Abstract
Sandstone-type uranium deposits (STUDs) are the most important global source of uranium. However, it is unclear why STUDs have a non-random distribution in time and space. It is generally thought that STUDs are formed by the circulation of groundwater in sandstone rocks. The groundwater is typically oxidized and sourced from local precipitation, which suggests the regional climate may have a role in the formation of STUDs. The groundwater circulation is mainly affected by basin evolution, which means that regional tectonism may also control the formation of STUDs. In this study, the author examined STUDs in Asia, and compiled previously reported ages for STUDs and compared these with the uplift history of the major ore-hosting regions and the late Mesozoic–Cenozoic climatic evolution of Asia. Apart from a few uranium deposits in the Transural region, most of the STUDs in Asia were formed during the Late Cretaceous to Quaternary, and can be classified into three stages: Late Cretaceous–early Paleogene (80–50 Ma; stage I), Oligocene–mid-Miocene (25–17 Ma; stage II), and late Miocene–present (8–0 Ma; stage III). The formation of STUDs in Asia was closely related to regional uplift caused by India–Eurasia collision, subduction of oceanic plates, and increased humidity during greenhouse climate periods and intensification of the Asian Monsoon.
This is a preview of subscription content, log in via an institution to check access.
References
Aizen E M, Aizen V B, Melack J M, Nakamura T, Ohta T. 2001. Precipitation and atmospheric circulation patterns at mid-latitudes of Asia. Int J Climatol, 21: 535–556
Alexandre P, Kyser K, Jiricka D, Witt G. 2012. Formation and evolution of the Centennial unconformity-related uranium deposit in the southcentral Athabasca Basin, Canada. Econ Geol, 107: 385–400
Alexandre P, Kyser K, Thomas D, Polito P, Marlat J. 2007. Geochronology of unconformity-related uranium deposits in the Athabasca Basin, Saskatchewan, Canada and their integration in the evolution of the basin. Miner Depos, 44: 41–59
Almendinger J E. 1990. Groundwater control of closed-basin lake levels under steady-state conditions. J Hydrol, 112: 293–318
An Z S, Kutzbach E J, Prell L W, Porter C S. 2001. Evolution of Asian monsoons and phased uplift of the Himalaya-Tibetan Plateau since Late Miocene times. Nature, 411: 62–66
An Z S, Sun Y B, Chang H, Zhang P Z, Liu X D, Cai Y J, Jin Z D, Qiang X K, Zhou W J, Li L, Shi Z G, Tan L C, Li X Q, Zhang X B, Jin Z. 2014. Late Cenozoic climate change in monsoon-arid Asia and global changes. In: An Z S, ed. Late Cenozoic Climate Change in Asia. Berlin: Springer. 491–581
Anagnostou E, John E H, Edgar K M, Foster G L, Ridgwell A, Inglis G N, Pancost R D, Lunt D J, Pearson P N. 2016. Changing atmospheric CO2 concentration was the primary driver of early Cenozoic climate. Nature, 533: 380–384
Armstrong H A, Allen M B. 2010. Shifts in the Intertropical Convergence Zone, Himalayan exhumation, and late Cenozoic climate. Geology, 39: 11–14
Baldwin J, Vecchi G. 2016. Influence of the Tian Shan on arid extratropical Asia. J Clim, 29: 5741–5762
Bice K L, Norris R D. 2002. Possible atmospheric CO2 extremes of the Middle Cretaceous (late Albian-Turonian). Paleoceanography, 17: 22-1–22-17
Blisniuk P M, Hacker B R, Glodny J, Ratschbacher L, Bi S W, Wu Z H, McWilliams M O, Calvert A. 2001. Normal faulting in central Tibet since at least 13.5 Myr ago. Nature, 412: 628–632
Bonnetti C, Liu X D, Mercadier J L, Cuney M, Deloule E, Villeneuve J, Liu W Q. 2018. The genesis of granite-related hydrothermal uranium deposits in the Xiazhuang and Zhuguang ore fields, North Guangdong Province, SE China: Insights from mineralogical, trace elements and U-Pb isotopes signatures of the U mineralisation. Ore Geol Rev, 92: 588–612
Boos W R, Kuang Z. 2010. Dominant control of the South Asian monsoon by orographic insulation versus plateau heating. Nature, 463: 218–222
Boucot A J, Xu C, Scotese C R. 2013. Phanerozoic paleoclimate: An atlas of lithologic indicators of climate. In: Nichols G J, Ricketts B, eds. Concepts in Sedimentology and Paleontology. Tulsa: SEPM Society for Sedimentary Geology. 11: 478
