New data on 644 composition and age of bimodal volcanic series of the Tugnui riftogenic depression, p.645, 1997. ,
, Doklady Earth Sciences, vol.353, issue.2, pp.273-276
, , p.647, 2008.
, Ablation ICP-MS in the Earth Sciences. Mineralogical association of Canada short 648 course series 40, pp.204-207
Middle 650, 2018. ,
Cretaceous tectonic evolution of the Bayanhushuo area, p.651 ,
constraints from zircon U-Pb geochronological and 652 geochemical data of volcanic and subvolcanic rocks, International Geology Review, vol.60, pp.1883-1905 ,
Palaeomagnetic study from the Mongol-655, 1998. ,
, Okhotsk region: rotated Early Cretaceous volcanics and remagnetized Mesozoic 656 sediments, Earth and Planetary Science Letters, vol.159, pp.133-145
, , 2015.
, Volcanism in the Baikal rift: 40 years of active-versus-passive model discussion, p.659
, Science Reviews, vol.148, pp.18-43
New data on the age of volcanism 661 evidence in West-Zabaikalian Late Mesozoic-Cenozoic volcanic domain, Doklady, vol.662, 1995. ,
, Earth Sciences, vol.345, pp.648-652
The application of laser 664 ablation-inductively coupled plasma-mass spectrometry to in situ U-Pb zircon geochro-665 nology, Chemical Geology, vol.211, pp.47-69, 2004. ,
, , p.667
Accomodating large-scale intracontinental extension and 668 compression in a single stress-field: A key example from the Baikal Rift System, 2013. ,
, Gondwana Research, vol.24, pp.3-4
, , p.671
How old is the 672, 2009. ,
, Baikal Rift Zone? Insight from apatite fission track thermochronology, Tectonics, vol.28, p.673
,
, , p.675
Late Jurassic -Early Cretaceous paleoenvironment evolution of the 676, 2017. ,
, Transbaikal basins (SE Siberia): implications for the Mongol-Okhotsk orogeny
, Earth Sciences Bulletin, vol.188
, , p.679
Mongolian 680 summits: An uplifted, flat, old but still preserved erosion surface, Geology, vol.35, pp.871-681, 2007. ,
U-Pb dating of zircons from 683, 2016. ,
, PZ(3)-MZ igneous complexes of Transbaikalia by sector-field mass spectrometry with 684 laser sampling: technique and comparison with SHRIMP, Russian Geology, p.685
, Geophysics, vol.57, pp.190-205
, Continental Mesozoic stratigraphy of the Buryat ASSR, p.687, 1961.
Izvestiya Akademii Nauk SSSR, Seriya Geologicheskaya (Izvestiya of 688 the Academy of, Sciences of the U.S.S.R., Geological Series), vol.4, pp.59-73 ,
Continental Mesozoic stratigraphy of Transbaikalia, 1964. ,
Stratigraphy and paleontology of the Mesozoic and Cenozoic deposits in East 691 ,
, Proceeding of the Limnologic Institute, vol.4, p.692
, , pp.5-138
Middle Jurassic effusive 694 rocks of the Southwest Transbaikaliya, p.695, 1965. ,
, , pp.295-314
Horizontal inhomogeneity of the 697 crust and upper mantle of the Asian continent, from Rg-wave data, Fiz. Zemli, vol.3, pp.3-11, 1990. ,
, , p.700, 2002.
