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SCIENCE SITREP - November 94
R 021444Z DEC 94
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       P A L M E R   S T A T I O N   A N T A R C T I C A

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			 PALMER STATION
		   SCIENCE SITREP November 1994



S-013     LONG-TERM ECOLOGICAL RESEARCH (LTER) ON THE ANTARCTIC
	  MARINE ECOSYSTEM: AN ICE-DOMINATED ENVIRONMENT (SEABIRD
	  COMPONENT). William R. Fraser/Wayne Z. Trivelpiece,
	  Montana State University, Bozeman, MT.
	 
	  PERSONNEL ON STATION: Eric Holm, Karen Carney, and Laura 
	  Somervill

  Access to local islands and study sites have been kept to a
minimum during the month of November.  Heavy pack ice moving in and
out of the area as well as high winds made it possible to boat only
11 days this month.  During the station-bound days we were able to
do intertidal limpet size distribution analysis and up date field
notebooks.  

  Population counts on Torgesen, Humble, and Litchfield islands
were completed in early November which determined the total number
of attempted breeders.   Reproductive study sites for Adelies were
also set up on Torgesen (90 nests) and Humble (20 nests) Islands as
well as reproductive sites for the 27 breeding Known Aged Birds on
Humble Island.  As a part of the ongoing reproductive success study 
occurring on Torgesen Island the "tourist impact" study was also
set up this month.  

  Brown and south polar skua study sites were visited when
possible on Shortcut, Litchfield, and Humble Islands.  Arrival
dates were tracked and as of 11-22 no eggs were laid.  

  Marine mammal observations have been noted when possible as
well as observations of migrant and vagrant species of birds.  On
November 11  twelve yellow-billed pintails were spotted in front of
Palmer Station by S-013 personnel, and again on November 15 three
more were spotted flying near Torgesen Island.  Twenty Arctic terns
in non breeding plumage have arrived in Arthur Harbor.  

   On November 30 and Dec 1 S-013 will accompany members of the
D.V. visit to Torgesen Island and discuss the current studies and
answer questions about the local wildlife.


S-016    LONG-TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE
	 ECOSYSTEM: AN ICE-DOMINATED ENVIRONMENT (PHYTOPLANKTON
	 COMPONENT).  Maria Vernet, Scripps Institution of Oceanography.

	 Personnel on Station:  Wendy Kozlowski, Doug Ikelheimer, and 
	 Karen Patterson
	 
  Though during the beginning of the month the ice remained blocking
access to the B through E station transect, lab setup and method
protocol was completed during this time.   Both the nutrient
autoanalyzer (nitrate, nitrite, silicate and phosphate) and the
HPLC system (pigments) are running and available for data
collection at this point.  Radiocarbon methods and all applicable
incubators (a table incubator for the 14C - Chlorophyll experiments
has been set up, and an additional tube rack with UVB resistant
tubes is now in place on the NW side of BioLab) have been
calibrated and tested.

  We were able to get out in the zodiac Nov 16 and sample at station
B, which served as a successful test of the sampling equipment and
methods.  A full E through B transect was sampled Nov. 22 (thank
you Bruno R. for your assistance in that matter) and sample
analysis was completed by the 25th.  The ice has since moved back
into the harbor, and only limited, non-station sampling was
completed Nov 29.

  December's activities will include continued sampling, as well as
preparation for the  upcoming LTER cruise in January.

  We would like to welcome to the group Karen Patterson from UCSB,
and mention also how much the presence of Dr. Vernet is missed by
all (especially those of us in Lab 3!) here on station.


S-028    LONG-TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE ECOSYSTEM:  
	 AN ICE-DOMINATED SYSTEM.  Robin M. Ross and Langdon B. Quetin,  
	 University of California, Marine Science Institute, Santa Barbara, 
	 California 93106.

	 Personnel on Station:  Langdon B. Quetin, Janice Jones 
	 (split position with S-032), Bruno Rowell, Christie Campbell

  Karen Haberman and Christie Campbell arrived at the station November 25 
aboard Polar Duke.  Karen's algal cultures survived the winter in good 
shape and she is setting up equipment for her studies on krill feeding.  
Cultures for the collaboration with S-046 should be ready for a feeding 
experiment November 4.  Christie had her first orientation dive at the 
Palmer Station dock November 28.  The dive went well.

