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Subduction Erosion at Pacific-Type Convergent Margins. / Safonova, I. Yu; Khanchuk, A. I.

In: Russian Journal of Pacific Geology, Vol. 15, No. 6, 1, 11.2021, p. 495-509.

Research output: Contribution to journalArticlepeer-review

Harvard

Safonova, IY & Khanchuk, AI 2021, 'Subduction Erosion at Pacific-Type Convergent Margins', Russian Journal of Pacific Geology, vol. 15, no. 6, 1, pp. 495-509. https://doi.org/10.1134/S1819714021060087

APA

Safonova, I. Y., & Khanchuk, A. I. (2021). Subduction Erosion at Pacific-Type Convergent Margins. Russian Journal of Pacific Geology, 15(6), 495-509. [1]. https://doi.org/10.1134/S1819714021060087

Vancouver

Safonova IY, Khanchuk AI. Subduction Erosion at Pacific-Type Convergent Margins. Russian Journal of Pacific Geology. 2021 Nov;15(6):495-509. 1. doi: 10.1134/S1819714021060087

Author

Safonova, I. Yu ; Khanchuk, A. I. / Subduction Erosion at Pacific-Type Convergent Margins. In: Russian Journal of Pacific Geology. 2021 ; Vol. 15, No. 6. pp. 495-509.

BibTeX

@article{657858118c1c41c5af712e694b840190,
title = "Subduction Erosion at Pacific-Type Convergent Margins",
abstract = "The paper presents a review of processes of subduction or tectonic erosion at Pacific-type convergent margins (PTCM) including definition of “tectonic erosion”, its triggers, driving forces and consequences. We review examples of tectonic erosion at the Circum-Pacific PTCMs and at the fossil PTCMs of the Paleo-Asian Ocean (PAO) currently hosted by the Central-Asian Orogenic Belt (CAOB). Recent geological and stratigraphic studies have shown two types of PTCMs: accreting and eroding. Accreting PTCMs consist of older deposits of accretionary and frontal prisms and grow oceanward, i.e. the trench retreats. Eroding PTCMs are characterized by the destruction of the prism, approaching arc and trench and typically form during shallow-angle and fast subduction of an oceanic slab with oceanic floor relief highs. The mechanism of tectonic erosion includes destruction of oceanic slab, island arcs, accretionary prism, fore-arc and related prism. Tectonic erosion is a common phenomenon at many Circum-Pacific PTCMs, e.g., in South America, Tonga and Nankai troughs, Alaska. Accretion and subduction of oceanic rises contributes greatly to the processes of formation, transformation and destruction of continental crust at PTCM. The episodes of tectonic erosion can be also reconstructed for an ancient ocean, for example, for the PAO, which evolution and suturing formed the CAOB. Many CAOB foldbelts (Altai, Tienshan, eastern Kazakhstan, Transbaikalia, Mongolia) carry signs of disappearance of big volumes of continental crust (arcs). Studying processes responsible not only for the formation of continental crust, but also for the disappearance of big volumes of crustal material is important for correct evaluation of the nature of intra-continental orogenic belts, e.g., CAOB, and development of reliable tectonic models.",
keywords = "Circum-Pacific, Pacific-type convergent margin, Paleo-Asian Ocean, slab relief, tectonic erosion",
author = "Safonova, {I. Yu} and Khanchuk, {A. I.}",
note = "Funding Information: The study was supported by the Russian Science Foundation (project # 21-77-20022, review of tectonic models, preparation of the publication). Additional support came from the State Assignment of IGM SB RAS from Ministry of Science and Education of Russia (earlier data from the CAOB). Publisher Copyright: {\textcopyright} 2021, Pleiades Publishing, Ltd.",
year = "2021",
month = nov,
doi = "10.1134/S1819714021060087",
language = "English",
volume = "15",
pages = "495--509",
journal = "Russian Journal of Pacific Geology",
issn = "1819-7140",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "6",

}

RIS

TY - JOUR

T1 - Subduction Erosion at Pacific-Type Convergent Margins

AU - Safonova, I. Yu

AU - Khanchuk, A. I.

N1 - Funding Information: The study was supported by the Russian Science Foundation (project # 21-77-20022, review of tectonic models, preparation of the publication). Additional support came from the State Assignment of IGM SB RAS from Ministry of Science and Education of Russia (earlier data from the CAOB). Publisher Copyright: © 2021, Pleiades Publishing, Ltd.

