Soil moisture, permafrost monitoring and soil climate measurement in a disturbed site with additional soil added
Description:
A gently sloping area forming a small bench on a moderately steep slope between Crater Hill and the east coast of Ross Island approximately 150m northwest from the Scott Base buildings; drill hole and access tube site located in the northern end or disturbed part of an experimental area on fill material
Altitude:
75 m
Aspect:
SE
Slope:
3 °
Location Data
Observer
IBC
GGC
GPS
No
Latitude Longitude DMS
77° 51' S 166° 46' E
77° 51' S 166° 48' E
Latitude Longitude DD
-77.850 166.767
-77.850 166.800
Latitude longitude precision DD
0.008 0.008
0.008 0.008
Locality
Pram Point, Scott Base
Survey
not recorded
Climate
Soil climate zone:
Coastal mountain
Site temperature profile
Depth (cm)
Soil temp (°C)
Notes
0
17
surface
Estimated mean annual temperature:
-18
°C
Frozen ground depth:
50 cm
Frozen type:
Hard frozen and ice cemented with segregated ice
Frozen comment:
50
Geology
Geological setting:
The deposit comprises volcanics of the McMurdo Volcanics Formation mainly as scoriaceous flows; the surface materials are a thin cover of mainly fractured bedrock with addition of glacially derived granular and pebble clasts from outside the immediate area; the volcanic bedrock has been considerably fractured by freeze thaw; the surface age is probably very late Pleistocene (Ross Sea Glaciation) having been modified by McMurdo Sound filling glacial ice
Patterned ground:
Weakly developed and without distinctive trough expression or well developed net pattern
Surface weathering or surface features:
None as the soil surface has been disturbed by the addition of nearby unfrozen soil
Soil
Soil parent material:
Fragmented bouldery volcanic bedrock with some additions of glaciogenic finer materials, in part with some modification by slope drift processes; ~25cm of disturbed soil has been added to the site giving 50cm of unfrozen soil above frozen ground
Previous disturbance:
None but current disturbance included addition of soil at the previouly undisturbed site