Bowring S A, Erwin D H, Jin Y G, Martin M W, Davidek K, Wang W. 1998. U/Pb zircon geochronology and tempo of the End-Permian mass extinction. Science, 280: 1039–1045
Burgette R J, Weldon II R J, Abdrakhmatov K Y, Ormukov C, Owen L A, Thompson S C. 2017. Timing and process of river and lake terrace formation in the Kyrgyz Tien Shan. Quat Sci Rev, 159: 15–34
Burtman V S. 1975. Structural geology of variscan Tien Shan, USSR. Am J Sci, 275: 157–186
Buslov M M, Kokh D A, De Grave J. 2008. Mesozoic-Cenozoic tectonics and geodynamics of Altai, Tien Shan, and Northern Kazakhstan, from apatite fission-track data. Russ Geol Geophys, 49: 648–654
Cao S, Liu J, Leiss B, Neubauer F, Genser J, Zhao C. 2011. Oligo-Miocene shearing along the Ailao Shan-Red River shear zone: Constraints from structural analysis and zircon U/Pb geochronology of magmatic rocks in the Diancang Shan massif, SE Tibet, China. Gondwana Res, 19: 975–993
Cao X Z, Li S Z, Xu L Q, Guo L L, Liu L P, Zhao S J, Liu X, Dai L M. 2015. Mesozoic-Cenozoic evolution and mechanism of tectonic geomorphology in the central North China Block: Constraint from apatite fission track thermochronology. J Asian Earth Sci, 114: 41–53
Catlos E J, Harrison T M, Kohn M J, Grove M, Ryerson F J, Manning C E, Upreti B N. 2001. Geochronologic and thermobarometric constraints on the evolution of the Main Central Thrust, central Nepal Himalaya. J Geophys Res, 106: 16177–16204
Caves K J, Bayshashov U B, Zhamangara A, Ritch J A, Ibarra E D, Sjostrom J D, Mix T H, Winnick J M, Chamberlain C P. 2017. Late Miocene uplift of the Tian Shan and Altai and reorganization of central Asia climate. GSA Today, 27: 19–26
Caves K J. 2017. The Cenozoic climatic and tectonic history of Asia. Doctoral Dissertation. Stanford: Stanford University
Charreau J, Chen Y, Gilder S, Dominguez S, Avouac J P, Sen S, Sun D, Li Y, Wang W M. 2005. Magnetostratigraphy and rock magnetism of the Neogene Kuitun He section (northwest China): Implications for Late Cenozoic uplift of the Tianshan mountains. Earth Planet Sci Lett, 230: 177–192
Charreau J, Gilder S, Chen Y, Dominguez S, Avouac J P, Sen S, Jolivet M, Li Y G, Wang W M. 2006. Magnetostratigraphy of the Yaha section, Tarim Basin (China): 11 Ma acceleration in erosion and uplift of the Tian Shan mountains. Geology, 34: 181–184
Charreau J, Gumiaux C, Avouac J P, Augier R, Chen Y, Barrier L, Gilder S, Dominguez S, Charles N, Wang Q C. 2009. The Neogene Xiyu Formation, a diachronous prograding gravel wedge at front of the Tianshan: Climatic and tectonic implications. Earth Planet Sci Lett, 287: 298–310
Chen F H, Chen J H, Huang W, Chen S Q, Huang X Z, Jin L Y, Jia J, Zhang X J, An C B, Zhang J W, Zhao Y, Yu Z C, Zhang R H, Liu J B, Zhou A F, Feng S. 2019. Westerlies Asia and monsoonal Asia: Spatiotemporal differences in climate change and possible mechanisms on decadal to sub-orbital timescales. Earth-Sci Rev, 192: 337–354
Chen J, Bever G S, Yi H Y, Norell M A. 2016. A burrowing frog from the late Paleocene of Mongolia uncovers a deep history of spadefoot toads (Pelobatoidea) in East Asia. Sci Rep, 6: 19209
Chen K, Lin W, Wang Q C. 2015. The Bogeda Shan uplifting: Evidence from multiple phases of deformation. J Asian Earth Sci, 99: 1–12
Chen S P, Deng Q D, Yang G Z, Ren D W. 2000. On the Cenozoic denudation and uplift of the Daqingshan Mountains, Inner Mongolia (in Chinese with English abstract). Seismol Geol, 22: 27–36
Chen X Q, Chi Z Q, Dong S W, Yan Z, Yang J S, Shi W, Min L R, Wang Y, Yao P Y. 2015. Late Cenozoic sedimentation of Nihewan Basin, central North China and its tectonic significance. J Asian Earth Sci, 114: 242–257
Chen Z L, Li L, Liu J, Gong H L, Jiang R B, Li S X, Zheng E J, Han X Z, Li X G, Wang C, Wang G R, Wang G, Lu K Z. 2008. Preliminary study on the uplifting-exhumation process of the Western Tienshan range, Northwestern China (in Chinese with English abstract). Acta Petrol Sin, 24: 625–636
Cheng Y H, Wang S Y, Jin R S, Li J G, Ao C, Teng X M. 2019. Global Miocene tectonics and regional sandstone-style uranium mineralization. Ore Geol Rev, 106: 238–250
