Geothermal evidence of the mesozoic and cenozoic lithospheric thinning in the liaohe depression

Yinhui Zuo; Nansheng Qiu; Xiongqi Pang; Jian Chang; Qingqing Hao; Xia Gao

doi:10.1007/s12583-013-0347-9

Journal of Earth Science ›› 2013, Vol. 24 ›› Issue (4) : 529 -540. DOI: 10.1007/s12583-013-0347-9

Article

Geothermal evidence of the mesozoic and cenozoic lithospheric thinning in the liaohe depression

Yinhui Zuo ¹^,²^,³^,^a
, Nansheng Qiu ¹^,²
, Xiongqi Pang ¹^,²
, Jian Chang ¹^,²
, Qingqing Hao ⁴
, Xia Gao ³

Author information +

History +

PDF

Abstract

The Liaohe (辽河) depression is an important part of the Bohai (渤海) Bay Basin, and the Bohai Bay Basin located in the center of lithospheric destruction and thinning in the eastern North China Craton. The North China lithospheric thinning activities have been verified from evidences of structural geology, petrology, geochemistry and geophysics, but there are still some controversies on their timing, mechanism and controlling factors. The sedimentary basin is a thin-bedded geologic unit with a limited distribution in the upper lithosphere, and its formation and evolution represent the shallow response of the deep geodynamic process. Therefore, its thermal evolution is closely related to the deep dynamic conditions. In this article, the Mesozoic-Cenozoic thermal history of the Liaohe depression is reconstructed using the vitrinite reflectance and apatite fission track data. Meanwhile “thermal” lithospheric thicknesses in the Mesozoic and Cenozoic are calculated using the geothermic method on the basis of the above thermal history results. The results show that the Liaohe depression has under- peaks, 81 and 83 mW/m², respectively, corresponding to two strong rift movements. Accordingly, the depression has experienced two different levels of thinning processes in the Cretaceous and the Paleogene since the Mesozoic, and the “thermal” lithospheric thicknesses were 60 and 50 km, respectively. This may reveal that the depression has experienced two large-scale destructions. The work may provide valuable geothermal evidence for initial revealing the time, process and stage of the lithospheric thinning in the Liaohe depression.

Keywords

North China Craton / Liaohe depression / thermal history / lithospheric thinning

Cite this article

Download citation ▾

Yinhui Zuo, Nansheng Qiu, Xiongqi Pang, Jian Chang, Qingqing Hao, Xia Gao. Geothermal evidence of the mesozoic and cenozoic lithospheric thinning in the liaohe depression. Journal of Earth Science, 2013, 24(4): 529-540 DOI:10.1007/s12583-013-0347-9

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Artemieva I A, Mooney W D. Thermal Thickness and Evolution of Precambrian Lithosphere: A Global Study. J. Geophys. Res., 2001, 106(B8): 16387-16414.

[2]	Cai X L, Zhu J S, Cao J M, . 3D Structure and Dynamic Types of the Lithospheric Crust in Continental China and Its Adjacent Regions. Geology in China, 2007, 34(4): 544-557.

[3]	Chen M X. North China Geothermy, 1988 Beijing: Science Press

[4]	Deng J F, Su S G, Niu Y L, . A Possible Model for the Lithospheric Thinning of North China Craton: Evidence from the Yanshanian (Jura-Cretaceous) Magmatism and Tectonism. Lithos, 2007, 96: 22-35.

[5]	Editorial Committee of Petroleum Geology of China” Petroleum Geology of China 6: Shengli Oil Field, 1993 Beijing: Petroleum Industry Press

[6]	Gao S, Rudnick R L, Xu W L, . Recycling Deep Cratonic Lithosphere and Generation of Intraplate Magmatism in the North China Craton. Earth Planet Sci. Lett., 2008, 270: 41-53.

[7]	Ghori K A R, Mory A J, Iasky R P. Modeling Petroleum Generation in the Paleozoic of the Carnarvon Basin, Western Australia: Implications for Prospectivity. AAPG Bulletin, 2005, 89: 27-40.

[8]	Gong Y L, Wang L S, Liu S W, . Distribution Characteristics of Geotemperature Field in Jiyang Depression, Shandong, North China. Chinese Journal of Geophysics, 2003, 46(5): 652-658.

[9]	Green P E, Duddy I R. Thermal Annealing of Fission Tracks in Apatite 4. Quantitative Modeling Techniques and Extent to Geological Time Scales. Chem. Geol. (Isotope Geoscience Section), 1989, 79(2): 155-182.

