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3. The periglacial climate and environment in northern Eurasia during the Last Glaciation

Author

Hubberten, Hans W, Andreev, Andrei, Astakhov, Valery I, Demidov, Igor, Dowdeswell, Julian A, Henriksen, Mona, Hjort, Christian, Houmark-Nielsen, Michael, Jakobsson, Martin, Kuzmina, Svetlana, Larsen, Eiliv, Lunkka, Juha Pekka, Lyså, Astrid, Mangerud, Jan, Möller, Per, Saarnisto, Matti, Schirrmeister, Lutz, Sher, Andrei V, Siegert, Christine, Siegert, Martin J, and Svendsen, John Inge

Published
2004
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4. Late Quaternary ice sheet history of northern Eurasia

Author

Svendsen, John Inge, Alexanderson, Helena, Astakhov, Valery I, Demidov, Igor, Dowdeswell, Julian A, Funder, Svend, Gataullin, Valery, Henriksen, Mona, Hjort, Christian, Houmark-Nielsen, Michael, Hubberten, Hans W, Ingólfsson, Ólafur, Jakobsson, Martin, Kjær, Kurt H, Larsen, Eiliv, Lokrantz, Hanna, Lunkka, Juha Pekka, Lyså, Astrid, Mangerud, Jan, Matiouchkov, Alexei, Murray, Andrew, Möller, Per, Niessen, Frank, Nikolskaya, Olga, Polyak, Leonid, Saarnisto, Matti, Siegert, Christine, Siegert, Martin J, Spielhagen, Robert F, and Stein, Ruediger

Published
2004
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6. Late Quaternary glaciation of the northern Urals: a review and new observations.

Author

Astakhov, Valery I.

Subjects
*GLACIATION, *QUATERNARY Period, *PLEISTOCENE Epoch, *GEOLOGICAL surveys, *REMOTE sensing
Abstract

This is a synthesis of the glacial history of the northern Urals undertaken using published works and the results of geological surveys as well as recent geochronometric and remote sensing data. The conclusions differ from the classical model that considers the Urals as an important source of glacial ice and partly from the modern reconstructions. The principal supporting evidence for the conventional model – Uralian erratics found on the adjacent plains – is ambiguous because Uralian clasts were also delivered by a thick external ice sheet overriding the mountains during the Middle Pleistocene. Alternative evidence presented in this paper indicates that in the late Quaternary the Ural mountains produced only valley glaciers that partly coalesced in the western piedmont to form large piedmont lobes. The last maximum glaciation occurred in the Early Valdaian time at c. 70–90 ka when glacial ice from the Kara shelf invaded the lowlands and some montane valleys but an icecap over the mountains was not formed. The moraines of the alpine glaciation are preserved only beyond the limits of the Kara ice sheet and therefore cannot be younger than MIS 4. More limited glaciation during MIS 2 generated small alpine moraines around the cirques of the western Urals (Mangerud et al. 2008: Quaternary Science Reviews 27, 1047). The largest moraines of Transuralia were probably produced by the outlet glaciers of a Middle Pleistocene ice sheet that formed on the western plains and discharged across the Polar Urals. The resultant scheme of limited mountain glaciation is possibly also applicable as a model for older glacial cycles. [ABSTRACT FROM AUTHOR]

Published
2018
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7. Pleistocene glaciations of northern Russia - a modern view.

Author

Astakhov, Valery I.

Subjects
*GLACIATION, *PLEISTOCENE Epoch, *SEA level, *SUTURE zones (Structural geology), *SEDIMENTOLOGY
Abstract

The size, age and dynamics of Pleistocene glaciers, especially ice sheets that periodically covered the northern seaboard of Eurasia, are crucial for understanding the evolution of arctic climates, sea-level changes, the biota and tectonism. General ideas on the glacial history of the vast areas of northern Russia between 48° and 148° E, beyond the limits of the Fennoscandian glaciation, have considerably changed during the last two decades. The change towards modern views may even be considered as a paradigm shift from the conventional wisdom of the previous half-century. The transformation of the main landmarks of late Quaternary glacial history started in the 1970s and accelerated after 1993 as a result of international collaboration in the Russian Arctic. A wealth of new sedimentological, geomorphic and stratigraphic data has recently accumulated for the sedimentary record of the last 200 ka. This information, together with data collected from native geological surveys, has been synthesized in the form of digital maps of ice limits based on key stratigraphic sites. The results have been published as contributions to the international programs QUEEN and APEX and also as parts of global compilations. These publications give general overviews of the Eurasian glacial history, but some important modern data are reported only in the Russian literature and therefore are hardly known to the international community. In this paper I will first consider the background material on the non- Scandinavian glaciations and then follow this with a review of the modern results obtained in the course of international cooperation. The outcome is inevitably influenced (or biased) by my long-term experience in studying the Pleistocene of northern Russia. I will not discuss here the extreme northeast of Siberia (western Beringia), as this is a distinct topic partly overviewed in recent publications. [ABSTRACT FROM AUTHOR]