Cheng Y H, Wang S Y, Zhang T F, Teng X M, Ao C, Jin R S, Li H L. 2020b. Regional sandstone-type uranium mineralization rooted in Oligo-Miocene tectonic inversion in the Songliao Basin, NE China. Gondwana Res, 88: 88–105
Cheng Y H, Zhang T F, Zeng W, Hu P, Liu X, Yang J, Qu K, Wang S Y, Cheng X Y, Ao C, Jin R S, Miao P S. 2020a. Driving Forces for Sandstone-Type Uranium Super-Enrichment in Meso-Cenozoic Basins, North China (in Chinese with English abstract). Geotecton Metallog, 44: 590–606
Clemens S. 2006. Extending the historical record by proxy. In: Wang B, ed. The Asian Monsoon. Berlin: Springer Praxis Books. 615–630
Clift P D, Webb A A G. 2019. A history of the Asian monsoon and its interactions with solid Earth tectonics in Cenozoic South Asia. Geol Soc Lond Spec Publ, 483: 631–652
Clift P D, Wan S, Blusztajn J. 2014. Reconstructing chemical weathering, physical erosion and monsoon intensity since 25 Ma in the northern South China Sea: A review of competing proxies. Earth-Sci Rev, 130: 86–102
Clift P D. 2006. Controls on the erosion of Cenozoic Asia and the flux of clastic sediment to the ocean. Earth Planet Sci Lett, 241: 571–580
CNG (China Nuclear Geology), BRIUG (Beijing Research Institute of Uranium Geology). 2010. The Research and Evaluation of Sandstone type Uranium Deposit in China (in Chinese). Beijing: China National Nuclear Corporation. 814–935
Coleman M, Hodges K. 1995. Evidence for Tibetan Plateau uplift before 14 Myr ago from a new minimum age for east-west extension. Nature, 374: 49–52
Crumley C. 2004. The Little Ice Age: How climate made history 1300–1850. Am Antiq, 69: 186–187
Cuney M, Kyser K. 2008. Recent and not-so-recent developments in uranium deposits and implications for exploration. Mineral Assoc Can, 39: 161–219
Cuney M. 2010. Evolution of uranium fractionation processes through time: Driving the secular variation of uranium deposit types. Econ Geol, 105: 553–569
Curio J, Maussion F, Scherer D. 2015. A 12-year high-resolution climatology of atmospheric water transport over the Tibetan Plateau. Earth Syst Dynam, 6: 109–124
Dahlkamp J F. 2009. Uranium Deposits of the World (Asia Part). Berlin Heidelberg: Springer-Verlag. 1–509
Dahlkamp J F. 2010. Uranium Deposits of the World (USA and Latin Amercia). Berlin Heidelberg: Springer-Verlag. 1–536
Dahlkamp J F. 2016. Uranium Deposits of the World (Europe). Berlin Heidelberg: Springer-Verlag. 1–800
Davis W D, Williams S I, Krogh E T. 2003. Historical development of zircon geochronology. Rev Mineral Geochem, 53: 145–181
Davy P, Cobbold P R. 1988. Indentation tectonics in nature and experiment. 1. Experiments scaled for gravity. Bull Geol Inst Upp New Series, 14: 129–141
Delvaux D, Cloetingh S, Beekman F, Sokoutis D, Burov E, Buslov M M, Abdrakhmatov K E. 2013. Basin evolution in a folding lithosphere: Altai-Sayan and Tien Shan belts in Central Asia. Tectonophysics, 602: 194–222
Delvaux D, Fernandez-Alonso M, Klerkx J, Kuzmin A, Matton C, Selegei V, Theunissen K, Vysotskii E. 1995a. Evidences for active tectonics in Lake Teletskoye (Gorny-Altai, South-Siberia). Russ Geol Geophys, 36: 100–112
Delvaux D, Moeys R, Stapel G, Melnikov A, Ermikov V. 1995b. Palaeostress reconstructions and geodynamics of the Baikal region, Central Asia, Part I. Palaeozoic and Mesozoic pre-rift evolution. Tectonophysics, 252: 61–101
Delvaux D, Theunissen K, Van der Meer R, Berzin N. 1995c. Formation dynamics of the Gorno-Altaian Chuya-Kurai depression in Southern Siberia: Paleostress, tectonic and climatic control. Russ Geol Geophys, 36: 26–45
Faure G. 1977. Principles of Isotope Geology. New York: John Wiley & Sons. 146–209
Fayek M, Harrison T M, Grove M, Coath C D. 2000. A rapid in situ method for determining the ages of uranium oxide minerals: Evolution of the Cigar Lake Deposit, Athabasca Basin. Int Geol Rev, 42: 163–171
Fournier M, Jolivet L, Davy P, Thomas J C. 2004. Backarc extension and collision: An experimental approach to the tectonics of Asia. Geophys J Int, 157: 871–889
