North Asian Craton Research Articles

СТРОЕНИЕ АЛДАНО-МАЙСКОГО ОСАДОЧНОГО БАССЕЙНА

The boundaries and inner structure of the Aldan-Maya sedimentary basin located in the east of the North Asian craton are specified on basis of seismographic and geological evidence synthesis.

Metallogenic specialization of the Precambrian crystalline complexes in the Tyrkanda tectonic zone between granulite terranes of the Aldan-Stanovoy shield (North-Asian craton)

The study of the composition of the Precambrian crystalline complexes raised and exposed along the margins of the North Asian craton allows us characterizing the conditions of formation and clarifying metallogenic typification of the geological structures of various stages of evolution of the lithosphere. Based on these data identification of the promising metallogenic zones and local potentially ore-bearing objects can also be achieved. The goal of the research was to characterize the chemical composition features of geological complexes in the Tyrkanda tectonic zone between the granulite terrains of the Aldan-Stanovoy shield in the south of the North Asian craton. The object is interesting due to the presence of a large number of different types of metamorphic and magmatic rocks. Complex geological structures with numerous stages of intensive ductile and brittle deformations of various kinematics are observed. As a part of the research for the rocks of the zone, the petrographic observation was done and chemical composition was studied. Characteristics and typification of rocks were carried out. Reconstruction of the primary (premetamorphic) types of rocks was performed using the methods of Predovsky and Neelov. A cluster analysis of geochemical data was performed. The excess of background concentrations of chemical elements in clusters was calculated. According to the calculation results, metamorphosed ultramafic and mafic rocks of tholeiitic magmatic series form a single cluster. These rocks are richer with indicator elements for diamond and precious metals. A short description of the probable types of mineralization in these rocks was provided. The most promising for precious metals surrounding areas was determined.

Using a digital relief model for searching for primary sources of gold in metamorphic complexes of the Evota region (Aldan-Stanovoy shield, North-Asian craton)

Placers of precious metals and other mineral resources are associated with the uplifted basement of the North-Asian craton and metamorphic terrains near its borders. The complex geological structure of these territories does not allow to make obvious conclusions about the sources of the placers. One of the areas of the southern outcrop of the craton basement, the Evota gold-bearing region of the Aldan-Stanovoy shield was studied. Analysis of the morphology of native gold selected from creeks of the region and eluvium from one of the primary deposits show that grains with similar morphological features occur. Probably, not far from the points of sampling, primary sources are located. Possible erosion and sediment removal should occur in positive forms of relief. Therefore, an attempt to determine the location of primary sources by modeling positive forms of relief, where erosion occurs and removal could be manifested, was made. The methodology for modeling these forms using modern geoinformation systems was considered as an attempt to analyze the obtained results. Digitized relief maps (topographic base) of the area and sample points with discovered gold were a basis for the calculations. Further steps were: building a surface of relief as a regular network of highs, calculating directions and slope angle of the surface, building a map of removal vectors, constructing a path with a maximum slope upward from the point with gold particles discover. Lines of positive forms of relief confined to gold discover points were constructed as a result. Field works for identifying signs of gold content in these lines and point sampling of rock debris were carried out. Microprobe analyses of rock debris were performed. Minerals of gold and silver were discovered in the debris. The obtained data shows that this method of analysis can be useful for deciphering ore-bearing structures and searching for primary sources.

