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now occupying Scandinavia, Scotland and eastern USA. Moine rocks were heated and altered again, while Cambrian strata became the schists of the Dalradian Supergroup. Into the folded and refolded rocks, huge masses of molten crust were emplaced as granite, now widespread in the Highlands and represented in the Hebrides in the Ross of Mull. Along the western seaboard, however, rocks of the metamorphic mountains were thrust upwards and outwards in a dislocation of up to 80km. This is known as the Moine Thrust which runs on the land surface from Loch Eribol to the Point of Sleat in Skye. To the west of the Thrust, the Lewisian, Torridonian and Cambro-Ordovician rocks are in unmoved (and unaltered) sequence; to the east of the Thrust, within the Caledonian mountain belt, lie the Moines of Sleat and western Mull and the Dalradian of eastern Mull, Jura and Islay.

      Fig. 4 The main geological faults of the Hebrides and West Highlands (Craig (ed) 1983)

      The mountains formed from this orogeny were subsequently eroded to form the Old Red Sandstone (ORS) c. 350 million years ago, a vast continental fluviatile and lacustrine deposit. Orkney is composed almost entirely of ORS but only small outcrops occur in the Hebrides—sediments in Kerrera and Seil, and lavas at Loch Don in Mull.

      The third upheaval was the rift of the European and Greenland continental plates which created the British Isles, the continental shelf and the Hebrides, but not as we know them today. This rifting, which began 70 million years ago and still continues today, was accompanied by much volcanic activity, the thrusting up of masses of gabbro and granite, the outblasting of vast quantities of dust, ash and cinder and the outpouring of basalt lavas. These are the Tertiary volcanic complexes of Arran, Mull, Ardnamurchan, Rum Cuillin, Skye Cuillin and St Kilda, with associated plateau lavas in North Skye, Canna, Eigg, Muck, West Mull and Morven. They are related to other such centres in Ireland (Giant’s Causeway), Faeroe Islands and Iceland, where the volcanic activity still continues. The islands as we know them today have been evolved through a northward drift of the crustal plate(s) of the planet from which the British Isles were formed, from a latitude of 30°S to the present latitude of 55°N. Throughout the drift, the palaeogeography was also continuously transformed by mountain building of the type described above, erosion, sedimentation, and volcanic activity. The genesis of the British Isles throughout geological time has been described simply by J.P.B. Lovell (1977).

      The solid geology is shown in Fig. 3 and Table 1.1. The Hebrides lie at the south-eastern margin of a crustal plate which included much of the material which forms Greenland and eastern Canada (Fig. 5). This plate broke and the parts drifted away from each other, ‘floating’ for tens of millions of years on the plastic sub-crust. The great trough between the parts now holds the Atlantic Ocean. This common basement between the Old and New Worlds contains some of the oldest rocks known to science, c. 3,000 million years old, from which younger rocks such as the Torridonian sandstone have been derived, and upon which the sandstones and other younger rocks are placed. In the Outer Hebrides, Tiree, Coll, Iona and Sleat in Skye the gneiss forms the present-day land surface—all the younger rocks have been removed by epochs of erosion. Elsewhere, the basement is covered by an array of younger rocks, or has been penetrated or pushed aside by great intrusions of magma and covered by extrusions of lava.

PeriodAge (m.y.)RocksIslands
Pre-Cambian+3000–600
Lewisian+2800–1200acid & basic gneisses, granites, limestonesN. Rona, Lewis, Harris, Uists, Barra, Coli, Tiree, Skye, Raasay, S. Rona, lona, Islay
Torridonian1000–800sandstonesHanda, Summer Isles, Raasay, Scalpay, Skye, Soay, Rum, lona, Colonsay, lslay
Rocks east of the Moine Thrust affected by the Grenville Orogeny, c. 1000m.y.
Moine1000–700schists,Skye, Mull
Supergroupgranulites
Palaeozoic600–230
Cambro-Ordovician600–500piperock, serp. Skye grit, Durness limestone
Rocks east of the Moine Thrust affected by the Caledonian Orogeny, 500–400m.y.
Dalradian Supergroup+600–500quartzites schistsLismore, Kerrera, Seil, Garvellachs
limestones, slatesLuing Scarba, Jura, Islay, Gigha
Silurian440–400nonenone
Devonian400–350conglomerateKerrera, Seil
Carboniferous350–270lava, sedimentsJura
Permian270–225sandstones, conglomerateLewis, Raasay, Mull
Mesozoic230–65
Triassic225–180sandstones, conglomerateLewis, Raasay, Skye, Rum, Mull
Jurassic180–135sandstones, limestonesShiants, Skye, Raasay, Eigg
Cretaceous135–70sandstoneSkye, Mull, Eigg, Raasay, Scalpay, Soay
Cainozoic70–0
Tertiary70–1
Eocene70–40basalts, granites, syenites, gabbros, dolerites, rhyolitesShiants, Skye, Raasay, Rum, Eigg, Canna, Muck, Mull, Treshnish Is., Staffa, St Kilda, Oighsgeir
Oligocene40–45erosion pdtswidespread
Miocene25–11erosion pdtswidespread
Pliocene11–1erosion pdtswidespread
Pliocene11–1erosion pdtswidespread
Quaternary1–Present
Pliestocene0.6–0.013erosion pdtswidespread
Holocene0.013–0erosion pdtswidespread
shell sandwidespread

      Table 1.1 The distribution and age in millions of years (m.y.) of the rocks of the Hebrides.

image

       Tertiary basalt pavement showing hexagonal jointing on Heisgeir (Oigh-sgeir) off Canna (Photo J. M. Boyd)

      Fig. 5 The tectonic provinces of the North Atlantic prior to continental drift (Smith & Fettes, 1979)

      The MT runs from the west of Shetland, entering the Scottish mainland at Loch Eribol and traversing the north-west Highlands roughly parallel to the coast, through Kylerhea and the Sleat peninsula of Skye and possibly through the Sound of Iona. To the west are the northern Inner Hebrides

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