Volcanism and Pre-History
The southern end of the Great Dividing Range extends into Victoria along the
East coast and terminates near Ballarat. The nearby and fairly distinct Grampian
range may be the final part of the range.
The highest mountains in Victoria (about 2100 metres (??)), the Victoria Alps and ski resorts are in the North Eastern area.
There was an area of extensive volcanism in Central Victoria and southwestern Victoria where there are numerous extinct volcanoes and volcanic lakes. The most recent volcano was at Mt Eccles which last erupted a few thousand years ago. This volcanism was the source of the Victorian Gold fields. Large basaltic lava flows are present on the western side of Melbourne and in the southwest of the state.
The southeast of the state has enormous brown coal fields.
The low flat northwest of the state, bordering the Murray river was once the bed of an ancient sea and the land is much afflicted with salinity. Saline drainage from Victorian land is one of the sources of the salinity problem in the Murray-Darling River system.
Commercial salt evaporation is undertaken near Swan Hill.
Geology of Victoria Contents Neoproterozoic to Early Carboniferous This period is covered by the recent Geological Survey of Victoria publication "The Tasman Fold Belt System in Victoria". The sequence of events associated with the building of southeastern Australia reveals that mineralisation and magmatic processes are intimately linked with the tectonic development of the region. The history is dominated by east-west compression of predominantly oceanic sedimentary and volcanic rocks and their resultant folding, faulting and uplift. Recently, it has become increasingly apparent that major north-south movements have also been involved in constructing eastern Australia.
The Palaeozoic basement is traversed by thrust faults more or less parallel to the north-south structural grain. The largest faults separate rocks with different ages and structural histories, and subdivide Victoria into three main structural rankings consisting of two fold belts (Delamerian and Lachlan), two terranes in the Lachlan Fold Belt (Whitelaw and Benambra), and ten structural zones (Glenelg, Grampians-Stavely, Stawell, Bendigo, Melbourne, Tabberabbera, Omeo, Deddick, Kuark, Mallacoota).
The Moyston Fault is the most important fault as it forms the terrane boundary between the Delamerian and Lachlan fold belts. These two fold belts show important differences. The Delamerian Fold Belt is mainly composed of Neoproterozoic-Cambrian rocks and was deformed in the Late Cambrian Delamerian Orogeny whereas the Lachlan Fold Belt contains mainly Cambrian-Devonian rocks with main deformations occurring in the Late Ordovician-Early Carboniferous interval. The first regional deformation to affect the Lachlan Fold Belt was the Benambran Orogeny, about 50 m.y. after the Delamerian Orogeny. Granites comprise 20% of the total exposed area of the Lachlan Fold Belt and fall within an age range of 440 to 350 Ma. Volcanics associated with the granites are also widespread and cover an additional 5%. Blocks of older crust consisting of Neoproterozoic-Cambrian rocks, such as the Selwyn Block in central Victoria, were deformed during the Late Cambrian Tyennan Orogeny prior to being incorporated into the Lachlan Fold Belt.
The second major structural break in Victoria is the Baragwanath Transform, which occurs along the eastern side of the Selwyn Block. This transform fault divides the Lachlan Fold Belt into two terranes, the Whitelaw Terrane to the west and the Benambra Terrane to the east. The main difference between these is that orogen-parallel (north-south) transport was more prevalent in the Benambra Terrane, whereas convergent east-west transport orthogonal to the orogen was dominant in the Whitelaw Terrane.