Date:    Tue, 4 Jan 94 01:20:42 GMT
From: palmer@atsvax.rsmas.miami.edu
Message-Id: <940104012042.2400ea43@atsvax.rsmas.miami.edu>
Subject: SCIENCE SITREP 
To: palmer_science@atsvax.rsmas.miami.edu, asahq@asa.org

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SCIENCE SITREP 
R 040053Z JAN 94
FROM:Gail M. Ashley  


       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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S-013  LONG TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE      
       ECOSYSTEM: AN ICE-DOMINATED ENVIRONMENT.  William R. Fraser 
       and Wayne Z. Trivelpiece, Seabird Component, Old Dominion  
       University, Norfolk VA      

       Personnel on Station:Brent Houston, Tracey Mader, Eric Holm.

All studies proceeded as planned during the month of December,
largely due to mild weather and the lack of restrictive 
high winds in the area.  High winds only prevented safe local 
boating on two occasions, December 1st and 24th.  Local access to 
gull and skua study sites (i.e. Bonaparte Point) was, however 
available on these dates.  Pack ice blew into the area on 
December 19th, but only restricted local boating between Humble 
Island and Palmer Station. 

We continued to follow reproductive sites of banded Adelie 
penguins on both Torgersen and Humble Islands to determine egg 
laying, chick hatching and egg and chick losses.  South polar and 
brown skua study sites on 6 islands continue to be visited every 
3 - 5 days to determine territory establishment, egg laying and 
chick hatching dates.  Diet samples of adult skuas continue to be 
collected on an opportunistic basis.  

Cormorant nests continue to be monitored weekly at two 
sites.  Kelp gull reproductive studies also continue on Norsel 
Point.  All chicks have hatched, and chick survivability is being 
monitored weekly.  Diet samples continue to be collected weekly. 

Giant petrel censuses were conducted from December 5th - 
19th on all island in the area.  411 nesting pairs were counted 
and checked at 5 day intervals to determine which breeding birds 
were banded. 

Marine mammal observations continue to be taken daily within 
the Palmer Station area.  

Brent Houston departed Palmer Station on December 25th.

S-016   LONG TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE     
        ECOSYSTEM: AN ICE-DOMINATED ENVIRONMENT. Barbara Prezilen, 
        Production Component, University of California, Santa     
        Barbara, CA

Personnel on Station:  Sandra Roll, TJ Evens, Bill Golden

Continued bi-weekly sampling of the five nearshore 
stations continued, including productivity experiments, CHN, NH4, 
and nutrients once weekly, and pigments (HPLC) twice weekly.  A 
24 hour time series productivity experiment was conducted once a 
week.   Algal cells were examined and photographed under 
epifluorescence.  Two 12 hr. ambient light action spectra UV 
experiments were done; one while the ozone hole was still above 
us, and one after it had passed over.  A comparative study of an 
intertidal rock alga was proposed, organized, and conducted; 
which involved one 12 hour action spectra and one 12 hour time 
series UV experiment. Organization and inventory of supplies was 
begun in preparation for the January LTER cruise, as well as 
deployment of supplies and equipment post-season.  A work order 
was placed for shipping containers.  Extensive communications 
with the University of California, Santa Barbara occurred with
instruction, strategies, and procedures for the ensuing cruise.

S-028  LONG TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE 
       ECOSYSTEM:  AN ICE-DOMINATED ENVIRONMENT.  Robin Ross and 
       Langdon Quetin, Prey Component, University of California, 
       Santa Barbara, CA

       Personnel  on  station: Holly Coe, Karen  Haberman,  Chris 
                               Johnson,  Kathy  Niedermeyer,  
                               Tim Newberger
     
     Field sampling continued this month using the ROZE (Research 
Oceanographic  Zodiac  Experiment) and the  trawling  vessel  (RV 
Rubber  Duke).  Using the ROZE, four weeks of acoustic  data  for 
assessing  biomass and distribution of krill was collected  along 
the  two  LTER nearshore transects.  Collecting  live  krill  for 
laboratory experiments, chemical composition and condition factor 
has  again very successful using the RV Rubber Duke.  Six  growth 
experiments have been completed and four series of krill  samples 
for   chemical  composition  and  condition  factor   have   been 
processed.   Four sets of standard oblique zooplankton tows  have 
been  completed,  all  samples have been sorted  and  major  taxa 
identified  and enumerated. Size frequencies of krill  caught  in 
these  net tows and the targeted net tows have  been  completed.  
All  data  has  been archived and is  in  preliminary  stages  of 
analysis.  Staging for the January LTER cruise on the Polar  Duke 
continued.
     Karen  Haberman began feeding selectivity experiments  using 
field  collected phytoplankton.  Several  phytoplankton  cultures 
also were established.

S-032  LONG TERM ECOLOGICAL RESEARCH ON THE ANTARCTIC MARINE 
       ECOSYSTEM:  AN ICE-DOMINATED ENVIRONMENT.  Ray Smith, 
       Optics Component, University of California, Santa Barbara, 
       CA.
       
