[1]黄惠明,李鹏飞,胡万万.2021.西天山伊犁地块早古生代拼贴: 来自碎屑锆石U-Pb年代学和Hf同位素的制约.大地构造与成矿学,45(4):786-804.doi:10.16539/j.ddgzyckx.2021.04.007
 HUANG Huiming,LI Pengfei,HU Wanwan and LING Jiaqi.2021.Early Paleozoic Amalgamation of the Yili Block (Chinese West Tianshan): Insight from Detrital Zircon U-Pb Geochronology and Hf Isotopes.Geotectonica et Metallogenia,45(4):786-804.doi:10.16539/j.ddgzyckx.2021.04.007
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西天山伊犁地块早古生代拼贴: 来自碎屑锆石U-Pb年代学和Hf同位素的制约
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《大地构造与成矿学》[ISSN:ISSN 1001-1552/CN:CN 44-1595/P]

卷:
期数:
2021年45卷04期
页码:
786-804
栏目:
岩石大地构造与地球化学
出版日期:
2021-07-25

文章信息/Info

Title:
Early Paleozoic Amalgamation of the Yili Block (Chinese West Tianshan): Insight from Detrital Zircon U-Pb Geochronology and Hf Isotopes
文章编号:
1001-1552(2021)04-0786-019
作者:
黄惠明1、2、3 李鹏飞1、2* 胡万万1、2、3 令佳琪1、2、3
1.中国科学院 广州地球化学研究所, 同位素地球化学国家重点实验室, 广东 广州 510640; 2.中国科学院深地科学卓越创新中心, 广东 广州 510640; 3.中国科学院大学, 北京 100049
Author(s):
HUANG Huiming1、2、3 LI Pengfei1、2* HU Wanwan1、2、3 and LING Jiaqi1、2、3
1. State Key Laboratory of Isotope Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, Guangdong, China; 2. Center for Excellence in Deep Earth Science, Chinese Academy of Sciences, Guangzhou 510640, Guangdong, China; 3. University of Chinese Academy of Sciences, Beijing 100049, China
关键词:
中亚造山带 哈萨克斯坦微陆块 西天山 伊犁地块 碎屑锆石
Keywords:
Central Asian Orogenic Belt Kazakhstan microcontinent West Tianshan Yili block Detrital zircon
分类号:
P597; P542
DOI:
10.16539/j.ddgzyckx.2021.04.007
文献标志码:
A
摘要:
西天山伊犁地块记录着中亚造山带构造演化方面的关键信息, 前人多认为伊犁地块是一个单独块体, 但其西延境外部分对应着多个块体。这些块体在奥陶纪末期完成拼贴, 它们之间的缝合带在西天山的延伸部分被晚古生代-中新生代地层覆盖, 但通过境内外地质对比, 认为其很可能沿着伊犁地块中部向东延伸, 并将伊犁地块划分为南、北伊犁两个块体。目前, 对于南、北伊犁地块的拼贴时限缺少精确限定, 其是否类似于境外部分于奥陶纪末期完成拼贴仍不清楚。为此, 本项研究选取北伊犁地块志留系库茹尔组为研究对象, 通过开展碎屑锆石U-Pb年代学和Hf同位素分析, 约束南、北伊犁两个块体的拼贴时限。结果显示, 库茹尔组碎屑锆石U-Pb年龄主要集中在早古生代(422~519 Ma), 其最年轻峰值432 Ma约束了库茹尔组的最大沉积时代。在对比南北伊犁地块岩浆活动的基础上, 发现库茹尔组沉积地层同时接收到了南北伊犁地块的物源供给, 表明南北伊犁地块已在库茹尔组沉积前完成拼贴。通过综合解析碎屑锆石及区域岩浆岩锆石Hf同位素数据, 发现其在奥陶纪末期同时向富集和亏损的方向演化, 与显生宙以来东亚多块体拼贴过程中的Hf同位素演化趋势相似, 因而我们将这种εHf(t)值扇形演化样式归因于南北伊犁地块的碰撞拼贴, 进而约束伊犁地块的拼贴时限在奥陶纪末期。
Abstract:
The Yili Block in the Chinese West Tianshan records key information for the tectonic evolution of the southwestern Central Asian Orogenic Belt (CAOB). Traditionally, the Yili Block is considered as a discrete block. It extends farther west into Kazakhstan/Kyrgyzstan, and is correlated to multiple blocks bounded by a series of sutures. The spatial extension of these sutures within the Yili Block in the Chinese West Tianshan is concealed by late Paleozoic to Cenozoic sedimentary and volcanic rocks. Based on the regional geological correlation, these sutures