Published
2013
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8. Evidence of Late Pleistocene ice-dammed lakes in West Siberia

Author

Astakhov, Valery I.

Subjects
*QUATERNARY stratigraphic geology, *ICE on rivers, lakes, etc., *LAKE sediments, *RADIOCARBON dating, *SOIL science in archaeology, *DRAINAGE, *EFFECT of reduced gravity on liquids
Abstract

The article discusses geological data on proglacial lakes and spillways in the West Siberian Plain, data on crucial features of the Late Pleistocene reorganization of the drainage pattern of northern Eurasia. The discussion focuses on Late Pleistocene sediments along the margin of the last ice sheet and south of it, including new data recently obtained by the Russian–Norwegian project PECHORA in Trans-Uralia. Based on these data, the margin of the last ice sheet in the western and central parts of West Siberia is localized well above the Arctic Circle, i.e. 150–250 km north of the previously suggested ice limit. The available geochronological evidence indicates that the last ice dam across West Siberia, which diverted the great Siberian rivers to the south, appeared at early stages of the last, Weichselian ice age. The normal, northbound, drainage was restored later, within the time-span accessible to radiocarbon dating, when two pre-Holocene river terraces with mammal fauna were formed. The Late Weichselian was the driest period with ubiquitous aeolian activity and an absence of large water bodies. Preceding ice-dammed lakes of West Siberia could only drain through the Turgai valley which leads southward into the Aral and Caspian seas. The sedimentary sequence of this passage consists of lacustrine clay, diamictic gravity flows and aeolian sediments younger than 29 kyr which infilled the former spillway mainly in the Late Weichselian. The basal sand and gravel mantling the bedrock floor, which descends from 55 m a.s.l. at 55°N to 30–40 m a.s.l. in the south, is the only signature of a southward drainage. This fluvial episode probably reflects overflow of a Siberian proglacial lake whose water level could reach 60 m a.s.l. prior to 29 kyr BP. [ABSTRACT FROM AUTHOR]

Published
2006
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9. Maximum extent of the Eurasian ice sheets in the Barents and Kara Sea region during the Weichselian.

Author

Svendsen, John Inge, Astakhov, Valery I., Bolshiyanov, Dimitri Yu., Demidov, Igor, Dowdeswell, Julian A., Gataullin, Valery, Hjort, Christian, Hubberten, Hans W., Larsen, Eiliv, Mangerud, Jan, Melles, Martin, Möller, Per, Saarnisto, Matti, and Siegert, Martin J.

Subjects
*ICE sheets, *SEISMIC prospecting, *GLACIAL climates
Abstract

Based on field investigations in northern Russia and interpretation of offshore seismic data, we have made a preliminary reconstruction of the maximum ice-sheet extent in the Barents and Kara Sea region during the Early/Middle Weichselian and the Late Weichselian. Our investigations indicate that the Barents and Kara ice sheets attained their maximum Weichselian positions in northern Russia prior to 50 000 yr BP, whereas the northeastern flank of the Scandinavian Ice Sheet advanced to a maximum position shortly after 17 000 calendar years ago. During the Late Weichselian (25 000-10 000 yr BP), much of the Russian Arctic remained ice-free. According to our reconstruction, the extent of the ice sheets in the Barents and Kara Sea region during the Late Weichselian glacial maximum was less than half that of the maximum model which, up to now, has been widely used as a boundary condition for testing and refining General Circulation Models (GCMs). Preliminary numerical-modelling experiments predict Late Weichselian ice sheets which are larger than the ice extent implied for the Kara Sea region from dated geological evidence, suggesting very low precipitation. [ABSTRACT FROM AUTHOR]

Published
1999
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10. Marginal formations of the last Kara and Barents ice sheets in northern European Russia.