       Personnel on Station: Tim Newberger.

Nearly perfect weather this month allowed us to sample the full 
suite of 10 nearshore stations each week with the ROZE, collecting 
both  CTD  and  optical  data.  We  were  able  to  document  the 
development of a stable water column and the first  phytoplankton 
bloom  of the season. All data has been archived and  preliminary 
analyses  are underway.  Preparation for the January LTER  cruise 
on the Polar Duke has continued throughout this month. 

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, CA.

       Personnel on Station: Bruce Chalker, Walter Helbling,      
                             Rogelio Marguet, Virginia Villafane.

During the month of December we continued our investigations on the
impact of solar UVR on natural assemblages, as well as on isolated
uni-species cultures, of marine phytoplankton and bacterioplankton,
Our studies utilized both temperature-controlled incubations of
samples exposed to natural solar radiation on the outside deck of
Palmer Station, in addition to in situ incubations of samples
whenever weather conditions permitted. The major facets of this
work are:
a) Obtaining water samples from Arthur Harbor every day for
determination of (i) degree of inhibition of rate of photosynthesis
by solar UV-B and UV-A; (ii) pigment composition by in vivo
spectral absorption measurements, extracted chl-a by fluorometric
measurements, and HPLC analyses; and (iii) floristic composition of
the phytoplankton assemblage. Occasionally the
photosynthesis-irradiance characteristics (Pmax, Ik, and alpha) of
the phytoplankton were also determined in a special incubator.
b) More unialgal cultures were obtained by microscopic selection of
desired species and growing them in enriched inorganic media in the
laboratory incubators where temperature and light conditions are
controlled. Some of these cultures (e.g. diatoms: Nitzschia sp.,
Thalassiosira sp, Fragilariopsis sp, and flagellates: Phaeocystis
pouchetti) were used in our experimental setups, including both the
deck incubators and the in situ arrays. Experimental results from
these cultures showed notable differences in sensitivity to solar
UVR as well as to cellular content of mycosporin-like compounds
(MAAs) which show primary absorption peaks in the spectral range
310 to 360 nm.
c) Differential sensitivity of phytoplankton species after exposure
to solar UVR were also documented by long-term cultures of natural
microbial assemblages and following the floristic composition of
the samples which had been exposed to different UV exposures.
d) The loss of cellular viability of natural bacterioplankton
assemblages, as well as of several bacterial isolates maintained in
culture, was determined by enumeration of individual colonies when
dispersed in an agar growth medium. These experiments utilized both
deck incubators and in situ techniques. In general, loss of
viability in bacterial cells due to UVR exceeded 50% in surface
waters, with the percent loss decreasing in an exponential fashion
to about 12m, below which no deleterious effect of solar UV was
detected.  
e) In situ incubations to determine the impact of UVR on
phytoplankton were carried out every day that weather conditions
permitted (which totaled 18 deployments). These experiments
employed both incubations at set depths between 0.5 to 25 m and
also 'elevator' experiments whereby the samples were moved up and
down in the upper water column (0.5 to 25m) every hour to simulate
the natural movement of particles circulating up and down in the
upper mixed layer as caused by wind stress. The conclusions to be
drawn from these experiments await calculations involving in situ
spectral irradiance in the upper water column throughout the
incubation period as well as spectral absorption of the
phytoplankton assemblage. Preliminary examination of the data shows
that the impact of UV-A radiation generally exceeds that of UV-B
radiation, and that the deleterious effect of solar UVR on primary
production does not extend to depths below 15 to 20 m. 
f) All experiments were supported by recording of incident spectral
UV and PAR (once every minute with our PUV-500 deck unit and also
by the NSF spectroradiometer which records one spectral sweep (280
to 650 nm) every hour).
All in situ incubations were also supported by recording of
spectral irradiance (UV and PAR) in the upper portion of the water
column (from surface down to 60 m); these profiles, which were
obtained with the submersible component of the PUV-500 radiometer
and recorded data directly into a computer at the rate of once per
second during both lowering and retrieval of the unit from the
zodiac, were performed periodically during any in situ incubation
period.
g) The ability of phytoplankton to minimize cellular damage by UVR
by photoadaptive mechanisms was studied by determination of
cellular content of MAA compounds (both by in vivo spectral
absorption and by HPLC measurements of extracted compounds) as a
response to changes in spectral irradiance incident upon the cells.
The rate of synthesis of MAAs was determined when samples were
subjected to UV stress; the rate of loss of MAA compounds was also
determined upon removal of the UVR. The triggering mechanism for
increased rate of synthesis of MAAs does not seem to be solely
dependent on UV-B radiation, but apparently can involve UV-A
radiation and high levels of PAR. Both natural assemblages and
monospecific cultures of phytoplankton were used in these
experiments. Responses varied considerably between the different
species studied, but in general cellular concentrations of MAAs was
increased significantly within 1-2 days after initiation of UV
stress; upon removal of the UVR, the half-time for loss of cellular
MAAs was approximately 14 days.

