expoweb/years/1987/geolog.htm

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<center><font size=-1>Cambridge Underground 1988 pp 8-13</font>
<h2>The Geology of the CUCC Expedition area,<br>
Totengebirgs, Austria</h2>
<p><b>Jared West</b></center>
<p><u>Abstract</u>: The CUCC expedition area in Austria is situated in the
Northern Calcareous Alps, the northern part of the Eastern Alps. The
sedimentology and structural geology of the Northern Calcareous Alps is
described.
<h3>Structure and Genesis of the Eastern Alps</h3>
<p>The caving area is situated in the Eastern Alps. The northern part of this
range is known as the Northern Calcareous Alps (Nordkalkalpen). This is a
band of MEsozoic limestones about 50km wide which stretches from Voral in the
east to Vienna in the west. To the south is the axial zone of the Eastern
Alps, and to the north is the Tertiary Molasse (Fig. 1). The Eastern Alps are
considered to be made up of piles of horizontal sheets which may extend
laterally for hundreds of kilometres, but which may be only a few kilometres
thick. Three, possibly four, structural levels can be recognised. The
basement rocks (gneiss) are overlain by Pal&aelig;ozoic and then Mesozoic
sediments. Repetition of the sequence of Mesozoic sediments is the result of
overthrusting of the sheets during the Tertiary. The strike of the rocks
tends to be east-west as they are arched about an axis in this direction.
Generally, the dip direction in the Northern Calcareous Alps is northward,
because they are to the north of the axis.
<p>The thrusting and arching is related to a shortening of the crust in a
north-south direction, which occurred during the Alpine mountain building
period. The Alps were formed when the African tectonic plate ploughed into
the Eurasian plate from the south. The Indian plate similarly ploughed into
Tibet, creating the Himalayas. These processes of collision are still in
progress; the Alps are still rising at about the same rate as they are being
eroded. If uplift were to cease, and erosion continue at the present rate,
the Alps would be denuded after just three million years. This is very little
on the geological time scale.
<h3>Summary of the Geological History of the Calcareous Alps</h3>
<p>Due to subsidence in the basement in the Permian, an east-west zone of
sedimentation was established. In some areas, evaporitic rocks (gypsum and
salt) were laid down. These are characteristic of shallow seas in a hot
climate. The facies belts were established in the Triassic, these being
controlled largely by how fast the basement was subsiding. Where the rate of
subsidence was fast, it outpaced deposition and the sea bottom subsided below
the photic zone, resulting in deep water sediments rather than reefs. It can
be concluded that subsidence was more rapid in the south of the depositional
area during the Triassic. In the Jurassic, the pattern of subsidence changed,
affecting the facies belts. There may have been local areas of elevation. In
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some areas deposition continued into the Cretaceous. During Late Cretaceous
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time, parts of the Calcareous Alpine facies became detached and slid over
others. The main northwards movement leaving the Calcareous Alps in their
present position occurred during the Eocene.
<h3>The Northern Calcareous Alps: Sedimentary Rock Types</h3>
<p>The oldest rocks seen in the area are of Triassic age, and were produced
in a submarine reef environment. The existence of three distinct reef-related
depositional environments (facies) can be inferred from the rocks (Fig. 2)
<ol>
<li>Haupt Dolomit facies. This rock type was laid down behind the main reef,
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in the quiet back reef lagoon. Cycles of deposition are apparent as are
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periods of aerial exposure. The facies is mostly characteristic of the
northern part of the Kalkalpen. It interfingers to the south with the
Dachstein Limestone (Dachsteinkalk) unit. The maximum thickness of the Haupt
Dolomit is 2000m.
<li>Dachstein Limestone facies (Dachsteinkalk). This is the cave-bearing
formation and two lithologies are present. The first is a thinly bedded
limestone of shallow water origin, again behind the main reef. The thinly
bedded nature of the rock causes caverns to collapse before reaching any
appreciable size. The second lithology is massively bedded limestone
containing abundant fossils, and is extensively cavernous. It formed the main
body of the reef. The maximum thickness, and hence cave depth potential, is
1800m and the unit occurs mostly in the middle region of the Kalkalpen.
