This season a relatively small bathymetry and seafloor sampling programme was designed to cover an area in the southwest corner of McMurdo Sound, which we had not previously sampled and also to start a detailed study in Granite Harbour. Samples were collected in front of the Blue Glacier and 10km east of Cape Chocolate near the Dailey Islands. In addition, bathymetry transects were done in this area and for 3km off Scott Base.

Granite Harbour can be considered a "closed basin" which collects sediment deposited from the Mackay Glacier Tongue. Study of this "sedimentation system" will enable a more precise interpretation of the marine glacial contribution to recent McMurdo Sound-Ross Sea sediments and the older Cenozoic sediments that will be cored in the next few years.

The other major part of the sea ice programme was in support of CIROS, and comprised seismic refraction studies for drill site location at Butter Pt., Dailey Islands, sea ice movement monitoring off Butter Pt and tide movements at Cape Roberts. The only project not completed was seismic refraction work east of Cape Roberts which was to be a co-operative project with Northern Illinois University. A spreading crack in the sea ice 3km east of Cape Roberts could not be crossed by bulldozer (D4) or the vehicles used by the seismic party.

Granite Harbour Sediment Studies (GHSS) - A. Macpherson.

Sea ice crack off Granite Harbour - A. Pyne.

A "spreading crack" formed in sea ice has been encountered east of Cape Roberts during the last two seasons (December 1981, November 1982). The crack has proved impassable by heavy surface transport (D4 and IH500 bulldozers) thereby preventing access further seaward. This season the crack was visited twice in November (6th and 18th) and detailed measurements were made both times at the same site.

On November 6, 1982 the crack was located 2.91km due east of Cape Roberts. It was traced for 5km south and north, and remained undiminished over the total 10km. The orientation was northwest-southeast over this short distance but it is thought to curve towards Mt Bird further south based on previous seasons' sea ice breakout observations. North of Cape Roberts the crack cut close to a distinctive grounded iceberg, as it had done in December the previous season. While the location and orientation of the crack is not yet well known it has probably been the same in both the 1981-82 and 1982-83 seasons.

The spreading crack is filled with ice that has a ridged and terraced surface and thins towards the central crack (Fig. 2). On November 6 the distance between the edges of the first year ice where initial rifting began was 33m. Ice cores were taken from the western side of the crack to define the thickness profile of the infilling ice on November 6 and 18 (see Fig. 2). Two pegs straddling the central crack were fixed in the ice on November 6 and resurveyed on November 18 to determine a spreading rate for that period. The total spreading for the 12 days was 1.2m (10cm/day) and 24 "growth lines" that ranged in width from 2.5 - 10cm were counted in the new ice. The growth lines for this period appear to form daily probably at "night" when temperatures are cooler. The variation in width of the growth lines and terraced surface of the infilling ice indicate that the spreading rate is not constant and was probably greater earlier in the season.

Tide Monitoring - A. Pyne.

A tide gauge designed to automatically record tidal amplitude was established on the sea ice for 11 days at both Scott Base and Cape Roberts. The tide gauge is similar to that described in Pyne and Waghorn (1980) and records tidal amplitude by measuring the relative movement between the floating sea ice and a counterweighted line anchored to the seafloor.

At Scott Base recordings were made from 19-30 October in 80m of water approximately 200m off Scott Base. Unfortunately, good records were only obtained during the first five days (19-24 October), but showed a maximum tidal range of 0.75m for this period. Later recordings at Scott Base appeared to be dampened due to ice freezing on the steel anchoring wire immediately below the sea ice. The steel wire was replaced by monofilament nylon at Cape Roberts and no further dampening occurred.

Recording at Cape Roberts was made over the period 8-18 November with a recording break from 10-13 November, due to unwinding of the clockwork recording mechanism. Sufficient records were obtained, however, to show that the tidal cycle at Cape Roberts is similar to other parts of McMurdo Sound. The change from the "higher" amplitude single daily cycle to a "lower" amplitude double daily cycle was recorded. The maximum range measured was 0.76m and it is estimated that no tides would exceed 1m in the area.

FIG. 2. Spreading crack in 2.5m thick sea ice off Cape Roberts. Profiles are of the west side of the crack, ice thickness was measured by coring (lower left). Lower right photo shows new ice growth lines on November 18.

Seismic Refraction Surveys at New Harbour and Dailey Islands - R.R. Dibble.

These surveys were made to aid the selection of drill sites for the Cenozoic Investigations in the Western Ross Sea, and extended the work begun by lies and Dibble in 1980. The team consisted of Bay Dibble and Ian Paintin (geophysicists), Alex Pyne and Tony Macpherson (geologists), and Malcolm McLeod (mechanic/field assistant). We used the SIE-RS44 and Nimbus 1210 seismographs belonging to the Institute of Geophysics. Each has 12 recording channels, and a 330m cable spread.

At New Harbour, both seismographs were operated in a heated Wannigan, and the Nimbus was used with an extension cable so that the two spreads along the seismic line were 330m apart. Two seismic lines, each 8.66km long with shot points at each end and at the centre, were laid out in the form of a cross with 6 Wannigan sites and 12 evenly spaced spreads on each line. (A 7th site was added in the centre of line B). Lines were laid out dead straight and flagged at 320, 330, 340m intervals by means of a precision odometer fitted to one of the 2 motor toboggans.

Two shooting parties, each with a shot instant tone encoder and Compak radio, fired charges of between 1kg at 5m depth and 8.8kg at 15m depth at all 3 shot points for each Wanigan site. Shot depths were chosen to avoid damaging the shot holes, rather than avoiding bubble pulses. At the Wannigan a Compak receiver and tone decoder started the Nimbus automatically at the shot instant, and the tone code was fully recorded by the RS44. At each Wanigan site a 30cm hole was drilled through the 2m sea ice for the echo sounder, and the water depth was measured.

At the Dailey Islands, Tim Stern and Peter Whiteford (DSIR geophysicists) and Brian Smith (field assistant) joined us with their Nimbus seismograph and Snotrac vehicle, enabling three shooting parties and two separate recording parties to be used. Here, sea bottom depth and dip along the seismic line were determined at each spread by stacking sledge hammer blows on the ice in the Nimbus digital seismograph.

Two 8.66km lines similar to those at New Harbour were laid out in the form of a "T". Four extra shot points were included on line A because a complex sea bottom was expected near the islands.

References

PYNE, A.R. and WAGHORN, D.B. 1980. Immediate Report of Victoria University of Wellington Antarctic Expedition No. 24.

FIG. 3. Location of seismic refraction lines off Butter Point and the Dailey Islands.