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Present Glaciers and Their Dynamics in the Arid Parts of the Altai Mountains

Ganyushkin, Dmitry ; Chistyakov, Kirill ; Volkov, Ilya ; [et al.]

MDPI AG ; 2017

In: Geosciences Vol. 7, No. 4 ( 2017-11-17), p. 117-

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In: Geosciences, MDPI AG, Vol. 7, No. 4 ( 2017-11-17), p. 117-

Type of Medium: Online Resource

ISSN: 2076-3263

URL: Article

DOI: 10.3390/geosciences7040117

Language: English

Publisher: MDPI AG

Publication Date: 2017

detail.hit.zdb_id: 2655946-8

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Isotopic Composition of Glacier Ice and Meltwater in the Arid Parts of the Altai Mountains (Central Asia)

Bantcev, Dmitriy ; Ganyushkin, Dmitriy ; Terekhov, Anton ; [et al.]

MDPI AG ; 2022

In: Water Vol. 14, No. 2 ( 2022-01-16), p. 252-

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In: Water, MDPI AG, Vol. 14, No. 2 ( 2022-01-16), p. 252-

Abstract: The objective of this study is to reveal the isotopic composition of ice and meltwater in glaciated regions of South-Eastern Altai. The paper depicts differences between the isotopic composition of glacier ice from several types of glaciers and from various locations. Detected differences between the isotopic composition of glacier ice in diversified parts of the study region are related to local climate patterns. Isotopic composition of meltwater and isotopic separation for glacier rivers runoff showed that in the Tavan-Bogd massif, seasonal snow participates more in the formation of glacier runoff due to better conditions for snow accumulation on the surface of glaciers. In other research areas pure glacier meltwater prevails in runoff.

Type of Medium: Online Resource

ISSN: 2073-4441

URL: Article

DOI: 10.3390/w14020252

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2521238-2

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3

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Glacier Recession in the Altai Mountains after the LIA Maximum

Ganyushkin, Dmitry ; Chistyakov, Kirill ; Derkach, Ekaterina ; [et al.]

MDPI AG ; 2022

In: Remote Sensing Vol. 14, No. 6 ( 2022-03-20), p. 1508-

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In: Remote Sensing, MDPI AG, Vol. 14, No. 6 ( 2022-03-20), p. 1508-

Abstract: The study aims to reconstruct the Altai glaciers at the maximum of the LIA, to estimate the reduction of the Altai glaciers from the LIA maximum to the present, and to analyze glacier reduction rates on the example of the Tavan Bogd mountain range. Research was based on remote sensing and field data. The recent glaciation in the southern part of the Altai is estimated (1256 glaciers with the total area of 559.15 ± 31.13 km2), the area of the glaciers of the whole Altai mountains is estimated at 1096.55 km2. In the southern part of Altai, 2276 glaciers with a total area of 1348.43 ± 56.16 km2 were reconstructed, and the first estimate of the LIA glacial area for the entire Altai mountain system was given (2288.04 km2). Since the LIA, the glaciers decrease by 59% in the southern part of Altai and by 47.9% for the whole Altai. The average increase in ELA in the southern part of Altai was 106 m. The larger increase of ELA in the relatively humid areas was probably caused by a decrease in precipitation. Glaciers in the Tavan Bogd glacial center degraded with higher rates after 1968 relative to the interval between 1850–1968. One of the intervals of fast glacier shrinkage in 2000–2010 was caused by a dry and warm interval between 1989 and 2004. However, the fast decrease in glaciers in 2000–2010 was mainly caused by the shrinkage or disappearance of the smaller glaciers, and large valley glaciers started a fast retreat after 2010. The study results present the first evaluation of the glacier recession of the entire Altai after the LIA maximum.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs14061508

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2513863-7

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4

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Application of Rock Weathering and Colonization by Biota for the Relative Dating of Moraines from the Arid Part of the Russian Altai Mountains

Ganyushkin, Dmitrii A. ; Lessovaia, Sofia N. ; Vlasov, Dmitrii Y. ; [et al.]

MDPI AG ; 2021

In: Geosciences Vol. 11, No. 8 ( 2021-08-14), p. 342-

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In: Geosciences, MDPI AG, Vol. 11, No. 8 ( 2021-08-14), p. 342-

Abstract: For the Altai Mountains’ region, especially the arid southeastern part of the Russian Altai, the data on glacier fluctuations in the Pleistocene and Holocene are still inconsistent. The study area was the Kargy River’s valley (2288–2387 m a.s.l.), a location that is not currently affected by glaciation and the glacial history of which is poorly studied. Field observations and geomorphological mapping were used to reveal the configuration of Pleistocene moraines. The relative dating method was applied to define the degree of weathering as an indicator of age. Three moraine groups of different ages (presumably MIS 6, MIS 4, and MIS 2) were identified based on a detailed investigation of their morphological features and the use of relative dating approaches. The latter were primarily based on weathering patterns. Data on the rock mineralogy, porosity, and specificity of biological colonization as an agent of weathering were obtained for the moraine debris. The studied moraines were composed of fine-grained schist, in which the specific surface area and fractality (self-similarity) were more developed in the older moraine. The growth of biota (crustose lichen and micromycetes) colonizing the rock surface led to rock disintegration and the accumulation of autochthonous fragments on the rock surface. Despite the fact that the initial stage(s) of moraine weathering affected by biota was fixed, the correlation trends of biota activity and moraine ages were not determined.

Type of Medium: Online Resource

ISSN: 2076-3263

URL: Article

DOI: 10.3390/geosciences11080342

Language: English

Publisher: MDPI AG

Publication Date: 2021

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5

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The Components of the Glacial Runoff of the Tsambagarav Massif from Stable Water Isotope Data

Bantcev, Dmitry V. ; Ganyushkin, Dmitry A. ; Chistyakov, Kirill V. ; [et al.]

