摘要
塔里木盆地是一个典型大型叠合盆地,发育在太古代-早中元古代的结晶基底之上,具有稳定克拉通性质.现今地表热流为43mW·m~(-2),平均地温梯度为21℃·km-1,莫霍面温度为550℃,较低的热流背景值指示塔里木盆地经历了一个长期冷却加厚的过程.然而对于这样一个长期冷却过程,之前的研究都只停留在显生宙阶段,并未获得塔里木显生宙以前的热史.本文以塔里木地区已有的地热数据作为约束,依据地幔动力学模型设置底部边界条件,利用正演拟合的方法,反演出塔里木的背景热史,填补了该区域古生代以前热史研究的空白.结果表明,塔里木克拉通自形成以来背景热流不断降低(由85mW·m~(-2)降至43mW·m~(-2)),岩石圈持续加厚(由130km加厚到190km),在长时间尺度下,塔里木克拉通总体的热演化模式为长期冷却加厚,这与世界上其他典型克拉通的热演化规律类似.显生宙以来受到短期局部的构造-热事件影响,塔里木克拉通在长期冷却的趋势下叠加了约20~40mW·m~(-2)的热扰动.
The Tarim basin is a typical large-scale superimposed structure which developed on a Archean-Early Proterozoic crystalline basement,with stable craton properties.Its present-day surface heat flux is only 43 mW·m~(-2),with average geothermal gradient 21℃·km-1 and Moho temperature550℃.The low heat flow background value indicates that this basin experienced a process of secular cooling and thickening.However,for such a secular cooling process,previous studies only concentrated on Phanerozoic stage and did not cover the entire thermal history of Tarim.In this paper,we use the thermal data of the Tarim area as a constraint,and set up the bottom boundary conditions according to different mantle dynamic models.Then,the background thermal history of Tarim is reconstructed by forward modeling,which fills the gap in the study of thermal history before thePalaeozoic in this region.The results show that the background heat flow of Tarim was decreasing(reduced from 85 mW·m~(-2) to 43 mW·m~(-2))and the lithosphere was thickening(increased from 130 km to 190 km)continuously since the basin′s formation.On a long time scale,the thermal evolution model of the Tarim craton is secular cooling and thickening,which is similar to that of other typical cratons in the world.While,under the influence of short-term local tectono-thermal events,the thermal history of the Tarim craton was superposed by about 20~40 mW·m~(-2) thermal disturbance on the trend of secular cooling.
引文
An M J,Shi Y L.2006.Lithospheric thickness of the Chinese continent.Physics of the Earth and Planetary Interiors,159(3-4):257-266.
Arndt N,Lesher C M,Barnes S J.2008.Komatiite.Cambridge University Press.
Artemieva I M,Mooney W D.2001.Thermal thickness and evolution of Precambrian lithosphere:A global study.Journal of Geophysical Research:Solid Earth,106(B8):16387-16414.
Ballard S,Pollack H N.1987.Diversion of heat by Archean cratons:a model for southern Africa.Earth and Planetary Science Letters,85(1-3):253-264.
Balling N.1995.Heat flow and thermal structure of the lithosphere across the Baltic Shield and northern Tornquist Zone.Tectonophysics,244(1-3):13-50.
Beck J V,Blackwell B,Clair C R.1985.Inverse Heat Conduction:Ill-posed Problems.New York:A Wiley-Interscience Publication.
Davies G F.2009.Effect of plate bending on the Urey ratio and the thermal evolution of the mantle.Earth and Planetary Science Letters,287(3-4):513-518.
Decker E R,Heasler H P,Buelow K L,et al.1988.Significance of past and recent heat-flow and radioactivity studies in the Southern Rocky Mountains region.Geological Society of America Bulletin,100(12):1851-1885.
Fan T Y,An M J.2009.Discussion on thickness of the Tarim craton lithosphere and its mechanism.Geological Review(in Chinese),55(3):329-334.
Ge X H,Ma W P,Liu J L,et al.2013.Prospects of researches on regional tectonics of China.Geology in China(in Chinese),40(1):61-73.
Griffin W L,Doyle B J,Ryan C G,et al.1999.Layered mantle lithosphere in the Lac de Gras Area,Slave Craton:Composition,structure and origin.Journal of Petrology,40(5):705-727.
GrignéC,Labrosse S,Tackley P J.2005.Convective heat transfer as a function of wavelength:Implications for the cooling of the Earth.Journal of Geophysical Research:Solid Earth,110(B3):B03409,doi:10.1029/2004JB003376.
He L J,Wang J Y.2007.Tectono-thermal modeling of sedimentary basins:review and outlook.Progress in Geophysics(in Chinese),22(4),1215-1219,doi:10.3969/j.issn.1004-2903.2007.04.029.