are considered to merge in the China/Kazakhstan border, and extend eastward along the central Yili Block, and separate the Yili Block into two subunits of northern and southern Yili blocks. In this contribution, we report detrital zircon U-Pb and Hf isotope results of sedimentary rocks of the Silurian Kuru’er Formation within the northern Yili block, with an aim to constrain the amalgamation time of the Yili Block. 51 detrital zircon grains yield early Paleozoic ages of 422 to 519 Ma, and the rest of 12 detrital zircon grains have ages of 903 to 1755 Ma. The youngest age peak of 432 Ma provides a maximum age constraint for the deposition of the Kuru’er Formation, which together with available fossils suggest a Silurian deposition age for this formation. Compared with the early Paleozoic magmatism in the Yili Block, we conclude that the Kuru’er Formation receives detrital zircon from both northern and southern Yili blocks, suggesting that the amalgamation of the Yili Block occurred prior to the deposition of the Kuru’er Formation in the Silurian. Furthermore, a compilation of Hf isotope data of new detrital and magmatic zircon grains from the early Paleozoic igneous rocks shows a fanning array for the εHf(t) values in the late Ordovician to Silurian, which was interpreted to result from the amalgamation of the Yili Block. Altogether, we consider that the Yili Block may have been amalgamated since the late Ordovician, which is consistent with the amalgamation of the Kazakhstan microcontinent in the western CAOB.

参考文献/References:

白建科, 李智佩, 徐学义, 李婷, 茹艳娇, 李晓英. 2015. 西天山乌孙山地区大哈拉军山组碎屑锆石U-Pb定年及其地质意义. 中国地质, 42(1): 85-96.
蔡土赐, 孙巧缡, 缪长泉. 1999. 新疆维吾尔自治区岩石地层. 武汉: 中国地质大学出版社: 1-430.
陈义兵, 胡霭琴, 张国新, 张前锋. 1999. 西天山前寒武纪天窗花岗片麻岩的锆石U-Pb年龄及Nd-Sr同位素特征. 地球化学, 28(6): 515-520.
陈有炘, 裴先治, 赵军, 王盟, 关力伟, 朱永胜, 刘雷, 杜古尔?卫卫, 田增彪. 2019. 西天山温泉地区下石炭统阿克沙克组碎屑锆石U-Pb年龄及其构造意义. 地球科学, 44(7): 2478-2492.
冯博, 计文化, 白建科, 刘一珉, 陈喜庆. 2019. 西天山博罗科努地区志留系碎屑锆石U-Pb定年及其地质意义. 地质通报, 38(Z1): 276-287.
韩宝福, 何国琦, 吴泰然, 李惠民. 2004. 天山早古生代花岗岩锆石U-Pb定年、岩石地球化学特征及其大地构造意义. 新疆地质, 22(1): 4-11.
胡霭琴, 韦刚健, 江博明, 张积斌, 邓文峰, 陈林丽. 2010. 天山0.9 Ga新元古代花岗岩SHRIMP锆石U-Pb年龄及其构造意义. 地球化学, 39(3): 197-212.
胡霭琴, 韦刚健, 张积斌, 邓文峰, 陈林丽. 2008. 西天山温泉地区早古生代斜长角闪岩的锆石SHRIMP U-Pb年龄及其地质意义. 岩石学报, 24(12): 2731-2740.
李继磊, 苏文, 张喜, 刘新. 2009. 西天山阿吾拉勒西段麻粒岩相片麻岩锆石Cameca U-Pb年龄及其地质意义. 地质通报, 28(12): 1852-1862.
李永铁. 1993. 新疆博罗科努地区志留系库茹尔组头足类等化石的发现及其时代讨论. 新疆地质, 11(3): 204- 206.
刘晓宇. 2009. 新疆尼勒克胡吉尔台一带志留系研究. 西安: 长安大学硕士学位论文: 1-71.
石鑫, 侯明才, 黄虎, 胡小龙, 江文剑, 吴斌, 缪宗利, 郑斯赫. 2018. 伊犁盆地南缘中-下侏罗统物源分析及其对南天山造山带演化的启示. 沉积学报, 36(3): 446-455.
王洪亮, 徐学义, 何世平, 陈隽璐. 2007. 中国天山及邻区地质图 (1∶100万). 地质出版社.
新疆维吾尔自治区地质矿产局. 1980. 新疆巩留幅1∶20万地质图及说明书.
新疆维吾尔自治区地质矿产局. 1988. 新疆精河幅1∶20万地质图及说明书.