, Okhotsk Ocean as constrained by new palaeomagnetic data from the Mongol-Okhotsk 701 suture zone, Siberia. Geophysical Journal International, vol.148, pp.34-57
First paleomagnetic data for Mongol-Okhotsk fold 703 belt, Geologiya i Geofizika (Russian Geology and Geophysics), vol.37, pp.54-62, 1996. ,
,
, , p.706
Interaction compression-extension a la limite Mongolie-Siberie: 707 analyse preliminaire des deformations recentes et actuelles dans le bassin de Tunka, 2001. ,
Sciences de la Terre et des planetes (Earth and Planetary sciences) 709 332, pp.177-184 ,
Mesozoic tectonics and magmatism of East Asia (correlation 711 between time of manifestation of tectonic movements and magmatism), Nauka, p.712, 1983. ,
, , vol.230
History and geodynamics of the Baikal Rift, Russian Geology and Geophysics), vol.714, pp.391-406, 2003. ,
, , p.716
The 717 history of the relief formation in Siberia and the Far East, p.718, 1974. ,
, , vol.359
User's Manual for Isoplot 3.00: A Geochronological Toolkit for Microsoft 720, 2003. ,
, Berkeley Geochronology Center. Spec. Publ, vol.4, p.p
On continental Mesozoic stratigraphy of Transbaikalia, Doklady Earth, vol.722, issue.2, pp.355-338, 1955. ,
Late Mesozoic and Cenozoic lake history, pp.286-724, 1988. ,
Oligocene sediments in the Tunka 726 basin (Baikal rift zone). Geologiya i Geofizika, Russian Geology and Geophysics), vol.34, pp.81-88, 1993. ,
Nappe slice structure of the Western Baykal Area, 1987. ,
, Geotectonics, vol.21, pp.265-268
, , p.731, 2010.
, Mesozoic tectonics of Central Asia based on paleomagnetic evidence, Gondwana 732 Research, vol.18, pp.400-419
, Paleomagnetism of Upper Jurassic 734 basalts from Transbaikalia: new data on the time of closure of the Mongol-Okhotsk 735, 2007.
, Ocean and Mesozoic intraplate tectonics of Central Asia, Russian Geology, p.736
, Geophysics, vol.48, pp.825-834
Paleomagnetism of Early Cretaceous 738 volcanic rocks from Transbaikalia: argument for Mesozoic strike-slip motions in 739, 2004. ,
, Central Asian structure. Russian Geology and Geophysics, vol.45, pp.1349-1363
, , p.741
Provenance Change in the Irkutsk Coal Basin 742 during the Early and Middle Jurassic: Geochemical and Sm-Nd Isotope Evidence, 2017. ,
, Stratigraphy and Geological Correlation, vol.25, pp.363-384
Age limits, correlation and source areas of the Jurassic sediments in the 745, 2017. ,
, IEC SB RAS, vol.16
Paleoclimatic and paleomagnetic constraints on the Paleozoic Reconstructions of 747 south China, north China and Tarim, Tectonophysics, vol.196, pp.279-308, 1991. ,
Constraints on the location of Asian microcontinents 749 in Paleo-Tethys during Late Palaeozoic, p.750, 1990. ,
, Geol. Soc. Mem. Am, vol.12, pp.12397-751
Geological map 1:200 000, Selenga series, 2005. ,
,
, , p.755
, , p.756
A model for the formation of orogenic belts in 757, 2003. ,
, Russian Journal of Pacific Geology, vol.22, pp.7-41
Problems of tectonics of the Mongol-759, 2001. ,
, Okhotsk orogenic belt. Russian Journal of Pacific Geology, vol.16, pp.797-830
Structure and evolution of the Baikal rift: A synthesis, 2006. ,
URL : https://hal.archives-ouvertes.fr/hal-00115831
, , vol.7, p.11
The paleo-Lena River -200 m.y. of 763 transcontinental zircon transport in Siberia, Geology, vol.36, pp.699-702, 2008. ,
The Interior of Baikal from Seismic Data, vol.105, p.765, 1981. ,
, Geological map of Central Asia and adjacent areas 1, p.2500000, 2008.
