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Lookup NU author(s): Professor John Mitchell
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The Greater Caucasus is one of Earth's highest actively-uplifting mountain ranges; the adjoining Caspian Sea basin contains a substantial proportion of its hydrocarbon reserves. Like other parts of the former Soviet Union, the Neogene and Quaternary chronology of these important regions has not previously been well-defined. It has thus been impossible to obtain reliable estimates for rates of processes such as uplift of the Caucasus and sedimentation in the Caspian Sea. Previous studies have established the relative timings of events in the region, using correlation schemes between volcanism, glaciations, and the stratigraphy of the Caspian basin. However, a range of absolute chronologies has previously been proposed for these sediments and igneous rocks, based mainly on different interpretations of their magnetostratigraphic records. By K-Ar dating, we determine the ages of volcanism at three localities in Armenia as 1.1, 0.8 and 0.8 Ma. Using these data and other evidence, we propose a revision to the chronology of this region, in which a distinctive brief interval of normal magnetic polarity in the local sedimentary and volcanic magnetostratigraphic records is matched to the Cobb Mountain event in the global record rather than the Olduvai event or an earlier subchron as had previously been thought. We thus interpret a ~1.5 Ma timing for the start of volcanism in the Lesser Caucasus, and also suggest a ~1.2 Ma timing for the Late Akchagyl transgression of the Caspian Sea, a key event in the regional stratigraphy when this water body reached its greatest extent. We tentatively correlate this transgression with the melting event following glaciation during stage 36 of the oxygen isotope timescale, which was thus the first time the during the Pleistocene when eastern Europe was covered by a lowland ice sheet. Time-averaged since ~1 Ma, the flanks of the eastern Greater Caucasus mountains are shown to have uplifted at ~0.6 mm a-1 and the Lesser Caucasus at ~0.3 mm a-1. We show that the rate and spatial scale of this uplift are too great to be the result of plate convergence, and suggest instead that this uplift is caused by crustal thickening due to inward lower-crustal flow to beneath these mountain ranges. At the start of magmatism in both the Greater and Lesser Caucasus, the estimated crustal thickness was ~45 km. We thus suggest that this magmatism has been caused by heating of the mantle lithosphere due to earlier crustal thickening, the temperature rise required to initiate magmatism being the same in both cases.
Author(s): Mitchell J, Westaway R
Publication type: Article
Publication status: Published
Journal: Tectonophysics
Year: 1999
Volume: 304
Issue: 3
Pages: 157-186
Print publication date: 15/04/1999
ISSN (print): 0040-1951
ISSN (electronic):
Publisher: Elsevier BV
URL: http://dx.doi.org/10.1016/S0040-1951(99)00027-X
DOI: 10.1016/S0040-1951(99)00027-X
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