Mapping of folds and faults in metamorphic complexes of the Central Aldan and Prikolyma terranes using geophysical data

The study of the structure of the Precambrian crystalline complexes raised and exposed along the margins of the North Asian craton allows us to characterize the geological features of various stages of the evolution of the lithosphere. Based on these data identification of the promising metallogenic zones and local potentially ore-bearing objects can also be achieved. The goal of the performed research was to create objective models of the areas characterized by the presence of mineral deposits to identify characteristics and promising structures. Using modern geoinformation systems, the maps of the high gradient zones of the local components of geophysical fields have been created. These maps reflect the boundaries of geological complexes with contrasting physical properties. For clarity, the geophysical background was removed from the maps, and only the zones of high gradients of various geophysical fields were left. A combination of maps was performed and it was found that high-gradient zones of the various geophysical fields complement each other along the strike. Based on the obtained geophysical schemes, geological maps and field observations of geological structures, already known and new folds and faults have been deciphered. As a result, models of folds and faults that control the location of mineral resources were created. Models allow finding the common features and evaluating the minerals prospects of areas. In the framing of the Upper-Timpton dome of the Central-Aldan superterrane and in the Shamanikhin fault zone of the Prikolyma terrane, there are many high-gradient zones of the various geophysical fields observed. New ore objects can be expected to be discovered in these areas.

Ages and Sources of Sedimentary Rocks of the Lan Terrane in the Mongol-Okhotsk Fold Belt: Results of Zircon U-Pb and Lu-Hf Isotope Studies

The paper presents the results of U-Pb and Lu-Hf isotope studies of detrital zircons from the terrigenous the Lan 410 Ma (Lower Devonian), Terrane in the eastern part of the Mongol-Okhotsk fold belt. The lower age rocks limits are for the Nivakh formation ~ for the Verkholan series ~332 Ma (Mississippian), for the Ugokhan series ~239 Ma (Middle Triassic). The evidences were obtained for the Lower Triassic (or Middle-Late Triassic) age of the sediments assigned to the Ugokhan series previously classified as Upper Paleozoic. These data indicate that the Lower Mesozoic sedimentary complexes in the structure of this belt are developed much wider than is currently believed. The main sources of clastic material for the Devonian, Carboniferous, and Triassic sedimentary rocks of the Lan terrane were mainly igneous and metamorphic complexes of the North Asian craton framing, along with island arcs. The Lan Terrane can be considered as a fragment of the accretionary complex formed in front of the southeastern margin of the North Asian craton.

Ages and sources of detrital zircons from the Early Mesozoic metasedimentary rocks of the Un’ya-Bom terrane of the Mongol-Okhotsk fold belt: results of U-Th-Pb and Lu-Hf isotope studies

The U-Pb and Lu-Hf isotope studies have been performed to investigate detrital zircons from metaterrigenous deposits (Nel, Kurnal and Amkan f ormations) of the Un’ya-Bom terrane of the eastern part of the Mongol-Okhotsk fold belt. T he concordant age s of the youngest zircon in the metasiltstone of the studied formations are as follows: 213±3.6 Ma – N el , 194±4.4 Ma – K urnal , and 202±2.5 Ma – A mkan. The new data suggest that a previously assumed (Middle Jurassic) age of the A mkan f ormation is uncertain . Most likely, the Kurnal and Amkan formations are of the same ( E arly Jurassic) age. In any case, a relationship between these formation s needs to be clarified . I n co mbination with the data from previous studies of the Tukuringra t errane, our study results show that the E arly Mesozoic sedimentary rocks in the structure of the eastern part of the Mongol-Okhotsk fold belt are more abundant than it is currently assumed . Our study results suggest that during the accumulation of the Nel, Kurnal and Amkan formation s , the materials were supplied from different provinces, especially from the Amur s uperterrane ( i.e. from the south , in modern coordinates) , as well as from the fram e of the North Asian craton ( i.e from the north , in modern coordinates), although the contribution of the craton source was insignificant.

Age and Sources of Detrital Zircons from Jurassic Conglomerates of Strelka Depression (Northern Framing of the Mongol–Okhotsk Fold Belt)

This paper presents the results of U–Th–Pb geochronological study of detrital zircons from cement of the Jurassic conglomerates of the Strelka Depression extending in the sublatitudinal direction along the border between the southern margin of the Selenga-Stanovoy superterrane and the Mongol–Okhotsk fold belt. It has been shown that Paleoproterozoic and Neoarchean zircons overwhelmingly dominate in the conglomerate cement. This indicates that the main input of the material to the sedimentation basin was carried from the Southeast border of the North Asian craton (from the north in modern coordinates). In our opinion, the Strelka Depression formed after the completion of orogenic processes associated with the formation of the Mongol–Okhotsk structure.