He L J,Xu H H,Wang J Y.2011.Thermal evolution and dynamic mechanism of the Sichuan Basin during the Early PermianMiddle Triassic.Science China Earth Sciences,54(12):1948-1954.
He L J,Huang F,Liu Q Y,et al.2014.Tectono-thermal evolution of Sichuan basin in early Paleozoic.Journal of Earth Sciences and Environment(in Chinese),36(2):10-17.
Herzberg C,Asimow P D,Arndt N,et al.2007.Temperatures in ambient mantle and plumes:Constraints from basalts,picrites,and komatiites.Geochemistry Geophysics Geosystems,8(2):Q02006,doi:10.1029/2006GC001390.
Herzberg C,Gazel E.2009.Petrological evidence for secular cooling in mantle plumes.Nature,458(7238):619-622.
Herzberg C,Condie K,Korenaga J.2010.Thermal history of the Earth and its petrological expression.Earth and Planetary Science Letters,292(1-2):79-88.
Huang Z X,Su W,Peng Y J,et al.2003.Rayleigh wave tomography of China and adjacent regions.Journal of Geophysical Research:Solid Earth,108(B2):2073,doi:10.1029/2001JB0016.
Jaupart C,Mareschal J C.1999.The thermal structure and thickness of continental roots.Lithos,48:93-114.
Jessop A M.1990.Thermal Geophysics.Developments in Solid Earth Geophysics.London:Elsevier.
Jones M Q W.1987.Heat flow and heat production in the Namaqua Mobile Belt,South Africa.Journal of Geophysical Research:Solid Earth,92(B7):6273-6289.
King S D.2005.Archean cratons and mantle dynamics.Earth and Planetary Science Letters,234(1-2):1-14.
Korenaga J,Jordan T H.2003.Physics of multiscale convection in Earth′s mantle:Onset of sublithospheric convection.Journal of Geophysical Research:Solid Earth,108(B7):2333,doi:10.1029/2002JB001760.
Korenaga J.2006.Archean Geodynamics and the Thermal Evolution of Earth.Archean Geodynamics and Environments,164(7):7-32.
Korenaga J.2008.Urey ratio and the structure and evolution of Earth′s mantle.Reviews of Geophysics,46(2):RG2007,doi:10.1029/2007RG000241.
Korenaga J.2013.Initiation and evolution of plate tectonics on Earth:Theories and observations.Annual Review of Earth and Planetary Sciences,41:117-151.
Kutas R I.1997.Investigation of heat flow in the territory of the Ukraine.Tectonophysics,41(1-3):139-145.
Li J W,Li Z,Qiu N S,et al.2016.Carboniferous-Permian abnormal thermal evolution of the Tarim basin and its implication for deep structure and magmatic activity.Chinese Journal of Geophysics(in Chinese),59(9):3318-3329,doi:10.6038/cjg20160916.
Li M J,Wang T G,Chen J F,et al.2010.Paleo-heat flow evolution of the Tabei Uplift in Tarim Basin,northwest China.Journal of Asian Earth Sciences,37(1):52-66.
Liu S W,Li X L,Hao C Y,et al.2017.Heat flow,deep formation temperature and thermal structure of the Tarim Basin,northwest China.Earth Science Frontiers(in Chinese),24(3):41-55.
Mareschal J C,Jaupart C.2004.Variations of surface heat flow and lithospheric thermal structure beneath the North American craton.Earth and Planetary Science Letters,223(1-2):65-77.
Mareschal J C,Nyblade A,Perry H K C,et al.2004.Heat flow and deep lithospheric thermal structure at Lac de Gras,Slave Province,Canada.Geophysical Research Letters,31(12):L12611,doi:10.1029/2004GL020133.
Mareschal J C,Jaupart C.2006.Archean thermal regime and stabilization of the cratons.ArcheanG eodynamics and Environments,164:61-73.
Michaut C,Jaupart C.2007.Secular cooling and thermal structure of continental lithosphere.Earth and Planetary Science Letters,257(1-2):83-96.
Michaut C,Jaupart C,Mareschal J C.2009.Thermal evolution of cratonic roots.Lithos,109(1-2):47-60.
Morgan P.1984.The thermal structure and thermal evolution of the continental lithosphere.Physics&Chemistry of the Earth,15:107-193.
Morgan P.1985.Crustal radiogenic heat production and the selective survival of ancient continental crust.Journal of Geophysical Research:Atmospheres,90(S02):C561-C570.
Nyblade A A,Pollack H N.1993.A global analysis of heat flow from Precambrian terrains-Implications for the thermal structure of Archean and Proterozoic lithosphere.Journal of Geophysical Research:Solid Earth,98(B7):12207-12218.