  The past month has been one of limited sampling due to ice conditions 
in Arthur Harbor.  We completed acoustic transects from stations A-E 
and J-H November 22 and 23 respectively, before pack ice restricted our 
efforts.  We dive collected ACO krill 18 November from beneath pack ice 
and completed LIGR1 later in the week.  Subsequent dives in November 
were restricted by ice conditions.  During dives in the immediate 
vicinity of Palmer Station few krill were observed.  Rubber Duke was 
launched for the first time November 26 and all systems worked well.  
Schools of krill were located acoustically between ice floes and despite 
difficult trawling conditions some krill in the 28-35 mm size range were 
caught at about 10 m.

  Ice conditions are slowly improving and we expect to be sampling on a 
more regular basis soon.  The LTER group continues to work well together 
and all equipment is working.  The station personnel continue to provide 
us with outstanding support.


S-032    LONG-TERM ECOLOGICAL RESEARCH (LTER) ON THE ANTARCTIC MARINE
	 ECOSYSTEM: AN ICE DOMINATED ENVIRONMENT.  Ray Smith, University of
	 California at Santa Barbara. 
      
	 Personnel on Station: Janice Jones (split position with S-028),
	 Carter Ohlmann

  S-016 sampled at the seawater intake on November 11 and provided water
samples for chlorophyll measurements.

  The ROZE is fully operational.  On November 15, we did CTD and OFFI test
runs at stations B and C, and S-016 provided water samples from station B
for chlorophyll analysis.  One full day of sampling at stations B through
E, in conjunction with S-016, was completed on November 16.  This full day
yielded CTD, OFFI, and chlorophyll data.  Due to ice conditions, stations
F through J have yet to be sampled.

  Our laboratory computer systems are up and running with 2 machines linked
into the Palmer network.  This eases data transfer to our storage machine
and allows us access to both the DAT backup system currently in use on
station, and our own optical backup system.

  The salinometer has been checked and is ready for use.
	 

S-044    EFFECTS OF OZONE-RELATED INCREASED UV-B FLUENCES ON PHOTOSYNTHESIS, 
	 PHOTOADAPTATION, AND VIABILITY OF PHYTOPLANKTON IN ANTARCTIC 
	 WATERS.  Osmund Holm-Hansen, Scripps Institution of Oceanography, 
	 University of California, San Diego.
	 
	 Personnel on station: Virginia Villafane, Walt Dunlap, 
	 Humberto Diaz, E. Walter Helbling.  

  During the month of November we continued with our daily UV-exposure  
experiments using the temperature-controlled incubators on the outside deck 
of Palmer Station and also utilized in situ incubations when weather or 
ice conditions permitted. The in situ incubations, which involved 
incubating phytoplankton samples at various depths between 0.5 m and 12 m, 
were limited to only 10 days during the entire month due to ice conditions. 
These in situ incubations involved both short term (one day) and long term 
(2-6 days) experiments. Our deck incubations involved the following studies:
(i) Testing the impact of UV-B and UV-A radiation on the rate of 
photosynthesis of a natural phytoplankton assemblage sampled daily from 
Arthur Harbor, (ii) Various monoespecific cultures of phytoplankton, which 
we had previously isolated from Arthur Harbor, were used to assess the 
impact of solar UVR on photosynthetic rates, to look at the rate of 
synthesis of UV-absorbing compounds, and to study the degree to which UVR-
induced photoinhibition is reversible. Our preliminary data on carbon 
incorporation indicates that, of the eight species being tested, diatoms 
are more resistant to UVR than flagellates or the prymnesiophyte Phaeocystis 
pouchetii (solitary cells). Data on the synthesis of UV-absorbing compounds 
(determined by HPLC analyses) indicate that centric diatoms synthesize 
relatively high concentrations of mycosporine-like amino acids (MAAs), but 
that pennate diatoms consistently showed very low concentrations of these 
MAA compounds. Cultures of Phaeocystis pouchetii did not produce significant 
amounts of UV-absorbing compounds after two weeks of UVR exposure, and were 
very sensitive to UVR.  All experiments are being supported by continuous 
recording of spectral UVR irradiance, as well as visible radiation, so that 
all data on the effect of solar UVR can be calculated on the basis of mean 
irradiance as well as total UVR dose.  


S-091     PALMER IRIS SEISMOLOGY.  R. Butler/G. Holcomb, U.S.
	  Geological Survey, Albuquerque, NM.

	  No personnel were on station. 
   
  The system has been monitored by the station science technician.
In an effort to seal slow vacuum leaks, the three bell jars covering the
seismometers were reseated on 11 November.  On 16 November, the mass 
positions were centered on all three sensors.