<li>Halstatt facies. This consists of red and black shales and pale deep
water limestones, perhaps laid down further from the land than the other two
types. It occurs to the south of, and interfingers with, the Dachstein
Limestone facies.
</ol>
<p>The younger Jurassic rocks correspond only slightly to the underlying
Triassic in terms of depositional environment. In the North there are marls
and cherty limestones, whereas in the South, reef limestone are more
important. Units of coarse clastics (sandstones and breccias) occur.
<h3>Structure of the Northern Calcareous Alps</h3>
<p>Generally, the region is not intensely folded, being more characterised by
broad open flexures with tight folding being confined to fault zones. The
Triassic rocks have the form of almost horizontal thrust sheets. There is
little disturbance along the thrust planes and these may be difficult to
recognise. The sheets are broken into blocks by steeply dipping faults. Many
of the 'hading rifts' in the caves have formed along such faults. Complex
deviations from this structure occur where salt and anhydrite from the
underlying Permian evaporite beds have penetrated the overlying Triassic
strata in the form of Diapirs, as it has in the 'salt mountain' near
Halstatt. It is thus generally agreed now that the rocks of the Northern
Calcareous Alps are not in their original depositional location but have been
brought in from the south by thrust faulting. This has been deduced from
borehole information as well as from the outcrop pattern, though how far to
the south the rocks were formed is not clear, nor is it agreed whether
thrusting occurred mainly along one plane or equally along several.
<h3>Guide to the CUCC area: the Totengebirgs and the Loser Plateau</h3>
<p>A map of the area is given (<a href="../../maps/jwfig3.htm">Fig. 3</a>).
The Halstatt facies crops out in a fault bounded basin. In places it is
overlain by the Zlambach beds and Lias marls. To the north are the
Totengebirgs and to the south the Dachstein, where the massive coralliferous
Dachstein limestone crops out. The Loser Plateau is in the upper right of the
map: the plateau is believed to be an Upper Miocene erosion surface. walking
from the car park at the Loser mountain restaurant along the Stogerweg
footpath to the east, a remarkable wall of rock is seen to stnad high above
the plateau. This is composed of Jurassic clastic rocks, with some Zlambach
beds (uppermost Triassic) at their base. They are more resistant to
weathering than the limestone. The limestone in the area immediately around
the Loser carpark is the thinly bedded type, which is poorly cavernous. To
find any decent sized caves one has to walk some 3km to the east where the
massively bedded type is found. Unfortunately these types are not
differentiated on the map. The depth potential of the area is limited to
slightly more than a kilometre by the water table rather than the base of the
Dachstein limestone, this being at the level of the surface of the adjacent
lake Altausseer See.
<p>Acknowledgements: I am indebted to Hans Sch&ouml;nlaub of the Geologische
Bundesanstalt, Wien for his help in sending literature, and to Professor
Oxburgh of the Department of Earth Sciences, Cambridge, for allowing the
reproduction of his diagrams.
<p>Bibliography:
<p>OXBURGH, E.R. (1968), The Geology of the Eastern Alps, The Geologists Association, London.
<p>PLOCHINGER, B. (1984), Nordkalkalpen, Monograph of the Austrian Geological Survey, Wien.
<p>TOLLMAN, A. (1985), Die Nordlichen Kalkalpen.
<hr>
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Cambridge Underground 1988,
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1987 Expedition info:<br>
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<a href="log.htm">Logbook</a><br>
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Cambridge Underground Expo Report:<br>
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<a href="report.htm">Expedition description</a><br>
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<a href="158gd.htm">Donner-und-Blitzen H&ouml;hle</a>, Mike Richardson<br>
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<a href="ent113.htm">Entrance 113</a>, Mike Richardson<br>
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