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Catastrophic events in the Quaternary outflow history of Lake Baikal

Arzhannikov, SG, Ivanov, AV, Arzhannikova, AV, Demonterova, EI, Jansen, JD, Preusser, F, Kamenetsky, VS ORCID: 0000-0002-2734-8790 and Kamenetsky, MB ORCID: 0000-0002-0417-3975 2018 , 'Catastrophic events in the Quaternary outflow history of Lake Baikal' , Earth Science Reviews, vol. 177 , pp. 76-113 , doi:

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Lake Baikal is Earth's deepest lake and an iconic site of scientific study. This vast basin holds sedimentary archives of environmental change dating back to the Miocene and its array of palaeoshorelines and surrounding relief record the past ~ 1–3 Ma of lake-levels and outflows. Here we present an extensive review of previous work alongside a new set of observations concerning the Quaternary development of Lake Baikal, with special focus on lake-level fluctuations and the formation and evolution of the lake's three known outlets. The sequence of shoreline terraces indicates that lake-levels were both higher and lower in the past. Lake Baikal stood ~ 200 m higher during the Last Interglacial, i.e. Marine Isotope Stage (MIS) 5e and dropped to 40 m below (present-day) during the Last Glacial Maximum (MIS 2). The relative lake-level variations reflect climate factors and gradual or sudden (coseismic) tectonic impacts on the elevation of the lake's outlet thresholds. Three successive outlets are known: i) the palaeo-Goloustnaya-Manzurka, associated with the Manzurka Alluvium; ii) the palaeo-Irkut, and iii) the currently-active Angara River outlet. We propose that the Manzurka Alluvium is the product of catastrophic events in Lake Baikal. The sudden (possibly coseismic) collapse of the ~ 15 × 3 km Goloustnaya fault-block into Lake Baikal triggered a mega-tsunami that thrust overwash deposits across neighbouring drainage divides above Lake Baikal and the valleys of the Goloustnaya-Manzurka River system. The age of the Manzurka Alluvium remains poorly constrained, but the mega-tsunami is potentially traceable to an unconformity in drill-core sediments at ~ 0.8–1.0 Ma, although older (late Pliocene) and younger (~ 125 ka) ages have also been proposed. The Irkut outlet existed between MIS 6 and MIS 5 when lake-level was ~ 200 m higher than present (~ 640–650 masl) and a large bay extended into the Tunka rift at Baikal's south-west tip. Lake Baikal retreated from the Tunka rift when lake-level fell by up to 100 m in early MIS 5e. We propose that the lake-level fall is connected to a partial collapse of Primorsky Ridge at Listvenichny Bay, which caused Baikal to overspill into the Angara River thereby forming a new outlet. The release of a > 4000 <!-- /re act-text -->km3 megaflood down the Angara River valley caused large-scale modification and reworking of valley-fills (MIS 5e). At the end of MIS 2, further collapse of Primorsky Ridge lowered the outlet threshold an additional 50–60 m and prompted a second megaflood down the Angara River valley, which left a widespread unconformity where horizontal-bedded sands (dated at ~ 11.8–13.4 ka) overlie cryoturbated deposits of the earlier megaflood. The central role of catastrophic processes at Lake Baikal suggests that, rather than being rare events, coseismic landsliding and mega-tsunami may be more frequent than hitherto recognised.

Item Type: Article
Authors/Creators:Arzhannikov, SG and Ivanov, AV and Arzhannikova, AV and Demonterova, EI and Jansen, JD and Preusser, F and Kamenetsky, VS and Kamenetsky, MB
Keywords: palaeoshoreline, Baikal, megaflooding, geochronology, boulders
Journal or Publication Title: Earth Science Reviews
Publisher: Elsevier Science Bv
ISSN: 0012-8252
DOI / ID Number:
Copyright Information:

Copyright 2017 Elsevier B.V.

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