[10]	Griffin W L, Zhang A D, O’Reilly S Y, . Phanerozoic Evolution of the Lithosphere beneath the Sino-Korean Craton. Mantle Dynamics and Plate Interactions in East Asia, 1998, 27: 107-126.

[11]	Grove T L, Parman S W. Thermal Evolution of the Earth as Recorded by Komatiites. Earth Planet. Sci. Lett., 2004, 219: 173-187.

[12]	Hu S B, Fu M, Yang S, . Palaeogeothermal Response and Record of Late Mesozoic Lithospheric Thinning in the Eastern North China Craton. Mesozoic Sub-Continental Lithospheric Thinning under Eastern Asia. Geological Society, London, Special Publications, 2007, 280: 267-280.

[13]	Hu S B, Paul B O S, Asaf R, . Thermal History and Tectonic Subsidence of the Bohai Basin, Northern China: A Cenozoic Rifted and Local Pull-Apart Basin. Physics of the Earth and Planetary Interiors, 2001, 126: 221-235.

[14]	Jiang Y H, Jiang S Y, Zhao K D, . SHRIMP U-Pb Zircon Dating for Lamprophyre from Liaodong Peninsula: Constraints on the Initial Time of Mesozoic Lithosphere Thinning beneath Eastern China. Chinese Science Bulletin, 2005, 50: 2161-2168.

[15]	Ketcham R A. Distribution of Heat Producing Elements in the Upper and Middle Crust of Southern and West Central Arizona: Evidence from the Core Complex. J. Gephys. Res., 1996, 101: 13611-13632.

[16]	Li X H, Chung S L, Zhou H W, . Jurassic In traplate Magmatism in Southern Hunan, Eastern Guangxi: ⁴⁰Ar/³⁹Ar Dating, Geochemistry, Sr-Md Isotopes and Implications for Tectonic Evolution of SE China. Aspcets of the Tectonic Evolution of China, 2004, 226: 193-216.

[17]	Liu S W, Wang L S, Gong Y L, . Lithospheric Thermal-Rheological Structure and Their Geodynamic Significance in the Jiyang Depression. Science in China Series D: Earth Sciences, 2005, 35(3): 203-214.

[18]	Lu F X, Zheng J P, Zhang R S, . Phanerozoic Mantle Secular Evolution beneath the Eastern North China Craton. Earth Science Frontiers, 2005, 12: 61-67.

[19]	Lu F X, Zheng J P, Shao J A, . Asthenospheric Upwelling and Lithospheric Thinning in Late Cretaceous-Cenozoic in Eastern North China. Earth Science Frontiers, 2006, 13: 86-92.

[20]	Menzies M A, Fan W M, Zhang M. Palaeozoic and Cenozoic Lithoprobes and the Loss of >120 km of Archean Lithosphere, Sino-Korean Craton, China. Magmatic Processes and Plate Tectonics, 1993, 76: 71-81.

[21]	Menzies M A, Xu Y G, Zhang H F, . Integration of Geology, Geophysics and Geochemistry: A Key to Understanding the North China Craton. Lithos, 2007, 96: 1-21.

[22]	Michaut C, Jaupart C, Mareschal J C. Thermal Evolution of Cratonic Roots. Lithos, 2009, 109: 47-60.

[23]	Michaut C, Jaupart C. Secular Cooling and Thermal Structure of Continental Lithosphere. Earth Planet. Sci. Lett., 2007, 257: 83-96.

[24]	Morgan P. The Thermal Structure and Thermal Evolution of the Continental Lithosphere. Structure and Evolution of the Continental Lithosphere, 1984, 15: 107-193.

[25]	Pasquale V, Cabella C, Verdoya M. Deep Temperatures and Lithospheric Thickness along the European Geotraverse. Tectonophysics, 1990, 176: 1-11.

[26]	Ren J Y, Tamaki K, Li S T, . Late Mesozoic and Cenozoic Rifting and Its Dynamic Setting in Eastern China and Adjacent Areas. Tectonophysics, 2002, 344: 175-205.

[27]	Rudnick R L, McDonough W F, O’Connell R J. Thermal Structure, Thickness and Composition of Continental Lithosphere. Chem. Geol., 1998, 145: 395-411.

[28]	Sclater J G, Christie P A F. Continental Stretching: An Explanation of the Post-Mid-Cretaceous Subsidence of the Central North Sea Basin. J. Geophys. Res., 1980, 85: 3711-3739.

