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Khabarovsk Terrane

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Scheme of outcrops of the Khabarovsk terrane (from (Didenko et al., 2020). 1 – melange; 2 – turbidites; 3 – pebble mudstones; 4 – felsic tuffs and tuff siltstones; 5 – mudstones; 6 – ribbon silica; 7 – shales; 8 – tectonic contacts; 9 – bedding attitude; 10–15 – sites of microfossil finds; 10 – foraminifera; 11 – conodonts; 12–15 – radiolaria; 16 – sampling locations.

Scheme of outcrops of the Khabarovsk terrane (from ( Didenko et al., 2020 )... Available to Purchase

Published: 01 February 2024
Fig. 2. Scheme of outcrops of the Khabarovsk terrane (from ( Didenko et al., 2020 ). 1 – melange; 2 – turbidites; 3 – pebble mudstones; 4 – felsic tuffs and tuff siltstones; 5 – mudstones; 6 – ribbon silica; 7 – shales; 8 – tectonic contacts; 9 – bedding attitude; 10–15
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Harker diagrams for terrigenous rocks of the Khabarovsk terrane. 1 – PAAS; 2 – Jurassic sandstones; 3 – Permian–Triassic sandstones; 4 – Jurassic siltstones; 5 – Permian–Triassic siltstones.

Harker diagrams for terrigenous rocks of the Khabarovsk terrane. 1 – PAAS... Available to Purchase

Published: 01 February 2024
Fig. 5. Harker diagrams for terrigenous rocks of the Khabarovsk terrane. 1 – PAAS; 2 – Jurassic sandstones; 3 – Permian–Triassic sandstones; 4 – Jurassic siltstones; 5 – Permian–Triassic siltstones.
Journal Article

Composition and Sources of Clastic Material of Terrigenous Rocks of the Khabarovsk Accretionary Complex (Sikhote-Alin) Available to Purchase

S.M. Mednikov, A.V. Kudymov, N.N. Kruk, E.I. Demonterova, A.N. Didenko, S. Oto, A.Yu. Peskov
Published: 01 February 2024
Russ. Geol. Geophys. (2024) 65 (2): 233–250.
DOI: https://doi.org/10.2113/RGG20234642
...Fig. 2. Scheme of outcrops of the Khabarovsk terrane (from ( Didenko et al., 2020 ). 1 – melange; 2 – turbidites; 3 – pebble mudstones; 4 – felsic tuffs and tuff siltstones; 5 – mudstones; 6 – ribbon silica; 7 – shales; 8 – tectonic contacts; 9 – bedding attitude; 10–15...
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View PDF for article title, Composition and Sources of Clastic Material of Terrigenous Rocks of the <span class="search-highlight">Khabarovsk</span> Accretionary Complex (Sikhote-Alin)
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Tectonic scheme of the eastern margin of the Eurasian continent modified from (Parfenov et al., 2003; Tectonics…, 2014) (a); histograms of age distribution of detrital zircons from sandstones of the Khabarovsk complex: Jurassic sandstones (b); diagram εNd(T) – age (constructed using data from (Khanchuk et al., 2013, 2015; Kruk et al., 2014, 2016; Sorokin et al., 2014, 2016; Ovchinnikova et al., 2020; Zaika and Sorokin, 2021) (c). а – 1 – undivided Precambrian crust (Sb – Siberian and SK – Sino-Korean cratons, SC – South China Platform, OM – Omolon and OK–Okhotsk massifs); 2–6 – orogenic belts: 2 – Caledonian (BM — Baikal–Muya, BP – Baikal–Patom, VR – Verkhoyan, YT – Yenisei–Transbaikal), 3 – Hercynian (AR – Argun–Mamyn, BJ – Bureya–Jamusin, SM – South Mongolian), 4 – Cimmerian (WD – Wundurmiao, KO – Kolyma–Omolon, MO – Mongol–Okhotsk, SL – Solonker, YN – Yanshan), 5 – Pacific (VK – Verkhoyan-Kolyma, PA – Penzhin-Anadyr, SA – Sikhote-Alin, UD – Uda volcanic belt), 6 – Cenozoic (KK – Koryak–Kamchatka, SH – Sakhalin); 7 – Mesozoic–Cenozoic sedimentary basins (AZ – Amur-Zeya, SG – Songliao, HB – Hubei); 8 – major faults; 9 – the boundaries of the Khabarovsk terrane; 10 – the band of the possible position of the Khabarovsk terrane relative to the eastern edge of the Central Asian fold belt. b – fields of ages of detrital zircons: I – Siberian craton and the northern part of the Mongol–Okhotsk fold belt; II – Sino-Korean craton; III – Bureya–Khanka massif and the southern framing of the Mongol–Okhotsk fold belt. c – DM – depleted mantle; CHUR – homogeneous chondrite reservoir; points and fields of Nd-isotopic ages: 1 – Khabarovsk terrane, Jurassic sandstones; 2 – Khabarovsk terrane, Permian–Triassic sandstones; 3 – Mongol–Okhotsk fold belt; 4 – Bureya massif; 5 – Khanka massif; 6 – Siberian and Sino-Korean cratons.