Friedrich T, Timmermann A, Abe-Ouchi A, Bates N R, Chikamoto M O, Church M J, Dore J E, Gledhill D K, González-Dávila M, Heinemann M, Ilyina T, Jungclaus J H, McLeod E, Mouchet A, Santana-Casiano J M. 2012. Detecting regional anthropogenic trends in ocean acidification against natural variability. Nat Clim Change, 2: 167–171
Fyodorov G V. 2002a. A comparative description of the geological-technological description of the sandstone hosted uranium deposits in Wyoming and southern Kazakhstan. Vienna: IAEA. T1-TC-975: 42–48
Fyodorov G V. 2002b. Uranium production and the environment in Kazakhstan. CandS Papers Series, The uranium production cycle and the environment. Vienna: IAEA. 191–198
Gao Y, Ibarra E D, Wang C S, Caves K J, Chamberlain P C, Graham A S, Wu H C. 2015. Mid-latitude terrestrial climate of East Asia linked to global climate in the Late Cretaceous. Geology, 43: 287–290
Gilman K. 1994. Hydrology and Wetland Conservation. Chichester: Wiley
De Grave J, Glorie S, Buslov M M, Stockli D F, McWilliams M O, Batalev V Y, Van den haute P. 2013. Thermo-tectonic history of the Issyk-Kul basement (Kyrgyz Northern Tien Shan, Central Asia). Gondwana Res, 23: 998–1020
Groves D I, Condie K C, Goldfarb R J, Hronsky J M A, Vielreicher R M. 2005. Secular changes in global tectonic processes and their influence on the temporal distribution of gold-bearing mineral deposits. Econ Geol, 100: 203–224
Gu C G, Renaut R W. 1994. The effect of Tibetan uplift on the formation and preservation of Tertiary lacustrine source-rocks in eastern China. J Paleolimnol, 11: 31–40
Guo Z J, Zhang Z C, Wu C D, Fang S H, Zhang R. 2006. The Mesozoic and Cenozoic exhumation history of Tienshan and comparative studies to the Junggar and Altai Mountains (in Chinese with English abstract). Acta Geol Sin, 80: 1–15
Guo Z T, Sun B, Zhang Z S, Peng S Z, Xiao G Q, Ge J Y, Hao Q Z, Qiao Y S, Liang M Y, Liu J F, Yin Q Z, Wei J J. 2008. A major reorganization of Asian climate by the early Miocene. Clim Past, 4: 153–174
Han X Z, Zhang Z L, Yao C L, Li X D, Li S X, Miao A S, Yang J X. 2008. Discussion on metallogenic model for sandstone-hosted uranium deposits in northern Ordos basin (in Chinese with English abstract). Miner Deposits, 27: 415–422
Harrison T M, Copeland P, Kidd W S F, Yin A. 1992. Raising Tibet. Science, 255: 1663–1670
Hilde T W C, Uyeda S, Kroenke L. 1977. Evolution of the western pacific and its margin. Tectonophysics, 38: 145–165
Hong H J, Bae C J, Zhang Z S. 2018. Cenozoic climate change in eastern Asia: Part I. Palaeogeogr Palaeoclimatol Palaeoecol, 510: 1–5
Huang J B, Huang S J, Zhang J D, Li Y L, Han C Q. 2005. The Uranium Belts in China (in Chinese). Beijing: China Nuclear Geology. 65–143
Huber M, Goldner A. 2012. Eocene monsoons. J Asian Earth Sci, 44: 3–23
Hunt A C, Parkinson I J, Harris N B W, Barry T L, Rogers N W, Yondon M. 2012. Cenozoic volcanism on the Hangai Dome, Central Mongolia: Geochemical evidence for changing melt sources and implications for mechanisms of melting. J Petrol, 53: 1913–1942
Jiang B G, Shen Z M, Zhu M, Sun L Q, Huang S Q. 2017. Geological characteristics and metallogenic model of sandstone type uranium deposits in Hengyang basin—An case study of Wangjiachong uranium deposit (in Chinese with English abstract). Uranium Geol, 33: 82–88
Jiang H C, Ding Z L. 2008. A 20 Ma pollen record of East-Asian summer monsoon evolution from Guyuan, Ningxia, China. Palaeogeogr Palaeoclimatol Palaeoecol, 265: 30–38
Jiang W Y, Leroy S A G, Ogle N, Chu G, Luo W, Liu J. 2008. Natural and anthropogenic forest fires recorded in the Holocene pollen record from a Jinchuan peat bog, northeastern China. Palaeogeogr Palaeoclimatol Palaeoecol, 261: 47–57
Jin R S, Cheng Y H, Li J G, Sima X Z, Miao P S, Wang S Y, Ao C, Li H L, Li Y F, Zhang T F. 2017. Late Mesozoic continental basin “Red and Black beds” coupling formation constraints on the sandstone uranium mineralization in northern China (in Chinese with English abstract). Geol China, 44: 205–223
Jin R S, Liu H J, Li X G. 2022. Theoretical system of sandstone-type uranium deposits in northern China. J Earth Sci, 33: 257–277
Jin R S, Teng X M, Li X G, Si Q H, Wang W. 2020. Genesis of sandstonetype uranium deposits along the northern margin of the Ordos Basin, China. Geosci Front, 11: 215–227