Sources and source areas of the Upper Paleozoic metasedimentary rocks of the Dzhagda terrane of the Mongol-Okhotsk fold belt: the results of Sm-Nd isotope geochemical studies

The article presents the results of Sm-Nd isotope geochemical studies of the Upper Paleozoic metasedimentary rocks of the Dzheskogon, Nektera and Bochagor suites of the Dzhagda terrane. These rocks are characterized by slightly varying values of the Nd model age tNd(DM)=1.5–1.0 Gyr, which gives evidence that the main sources of protoliths were the rocks of the Mesoproterozoic Nd model age (in average). This Nd model age is similar to the ages of the metaterrigenous rocks of the Teply Klyuch, Garmakan and Alga suites of the Tukuringra terrane of the Mongol-Okhotsk Belt. The results obtained in our studies suggest that the sedimentary rocks of the Dzhagda and Tukuringra terranes developed from the material that was mainly sourced from the Amur superterrane (from the south in modern coordinates). A supply of the material from the southern margin of the North Asian craton (from the north in modern coordinates) was either absent or minimal.

Graphite‐bearing mineral assemblages in the mantle beneath Central Aldan superterrane of North Asian craton: combined confocal micro‐Raman and electron microprobe characterization

Mantle‐derived lherzolitic and harzburgitic Cr‐pyropes from lamprophyres of the Chompolo field (Central Aldan superterrane, North Asian Craton) were studied using micro‐Raman spectroscopy and electron microprobe microanalysis. These garnets enclose graphite coexisting with forsterite, diopside, Ba‐Cl‐phlogopite, tschermakite, rutile, magnesiochromite, Mg‐ilmenite, apatite, chalcopyrite, dolomite, magnesite and lindsleyite inclusions. The PT conditions of residence of graphite‐bearing assemblage in the mantle were estimated, using a combination of mineral thermometers and barometers, to be as high as 2.87–3.55 GPa and 710–770 °C. Generally, graphite within inclusions is well ordered; D1 and D2 disordered bands in its spectra are restricted to inclusion edges. The residual pressure up to 2.1 GPa was inferred for graphite assuming pressure dependence of the G‐band upshift (1580 cm−1 at ambient conditions vs 1588.6 cm−1 at 2.1 GPa). Disordered graphite most likely appears due to the stress‐induced distortion of the fully ordered graphite crystal structure. The distortion results from difference in the thermoelastic properties of graphite inclusions and their garnet hosts exposed to decompression during ascent to the surface with lamprophyre magma. The mineralogy of inclusions in the studied garnets strongly suggests an episode(s) of metasomatism by carbon‐rich agent(s) (COH‐fluid or carbonatitic melt) in the lithospheric mantle of the Central Aldan superterrane, which was coeval with the formation of graphite inclusions and the host pyropes. Copyright © 2017 John Wiley & Sons, Ltd.

Structural control of orogenic gold deposits of the Verkhoyansk-Kolyma folded region, northeast Russia