MDPI AG ; 2019

In: Geosciences Vol. 9, No. 7 ( 2019-07-05), p. 297-

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In: Geosciences, MDPI AG, Vol. 9, No. 7 ( 2019-07-05), p. 297-

Abstract: The aim of this study was to determine the contribution of snow and glacial ice to the river fluxes, and to identify the type of ice formation in the Tsambagarav massif (the northwestern part of Mongolia). The main method for this study was isotopic analysis of water samples. The isotopic separation showed that the shares of the main components in the total runoff differed for different rivers of the massif. Alongside with that, glacial meltwater prevailed in all the investigated fluxes. The share of snow and firn in the meltwater coming from the surface of the large valley glaciers in the middle of the ablation season in 2017 changed by only 10%—from 20% to 30%. Thus, further reduction of glaciation caused by global climate change could significantly affect the water balance of the study area. The isotopic composition of glacial ice proves that its alimentation primarily comes from precipitation during the transitional seasons. Superimposed ice is not the basis for nourishment of the glaciers of the Tsambagarav massif.

Type of Medium: Online Resource

ISSN: 2076-3263

URL: Article

DOI: 10.3390/geosciences9070297

Language: English

Publisher: MDPI AG

Publication Date: 2019

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6

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Present Glaciers of Tavan Bogd Massif in the Altai Mountains, Central Asia, and Their Changes since the Little Ice Age

Ganyushkin, Dmitry ; Chistyakov, Kirill ; Volkov, Ilya ; [et al.]

MDPI AG ; 2018

In: Geosciences Vol. 8, No. 11 ( 2018-11-12), p. 414-

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In: Geosciences, MDPI AG, Vol. 8, No. 11 ( 2018-11-12), p. 414-

Abstract: The Tavan Bogd mountains (of which, the main peak, Khuiten Uul, reaches 4374 m a.s.l.) are situated in the central part of the Altai mountain system, in the territories of Russia, Mongolia and China. The massif is the largest glacierized area of Altai. The purposes of this study were to provide a full description of the scale and structure of the modern glacierized area of the Tavan Bogd massif, to reconstruct the glaciers of the Little Ice Age (LIA), to estimate the extent of the glaciers in 1968, and to determine the main glacial trends, and their causes, from the peak of the LIA. This work was based on the results of long-term field studies and analysis of satellite and aerial data. At the peak of the LIA, Tavan Bogd glaciation comprised 243 glaciers with a total area of 353.4 km2. From interpretation of Corona images, by 1968 the number of glaciers had decreased to 236, with a total area of 242 km2. In 2010, there were 225 glaciers with a total area of 201 km2. Thus, since the peak of the LIA, the glacierized area of the Tavan Bogd mountains decreased by 43%, which is somewhat less than for neighboring glacial centers (i.e., Ikh-Turgen, Tsambagarav, Tsengel-Khairkhan and Mongun-Taiga mountains). The probable causes are higher altitude and the predominance of larger glaciers resistant to warming. Accordingly, the smallest decline in Tavan Bogd occurred in the basins of the Tsagan-Gol (31.7%) and Sangadyr (36.4%) rivers where the largest glaciers are located. In contrast, on the lower periphery of the massif, where small glaciers predominate, the relative reduction was large (74–79%). In terms of general retreat trends, large valley glaciers retreated faster in 1968–1977 and after 2010. During the 1990s, the retreat was slow. After 2010, glacial retreat was rapid. The retreat of glaciers in the last 50–60 years was caused by a trend decrease in precipitation until the mid-1970s, and a sharp warming in the 1990s and early 2000s.

Type of Medium: Online Resource

ISSN: 2076-3263

URL: Article

DOI: 10.3390/geosciences8110414

Language: English

Publisher: MDPI AG

Publication Date: 2018

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7

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Post-Little Ice Age Glacier Recession in the North-Chuya Ridge and Dynamics of the Bolshoi Maashei Glacier, Altai

Ganyushkin, Dmitry ; Bantcev, Dmitry ; Derkach, Ekaterina ; [et al.]

MDPI AG ; 2023

In: Remote Sensing Vol. 15, No. 8 ( 2023-04-20), p. 2186-

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In: Remote Sensing, MDPI AG, Vol. 15, No. 8 ( 2023-04-20), p. 2186-

Abstract: The glacier recession of the North-Chuya ridge, Altai, after the maximum of the Little Ice Age (LIA) is estimated based on remote sensing and in situ studies of the Bolshoi Maashei glacier. The glacier area decreased from 304.9 ± 23.49 km2 at the LIA maximum to 140.24 ± 16.19 km2 in 2000 and 120.02 ± 16.19 km2 in 2021. The average equilibrium-line altitude (ELA) rise after the LIA was 207 m. The reduction of glaciers was caused by the warming trend, most rapid in the 1990s, and by the decrease in precipitation after the mid-1980s. The volume of glaciers decreased from approximately 16.5 km3 in the LIA maximum to 5.6–5.8 km3 by 2021. From the LIA maximum to 2022, the Bolshoi Maashei glacier decreased from 17.49 km2 to 6.25 km2, and the lower point rose from 2160 m to 2225 m. After the LIA, the glacial snout retreat was about 1 km. The fastest retreat of the glacier terminus was estimated in 2010–2022 as 14.0 m a−1 on average. The glacier mass balance index was calculated, with the results showing a strong negative trend from the mid-1980s until now. Strong melt rates caused the increase in the area of the Maashei lake, which could lead to the weakening of its dam, and prepared for its failure in 2012. The current climatic tendencies are unfavorable for the glaciers.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs15082186

Language: English

Publisher: MDPI AG

Publication Date: 2023

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