Kasi A K, Kassi A M, Umar M, Manan R A. 2012. Revised lithostratigraphy of the Pishin Belt, northwestern Pakistan. J Himalayan Earth Sci, 45: 53–65
Kassi A M, Kelling G, Kasi A K, Umar M, Khan A S. 2009. Contrasting Late Cretaceous-Palaeocene lithostratigraphic successions across the Bibai Thrust, western Sulaiman Fold-Thrust Belt, Pakistan: Their significance in deciphering the early-collisional history of the NW Indian Plate margin. J Asian Earth Sci, 35: 435–444
Koons P O, Zeitler P K, Chamberlain C P, Craw D, Meltzer A S. 2002. Mechanical links between erosion and metamorphism in Nanga Parbat, Pakistan Himalaya. Am J Sci, 302: 749–773
Li J H, Ma Z L, Zhang Y Q, Dong S W, Li Q, Lu M A, Tan J Q. 2014a. Tectonic evolution of Cretaceous extensional basins in Zhejiang Province, eastern South China: Structural and geochronological constraints. Int Geol Rev, 56: 1602–1629
Li J H, Zhang Y Q, Dong S W, Johnston S T. 2014b. Cretaceous tectonic evolution of South China: A preliminary synthesis. Earth-Sci Rev, 134: 98–136
Li S Z, Zhao G C, Dai L M, Liu X, Zhou L H, Santosh M, Suo Y H. 2012a. Mesozoic basins in eastern China and their bearing on the deconstruction of the North China Craton. J Asian Earth Sci, 47: 64–79
Li S Z, Zhao G C, Dai L M, Zhou L H, Liu X, Suo Y H, Santosh M. 2012b. Cenozoic faulting of the Bohai Bay Basin and its bearing on the destruction of the eastern North China Craton. J Asian Earth Sci, 47: 80–93
Linacre E T, Hicks B B, Sainty G R, Grauze G. 1970. The evaporation from a swamp. Agric Meteorol, 7: 375–386
Liu D L, Li H B, Sun Z M, Cao Y, Wang L Z, Pan J W, Han L, Ye X Z. 2017. Cenozoic episodic uplift and kinematic evolution between the Pamir and Southwestern Tien Shan. Tectonophysics, 712–713: 438–454
Liu X D, Dong B W, Yin Z Y, Smith S R, Guo Q C. 2019. Continental drift, plateau uplift, and the evolutions of monsoon and arid regions in Asia, Africa, and Australia during the Cenozoic. Sci China Earth Sci, 62: 1053–1075
Liu Y Q, Li B H, Chen F Z, Xing X J, Fan A P. 2009. Diagenesis with its responsivity of ore-forming on Triassic and Jurassic in Ordos Basin. Acta Petrol Sin, 25: 2331–2339
Ludwig K R, Nash J T, Naeser C W. 1981. U-Pb isotope systematics and age of uranium mineralization, Midnite Mine, Washington. Econ Geol, 76: 89–110
Ludwig K R, Simmons K R, Webster J D. 1984. U-Pb isotope systematics and apparent ages of uranium ores, Ambrosia Lake and Smith Lake districts, Grants mineral belt, New Mexico. Econ Geol, 79: 322–337
Ludwig K R, Simmons K R. 1992. U-Pb dating of uranium deposits in collapse breccia pipes of the Grand Canyon region. Econ Geol, 87: 1747–1765
Ludwig K R. 1978. Uranium-daughter migration and U/Pb isotope apparent ages of uranium ores, Shirley Basin, Wyoming. Econ Geol, 73: 29–49
Ludwig K R. 1980. Calculation of uncertainties of U-Pb isotope data. Earth Planet Sci Lett, 46: 212–220
Ludwig K R. 1984. PBDAT—A program for reduction of Pb-U-Th isotope data, for use with HP-86/87 microcomputers. Open-File Report. U.S. Geol. Survey. 83–113: 54
Ludwig K R. 1993. ISOPLOT: A Plotting and Regression Program for Radiogenic-isotope Data. Open File Report: U.S. Geological Survey. 91–445: 1–42
Ludwig R K, Wallace R A, Simmons R K. 1985. The Schwartzwalder uranium deposit; II, Age of uranium mineralization and lead isotope constraints on genesis. Econ Geol, 80: 1858–1871
Lü H H, Chang Y, Wang W, Zhou Z Y. 2013. Rapid exhumation of the Tianshan Mountains since the early Miocene: Evidence from combined apatite fission track and (U-Th)/He thermochronology. Sci China Earth Sci, 56: 2116–2125
Lv H H, Li Y L, Liu Y M, Si S P, Zhao H Z. 2008a. Sedimentary environment evolution since 8 Ma B.P. in the Taxi River area, Xinjiang, Northwest China and its tectonic significance (in Chinese with English abstract). Quat Sci, 28: 243–252
Lv H H, Li Y L, Nan F, Si S P, Liu Y M, Qian M, Zhao H Z. 2008b. Sequences and ages of fluvial terraces along the Northern Piedmont of the Tianshan Mountains (in Chinese with English abstract). Acta Geogr Sin, 63: 65–74
Ma X Y, Wu D N. 1987. Cenozoic extensional tectonics in China. Tectonophysics, 133: 243–255
