Ground ice in the Northern Foothills (Northern Victoria Land, Antarctica)

Ground ice in the Northern Foothills Ground ice in the Northern Foothills (Northern Victoria Land, Antarctica)(Northern Victoria Land, Antarctica)

M. Guglielmin M. Guglielmin 11 and H.M. French and H.M. French 22

1 1 Department of Structural and Functional Biology of Department of Structural and Functional Biology of Insubria Insubria University, Via J.H. Dunant, 3, 21100, Varese, Italy; E-mail: University, Via J.H. Dunant, 3, 21100, Varese, Italy; E-mail:

[email protected] [email protected] 22 Departments of Geography and Earth Sciences, University of Departments of Geography and Earth Sciences, University of

Ottawa, Ottawa, Ontario KIN 6N5, Canada. Ottawa, Ottawa, Ontario KIN 6N5, Canada. E-mail: E-mail: [email protected]@rogers.com

Guglielmin and French “Ground ice in the Northern Foothills (Northern Victoria Land, Antarctica)”

Why is it important to study ground ice in a continent that is almost completely covered by glaciers ice?

1) Nature and distribution of ground-ice in Antarctica and its relationship with present and past climates is poor. 2) Ground ice may be older than 8 million years and might preserve information about paleoclimatic conditions.

3) The amount and the type of ground ice can influence the evolution of landscape and the terrestrial ecosystem.

This paper contributes to knowledge about the distribution of the ground ice. We use isotopic data to characterise the different surface and subsurface ice bodies present in the Northern Foothills region of Northern Victoria Land.


Permafrost and climate conditions

The climate is cold and arid. The mean annual air temperature at Terra Nova Bay is -14.7ºC. The region receives less than 200mm precipitation (water equivalent) per year. Permafrost is continuous. Its thickness is estimated to be several hundred meters.Permafrost conditions have been monitored at Boulder Clay since December 1996. The thermally-defined active layer typically reaches 18-30 cm.The mean annual ground surface temperature (MAGST) is around –16°C, with an amplitude of more than 48 °C.The depth of zero annual amplitude is approximately 11.0 m. The temperature at that depth approximates –15 º C.


SURFACE ICE is widespread


ICE – BONDED PERMAFROST OR DRY PERMAFROST ?

Surface indicators suggest ICE-BONDED PERMAFROST

Differential frost heaving is limited to small and isolated features such as Debris-Island and Non-sorted circles


ICE – BONDED PERMAFROST OR DRY PERMAFROST ?

Surface indicators suggest ICE-BONDED PERMAFROST

Frost- Fissure polygons are high-centered and ice-wedges are small or non existent


For comparison, in the High Arctic, high and low-centered Ice-wedge polygons and Sorted circles indicate ice-rich permafrost conditions.


This exists especially in beach material near sea level

INTERSTITIAL ICE


BURIED GLACIER ICE

Buried Glacier ice: (1) Amorphous Glacier, Antarctica(2) Eureka, Ellesmere Island, Canadian High Arctic.


Frost Mound on Enigma Lake Clear ice with vertically aligned bubble trains, indicative of rapid freezing of free water

GROUND (SUBSURFACE) ICE

A. Injection ice


Icing blister at Boulder Clay Icing blister, snow covered at Edmonson Point



B. Ice-Wedge ice.Usually found on Older Drift terrain at higher elevations than the ice-free terrain consinsting of Younger Drift. Not widespread. Wedges are small in comparison to northern polar regions

Ice vein found in Older Drift at M. Browning (photo M.G.)



-350

-300

-250

-200

-150

-100

-50

0

-40 -35 -30 -25 -20 -15 -10 -5 0

Interstitial IceIcing BlistersLake IceFrost Heaved MoundsBuried IceSnow,WaterVein IceGMWL

18O (0/00)

2 H ( 0/00 )


DISCUSSION

Dry Permafrost does not exist in Northern Victoria Land because it is more humid than Southern Victoria Land Dry Valleys.

Geomorphic evidence indicates relatively low ground-ice contents:

- Limited occurence, and size, of ice-wedges, and widespread occurrence of sand wedges.

2) A few poorly-defined, non-sorted circles (‘debris islands’) suggest differential frost heaveis limited to poorly-drained areas.

3) Absence of obvious evidence of thermokarst.

4) Frost-fissure polygons lack the bordering ridges that result from the thermal expansion associated with ice-rich sediments.


DISCUSSION (continued)

To date, attention has focussed (a) the ice within debris-covered mounds, and (b) the nature of buried glacier ice.

The ice found within the frost mounds shows crystallography typical of intrusive ice.

The isotopic δ18O composition is similar to buried glacier ice, being typically in the range of -28 to -31‰.

Ice lies along a line with a slope much lower than the GMWL and of buried glacier ice samples.

The highly negative isotopic values and the lower slope of the δD- δ18O line of the frost mound ice are thought to reflect a combination of intrusion and segregation ice that formed at variable depth within the perennially lake-ice cover.


DISCUSSION

As might be expected, icing-blister ice is more similar in isotopic composition to both pond ice and to snow being in the range of -22 to -25‰. Icing blister ice lies along a line almost parallel to the GMWL but with δ18O values more negative (i.e. the line is above the GMWL). This may be indicative of open system freezing with low evaporation plus possibly, the addition of ground water with more negative values.

Buried glacier ice is characterised by an absence of foliations and/or debris layers, reflecting the cold-based nature of Antarctic ice sheet, and unlike buried glacier ice from Northern Canada.


CONCLUSIONS

Dry permafrost does not occur in the areas of Northern Victoria Land covered in this report.

If we exclude buried glacier ice, the amount of traditionally-defined ground ice is small.

The ice contained within small debris-covered mounds is problematic even if crystallography and isotopic composition suggest a combination of intrusive and segregated ice.

Considering the relationship between δ18O and δD values, icing blister ice appears related to a freezing process associated with injection in a open system.

ACKOWLEDGEMENTSACKOWLEDGEMENTS Research was conducted under the auspices of the Italian Antarctic Research was conducted under the auspices of the Italian Antarctic Research program (PNRA) (Project 2a.13, Professor F. Dramis, Research program (PNRA) (Project 2a.13, Professor F. Dramis, University of Rome 3) during the first period of the 1998/1999 University of Rome 3) during the first period of the 1998/1999 expedition. Field logistics were supplied by the PNRA station at expedition. Field logistics were supplied by the PNRA station at Terra Nova Bay. Leave by HMF from the University of Ottawa to Terra Nova Bay. Leave by HMF from the University of Ottawa to participate in the 1998/1999 expedition is gratefully acknowledged.participate in the 1998/1999 expedition is gratefully acknowledged. Special thanks to M. Filipazzi (Milano Bicocca University) for his Special thanks to M. Filipazzi (Milano Bicocca University) for his technical assistance in the laboratory.technical assistance in the laboratory.

Ground ice in the Northern Foothills (Northern Victoria Land, Antarctica)

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