The Verkhoyansk-Kolyma folded region (VKFR) contains numerous Late Jurassic – Early Cretaceous orogenic gold deposits which are the source for large alluvial gold placers. This study is focused on determination of the relationship between ore-controlling structures, tectonic evolution of the region and analyzing different-aged deformations and structure of gold deposits in the region. Tectonic structures of mesothermal orogenic gold deposits were formed as a result of Late Jurassic-Barremian frontal accretion, generally prior to the onset of transpressional deformation. The accretionary events were different in different parts of VKFR. In the Allakh-Yun metallogenic zone this was the accretion of the Okhotsk terrane to the eastern margin of the North Asian craton, and in the Verkhoyansk and Yana-Kolyma metallogenic belts the accretion of the Kolyma-Omolon superterrane to the same craton. Regional-scale thrust faults are main tectonic structures controlling distribution of gold deposits in the area. Ore-controlling structures for the early orogenic gold-sulfide disseminated and gold-quartz lode deposits, which were formed prior to the emplacement of orogenic granitoid plutons, are shear zones. They form systems of listric-type imbricate fans closely associated with a detachment of the Verkhoyansk fold-and-thrust belt. Late orogenic gold-quartz deposits in fault zones, which were formed after the emplacement of orogenic granitoid plutons, are controlled by intersections of thrusts and lateral and oblique ramps and by the related folds. Formation of the ore-hosting structures of the late orogenic intrusion (granitoid)-related deposits is due to the dynamic effect of intruding magma on the host rocks.

Trachyandesites of the Mogot volcanic field (Stanovoi volcanoplutonic belt, East Siberia): age, geochemical features, and sources

The performed 40Ar/39Ar geochronological studies yielded the first reliable age of trachyandesites of the Mogot volcanic field (115 ± 3 Ma), which, together with the age of trachyandesites of the Bomnak volcanic field (117 ± 1 Ma), gives grounds to recognize a new stage (117–115 Ma) of evolution of the Stanovoi volcanoplutonic belt superposed on the igneous and metamorphic complexes of the Dzhugdzhur–Stanovoi superterrane of the Central Asian Orogenic Belt and Stanovoi structural suture. The trachyandesites of the Mogot volcanic field are similar in geochemical features to adakites. Their parental melts resulted from the transformation of Precambrian continental crust under postcollisional extension after the formation of the Mongolo–Okhotsk orogen or under sliding along the boundary between the North Asian craton and the Amurian microcontinent.

Tectonics and metallogeny of the junction zone between the North Asian craton and Pacific tectonic belt

The tectonics and metallogeny of the junction zone between the North Asian craton and Pacific tectonic belt are considered. This zone is characterized by a wide variety of structures superposed on the metamorphic basement, which was formed in the course of a multistage geologic development of the craton from the Precambrian to the Cenozoic. They are related to the craton evolution and its response to the collision and subduction processes in the adjacent orogenic belt, processes in the passive and active continental margins, and plume magmatism. The geological structure of the region includes blocks of metamorphic rocks of the Aldan–Stanovoi shield, Paleoproterozoic volcanogenic troughs, Mesoproterozoic–Neoproterozoic and Early Paleozoic structures of the platform cover, Late Paleozoic volcanic and terrigenous troughs, structures of the Late Mesozoic Okhotsk–Chukotka volcanic belt of the active continental margin, and Late Cretaceous riftogenic structures formed in response to plume magmatism. In total, six metallogenic epochs are recognized in the development of ore mineralization: Archean–Early Paleoproterozoic, Late Paleoproterozoic, Mesoproterozoic, Neoproterozoic, Late Paleozoic, and Late Mesozoic. The minerageny of the junction zone between the craton and Pacific belt is highly diversified, being characterized by distinct evolution in time and space. Each development stage features its own set of mineral resources.

Sources of detrital zircons from terrigenous deposits in the Yankan terrane of the Mongolian-Okhotsk mobile belt

This report presents the results of U-Pb-geochronological studies (LA-ICP-MS) of detrital zircons from metasedimentary rocks of the west of the Yankan terrane (one of the largest within the structure of the Mongolian-Okhotsk mobile belt). The performed studies ascertain sufficiently the current notions of the geological development of the terrane. It is shown that the rocks are different in age from the main populations of detrital zircons and in the Sm-Nd isotope-geochemical characteristics. In view of this, one may suppose that these rocks do not belong to the unified stratigraphic series but are included into the structures of different-aged accretionary complexes. The terrigenous deposits of the Baldizhak series, as well as those of the Krestovka and Dzhalinda suites, probably belong to the accretionary complexes formed in front of the southeastern margin of the North-Asian craton. On the contrary, the sedimentary formations of the Preobrazhenovka suite are most likely constituents of the accretionary complex formed near the southern margin of the Amur superterrane. The absence of detrital zircons of Mesozoic age in the treated rocks allows one to assume that the considered accretionary complexes were formed during the Paleozoic.