, , p.769
Characterizing the present-day activity of the Tunka and 770, 2018. ,
, Sayan faults within their relay zone (western Baikal rift system, Russia), Tectonics, vol.37, pp.1376-1392
Jurassic and Cretaceous plate tectonic reconstruction, p.773, 1991. ,
, Palaeoecology, vol.87, pp.493-501
Paleotectonics of Asia: fragments of a synthesis, p.775, 1996. ,
, The Tectonics of Asia, vol.776, pp.486-640
Morphotectonic inversion in the Tunka rift basin (southwestern Baikal 778 region), Russian Geology and Geophysics, vol.58, pp.778-786, 2017. ,
, , 1973.
, Tectonics and volcanism of the southwestern Baikal rift zone, vol.135, p.781
, , p.783
The junction of the eastern Central Asian Fold Belt and the 784, 2011. ,
, Siberian Platform: deep structure and Mesozoic tectonics and geodynamics, vol.52, pp.1672-1679
Overthrust-thrust tectonics of the margins of ancient platforms, p.153, 2001. ,
, , 1997.
SPC UIGGM Siberian Branch of the RAS, vol.176, p.790 ,
,
, , 1994.
, Metamorphic core complexes of the Zagan Range (Transbaikalia), Doklady Earth 793 Sciences, vol.339, pp.83-86
, , p.795, 2001.
, Mesozoic of Pribaikalia and Transbaikalia (stratigraphy, sedimentation conditions, 796 correlations). Izd-vo SB RAS, vol.332
, , p.798
, , p.799
Plesovice zircon -A new natural reference material for 800, 2008. ,
, U-Pb and Hf isotopic microanalysis, Chem. Geol, vol.249, pp.1-35
Present framework and deep structure of the crust in 802, 1969. ,
, Sov. Geol, vol.5, pp.47-63
Structure of the crust in the Baikal Rift Zone and adjacent areas from Deep Seismic 805 Sounding data, Tectonophysics, vol.804, pp.61-74, 2002. ,
Zircon age and 807 occurrence of the Adaatsag ophiolite and Muron shear zone, central Mongolia: 808 Constraints on the evolution of the Mongol-Okhotsk ocean, suture and orogeny, Journal 809 of the Geological Society, vol.162, pp.197-229, 2005. ,
Early Cretaceous 811 denudation related to convergent tectonics in the Baikal Region, SE Siberia, Journal of 812 the Geological Society of London, vol.153, pp.515-523, 1996. ,
, , 2015.
, Latest Jurassic-earliest Cretaceous closure of the Mongol-Okhotsk Ocean: A 815 paleomagnetic and seismological-tomographic analysis, p.816
, Late Jurassic, p.817
URL : https://hal.archives-ouvertes.fr/hal-00660259
, Margin of Laurasia -A Record of Faulting Accommodating Plate Rotation. Geological 818 Society of, America Special Paper, vol.513, issue.19, pp.1-18
, , p.820
, , 2007.
, Transpressional tectonics and stream terraces of the Gobi-Altay, Mongolia. Tectonics, vol.822, issue.26, pp.1-24
, , p.824
Crust and mantle of the Baikal rift zone from P-and S-825 wave receiver functions, Geodynamics&Tectonophysics, vol.8, pp.695-709, 2017. ,
Timing and evolution 828 of Jurassic-Cretaceous granitoid magmatisms in the Mongol-Okhotsk belt and adjacent 829 areas, NE Asia: Implications for transition from contractional crustal thickening to 830 extensional thinning and geodynamic settings, J. Asian Earth Sci, vol.97, pp.365-392, 2015. ,
, , p.832
Timing and processes of late Mesozoic mid-lower-crustal 833 extension in continental NE Asia and implications for the tectonic setting of the 834 destruction of the North China Craton: Mainly constrained by zircon U-Pb ages from 835 metamorphic core complexes, Lithos, vol.154, pp.315-345, 2012. ,
Pattern 837 and kinematic polarity of late Mesozoic extension in continental NE Asia: perspectives 838 from metamorphic core complexes, Tectonics, vol.30, 2011. ,
, , p.841
Three natural zircon standards for U-Th-Pb, Lu-Hf, 842 trace element and REE analyses, Geostandards Newsletter, vol.19, pp.1-23, 1995. ,
Source to sink 844 relations between the Tian Shan and Junggar Basin, 2013. ,
, Palaeozoic to Quaternary: evidence from detrital U-Pb zircon geochronology, Basin 846 Research, vol.25, pp.219-240
, , 2015.