Ma Y M, Hu Z Y, Tian L D, Zhang F, Duan A M, Yang K, Zhang Y L, Yang Y P. 2014. Study progresses of the Tibet Plateau climate system change and mechanism of its impact on East Asia (in Chinese with English abstract). Adv Earth Sci, 29: 207–215
Malavieille J. 2010. Impact of erosion, sedimentation, and structural heritage on the structure and kinematics of orogenic wedges: Analog models and case studies. GSA Today, 20: 4–10
Manabe S, Broccoli A J. 1990. Mountains and arid climates of middle latitudes. Science, 247: 192–195
Mercier J L, Vergely P, Zhang Y Q, Hou M J, Bellier O, Wang Y M. 2013. Structural records of the Late Cretaceous-Cenozoic extension in Eastern China and the kinematics of the Southern Tan-Lu and Qinling Fault Zone (Anhui and Shaanxi provinces, PR China). Tectonophysics, 582: 50–75
Meyer-Christoffer A, Becker A, Finger P, Rudolf B, Schneider U, Ziese M. 2015. GPCC Climatology Version 2015 at 0.25°: Monthly Land-Surface Precipitation Climatology for Every Month and the Total Year from Rain-Gauges built on GTS-based and Historic Data
Mirza M M Q. 2011. Climate change, flooding in South Asia and implications. Reg Environ Change, 11: 95–107
Moghal M Y. 1974a. Uranium in Siwalik sandstones, Sulaiman Range, Pakistan. In: Formation of uranium ore deposits. Vienna: IAEA. 383–400
Moghal M Y. 1974b. Exploration of uranium deposits in Dera Ghazi Khan District (Punjab), Pakistan. Quetta Geol Surv Pak Geonews, 5: 72–78
Moghal M Y. 1992. Field test for in situ leach mining of uranium in Pakistan. In: New developments in uranium exploration, resources, production and demand. Vienna: IAEA. TECDOC-650: 214–224
Moghal M Y. 2001. Current uranium activities in Pakistan. In: Assessment of uranium deposit types and resources—A worldwide perspective. Vienna: IAEA. TECDOC-1258: 101–115
Molnar P, Tapponnier P. 1975. Cenozoic Tectonics of Asia: Effects of a Continental Collision: Features of recent continental tectonics in Asia can be interpreted as results of the India-Eurasia collision. Science, 189: 419–426
Niu Y L, Liu Y, Xue Q Q, Shao F L, Chen S, Duan M, Guo P Y, Gong H M, Hu Y, Hu Z X, Kong J J, Li J Y, Liu J J, Sun P, Sun W, Ye L, Xiao Y Y, Zhang Y. 2015. The exotic origin of the continental shelf of East and South China Seas-A testable hypothesis with consequences on the tectonic evolution of the western Pacific and eastern China since the Mesozoic. Sci Bull, 60: 1598–1616
Northrup C J, Royden L H, Burchfiel B C. 1995. Motion of the Pacific plate relative to Eurasia and its potential relation to Cenozoic extension along the eastern margin of Eurasia. Geology, 23: 719–722
OECD-NEA/IAEA. 2014. Uranium 2014: Resources, Production and Demand
Pagel M, Cavellec S, Forbes P, Gerbaut O, Vergely P, Wagani I, Mathieu R. 2005. Uranium deposits in the Arlit area (Niger). Beijing: Proceedings of the Eighth Biennial SGA Meeting, 2005. 303–305
Pan B T, Li J J. 1996. Qinghai-Tibetan Plateau: A driver and amplifer of the global climatic change. J Lanzhou Univ-Nat Sci, 32: 108–115
Pearson O N, DeCelles P G. 2005. Structural geology and regional tectonic significance of the Ramgarh thrust, Himalayan fold-thrust belt of Nepal. Tectonics, 24, https://doi.org/10.1029/2003TC001617
Peltzer G, Tapponnier P. 1988. Formation and evolution of strike-slip faults, rifts, and basins during the India-Asia Collision: An experimental approach. J Geophys Res, 93: 15085–15117
Petrov N N, Yazikov V G, Berikbolov B R, Vershkov A F, Egorov S A, Zhelnov V P, Karelin V G, Kravtsov E G, Nikolaev S L, Ostrokom I M, Shishkov I A. 2000. Uranium deposits of Kazakhstan (endogenous) (in Russian). Gylym Almaty, 400–523
Petrov N N. 1998. Epigenetic stratified-infiltration uranium deposits of Kazakhstan (in Russian). Geol Kazakhstan, 2: 22–39
Phillips F M, Castro M C. 2014. Groundwater dating and residence-time measurements. In: Holland H D, Turekian K K, eds. Treatise on Geochemistry. Oxford: Elsevier. 362–377
Raymo M E, Ruddiman W F. 1992. Tectonic forcing of late Cenozoic climate. Nature, 359: 117–122
Ringin C, Klein M, Roques D, Le P X, Van Trong L. 1995. The Red River fault system in the Tonkin Gulf, Vietnam. Tectonophysics, 243: 209–222