Else one approach to a problem of the Okhotsk massif in the northwestern Okhotsk region

The distribution of the mass centers and rheological heterogeneity of sources inducing gravity anomalies in the Okhotsk massif and its surrounding structures are analyzed. The structures of the metamorphic basement of the massif and overlying folded and volcanic complexes are defined and 3D parameterized. It is shown that the massif was primarily an element of the North Asian craton and its subsurface metamorphic complexes occupy now the allochthonous position in the crust section. It is established that fold structures and the granite-metamorphic layer of the crust demonstrate features of inherited interrelations under the volcanic cover. The tectono-magmatic structure of the central type defined in the lower reaches of the Okhota and Inya rivers is described in the 3D space.

New 40Ar/39Ar age of granitic rocks and related gold mineralization at the Kirovskoye deposit (southeastern margin of the North Asian craton)

The Kirovskoye gold deposit located in the southern part of the Selenga-Stanovoi superterrane at the southeastern margin of the Siberian craton is one of the largest ore deposits in the eastern regions of the Russian Far East. 40Ar/39Ar geochronological studies revealed that the age of the quartz-diorite-porphyrite and granodiorite-porphyry dikes is 128−126 Ma. This estimate agrees with the previous U-Pb age of 125 ± 2 Ma for the Dzhalinda granodiorites. The age of hydrothermal ore-forming processes was estimated at ∼121−120 Ma. These results allow us to infer that a relationship between Kirovskoye gold mineralization was formed as a result of postmagmatic hydrothermal activity, which accompanied the emplacement of the Dzhalinda intrusion and coeval dikes.

The recent structure and the assumed history of formation of the crust in the south-eastern segment of the North Asian craton along Reference Profile 3-DV

The article presents results of specialized processing of the deep seismic profile along a part of Reference Profile 3-DV which crosses the Aldan-Stanovoi shield in the meridian direction and goes across its buried northern slope. The study is aimed at determining frequency-energy characteristics of the seismic wave field which are related to physical conditions of geological features of the crust. Based on analysis and interpretation of the dynamic profiles, it is possible to reveal and contour the Archean cores of consolidation of the Aldan shield and its buried continuation that is covered by sediments of the Middle Lena monocline and to input new facts in the proposed geodynamic model showing formation of the crust in the south-eastern segment of the North Asian craton.

First data on noble metal minerals in the metamafic rocks of the Ilikan lithotectonic zone, southeastern framing of the North-Asian craton

First data on noble metal minerals in the metamafic rocks of the Ilikan lithotectonic zone, southeastern framing of the North-Asian craton

Late Mesozoic trachyandesite of the Bomnak volcanic structure (southeastern margin of the north Asian craton): 40Ar/39Ar geochronological and geochemical data

Late Mesozoic trachyandesite of the Bomnak volcanic structure (southeastern margin of the north Asian craton): 40Ar/39Ar geochronological and geochemical data

New U-Pb isotopic data on the age of metamorphic and igneous rocks of the western margin of the Selenga-Stanovoi orogenic belt

New data on the isotopic age of zircons from metamorphic and igneous rocks are given for the Berezitovoe and Kirovskoe deposits located in the eastern margin of the Selenga-Stanovoi orogenic belt. The zircons were studied with the LA-ICP-MS method in the State Key Laboratory of Continental Dynamics, Northwestern University, Sian, Shansi province, People’s Republic of China. The results allowed us to reveal three age epochs in formation of the eastern part of the Selenga-Stanovoi orogenic belt (1.87 Ga; 380–330 Ma; 138–125 Ma), which have significant importance for understanding of the geological structure of the south-eastern framework of the North Asian craton.