, Mongol -Okhotsk collisional orogeny in latest Jurassic -earliest Cretaceous
, Gondwana Research, vol.28, pp.1096-1116
, , p.851
Tectono-magmatic zoning, magma sources, and 852 geodynamic of the Early Mesozoic Mongolia-Transbaikal province, Geotectonics, vol.36, pp.853-293, 2002. ,
, , p.855
Composition, Sources, and Geodynamic 856 Nature of Giant Batholithsin Central Asia: Evidence from the Geochemistry and Nd 857, 2016. ,
, Isotopic Characteristics of Granitoids in the Khangai Zonal Magmatic Area, Petrology, vol.858, issue.24, pp.433-461
A Phanerozoic plinspatic reconstruction of China and its neighbouring 860 regions, pp.442-485, 1996. ,
An indention model for North and South China collision and the 863 development of the Tan Lu and Honam fault systems, eastern Asia. Tectonics, vol.12, pp.801-864, 1993. ,
New palaeomagnetic results from 866 northern China: collision and suturing with Siberia and Kazakhstan, Tectonophysics, vol.867, issue.181, pp.43-81, 1990. ,
An enormous thrust nappe and extensional metamorphic 869 core complex in Sino-Mongolian boundary area, Science in China, ser. B, vol.34, p.1152, 1991. ,
, Geology of the USSR, 1990.
, A Plate Tectonic Synthesis, Geodynamics Series, vol.21, p.pp
, , vol.875
, , vol.876
The Siberia-Central Mongolia transect, 1993. ,
, Tectonophysics, vol.225, pp.361-378
, , p.879
The Baikal-Mongolia transect, 1994. ,
, Geol. Geophys, vol.7, issue.8, pp.94-110
Structure of the 882 lithosphere in the Mongolia-Siberian mountainous province, J. Geodyn, vol.11, pp.327-342, 1990. ,
Geodynamics of the western part of the Mongolia-Okhotsk 884 collisional belt, Trans-Baikal region (Russia) and Mongolia, Tectonophysics, vol.306, pp.33-885, 1999. ,
Recent Structure and Isostasy in the Baikal rift Zone and Adjacent 887, 1971. ,
, , vol.167
, , p.889
, , p.890, 1998.
, East Mongolia and Central Transbaikalia and evolution of the Okhotsk-Mongolian fold 891 belt, Russian Geology and Geophysics, vol.39, pp.11-25
, , 1997.
, Metamorphic core complexes and Early Cretaceous rifting in the Trans-Baikal region
, Russian Geology and Geophysics, vol.38, pp.1574-1584
, Basin (~194 Ma). (B) Final period of deposition in the Irkutsk Basin (~178 Ma); the 932 compressive stress field was caused by the Mongol-Okhotsk collision
, Ichetuyskaya/Berezovskaya" period (~168-145 Ma). onset of continental rifting, p.934
Tugnuyskaya tectonically quiet period (during or after the Tithonian). (E) Erosional 935 phase in Western Transbaikalia (latest Jurassic-earliest Cretaceous) related to a short-936 term collision event, F) "Galgatayskaya" period (Early Cretaceous), 937 increasing of basin subsidence, 2015. ,
,
, Sample Tug-14-2. Results of U-Pb isotope studies of detrital zircons from sediments of the 942
,
, Sample Tug-14-3. Results of U-Pb isotope studies of detrital zircons from sediments of the 944
,
, Sample Tug-17-8. Results of U-Pb isotope studies of detrital zircons from sediments of the 946
,