Tectonic scheme of the eastern margin of the Eurasian continent modified fr... Available to Purchase

Published: 01 February 2024
– the boundaries of the Khabarovsk terrane; 10 – the band of the possible position of the Khabarovsk terrane relative to the eastern edge of the Central Asian fold belt. b – fields of ages of detrital zircons: I – Siberian craton and the northern part of the Mongol–Okhotsk fold belt; II – Sino-Korean craton
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Schematic tectonic map of the Sikhote-Alin Mountains and adjacent areas, modified after Khanchuk (2006). 1, Hauterivian–Early Albian accretionary prism (KM, Kiselevka–Manoma terrane); 2, Hauterivian–Early Albian island arc (Km, Kema; Ka, Kamyshovaya; and Shm, Shmidt terranes); 3, Early Cretaceous turbidite basin (Zh–A, Zhuravlevka–Amur terrane); 4, Early Cretaceous (Neocomian) accretionary prism (Tkh, Taukhe terrane); 5, Jurassic accretionary prism (Sm, Samarka; NB, Nadanhada–Bikin; Bd, Badzhal; and Khb, Khabarovsk terranes); 6, terranes of the Mongol–Okhotsk Orogenic Belt (DK, Dzhagdy–Kerba; Gl, Galam; Nl, Nilan; and Ul, Ul’ban); 7, terranes of a Paleozoic continental margin, resting upon a Jurassic prism (Sr, Sergeevka; Kh, Khor); 8, pre-Mesozoic continents: Bureya(Br)–Jiamusi(Jm)–Khanka(Khn) superterrane, Siberian craton (SC); 9, eastern border of the Sikhote-Alin Orogenic Belt; 10, faults: a, shears, b, thrusts; 11, metamorphic domes. Faults: Lm, Limurchan; Pk, Paukan; Kk, Kukan; Kr, Kur; MFA, Mishan–Fushung–Alchan; Ar, Arsen’evka; CSA, Central Sikhote-Alin; Fr, Furmanov.

Schematic tectonic map of the Sikhote-Alin Mountains and adjacent areas, mo... Available to Purchase

Published: 01 February 2018
, Early Cretaceous turbidite basin (Zh–A, Zhuravlevka–Amur terrane); 4 , Early Cretaceous (Neocomian) accretionary prism (Tkh, Taukhe terrane); 5 , Jurassic accretionary prism (Sm, Samarka; NB, Nadanhada–Bikin; Bd, Badzhal; and Khb, Khabarovsk terranes); 6 , terranes of the Mongol–Okhotsk Orogenic Belt
Journal Article

Structure of terranes in a Jurassic accretionary prism in the Sikhote-Alin-Amur area: implications for the Jurassic geodynamic history of the Asian eastern margin Available to Purchase

I.V. Kemkin
Published: 01 October 2008
Russ. Geol. Geophys. (2008) 49 (10): 759–770.
DOI: https://doi.org/10.1016/j.rgg.2007.12.014
... upsection to turbidites ( Golozubov and Mel’nikov, 1986 ; Kemkin and Golozubov, 1996 ; Volokhin et al., 1990 ). The Jurassic accretionary prism in the Sikhote-Alin-Amur area includes the Samarka, Nadanhada-Bikin, Khabarovsk, and Badzhal terranes ( Fig. 4 ). Fig. 4. Terranes of Jurassic...
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Journal Article

PERMIAN RADIOLARIAN FAUNAS FROM CHERT IN THE KHABAROVSK COMPLEX, FAR EAST RUSSIA, AND THE AGE OF EACH LITHOLOGIC UNIT OF THE KHABAROVSK COMPLEX Available to Purchase