Tectonophysical evidences of geodynamic evolution of the Prikolyma terrain (North-Eastern regions of Russia)

The Prikolyma terrain is a part of the Yana-Kolyma orogenic belt located in the North Eastern Asia. It is generally composed of the Proterozoic deposits, including sandstones, metapellites, quartz-feldspar and carbonate rocks, meta- and hyperbasites. The Prikolyma terrain represents a fragment of passive margin of the North-Asian craton that was detached in the Middle Paleozoic due to progressing rifting. Subsequent geological development of the terrain was determined by accretion events at its boundary with margin of the North-Asian craton and the Omolon microcraton. Its longterm geodynamic evolution is reflected in the character and sequence of formation of the Prikolyma terrain deformation structures. In the central part of the Prikolyma terrain, i.e. in the basin of the Malaya Stolbovaya river, two reference areas of tectonics were studied, which contain packs of thrust sheets complicated by subsequent highangle faults. The fault pattern is complex, and its major elements are gently dipping zones of plastic deformation, which mark the boundaries of petrographically heterogenous plates. The thrust packs are more than 200 m thick; their root zones are represented by series of highangle reverse faults. Another important element of the fault pattern is highangle zones of brittle deformation, which kinematic characteristics are ambiguous. A vertical component of displacement is predominant for the faults of the north-western strike; a strike-slip component is characteristic of latitudinal and meridional faults. The fault pattern developed in several stages under the impact of fields of tectonic stress, which vectors were variable. The folds, comprising a uniform structural paragenesis with thrusts, are of great importance for the structure under study. The largest folds exhibit the asymmetric structure with the N-E dipping axial planes. Axes of smaller folds are oriented to N-W and N–NW. Four stages of deformation are distinguished in the history of geological development of the Prikolyma terrain. The earliest stage was characterized by the N-E compression resulting in formation of the N-W-oriented thrusts and folds and zones of greenschiest dynamo-metamorphism. During the second stage, the axis of compression gained the E–NE orientation, and the axis of extension was oriented to the N–NW, which influenced the formation of the submeridional reverse faults and thrusts. During the third stage, the axis of compression was N-W oriented, and the axis of extension gained the N-E orientation. Thereat, the sublatitudinal and submeridional structures were activated as strike-slip faults, the N-W structures as normal faults, and the N-E structures as reverse faults. The above resulted in the formation of structures of volume extension, which are favorable for localization of magmatic bodies and ore streaky-veined structures. At the final stage, compression in the meridional direction lead to the formation of thrusts and reverse faults along the sublatitudinal displacements, normal faults along the submeridional displacements, and strike-slips along the N-E and NW displacements. The first deformation stage was contemporaneous with the long-term period of compression in the Riphean and Early Paleozoic, when the dynamo-metamorphic complex of the Prikolyma terrain was developed. In the second stage, the Prikolyma terrain was detached from the margin of the North-Asian craton. In the Early Cretaceous, the third stage took place, when rearrangements of the field of tectonic stresses and transition to conditions of general extension caused emplacement of granitoids and quartz veining. The N-W orientation of the compression vector suggests that the third stage was related to the regional tangential compression due to the asymmetrical collision of the Prikolyma terrain and the Omolon microcraton. In the final stage, rotation of the vector of compression, associated with development of numerous N-W and N-E-oriented fractures, reflected the occurrence of the epiorogenic rifting. The above-described stages of formation of the deformation structure of the Prikolyma terrain are evidently correlated with the main tectono-magmatic stages of development of the NE margin of the North-Asian craton, which took place in the Late Paleozoic and the Mesozoic.