FLUIDOGENIC LANDFORMS WITHIN THE PERMAFROST ZONE ON THE SHELF OF THE PECHORA AND KARA SEAS-Reference-Cited by-同舟云学术

FLUIDOGENIC LANDFORMS WITHIN THE PERMAFROST ZONE ON THE SHELF OF THE PECHORA AND KARA SEAS

Published:2023-07-14 Issue:№ 3 (2023) Volume:78 Page:104-124
ISSN:0579-9414
Container-title:Lomonosov Geography Journal
language:ru
Short-container-title:

Author:

Kokhan A.V.¹,Moroz E.A.¹,Eremenko E.A.²,Denisova A.P.²,Ananiev R.A.³,Sukhikh E.A.⁴,Nikiforov S.L.³,Sokolov S.Yu.¹,Razumovskiy A.A.⁵

Affiliation:

1. Geological Institute of Russian Academy of Sciences, Laboratory of geology and tectonics of sea bottom

2. Geological Institute of Russian Academy of Sciences, Laboratory of geology and tectonics of sea bottom; Lomonosov Moscow State University

3. Institute of Oceanology of Russian Academy of Sciences, laboratory of seismic stratigraphy

4. Geological Institute of Russian Academy of Sciences, laboratory of heat and mass transfer

5. Geological Institute of Russian Academy of Sciences, laboratory of folded belts

Abstract

The study is based on the results of multibeam echo-sounding and high-frequency seismic profiling during the 2018-2022 cruises of the R/V “Akademik Nikolai Strakhov” and “Akademik Boris Petrov”. Regular changes of morphometric parameters and the internal structure of pingo-like formations of the shelves of the Pechora and Kara seas were revealed. A morphometric analysis of pingo-like formations was carried out, which made it possible to draw conclusions about their relative age, as well as the role of near-bottom currents and slope processes in their modern dynamics. It was found that the density and morphological variety of pingo-like formations depend on the geological and tectonic features of the bottom area, the presence and nature of permafrost, the intensity of degassing, and the time of shelf flooding during the Holocene transgression. Pingo-like formations on the shelf, where the depth exceeds 70-80 m, emerged at the early stages of the Holocene transgression, and by now the permafrost there has largely thawed out. At the same time, pingo-like formations are still prominent in the relief and actively transformed by bottom currents, slope and, possibly, pseudovolcanic processes associated with ongoing degassing. Pingo-like formations are rare within shallow (up to 20-30 m) shelf areas close to the shore, and, apparently, continue their evolution at present. At the same time, the large thickness and continuity of permafrost prevent active fluid flow, acting as a seal. Pingo-like formations in the shallow-water zones are mainly cone-shaped mounds without intensive degassing. The density of pingo-like formations is maximum at the intermediate depths (from 20-30 to 70-80 m), in the presence of insular or discontinuous permafrost, under high fluid flow intensity within the fault zones and oil- and gas-bearing structures. Near-surface sediments in such areas are characterized by a combination of localized processes of heaving and active degassing. It predetermines a wide variety of the morphological types of pingo-like formations.Keywords: Arctic, bottom topography, degassing, pingo-like features, acoustic anomalies, multibeam echo sounding, seismoacoustic profiling

Funder

Russian Academy of Sciences

Shirshov Institute of Oceanology, Russian Academy of Sciences

Russian Science Foundation

Publisher

Moscow University Press

Subject

General Earth and Planetary Sciences,General Agricultural and Biological Sciences,Geography, Planning and Development

Reference30 articles.

1. Biryukov V.Ju., Ermolov A.A., Ogorodov S.A. Rel’ef dna Bajdarackoj guby Karskogo morja [Bottom relief of the Baidaratskaya Bay, inlet Kara Sea], Vestn. Mosk. Un-ta, Ser. 5, Geogr., 2008, no. 3, p. 80–84. (In Russian)

2. Bondarev V.N., Rokos S.I., Kostin D.A., Dlugach A.G., Poljakova N.A. Podmerzlotnye skoplenija gaza v verhnej chasti osadochnogo chehla Pechorskogo morja [Underpermafrost accumulations of gas in the upper part of sedimentary cover of the Pechora Sea], Geo logiya i geofizika, 2002, vol. 43, no. 7, p. 587–598. (In Russian)

3. Gavrilov A., Pavlov V., Fridenberg A. et al. The current state and 125 kyr history of permafrost on the Kara Sea shelf: modeling constraints, The Cryosphere, 2020, vol. 14, p. 1857–1873, DOI: 10.5194/tc-14-1857-2020.

4. Judd A., Hovland M. Seabed Fluid Flow: the Impact on Geology, Biology and the Marine Environment, Cambridge University Press, 2007, 492 p.

5. Khutorskoi M.D., Podgornykh L.V., Gramberg I.S., Leonov Yu.G. Termotomografija Zapadno-Аrkticheskogo bassejna [Thermal tomography of the West Arctic Basin], Geotektonika, 2003, no. 3, p. 79–96. (In Russian)

Cited by 2 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Fluidogenic landforms on the Arctic shelves;Lomonosov Geography Journal;2024-06-04

2. Composition of Methane Cycle Microbial Communities in the Upper Layers of Bottom Sediments of the Kara Sea;Geochemistry International;2024-06