Robb L J. 2005. Introduction to Ore-Forming Processes. Oxford: Blcakwell Publishing Company. 311–325
Roe G H, Ding Q, Battisti D S, Molnar P, Clark M K, Garzione C N. 2016. A modeling study of the response of Asian summertime climate to the largest geologic forcings of the past 50 Ma. J Geophys Res-Atmos, 121: 5453–5470
Rollinson H. 1994. Using Geochemical Data: Evolution, Presentation, Interpretation. England, Essex: Longman Scientific & Technical. 15–258
Rowley D B, Currie B S. 2006. Palaeo-altimetry of the late Eocene to Miocene Lunpola basin, central Tibet. Nature, 439: 677–681
Royer D L, Berner R A, Montañez I P, Tabor N J, Beerling D J. 2004. CO2 as a primary driver of Phanerozoic climate. GSA Today, 14: 4–10
Royer D L. 2016. Climate sensitivity in the geologic past. Annu Rev Earth Planet Sci, 44: 277–293
Sato T, Tsujimura M, Yamanaka T, Iwasaki H, Sugimoto A, Sugita M, Kimura F, Davaa G, Oyunbaatar D. 2007. Water sources in semiarid northeast Asia as revealed by field observations and isotope transport model. J Geophys Res, 112: D17112
Schiemann R, Lüthi D, Schär C. 2009. Seasonality and interannual variability of the westerly jet in the Tibetan Plateau region. J Clim, 22: 2940–2957
Schiemann R, Lüthi D, Vidale P L, Schär C. 2008. The precipitation climate of Central Asia—Intercomparison of observational and numerical data sources in a remote semiarid region. Int J Climatol, 28: 295–314
Spicer R A, Harris N B W, Widdowson M, Herman A B, Guo S, Valdes P J, Wolfe J A, Kelley S P. 2003. Constant elevation of southern Tibet over the past 15 million years. Nature, 421: 622–624
Sun J M, Windley B F. 2015. Onset of aridification by 34 Ma across the Eocene-Oligocene transition in Central Asia. Geology, 43: 1015–1018
Sun X J, Wang P X. 2005. How old is the Asian monsoon system?—Palaeobotanical records from China. Palaeogeogr Palaeoclimatol Palaeoecol, 222: 181–222
Suo Y H, Li S Z, Dai L M, Liu X, Zhou L H. 2012. Cenozoic tectonic migration and basin evolution in East Asia and its continental margins (in Chinese with English abstract). Acta Petrol Sin, 28: 2602–2618
Szeliga W, Bilham R, Kakar D M, Lodi S H. 2012. Interseismic strain accumulation along the western boundary of the Indian subcontinent. J Geophys Res, 117, https://doi.org/10.1029/2011JB008822
Tao R J, Du N Q. 1982. Neogene flora of Tengchong basin in Western Yunan, China (in Chinese with English abstract). Acta Bot Sin, 24: 273–281
Tapponnier P, Peltzer G, Le Dain A Y, Armijo R, Cobbold P. 1982. Propagating extrusion tectonics in Asia: New insights from simple experiments with plasticine. Geology, 10: 611–616
Thomas W A. 2011. Detrital-zircon geochronology and sedimentary provenance. Lithosphere, 3: 304–308
Tian Z Y, Han P, Xu K D. 1992. The Mesozoic-Cenozoic East China rift system. Tectonophysics, 208: 341–363
Treloar P J, Izatt C N. 1993. Tectonics of the Himalayan collision between the Indian Plate and the Afghan Block: A synthesis. Geol Soc Lond Spec Publ, 74: 69–87
Uyeda S, Kanamori H. 1979. Back-arc opening and the mode of subduction. J Geophys Res, 84: 1049–1061
Walker R T, Nissen E, Molor E, Bayasgalan A. 2007. Reinterpretation of the active faulting in central Mongolia. Geology, 35: 759–762
Wang C S, Dai J G, Zhao X X, Li Y L, Graham S A, He D F, Ran B, Meng J. 2014. Outward-growth of the Tibetan Plateau during the Cenozoic: A review. Tectonophysics, 621: 1–43
Wang E, Kirby E, Furlong K P, van Soest M, Xu G, Shi X, Kamp P J J, Hodges K V. 2012. Two-phase growth of high topography in eastern Tibet during the Cenozoic. Nat Geosci, 5: 640–645
Wang F, Liu F L, Liu P H. 2013. Metamorphic evolution of meta-sedimentary rocks within the Diancang Shan-Ailao Shan metamorphic complex belt (in Chinese with English abstract). Acta Petro Sin, 29: 630–640
Wang M, Zhang J J, Liu K. 2015. Continuous denudation and pediplanation of the Chinese Western Tianshan orogen during Triassic to Middle Jurassic: Integrated evidence from detrital zircon age and heavy mineral chemical data. J Asian Earth Sci, 113: 310–324
Wang P L, Lan C Y, Yem N T, Lo C H, Lee T Y, Chung S L. 1998. Thermochronological evidence for the movement of the Ailao Shan-Red River shear zone: A perspective from Vietnam. Geology, 26: 887–890