Pandey O P,Agrawal P K.1999.Lithospheric mantle deformation beneath the Indian Cratons.The Journal of Geology,107(6):683-692.
Perry H K C,Jaupart C,Mareschal J C,et al.2006.Crustal heat production in the Superior Province,Canadian Shield,and in North America inferred from heat flow data.Journal of Geophysical Research:Solid Earth,111(B4):B04401,doi:10.1029/2005JB003893.
Pollack H N,Hurter S J,Johnson J R.1993.Heat Flow from the Earth's Interior:Analysis of the Global Data Set.Reviews of Geophysics,31(3):267-280.
Puchtel I S,Humayun M,Campbell A J,et al.2004.Platinum group element geochemistry of komatiites from the Alexo and Pyke Hill areas,Ontario,Canada.Geochimica Et Cosmochimica Acta,68(6):1361-1383.
Qiu N S,Reiners P,Mei Q H,et al.2009.Application of the(U-Th)/He thermochronometry to the tectono-thermal evolution of sedimentary basin-a case history of well KQ1in the Tarim basin.Chinese Journal of Geophysics(in Chinese),52(7):1825-1835,doi:10.3969/j.issn.0001-5733.2009.07.017.
Qiu N S,Wang J Y,Mei Q H,et al.2010.Constraints of(U-Th)/He ages on early Paleozoic tectonothermal evolution of the Tarim Basin,China.Science China Earth Sciences,53(7):964-976.
Qiu N S,Chang J,Zuo Y H,et al.2012.Thermal evolution and maturation of lower Paleozoic source rocks in the Tarim Basin,northwest China.AAPG Bulletin,96(5):789-821.
Qiu N S,Zuo Y H,Chang J,et al.2015.Characteristics of MesoCenozoic thermal regimes in typical eastern and western sedimentary basins of China.Earth Science Frontiers(in Chinese),22(1):157-168.
Roy R F,Blackwell D D,Birch F.1968.Heat generation of plutonic rocks and continental heat flow provinces.Earth and Planetary Science Letters,5:1-12.
Sobolev A V,Hofmann A W,Kuzmin D V,et al.2007.The amount of recycled crust in sources of mantle-derived melts.Science,316(5823):412-417.
Sotin C,Labrosse S.1999.Three-dimensional thermal convection in an iso-viscous,infinite Prandtl number fluid heated from within and from below:applications to the transfer of heat through planetary mantles.Physics of the Earth and Planetary Interiors,112(3-4):171-190.
Thakur M,Blackwell D D.2010.Thermal Stabilization Temperature of the Archean Cratons.∥AGU Fall Meeting.AGU Fall Meeting Abstracts.
Turcotte D L,Schubert G.2014.Geodynamics.3rd ed.London:Cambridge University Press.
Vitorello I,Pollack H N.1980.On the variation of continental heat flow with age and the thermal evolution of continents.Journal of Geophysical Research:Solid Earth,85(B2):983-995.
Wang J Y.2015.Geothermics and its Applications(in Chinese).Beijing:Science Press.
Wang L S,Li C,Shi Y S.1995.Distribution of terrestrial heat flow density in Tarim basin,western China.Chinese Journal of Geophysics(in Chinese),38(6):855-856.
Wang L S,Li C,Liu S W,et al.2003.Geotemperature gradient distribution of Kuqa foreland basin,north of Tarim,China.Chinese Journal of Geophysics(in Chinese),46(3):403-407.
Wang Y.2001.Heat flow pattern and lateral variations of lithosphere strength in China mainland:constraints on active deformation.Physics of the Earth and Planetary Interiors,126(3-4):121-146.
Xue A M,Yang X M,Liao J J.1993.The thermal history of sedimentary basin:Immitation methods and review.Progress inGeophysics(in Chinese),8(2):107-116.
Yan L,Li M,Pan W Q.2014.Distribution characteristics of Permian igneous rock in Tarim basin-based on the highprecision aeromagnetic data.Progress in Geophysics(in Chinese),29(4):1843-1848,doi:10.6038/pg20140448.
Yang S F,Chen H L,Li Z L,et al.2013.Early Permian Tarim Large Igneous Province in northwest China.Science China Earth Sciences,56(12):2015-2026.
Yu J B,Zhang J,Li P H.2012.Comparison of tectono-thermal evolution between Bachu uplift and Tabei uplift in Tarim basin.Journal of Graduate University of Chinese Academy of Sciences(in Chinese),29(4):485-492.
Yu J B,Zhang J,Shi B P.2010.A study on tectono-thermal evolution history of Bachu uplift in Tarim basin.Chinese Journal of Geophysics(in Chinese),53(5):2396-2404,doi:10.3969/j.issn.0001-5733.2010.10.013.