[29]	Shao J A, Lu F X, Zhang L Q. Discovery of Xenocrysts in Basalts of Yixian Formation in West Liaoning Province and Its Significance. Acta Petrol. Sin., 2005, 21: 1547-1558.

[30]	Sleep N H. Survival of Archean Cratonal Lithosphere. J. Geophys. Res., 2003, 108 B6 2302

[31]	Tang L J, Wan G M, Zhou X H, . Cenozoic Geotectonic Evolution of the Bohai Basin. Geological Journal of China Universities, 2008, 14: 191-198.

[32]	Wang J Y. Geothermics in China, 1996 Beijing: Seismological Press

[33]	Wu F Y, Lin J Q, Wilde S A, . Nature and Significance of the Early Cretaceous Giant Igneous Event in Eastern China. Earth Planet. Sci. Lett., 2005, 233: 103-119.

[34]	Wu F Y, Xu Y G, Gao S, . Lithospheric Thinning and Destruction of the North China Craton. Acta Petrol. Sin., 2008, 24: 1145-1174.

[35]	Xu P F, Zhao D P. Upper-Mantle Velocity Structure beneath the North China Craton: Implications for Lithospheric Thinning. Geophys. J. Int., 2009, 177: 1279-1283.

[36]	Xu Y G, Ma J L, Huang X L, . Early Cretaceous Gabbroic Complex from Yinan, Shandong Province: Petrogenesis and Mantle Domains beneath the North China Craton. Inter. J. Earth. Sci., 2004, 93: 1025-1041.

[37]	Xu Y G. Using Basalt Geochemistry to Constrain Mesozoic-Cenozoic Evolution of the Lithosphere beneath North China Craton. Earth Science Frontiers, 2006, 13: 93-104.

[38]	Xu Y G. Thermo-Tectonic Destruction of the Archean Lithospheric Keel beneath Eastern China: Evidence, Timing and Mechanism. Phys. Chem. Earth, 2001, 26: 747-757.

[39]	Yang J H, Chung S L, Wilde S A, . Petrogenesis of Post-Orogenic Syenites in the Sulu Orogenic Belt, East China: Geochronology, Geochemical and Nd-Sr Isotopic Evidence. Chem. Geol., 2005, 214: 99-125.

[40]	Zang S X, Liu Y G, Ning J Y. Thermal Structure of the Lithosphere in North China. Chinese Journal of Geophysics, 2002, 45(1): 56-66.

[41]	Zhai M G, Fan Q C, Zhang H F, . Lower Crust Processes during the Lithosphere Thinning in Eastern China: Magma Underplating, Replacement and Delamina tion. Acta Petrol. Sin., 2005, 21(6): 1509-1526.

[42]	Zhai M G, Fan Q C, Zhang H F, . Lower Crustal Processes Leading to Mesozoic Lithospheric Thinning beneath Eastern North China: Underplating, Replacement and Delamination. Lithos, 2007, 96: 36-54.

[43]	Zhang H F, Sun M, Zhou X H, . Geochemical Constraints on the Origin of Mesozoic Alkaline Intrusive Complexes from the North China Craton and Tectonic Implications. Lithos, 2005, 81: 297-317.

[44]	Zhang H F, Yang Y H. Emplacement Age and Sr-Nd-Hf Isotopic Characteristics of the Diamondiferous Kimberlites from the Eastern North China Craton. Acta Petrol. Sin., 2007, 23(2): 285-294.

[45]	Zhang Q, Wang Y L, Jin W J, . Eastern China Plateau during the Late Mesozoic: Evidence, Problems and Implication. Geological Bulletin of China, 2008, 27(9): 1404-1430.

[46]	Zheng J P, Griffin W L, O’Reilly S Y, . Late Mesozoic-Eocene Mantle Replacement beneath the Eastern North China Craton: Evidence from the Paleozoic and Cenozoic Peridotite Xenoliths. Inter. Geol. Rev., 2005, 47: 457-472.

[47]	Zuo Y H. Geothermal Evidence of the Mesozoic and Cenozoic Lithospheric Evolution in the Bohai Bay Basin, North China: [Dissertation], 2011 Beijing: China University of Petroleum

[48]	Zuo Y H, Qiu N S, Zhang Y, . Geothermal Regime and Hydrocarbon Kitchen Evolution of the Offshore Bohai Bay Basin, North China. AAPG Bulletin, 2011, 95: 749-769.