  On 17 November, the N channel data streams stopped updating.  In an 
attempt to remedy this reoccurring problem, the QVI, QDP, and QAP cards 
were reseated in the DA computer.  An autoload was performed , and the N 
channel data streams returned.


S-106     VERY LOW FREQUENCY (VLF) REMOTE SENSING OF THUNDERSTORM
	  AND RADIATION BELT COUPLING TO THE IONOSPHERE.
	  U. Inan, Stanford University.  

	  No personnel were on station.
  
  The system has been operated by the station science technician.
The BetaMax recording schedule was modified twice during the month.  All
other Stanford VLF operations were normal.


S-254     CHLORINE- AND BROMINE-CONTAINING TRACE GASES IN ANTARCTICA.
	  R.A. Rasmussen, Oregon Graduate Institute for Science and 
	  Technology.  

	  There are no personnel on station. 

  Air samples are taken on a weekly basis by the station physician. 
The samples are returned to the Institute for analysis of a number
of trace components, especially chlorine- and bromine-containing
gases.  These elements have been implicated in the chemical
processes that contribute to the austral-spring depletion of the
ozone layer over Antarctica.  This work will contribute to a better
understanding of the buildup of trace constituents, particularly
those of high-latitude marine origin.


S-257C    COLLECTION OF ATMOSPHERIC AIR FOR THE NOAA/CMDL WORLDWIDE 
	  FLASK SAMPLING NETWORK.  James T. Peterson, Palmer Station, 
	  Environmental Research Laboratories, National Oceanic and 
	  Atmospheric Administration. 

	  There are no personnel on station.  

  Air samples are taken on a weekly basis by the station physician. 
The National Oceanic and Atmospheric Administration (NOAA) Climate
Monitoring and Diagnostics Laboratory team continue long-term
measurements of trace atmospheric constituents that influence
climate.  The Palmer Station air samples are returned to the NOAA
laboratory for analysis of trace constituents, including carbon
dioxide.  These measurements are part of NOAA's effort to determine
and assess the long-term buildup of global pollutants in the
atmosphere.  These data will be used to determine how the rate of
change of these parameters affects climate, particularly by
including them in climate model studies.  


S-275     UM/DOE-EML REMOTE ATMOSPHERIC MEASUREMENTS PROGRAM.
	  J. Prospero/T. Snowdon, University of Miami; C.
	  Sanderson/N. Chui, EML/DOE N.Y.  

	  No personnel were on station.  

  The system has been operated by the station science technician.   
One sample filter was exposed for the duration of each week, and a 
weekly schedule of calibration, background, and sample counts was 
maintained.  


S-293     OZONESONDE MEASUREMENTS OF STRATOSPHERIC OZONE OVER ANTARCTICA.  
	  Arnold L. Torres, Goddard Space Flight Center/Wallops Flight 
	  Facility.

	  Personnel on Station:  George B. Brothers, E. Charles Seman

  Ozone balloon soundings continued through 22 November.  We continued to
have some unexpected but minor problems.  For the month, 10 soundings were
taken.  Of these 10, there were 8 soundings that provided good to very 
good data.

  After the final launch on 22 November, we began to pack up our equipment
and take down the balloon shelter.  As of 25 November, all equipment had
been prepared for shipment back to the states and the balloon shelter was
prepared for shipment back to Punta Arenas in late December.


T-312     TERASCAN SATELLITE IMAGING SYSTEM.  R. Whritner, Scripps
	  Institute of Oceanography, La Jolla, CA.

	  No personnel were on station.  

  The system has been operated by the station science technician.  
DMSP and NOAA telemetry were collected, processed, and archived.   
Throughout the month, ozone concentration maps were produced to support 
local science on station.  One DMSP ols-visible image was produced in 
support of local boating operations.

  From 22 November through the end of the month, in a collaboration 
with the Army Cold Regions Lab, a portion of the Weddell Sea was examined
daily for clear conditions.  Cloud cover prevailed, so no images were
produced.


T-313     UV MONITORING EXPERIMENT.  C. Booth, Biospherical
	  Instruments, Inc.  

	  No personnel were on station

  The system has been operated by the science technician.  Throughout 
the month, raw irradiance data were collected daily and transmitted 
to BSI.  Preliminary irradiance data and inferred ozone abundances were 
produced in support of Science.  Absolute calibrations were performed 
using the site standard and seasoned lamps.  Data scans were added at
0100Z, 0200Z, 0600Z, and 0700Z.

  On 10 November, the UV Monitor AXSS box was found off line.  Connections
to the box were inspected and no problems were found.  During the 
inspection, the system returned to normal operation.
 


02125249.424
PLM093.DEC