Wang T H, Wang Z C, Zhao Z J, Cai X Y, Wang G H, Chi Y L. 2001. Reverse Structure in China Petroleum Provinces (in Chinese). Beijing: Petroleum Industry Press. 1–563
Wang X, Sun D H, Chen F H, Wang F, Li B F, Popov S V, Wu S, Zhang Y B, Li Z J. 2014. Cenozoic paleo-environmental evolution of the Pamir-Tien Shan convergence zone. J Asian Earth Sci, 80: 84–100
Wen L, Lu H, Qiang X. 2005. Changes in grain-size and sedimentation rate of the Neogene Red Clay deposits along the Chinese Loess Plateau and implications for the palaeowind system. Sci China Ser D-Earth Sci, 48: 1452–1462
Wesnousky S G, Kumar S, Mohindra R, Thakur V C. 1999. Uplift and convergence along the Himalayan Frontal Thrust of India. Tectonics, 18: 967–976
White A F, Buss H L. 2014. Natural weathering rates of silicate Minerals, in Holland H D, Turekian K K. eds. Treatise on Geochemistry, 7: 116–151. Oxford: Elsevier
Wu G X, Zhang Y S. 1998. Thermal and mechanical forcing of the Tibetan Plateau and the Asian monsoon onset. Part I: Situating of the Onset. Sci Atmosphere Sin, 22: 825–838
Xia Y L. 2019. Geochronology of uranium mineralization in China (in Chinese with English abstract). Beijing: China Atomic Energy Press. 130–198
Yang Y T. 2013. An unrecognized major collision of the Okhotomorsk Block with East Asia during the Late Cretaceous, constraints on the plate reorganization of the Northwest Pacific. Earth-Sci Rev, 126: 96–115
Yapp C J, Poths H. 1996. Carbon isotopes in continental weathering environments and variations in ancient atmospheric CO2 pressure. Earth Planet Sci Lett, 137: 71–82
Yin A, Harrison T M. 2000. Geologic evolution of the Himalayan-Tibetan orogeny. Annu Rev Earth Planet Sci, 28: 211–280
Yin A, Harrison T, Ryerson F, Chen W, Kidd W, Copeland P. 1994. Tertiary structural evolution of the Gangdese thrust system, southeastern Tibet. J Geophys Res, 99: 18175–18201
Yin A. 2010. Cenozoic tectonic evolution of Asia: A preliminary synthesis. Tectonophysics, 488: 293–325
Zachos J, Pagani M, Sloan L, Thomas E, Billups K. 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science, 292: 686–693
Zhang C, Liu H X. 2019. A growing sandstone type uranium district in South Yili Basin, NW China as a result of extension of Tien Shan Orogen: Evidences from geochronology and hydrology. Gondwana Res, 76: 146–172
Zhang C, Yi C, Dong Q, Cai Y Q, Liu H X. 2018. Geological and geochronological evidence for the effect of Paleogene and Miocene uplift of the Northern Ordos Basin on the formation of the Dongsheng uranium district, China. J Geodyn, 114: 1–18
Zhang J D, Chen X H, Li Q L, Liu C Z, Li B, Li J, Liu G, Ren F L. 2012. Mesozoic “red beds” and its evolution in the Hefei Basin. Acta Geol Sin-Eng Ed, 86: 1060–1076
Zhang Q Q, Smith T, Yang J, Li C S. 2016. Evidence of a cooler continental climate in East China during the warm Early Cenozoic. PLoS One, 11: E0155507
Zhang W G, Chen Z L. 2017. Study on the Reconstruction of Mesozoic-Cenozoic Paleoelevation in the Western Tianshan (in Chinese with English abstract). Acta Geosci Sin, 38: 69–72
Zhang Y Q, Shi W, Dong S W. 2011. Changes of Late Mesozoic tectonic regimes around the Ordos Basin (North China) and their geodynamic implications. Acta Geol Sin-Engl Ed, 85: 1254–1276
Zhang Y Q, Ma Y S, Yang N, Shi W, Dong S W. 2003. Cenozoic extensional stress evolution in North China. J Geodyn, 36: 591–613
Acknowledgements
The author thanks Prof. Guoxiang CHI, the anonymous reviewers and the responsible editor for their constructive advices. This work was supported by the Uranium Exploration Projects of China National Nuclear Corporation (Grant Nos. 22045004 and QNYC2103).
Author information
Authors and Affiliations
Corresponding author
Electronic supplementary material
Rights and permissions
About this article
Cite this article
Zhang, C. Episodic sandstone-type uranium mineralization in Asia during the Late Mesozoic-Cenozoic. Sci. China Earth Sci. 66, 2034–2044 (2023). https://doi.org/10.1007/s11430-022-1096-8
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11430-022-1096-8