徐学义, 王洪亮, 马国林, 李平, 陈隽璐, 李婷. 2010. 西天山那拉提地区古生代花岗岩的年代学和锆石Hf同位素研究. 岩石矿物学杂志, 29(6): 691-706.
张少鹏. 2010. 伊犁西天山早古生代构造演化和岩相古地理研究. 西安: 西北大学硕士学位论文: 1-83.
朱永峰. 2012. 西南天山科桑溶洞新元古代-早奥陶世花岗岩锆石U-Pb年代学研究. 岩石学报, 28(7): 2113- 2120.
朱志新, 王克卓, 郑玉洁, 孙桂华, 张超, 李亚萍. 2006. 新疆伊犁地块南缘志留纪和泥盆纪花岗质侵入体锆石SHRIMP定年及其形成时构造背景的初步探讨. 岩石学报, 22(5): 1193-1200.
Alexeiev D V, Biske Y S, Wang B, Djenchuraeva A V, Getman O F, Aristov V A, Kr?ner A, Liu H S and Zhong L L. 2015. Tectono-Stratigraphic framework and Palaeozoic evolution of the Chinese South Tianshan. Geotectonics, 49(2): 93-122.
Alexeiev D V, Kr?ner A, Hegner E, Rojas-Agramonte Y, Biske Y S, Wong J, Geng H Y, Ivleva E A, Mühlberg M, Mikolaichuk A V and Liu D. 2016. Middle to Late Ordovician arc system in the Kyrgyz Middle Tianshan: From arc-continent collision to subsequent evolution of a Palaeozoic continental margin. Gondwana Research, 39: 261-291.
Alexeiev D V, Ryazantsev A V, Kr?ner A, Tretyakov A A, Xia X and Liu D Y. 2011. Geochemical data and zircon ages for rocks in a high-pressure belt of Chu-Yili Mountains, southern Kazakhstan: Implications for the earliest stages of accretion in Kazakhstan and the Tianshan. Journal of Asian Earth Sciences, 42(5): 805- 820.
Bakirov A B and Maksumova R A. 2001. Geodynamic evolution of the Tien Shan lithosphere. Russian Geology and Geophysics, 42(10): 1435-1443.
Bazhenov M L, Levashova N M, Degtyarev K E, Van der Voo R, Abrajevitch A V and McCausland P J A. 2012. Unraveling the early-middle Paleozoic paleogeography of Kazakhstan on the basis of Ordovician and Devonian paleomagnetic results. Gondwana Research, 22(3-4): 974-991.
Biske Y S and Seltmann R. 2010. Paleozoic Tian-Shan as a transitional region between the Rheic and Urals-Turkestan oceans. Gondwana Research, 17(2?3): 602-613.
Blichert-Toft J and Albarède F. 1997. The Lu-Hf isotope geochemistry of chondrites and the evolution of the mantle-crust system. Earth and Planetary Science Letters, 148(1): 243-258.
Bruguier O, Lancelot J R and Malavieille J. 1997. U-Pb dating on single detrital zircon grains from the Triassic Songpan-Ganze flysch (Central China): Provenance and tectonic correlations. Earth and Planetary Science Letters, 152(1): 217-231.
Cao Y C, Wang B, Jahn B M, Cluzel D, Shu L S and Zhong L L. 2017. Late Paleozoic arc magmatism in the southern Yili Block (NW China): Insights to the geodynamic evolution of the Balkhash-Yili continental margin, Central Asian Orogenic Belt. Lithos, 278: 111-125.
Cawood P A and Nemchin A A. 2000. Provenance record of a rift basin: U/Pb ages of detrital zircons from the Perth Basin, Western Australia. Sedimentary Geology, 134(3): 209-234.
Cawood P A, Hawkesworth C J and Dhuime B. 2012. Detrital zircon record and tectonic setting. Geology, 40(10): 875-878.
Charvet J, Shu L S, Laurent-Charvet S, Wang B, Faure M, Cluzel D, Yan C and De Jong K. 2011. Palaeozoic tectonic evolution of the Tianshan belt, NW China. Science China: Earth Sciences, 54(2): 166-184.
Collins W J, Belousova E A, Kemp A I S and Murphy J B. 2011. Two contrasting Phanerozoic orogenic systems revealed by hafnium isotope data. Nature Geoscience, 4(5): 333-337.
Degtyarev K E, Ryazantsev A V, Tretyakov A A, Tolmacheva T Y, Yakubchuk A S, Kotov A B, Salnikova E B and Kovach V P. 2013. Neoproterozoic-Early Paleozoic tectonic evolution of the western part of the Kyrgyz Ridge (Northern Tian Shan) caledonides. Geotectonics, 47: 377-417.