NORITOSHI SUZUKI, SATORU KOJIMA, HARUMASA KANO, SATOSHI YAMAKITA, AKIHIRO MISAKI, MASAYUKI EHIRO, SHIGERU OTOH, TOSHIYUKI KURIHARA, MASASHI AOYAMA
Published: 01 July 2005
Journal of Paleontology (2005) 79 (4): 687–701.
DOI: https://doi.org/10.1666/0022-3360(2005)079[0687:PRFFCI]2.0.CO;2
... , S. V. , and A. Matsuoka . 1999 . Late Jurassic (Tithonian) radiolarians from a clastic unit of the Khabarovsk Complex (Russian Far East): Significance for subduction accretion timing and terrane correlation . The Island Arc , 8 : 30 – 37 . ...
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View PDF for article title, PERMIAN RADIOLARIAN FAUNAS FROM CHERT IN THE <span class="search-highlight">KHABAROVSK</span> COMPLEX, FAR EAST RUSSIA, AND THE AGE OF EACH LITHOLOGIC UNIT OF THE <span class="search-highlight">KHABAROVSK</span> COMPLEX
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Flow chart of tectonic-stratigraphic units of terranes in Jurassic accretionary prism, Sikhote-Alin-Amur area. 1 — siliceous rocks; 2 — chert; 3 — limestone; 4 — siliceous mudstone; 5 — mudstone; 6 — siltstone with scarce sandstone interbeds; 7 — alternating siltstone and sandstone; 8 — subduction melange; 9 — basic volcanic (basalt and hyaloclastic) rocks. Abbreviations stand for terrane names: Sm — Samarka, Nb — Nadanhada-Bikin, Kh — Khabarovsk.

Flow chart of tectonic-stratigraphic units of terranes in Jurassic accretio... Available to Purchase

Published: 01 October 2008
and sandstone; 8 — subduction melange; 9 — basic volcanic (basalt and hyaloclastic) rocks. Abbreviations stand for terrane names: Sm — Samarka, Nb — Nadanhada-Bikin, Kh — Khabarovsk.
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Terranes of the Sikhote-Alin orogenic belt and ophiolite complexes. Encircled numerals mark complexes: 1, Kalinovka, 2, Bikin, 3, Dachechzhen. 1, terrane of Early Cretaceous (Hauterivian–Early Albian) accretionary prism (Ks–Mn, Kiselevsk–Manoma); 2, terrane of Early Cretaceous (Hauterivian–Early Albian) island arc (Km, Kema); 3, terrane of Early Cretaceous turbidite basin (Zh–A, Zhuravlevka–Amur); 4, terrane of Early Cretaceous (Neocomian) accretionary prism (Th, Taukha); 5, terranes of Jurassic accretionary prism (Sm, Samarka; Nb, Nadan’khada–Bikin; Kh, Khabarovsk); 6, terrane of Paleozoic continental margin resting upon the Jurassic accretionary prism (Sr, Sergeevka; Sr(h), Khor); 7, pre-Mesozoic Bureya(Bu)–Jiamusi(Jm)–Khanka(Kha) superterrane; 8, ophiolites; 9, faults: a, shifts, b, thrusts. CSA, Central Sikhote-Alin.

Terranes of the Sikhote-Alin orogenic belt and ophiolite complexes. Encircl... Available to Purchase

