1998-99 austral summer
research season in Antarctica.  Approximately 130 research
projects will be supported by the National Science Foundation
(NSF), the federal agency that funds and manages the U.S.
Antarctic Program (USAP).

     The USAP operates three year-round research
stations_McMurdo, Amundsen-Scott South Pole and Palmer_as well as
two research vessels, the Nathaniel B. Palmer and a new vessel,
the Laurence M. Gould.  The USAP also collaborates with other
countries' Antarctic programs.

     Research will be conducted in the earth sciences,
glaciology, biology, medicine, oceanography, meteorology,
astrophysics and aeronomy (studies of the upper atmosphere).
This year approximately 700 investigators and technicians will
deploy to Antarctica.  Highlights of the current season include:

CAPE ROBERTS PROJECT:  The Cape Roberts project, an international
effort involving scientists from the United States, New Zealand,
Italy, the United Kingdom, Australia and Germany, will attempt to
collect cores from the Ross Sea floor.  The team will drill
through sea ice and about 170 meters of water into the underlying
sea floor.  Ice at least 1.5 meters thick is needed to serve as a
drilling platform.  Sediments and fossils in the drill core
should help provide information about conditions 25-70 million
years ago, and fill in gaps missing from knowledge of the Earth's
climate.  During this interval of time, the first ice sheets in
Antarctica began to form.  This period is particularly important
as it covers a period in Earth's history when the earth last
experienced temperatures as warm as those that are expected over
the next few centuries due to greenhouse warming.  This year is
crucial to the project, which has been plagued by poor sea-ice
conditions in the two previous seasons. Conditions look promising
this season.

SULFUR AT THE SOUTH POLE:  Microscopic sulfur particles in the
atmosphere are some of the major components in climate change
scenarios_both naturally produced and man-made sulfur compounds
reflect solar radiation, produce atmospheric haze and acid rain,
and affect ozone depletion.  Sulfate particles are very good at
acting as condensation nuclei for water vapor, creating clouds.
Researchers will seek to improve understanding of the atmospheric
chemistry of sulfur compounds (some of which are produced by
oceanic phytoplankton) and the climatic interpretation of sulfur
based signals in Antarctic ice core records.

BALLOONING OVER ANTARCTICA:  A major long-duration balloon flight
will circle the continent gathering data at an altitude of
approximately 120,000 feet for about two weeks before being
parachuted to the ice for recovery.  The balloon, supplied and
launched by NASA, has a volume of about 30 million cubic feet and
can lift payloads heavier than a ton. The project will measure,
with unprecedented sensitivity, the temperature variations across
the sky of the cosmic microwave background radiation.  Details
about these relic photons left over from the beginnings of the
universe will help scientists discriminate with exquisite
sensitivity among various models of the cosmos.

FOSSIL FINDS:  In conjunction with the Argentine Antarctic
Institute, researchers will be excavating Mosasaur and Plesiosaur
fossils and searching for Hadrosaur fossils on Vega Island near
the Antarctic peninsula.  The Mosasaur and Plesiosaur fossils
will provide important information about this
class of marine dinosaurs and about the geographic distribution
of these marine reptiles during the age of dinosaurs.  Last year,
this team discovered the only Hadrosaur fossils outside the
Americas.  Hadrosaurs were large land-dwelling, plant-eating
dinosaurs and the Antarctic fossils are important because they
demonstrate a significant land bridge between the Americas and
Antarctica.  They are also evidence of a complex and extensive
plant ecosystem on land in the region which was then at a high
southern latitude, not unlike its current position.

WEST ANTARCTIC ICE SHEET:  The West Antarctic Ice Sheet, which
rests on thin continental crust, may be an important contributor
to a future global warming-induced sea level rise.  A number of
studies are adding to our knowledge of the history of the ice
sheet, which has implications for understanding the Earth's past
climatic conditions and for models predicting future climate
changes. At Siple Dome, an enormous semi-circular ridge of ice
between two quickly flowing glaciers or "ice streams", a 1,000
meter ice core will be drilled and the layers of snow, somewhat
like rings in a tree, will be examined for information about past
climate conditions. Also at Siple Dome, researchers will try to
determine the dynamics of ice flow-a topic critical to
understanding the stability of the ice sheet.  Researchers will
also examine the glacial geologic history of the Transantarctic
Mountains. Others will study the deposits from volcanoes in West
Antarctica attempting to determine the past ice sheet elevation
by dating imbedded volcanic rocks.

A SEAL'S-EYE VIEW:  For an air-breathing mammal, seals forage for
food in an unforgiving environment_under water covered in ice.
Researchers will attach a small video system and a data logger to
Weddell seals' backs and measure oxygen consumption during dives
to determine how seals hunt for food and how efficient they are
at doing so.  Using the data gathered, the researchers will
conduct computer analyses of data on depth, swimming speed, and
bearing, enabling them to create a 3-D path of the seals' dives
and correlate that information with video of the seals' heads and
the immediate environment in front of the seal.  Other gathered
information will allow them to calculate how efficient the seals'
foraging strategies are in different environments and when
hunting for various types of prey.

ULTRAVIOLET CRUISE:  In this multi-disciplinary cruise,
researchers will study the effects of solar ultraviolet radiation
on bacterioplankton, phytoplankton, zooplankton as well the
photochemistry of bacterial growth processes in the ocean.  They
will examine how biological responses to
ultraviolet radiation are affected by ozone, explore interactions
with marine viruses, and study the interplay within the food web.

INTERACTIONS BETWEEN THE ATMOSPHERE AND THE OCEAN:  This season
will be the final field season for ROAVERRS (Research on Ocean
Atmosphere Variability and Ecosystem Response in the Ross Sea), a
multidisciplinary study of the atmospheric and oceanic
interaction conducted on board the Nathaniel B. Palmer.  The
research will lead to a better understanding of the polar marine
ecosystem in response to climate variables. Ship-based scientists
will measure: wind and air temperature; ice cover, ice movement,
and sea surface temperature; small-scale water circulation in the
top layers of the sea; organic materials within the ocean
circulation; and the amount, distribution and respiration rates
of plants and animals on the sea floor.  Combined with
meteorological data, scientists expect they can monitor changes
in airflow patterns in the southwestern Ross Sea to determine
their influence on oceanographic and biological patterns.

CONSTRUCTION AT POLE:  Construction for the new South Pole
station will intensify, focusing on the completion of vehicle
maintenance and shop facilities and the replacement of rubber
fuel bladders with steel tanks.  These safety and environmental
upgrades will complement the South Pole Station Modernization_a
$128 million project to replace the existing station by 2005.
The current station is 20 years old and nearing the end of its
effective utility.

GOULD:  This is the first full season of the R/V Laurence M.
Gould, after several initial cruises last season.  The research
vessel will embark on cruises in support of ultraviolet research,
Long Term Ecological Research, marine geology and geophysics as
well as providing logistic support to Palmer station.  The Gould
is an ABS A1 icebreaker (capable of breaking ice one foot thick)
and is 230 feet long with a displacement of 3,411 tons.  It was
built in LaRose Louisiana and is owned and operated by Edison
Chouest Offshore Corporation (ECO).  The Gould is under a charter
with Antarctic Support Associates (ASA).  Both USAP Icebreaking
Research Vessels_the Gould and the Nathaniel B. Palmer--are owned
and operated by ECO under charter to ASA.

                              -NSF-