Zhang G Y,Zhao W Z,Wang H J,et al.2007.Multicycle tectonic evolution and composite petroleum systems in the Tarim basin.Oil&Gas Geology(in Chinese),28(5):653-663.
Zhang J R,Shao X Z,Fan H J.1998.Deep sounding survey by converted waves of earthquakes in central part of the Tarim basin and its interpretation.Seismology and Geology(in Chinese),20(1):34-42.
Zhu C Q,Yang S J,Li T B,et al.2008.Geophysical characters of major faults in the Tarim Basin and the relationships with earthquake.Progress in Geophysics(in Chinese),23(6):1685-1691.
Zuo Y H,Li J W,Li W Z,et al.2015.Mesozoic and Cenozoic“thermal”lithospheric thickness evolution in the Tarim basin.Progress in Geophysics(in Chinese),30(4):1608-1615,doi:10.6038/pg20150415.
范桃园,安美建.2009.现今塔里木克拉通岩石圈厚度分析及机制探讨.地质论评,55(3):329-334.
葛肖虹,马文璞,刘俊来等.2013.中国区域大地构造学的研究展望.中国地质,40(1):61-73.
何丽娟,黄方,刘琼颖等.2014.四川盆地早古生代构造-热演化特征.地球科学与环境学报,36(2):10-17.
何丽娟,汪集旸.2007.沉积盆地构造热演化研究进展:回顾与展望.地球物理学进展,22(4):1215-1219,10.3969/j.issn.1004-2903.2007.04.029.
贾承造.1997.中国塔里木盆地构造特征与油气.北京:石油工业出版社,205-289.
李佳蔚,李忠,邱楠生等.2016.塔里木盆地石炭-二叠纪异常热演化及其对深部构造-岩浆活动的指示.地球物理学报,59(9):3318-3329,doi:10.6038/cjg20160916.
刘继军.2005.不适定问题的正则化方法及应用.北京:科学出版社.
刘绍文,李香兰,郝春艳等.2017.塔里木盆地的热流、深部温度和热结构.地学前缘,24(3):41-55.
邱楠生,Reiners P,梅庆华等.2009.(U-Th)/He年龄在沉积盆地构造-热演化研究中的应用---以塔里木盆地KQ1井为例.地球物理学报,52(7):1825-1835,doi:10.3969/j.issn.0001-5733.2009.07.017.
邱楠生,汪集旸,梅庆华等.2010.(U-Th)/He年龄约束下的塔里木盆地早古生代构造-热演化.中国科学:地球科学,40(12):1669-1683.
邱楠生,左银辉,常健等.2015.中国东西部典型盆地中-新生代热体制对比.地学前缘,22(1):157-168.
汤良杰.1996.塔里木盆地演化和构造样式.北京:地质出版社,1-113.
汪集旸.2015.地热学及其应用.北京:科学出版社.
王良书,李成,施央申.1995.塔里木盆地大地热流密度分布特征.地球物理学报,38(6):855-856.
王良书,李成,刘绍文等.2003.塔里木盆地北缘库车前陆盆地地温梯度分布特征.地球物理学报,46(3):403-407.
薛爱民,杨小毛,廖静娟.1993.沉积盆地地热史模拟方法及简要述评.地球物理学进展,8(2):107-116.
闫磊,李明,潘文庆.2014.塔里木盆地二叠纪火成岩分布特征---基于高精度航磁资料.地球物理学进展,29(4):1843-1848,doi:10.6038/pg20140448.
于靖波,张健,史保平.2010.塔里木盆地巴楚隆起区构造-热演化历史研究.地球物理学报,53(10):2396-2404,doi:10.3969/j.issn.0001-5733.2010.10.013.
于靖波,张健,李培海.2012.塔里木盆地巴楚隆起与塔北隆起构造-热演化的对比分析.中国科学院大学学报,29(4):485-492.
张光亚,赵文智,王红军等.2007.塔里木盆地多旋回构造演化与复合含油气系统.石油与天然气地质,28(5):653-663.
张家茹,邵学钟,范会吉.1998.塔里木盆地中部地震转换波测深及其解释.地震地质,20(1):34-42.
朱传庆,杨书江,李同彬等.2008.塔里木盆地主要断裂的地球物理特征及与天然地震的关系.地球物理学进展,23(6):1685-1691.
朱介寿.2002.中国及邻区地球三维结构及动力学研究.∥中国地球物理学会年刊2002.北海:中国地球物理学会.
左银辉,李佳蔚,李文正等.2015.塔里木盆地中、新生代“热”岩石圈厚度演化.地球物理学进展,30(4):1608-1615,doi:10.6038/pg20150415.