S-091   SEISMIC OBSERVATORY. United States Geological Survey.

No personnel were on station.

The system has been monitored by the station science technician. 
The EW component of the seismic station continued to be
inoperative.  The seismic station successfully weathered a pair of
power outages on December 16 and December 18.


S-106 STANFORD UNIVERSITY, VERY LOW FREQUENCY (VLF) RADIO         
      EXPERIMENT

No personnel were on station. 

The system has been operated by the station science technician.
Data were collected daily and prepared for retrograde.  The VLF
system suffered a disabling failure on December 1.  The failure was
determined to be the result of a short in the cable carrying power
to the pre-amp at the antenna.  After the loss of four days of
data, the problem was patched using a spare pair in the existing
cable.  A planned power outage 
on December 16 did not effect the experiment.  An unplanned outage
on 

December 18 resulted in the loss of approximately 20 minutes of
data.

S-182  THE ROLE OF FRAZIL AND ANCHOR ICE IN SEDIMENTATION IN      
       SUBPOLAR GLACIAL MARINE ENVIRONMENTS, ANTARCTICA
       Gail M. Ashley, Rutgers University, New Brunswick, NJ
       Norman D. Smith, University of Illinois, Chicago, IL

       Personnel on Station: Gail Ashley, Norman Smith, 
                             Matthew Goss, Peter Smith

The objectives of the study are to further understand sedimentation
processes near the margins of subpolar tidewater glaciers. Data
will consist of: (1) video surveys of the ice terminus and the ice-
proximal sea bottom with a ROV, (2) CTD profiles, water samples and
sediment-trap catches to study processes and patterns of sediment
dispersal and sedimentation, and (3) bottom cores and grabs to
document the record of recent glacial marine sedimentation. The
study will test the hypothesis that frazil ice and anchor ice form
in glacial meltwater flowing into subpolar marine water and may
produce deposits different from those formed in temperate and polar
glacial environments.

During December, a bathymetric map of Arthur Harbor was created
using a Furuno echosounder with positioning surveyed from land. The
survey indicates that the ice front has retreated 300-400m in 30
years (10-12 m/yr since l963). A tide gauge located at the Palmer
dock provides continuous data on tidal fluctuations. The tides are
mixed, but mainly diurnal with maximum tidal ranges of approxi-
mately 1.8 m (spring) and 0.3 m (neap). Six permanent anchored
buoys were deployed to mark locations for repeated CTD
measurements.  Float buoys were later replaced with spar buoys to
minimize drag by ice bergs.

A synoptic view of the structure of the water column (temperature,
conductivity, and IR backscatterance) was obtained by collecting
CTD profiles at 18 stations within the 1 1/2 km2 area of Arthur
Harbor. In addition, a 24-hour time series (CTD profiles every 2
hours) at 2 stations was conducted during a spring tide to assess
temporal variability of the water column structure, as well as to
determine tidal influence on sediment dispersion. Thirty-five
filtered water samples have been used to construct a rating curve
for backscatterance measurements. A program to collect bottom
sediments (grab samples and cores) was started. Sampling of turbid
subsurface plumes has so far failed to identify frazil ice, but
efforts are continuing.

Suspended sediment was sampled from surface plumes and from turbid,
cold layers at 50-60 m depth at a station 200m from the ice front. 
Suspended concentrations reach 33 mg/l. Research is becoming
focused on the processes involved in formation of these sediment-
rich horizons and the dispersal of sediment away from the ice
front. 

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 astral-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-257  SOUTH POLE MONITORING FOR CLIMATE CHANGE.  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 ATMOSPHERIC MONITORING PROGRAM AT PALMER STATION 
        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.  The air sampling pump was off for about 8.5 hours
during power outages on December 16 and December 18.

T-312   TERASCAN SATELLITE IMAGING SYSTEM. R. Whritner, Scripps   
        Institute

No personnel were on station.

The system has been operated by the station science technician. 
DMSP and NOAA telemetry were collected, processed, and archived. 
A cable was received on December 8 that allowed the shortening of
the tape drive daisy chain and the return of several borrowed
items.  A software upgrade received from SeaSpace was installed on
December 12, allowing the proper framing of special sensor
telemetry from DMSP spacecraft.  TeraScan was unaffected by power
outages on December 16 and December 18.

T-313   UV MONITORING EXPERIMENT, BIOSPHERICAL INSTRUMENTS        
        
No personnel were on station.

The system has been operated by the station science technician. 
Irradiance data were collected daily and transmitted to ATSVAX for
BSI.  Absolute calibrations were performed on December 3 with the
seasoned lamp and on December 19 and 31 with the site standard. An
additional pair of temperature probes were added to the auxiliary
channels being monitored.  The system was run on portable generator
power during the power outage of December 16, so no scans were
lost.
One scan was lost during the unplanned outage of December 18. 
Preliminary irradiance data and inferred ozone abundances were
produced in support of Science.


03202540.764
PLM134.JAN