Published: 01 January 2016
(Hauterivian–Early Albian) island arc (Km, Kema); 3 , terrane of Early Cretaceous turbidite basin (Zh–A, Zhuravlevka–Amur); 4 , terrane of Early Cretaceous (Neocomian) accretionary prism (Th, Taukha); 5 , terranes of Jurassic accretionary prism (Sm, Samarka; Nb, Nadan’khada–Bikin; Kh, Khabarovsk); 6
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Tectonic scheme of the Sikhote-Alin region and adjacent areas (from Khanchuk, 2006). 1 – Late Cretaceous accretionary prisms (KM – Kiselevka–Manoma terrane); 2 – Early Cretaceous island–arc systems (Ke – Kema; Ka – Kamyshov; Shm – Schmidt terranes); 3 – Early Cretaceous synshear turbidite basins (Zh-A – Zhuravlevsk–Amur terrane); 4 – Early Cretaceous accretionary prisms (Ta – Taukha terrane); 5 – Jurassic accretionary prisms (Sm – Samarkan, Nb – Nadankhada–Bikin, Khb – Khabarovsk, Bd –Badzhal terranes); 6 – Mongol–Okhotsk fold belt (Dz – Dzhagdy; Ni – Nilan; Ul – Ul’ban; Gl – Galam terranes); 7 – terranes of Paleozoic continental margins overlying Jurassic accretionary prisms; 8 – pre–Mesozoic continents (Br – Bureya; Jm – Jiamusi; Khn – Khanka superterranes; Sb – Siberian craton); 9 – faults: a – shear; b – thrusts, c – assumed. Faults: Lim – Limurchan, Pk – Paukan, Kk – Kukan, Kr – Kur, MFA – Mishan-Fushung (Alchan), Ar – Arsen’evka, CSA – Central Sikhote-Alin, Fr – Furmanov. The arrows indicate the directions of movement by shears. The inset shows the geographical location of the research area.

Tectonic scheme of the Sikhote-Alin region and adjacent areas (from Khanch... Available to Purchase

Published: 01 February 2024
turbidite basins (Zh-A – Zhuravlevsk–Amur terrane); 4 – Early Cretaceous accretionary prisms (Ta – Taukha terrane); 5 – Jurassic accretionary prisms (Sm – Samarkan, Nb – Nadankhada–Bikin, Khb – Khabarovsk, Bd –Badzhal terranes); 6 – Mongol–Okhotsk fold belt (Dz – Dzhagdy; Ni – Nilan; Ul – Ul’ban; Gl
Journal Article

Further Insights into Deep Structure of Malmyzh, Pony-Muli, and Anadzhakan Ore Clusters in the Middle Amur Sedimentary Basin (Northern Sikhote-Alin Orogenic Belt) Available to Purchase

A.N. Didenko, M.Yu. Nosyrev, G.Z. Gil’manova
Published: 01 May 2023
Russ. Geol. Geophys. (2023) 64 (5): 607–622.
DOI: https://doi.org/10.2113/RGG20224515
... and occurrences with delineated ore clusters (shown as the white line): AN – Anadzhakan, МL – Malmyzh, PМ – Pony-Muli; 24 – boundaries of tectonostratigraphic terranes, sensu ( Khanchuk, 2006 ; Khanchuk et al., 2016 ): BZH – Badzhal, ZHA – Zhuravlevka-Amur, SМ – Samarka, HB – Khabarovsk. The Roman numerals...
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Scheme of terranes of the Sikhote-Alin’ orogenic belt and its framing, after Khanchuk (2006), with modifications. 1, Precambrian–Early Paleozoic terranes and superterranes: Sb, Siberian; Br, Bureya; Kh, Khankai; 2, Paleozoic terranes (Dk, Dzhagda–Kerba; Lg, Laoelin–Grodekovo; Gl, Galan); 3, 4, Jurassic terranes of: 3, accretionary prisms (SM, Samarka; NB, Nadan’khada–Bikin; KhB, Khabarovsk; Bd, Badzhal’); 4, turbidite basins of active continental margin (Ul, Ul’ban); 5, fragments of Precambrian–Early Paleozoic terranes, involved in the structure of Mesozoic accretionary prism (Sg, Sergeevka); 6–8, Cretaceous terranes of: 6, accretionary prisms (TU, Taukha; KS, Kiselevka– Manoma); 7, turbidite basins of transform continental margin (ZhR, Zhuravlevka; Am, Amur); 8, island arcs and/or back-arc basins (UM, Uda–Murgal; KM, Kem’); 9, major faults: a, shears (arrows show the displacement directions); b, thrusts; c, other.