PY - 2021/11

Y1 - 2021/11

N2 - The paper presents a review of processes of subduction or tectonic erosion at Pacific-type convergent margins (PTCM) including definition of “tectonic erosion”, its triggers, driving forces and consequences. We review examples of tectonic erosion at the Circum-Pacific PTCMs and at the fossil PTCMs of the Paleo-Asian Ocean (PAO) currently hosted by the Central-Asian Orogenic Belt (CAOB). Recent geological and stratigraphic studies have shown two types of PTCMs: accreting and eroding. Accreting PTCMs consist of older deposits of accretionary and frontal prisms and grow oceanward, i.e. the trench retreats. Eroding PTCMs are characterized by the destruction of the prism, approaching arc and trench and typically form during shallow-angle and fast subduction of an oceanic slab with oceanic floor relief highs. The mechanism of tectonic erosion includes destruction of oceanic slab, island arcs, accretionary prism, fore-arc and related prism. Tectonic erosion is a common phenomenon at many Circum-Pacific PTCMs, e.g., in South America, Tonga and Nankai troughs, Alaska. Accretion and subduction of oceanic rises contributes greatly to the processes of formation, transformation and destruction of continental crust at PTCM. The episodes of tectonic erosion can be also reconstructed for an ancient ocean, for example, for the PAO, which evolution and suturing formed the CAOB. Many CAOB foldbelts (Altai, Tienshan, eastern Kazakhstan, Transbaikalia, Mongolia) carry signs of disappearance of big volumes of continental crust (arcs). Studying processes responsible not only for the formation of continental crust, but also for the disappearance of big volumes of crustal material is important for correct evaluation of the nature of intra-continental orogenic belts, e.g., CAOB, and development of reliable tectonic models.

AB - The paper presents a review of processes of subduction or tectonic erosion at Pacific-type convergent margins (PTCM) including definition of “tectonic erosion”, its triggers, driving forces and consequences. We review examples of tectonic erosion at the Circum-Pacific PTCMs and at the fossil PTCMs of the Paleo-Asian Ocean (PAO) currently hosted by the Central-Asian Orogenic Belt (CAOB). Recent geological and stratigraphic studies have shown two types of PTCMs: accreting and eroding. Accreting PTCMs consist of older deposits of accretionary and frontal prisms and grow oceanward, i.e. the trench retreats. Eroding PTCMs are characterized by the destruction of the prism, approaching arc and trench and typically form during shallow-angle and fast subduction of an oceanic slab with oceanic floor relief highs. The mechanism of tectonic erosion includes destruction of oceanic slab, island arcs, accretionary prism, fore-arc and related prism. Tectonic erosion is a common phenomenon at many Circum-Pacific PTCMs, e.g., in South America, Tonga and Nankai troughs, Alaska. Accretion and subduction of oceanic rises contributes greatly to the processes of formation, transformation and destruction of continental crust at PTCM. The episodes of tectonic erosion can be also reconstructed for an ancient ocean, for example, for the PAO, which evolution and suturing formed the CAOB. Many CAOB foldbelts (Altai, Tienshan, eastern Kazakhstan, Transbaikalia, Mongolia) carry signs of disappearance of big volumes of continental crust (arcs). Studying processes responsible not only for the formation of continental crust, but also for the disappearance of big volumes of crustal material is important for correct evaluation of the nature of intra-continental orogenic belts, e.g., CAOB, and development of reliable tectonic models.

KW - Circum-Pacific

KW - Pacific-type convergent margin

KW - Paleo-Asian Ocean

KW - slab relief

KW - tectonic erosion

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UR - https://elibrary.ru/item.asp?id=47921667

UR - https://www.mendeley.com/catalogue/fefc2c0e-c9a1-387b-8531-9fbe8f3942c2/

U2 - 10.1134/S1819714021060087

DO - 10.1134/S1819714021060087

M3 - Article

AN - SCOPUS:85122336348

VL - 15

SP - 495

EP - 509

JO - Russian Journal of Pacific Geology

JF - Russian Journal of Pacific Geology

SN - 1819-7140

IS - 6

M1 - 1

ER -

ID: 35259147