Author

Astakhov, Valery I., Svendsen, John Inge, Matiouchkov, Alexei, Mangerud, Jan, Maslenikova, Olga, and Tveranger, Jan

Subjects
*GLACIAL landforms, *ICE sheets, *RADIOCARBON dating
Abstract

Glacial landforms in northern Russia, from the Timan Ridge in the west to the east of the Urals, have been mapped by aerial photographs and satellite images supported by field observations. An east-west trending belt of fresh hummock-and-lake glaciokarst landscapes has been traced to the north of 67°N. The southern boundary of these landscapes is called the Markhida Line, which is interpreted as a nearly synchronous limit of the last ice sheet that affected this region. The hummocky landscapes are subdivided into three types according to the stage of postglacial modification: Markhida, Harbei and Halmer. The Halmer landscape on the Uralian piedmont in the east is the freshest, whereas the westernmost Markhida landscape is more eroded. The west-east gradient in morphology is considered to be a result of the time-transgressive melting of stagnant glacier ice and of the underlying permafrost. The pattern of ice-pushed ridges and other directional features reflects a dominant ice flow direction from the Kara Sea shelf. Traces of ice movement from the central Barents Sea are only discernible in the Pechora River left bank area west of 50°E. In the Polar Urals the horseshoe-shaped end moraines at altitudes of up to 560 m a.s.l. reflect ice movement up-valley from the Kara Ice Sheet, indicating the absence of a contemporaneous ice dome in the mountains. The Markhida moraines, superimposed onto the Eemian strata, represent the maximum ice sheet extent in the western part of the Pechora Basin during the Weichselian. The Markhida Line truncates the huge arcs of the Laya-Adzva and Rogovaya ice-pushed ridges protruding to the south. The latter moraines therefore reflect an older ice advance, probably also of Weichselian age. Still farther south, fluvially dissected morainic plateaus without lakes are of pre-Eemian age, because they plunge northwards under marine Eemian sediments. Shorelines of the large ice-dammed Lake Komi, identified between 90 and 110 m a.s.l. in the areas south of the Markhida Line, are radiocarbon dated to be older than 45 ka. The shorelines, incised into the Laya-Adzva moraines, morphologically interfinger with the Markhida moraines, indicating that the last ice advance onto the Russian mainland reached the Markhida Line during the Middle or Early Weichselian, before 45 ka ago. [ABSTRACT FROM AUTHOR]

Published
1999
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11. Age and extent of the Barents and Kara ice sheets in Northern Russia.

Author

Mangerud, Jan, Svendsen, John Inge, and Astakhov, Valery I.

Subjects
GLACIAL landforms, ICE sheets, MARINE sediments
Abstract

The youngest ice marginal zone between the White Sea and the Ural mountains is the W-E trending belt of moraines called the Varsh-Indiga-Markhida-Harbei-Halmer-Sopkay, here called the Markhida line. Glacial elements show that it was deposited by the Kara Ice Sheet, and in the west, by the Barents Ice Sheet. The Markhida moraine overlies Eemian marine sediments, and is therefore of Weichselian age. Distal to the moraine are Eemian marine sediments and three Palaeolithic sites with many C-14 dates in the range 16-37 ka not covered by till, proving that it represents the maximum ice sheet extension during the Weichselian. The Late Weichselian ice limit of M. G. Grosswald is about 400 km (near the Urals more than 700 km) too far south. Shorelines of ice dammed Lake Komi, probably dammed by the ice sheet ending at the Markhida line, predate 37 ka. We conclude that the Markhida line is of Middle/Early Weichselian age, implying that no ice sheet reached this part of Northern Russia during the Late Weichselian. This age is supported by a series of C-14 and OSL dates inside the Markhida line all of >45 ka. Two moraine loops protrude south of the Markhida line; the Laya-Adzva and Rogavaya moraines. These moraines are covered by Lake Komi sediments, and many C-14 dates on mammoth bones inside the moraines are 26-37 ka. The morphology indicates that the moraines are of Weichselian age, but a Saalian age cannot be excluded. No post-glacial emerged marine shorelines are found along the Barents Sea coast north of the Markhida line. [ABSTRACT FROM AUTHOR]

Published
1999
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