Scheme of terranes of the Sikhote-Alin’ orogenic belt and its framing, afte... Available to Purchase

Published: 01 February 2014
, Galan); 3 , 4 , Jurassic terranes of: 3 , accretionary prisms (SM, Samarka; NB, Nadan’khada–Bikin; KhB, Khabarovsk; Bd, Badzhal’); 4 , turbidite basins of active continental margin (Ul, Ul’ban); 5 , fragments of Precambrian–Early Paleozoic terranes, involved in the structure of Mesozoic
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Generalized tectonics of Sikhote-Alin-Amur area and its surroundings, modified after (Kemkin, 2006). 1, 2 — Paleozoic continental blocks: Bureya-Jiamusi-Khanka superterrane, Sino-Korean and Siberian cratons (1), Sergeevka terrane (fragment of an Early Paleozoic continental margin) (2); 3 — Permian-Triassic accretionary prisms; 4 — Jurassic turbidite basin (Ulban and Un’ya-Bom terranes); 5 — Jurassic accretionary prism (Samarka, Nadanhada-Bikin, Khabarovsk and Badzhal terranes); 6 — Early Cretaceous turbidite basin (Zhu-ravlevka-Amur terrane); 7 — Tithonian-Hauterivian accretionary prism (Tau-kha terrane); 8 — Hauterivian-Albian accretionary prism (Kiselevka-Manoma and Aniva-Gomon terranes); 9 — Hauterivian-Albian island arc (Kema, Kamy-shovka, and Shmidt terranes); 10 — Late Cretaceous accretionary prism (Nabil-sky terrane); 11 — Late Cretaceous forearc basin (West Sakhalin terrane); 12 — Late Cretaceous island arc (Terpeniya terrane); 13 — Late Cretaceous volcanic arc (East Sikhote-Alin volcanic belt); 14 — left-lateral strike-slip faults; 15 — other faults.

Generalized tectonics of Sikhote-Alin-Amur area and its surroundings, modif... Available to Purchase

Published: 01 October 2008
) ( 2 ); 3 — Permian-Triassic accretionary prisms; 4 — Jurassic turbidite basin (Ulban and Un’ya-Bom terranes); 5 — Jurassic accretionary prism (Samarka, Nadanhada-Bikin, Khabarovsk and Badzhal terranes); 6 — Early Cretaceous turbidite basin (Zhu-ravlevka-Amur terrane); 7 — Tithonian
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Terranes of Jurassic accretionary prism, after (Kemkin and Filippov, 2001) and their configuration of today (A) and in Late Albian time (prior to left-lateral motion on Central Sikhote-Alin fault) (B). 1 — Bureya-Jiamusi-Khanka superterrane; 2 — terranes of Jurassic accretionary prism; 3 — Early Cretaceous terranes; 4 — Sergeevka terrane of Early Paleozoic continental margin; 5 — Middle Paleozoic ophiolite of Samarka terrane; 6 — left-lateral strike-slip faults; 7 — thrusts; 8 — boundaries of Early Cretaceous terranes; 9 — location of type sections in Samarka terrane (1 — middle reaches of Katen River), 2 — left side of Medvedka River near Breevka Village, 3 — left side of Ussuri River opposite Saratovka Village, 4 — right side of Bikin River, near Mt. Amba, 5 — right side of Matai River). Letters in circles stand for fault names: C — Central Sikhote-Alin, A — Arsen’evsk, M — Meridionalnyi, MF — Mishan-Fushung, KCh — Katen-Chuken, KR — Kursk, L — Laolihe, D — Dahezheng; fault zones: AM — Amur, KU — Kukan. Terranes of Jurassic accretionary prism: Sm — Samarka, Nb — Nadanhada-Bikin, Kh — Khabarovsk, B — Badzhal.

Terranes of Jurassic accretionary prism, after ( Kemkin and Filippov, 2001 ... Available to Purchase

Published: 01 October 2008
, A — Arsen’evsk, M — Meridionalnyi, MF — Mishan-Fushung, KCh — Katen-Chuken, KR — Kursk, L — Laolihe, D — Dahezheng; fault zones: AM — Amur, KU — Kukan. Terranes of Jurassic accretionary prism: Sm — Samarka, Nb — Nadanhada-Bikin, Kh — Khabarovsk, B — Badzhal.
Journal Article

Early Permian Adakites of the Nora–Sukhotino Terrane in the East of the Central Asian Orogenic Belt: Geochronological (U–Pb, LA-ICP-MS) and Geochemical Data Available to Purchase

Yu.V. Smirnov, V.B. Khubanov
Published: 01 January 2023
Russ. Geol. Geophys. (2023) 64 (1): 62–74.
DOI: https://doi.org/10.2113/RGG20224471
...Yu.V. Smirnov; V.B. Khubanov Abstract ––We present results of geochemical and geochronological (U–Pb, LA-ICP-MS) studies of plagiogranites of the Mt. Zmeinaya massif in the Nora–Sukhotino terrane. The studied rocks are of calc-alkaline series and peraluminous type. They formed in collision settings...
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View PDF for article title, Early Permian Adakites of the Nora–Sukhotino <span class="search-highlight">Terrane</span> in the East of the Central Asian Orogenic Belt: Geochronological (U–Pb, LA-ICP-MS) and Geochemical Data
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Granitoids of the Tyrma–Bureya complex in the northern Bureya–Jiamusi superterrane of the Central Asian fold belt: age and geodynamic setting Available to Purchase

A.A. Sorokin, A.B. Kotov, E.B. Sal’nikova, N.M. Kudryashov, I.V. Anisimova, S.Z. Yakovleva, A.M. Fedoseenko
Published: 01 May 2010
Russ. Geol. Geophys. (2010) 51 (5): 563–571.
DOI: https://doi.org/10.1016/j.rgg.2010.04.011
... , 1994 . Set of Charts [in Russian] . Khabarovsk . Sorokin , A.A. , Kudryashov , N.M. , 2004 . Paleozoic magmatism in the northeastern margin of the Argun terrane: timing and tectonic implications (Upper Amur region) . Geochim. Cosmochim. Acta 68...
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View PDF for article title, Granitoids of the Tyrma–Bureya complex in the northern Bureya–Jiamusi superterrane of the Central Asian fold belt: age and geodynamic setting
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Gold Deposits of Magadan Region, Northeastern Russia: Yesterday, Today, and Tomorrow Available to Purchase

Nikolay Goryachev, Alexander Yakubchuk
Journal: SEG Discovery
Published: 01 July 2008
SEG Discovery (2008) (74): 1–15.
DOI: https://doi.org/10.5382/SEGnews.2008-74.fea
... and localization of gold mineralization ( Eremin et al., 1994 ). The diverse lode gold deposit types of Magadan Oblast were formed both during and subsequent to terrane accretionary events ( Nokleberg et al., 2005 ). They are classifıed as orogenic, intrusion-related gold, and epithermal. Areas dominated...
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Petrochemical characteristics of carbonaceous shales in the eastern Bureya massif and their precious-metal mineralization Available to Purchase

A.I. Khanchuk, V.G. Nevstruev, N.V. Berdnikov, Nechaev
Published: 01 June 2013
Russ. Geol. Geophys. (2013) 54 (6): 627–636.
DOI: https://doi.org/10.1016/j.rgg.2013.04.012
.... According to modern concepts of the tectonic structure of southern Far East Russia, the Bureya massif (terrane), together with the Jiamusi massif, is part of the Early Paleozoic orogenic belt ( Khanchuk, 2000 , 2006 ; Parfenov et al., 2003 ) ( Fig. 1 ). The massif is composed mainly of metamorphic rocks...
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Two stages of Neoproterozoic magmatism in the evolution of the Bureya continental massif of the Central Asian Fold Belt Available to Purchase

A.A. Sorokin, R.O. Ovchinnikov, N.M. Kudryashov, A.B. Kotov, V.P. Kovach
Published: 01 October 2017
Russ. Geol. Geophys. (2017) 58 (10): 1171–1187.
DOI: https://doi.org/10.1016/j.rgg.2016.12.009
..., V, Cr, Co, Ni, Cu, and Zn) on a Elan 6100 DRC mass spectrometer at the Institute of Tectonics and Geophysics, Khabarovsk. The powdered samples for XRF analysis were homogenized by fusion with a mixture of LiBO 2 + Li 2 B 4 O7 in a muffle furnace at 1050–1100 °C. During the analysis, the intensity...
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Journal Article

LATE PALEOZOIC MAGMATIC ARC ON THE NORTHERN PERIPHERY OF THE ARGUN’ TERRANE AND ASSOCIATED GOLD MINERALIZATION (upper-Amur region) Available to Purchase

I.V. Buchko, A.A. Sorokin
Published: 01 June 2005
Russ. Geol. Geophys. (2005) 46 (6): 617–624.
...I.V. Buchko; A.A. Sorokin In the Amur region, a series of gold-ore occurrences belonging to gold-polysulfide-quartz and gold-quartz formations (Tomskoe, Chitkan, Vyruchka, Urusha) have been recognized within the northern periphery of the Argun’ terrane. These occurrences are associated...
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