Degtyarev K E. 2003. Position of the Aktau-Dzhungar microcontinent in the structural framework of the Paleozoides of Central Kazakhstan. Geotectonics, 37(4): 271-288.
Dickinson W R and Gehrels G E. 2009. Use of U-Pb ages of detrital zircons to infer maximum depositional ages of strata: A test against a Colorado Plateau Mesozoic database. Earth and Planetary Science Letters, 288(1-2): 115-125.
Dong Y P, Zhang G W, Neubauer F, Liu X M, Hauzenberger C, Zhou D W and Li W. 2011. Syn- and post- collisional granitoids in the Central Tianshan orogen: Geochemistry, geochronology and implications for tectonic evolution. Gondwana Research, 20(2-3): 568-581.
Fedo C M, Sircombe K N and Rainbird R H. 2003. Detrital zircon analysis of the sedimentary record. Reviews in Mineralogy Geochemistry, 53(1): 277-303.
Gao J, Li M S, Xiao X C, Tang Y Q and He G Q. 1998. Paleozoic tectonic evolution of the Tianshan Orogen, northwestern China. Tectonophysics, 287(1-4): 213-231.
Gao J, Long L L, Klemd R, Qian Q, Liu D Y, Xiong X M, Su W, Liu W, Wang Y T and Yang F Q. 2009. Tectonic evolution of the South Tianshan orogen and adjacent regions, NW China: geochemical and age constraints of granitoid rocks. International Journal of Earth Sciences, 98(6): 1221-1238.
Gehrels G and Pecha M. 2014. Detrital zircon U-Pb geochronology and Hf isotope geochemistry of Paleozoic and Triassic passive margin strata of western North America. Geosphere, 10(1): 49-65.
Gou L L and Zhang L F. 2016. Geochronology and petrogenesis of granitoids and associated mafic enclaves from Xiate in Chinese Southwest Tianshan: Implications for early Paleozoic tectonic evolution. Journal of Asian Earth Sciences, 115: 40-61.
Griffin W L, Pearson N J, Belousova E, Jackson S E, van Achterbergh E, O’Reilly S Y and Shee S R. 2000. The Hf isotope composition of cratonic mantle: LAM-MC- ICPMS analysis of zircon megacrysts in kimberlites. Geochimica et Cosmochimica Acta, 64(1): 133-147.
Han Y G, Zhao G C, Sun M, Eizenh?fer P R, Hou W Z, Zhang X R, Liu Q, Wang B, Liu D X and Xu B. 2016. Late Paleozoic subduction and collision processes during the amalgamation of the Central Asian Orogenic Belt along the South Tianshan suture zone. Lithos, 246-247: 1-12.
Han Y G and Zhao G C. 2018. Final amalgamation of the Tianshan and Junggar orogenic collage in the southwestern Central Asian Orogenic Belt: Constraints on the closure of the Paleo-Asian Ocean. Earth-Science Reviews, 186: 129-152.
Hanchar J M and Rudnick R L. 1995. Revealing hidden structures: The application of cathodoluminescence and back-scattered electron imaging to dating zircons from lower crustal xenoliths. Lithos, 36(3): 289-303.
Hoskin P W and Schaltegger U. 2003. The composition of zircon and igneous and metamorphic petrogenesis. Reviews in Mineralogy and Geochemistry, 53(1): 27-62.
Huang H, Cawood P A, Ni S J, Hou M C, Shi Z Q and Hu X L. 2017. Provenance of late Paleozoic strata in the Yili Basin: Implications for tectonic evolution of the South Tianshan orogenic belt. Geological Society of America Bulletin, 130(5-6): 952-974.
Huang Z Y, Long X P, Kr?ner A, Yuan C, Wang Q, Sun M, Zhao G C and Wang Y J. 2013. Geochemistry, zircon U-Pb ages and Lu-Hf isotopes of early Paleozoic plutons in the northwestern Chinese Tianshan: Petrogenesis and geological implications. Lithos, 182: 48-66.
Huang Z Y, Long X P, Yuan C, Sun M, Wang Y J, Zhang Y Y and Chen B. 2016. Detrital zircons from Neoproterozoic sedimentary rocks in the Yili Block: Constraints on the affinity of microcontinents in the southern Central Asian Orogenic Belt. Gondwana Research, 37: 39-52.
Kemp A I S, Hawkesworth C J, Collins W J, Gray C M and Blevin P L. 2009. Isotopic evidence for rapid continental growth in an extensional accretionary orogen: The Tasmanides, eastern Australia. Earth and Planetary Science Letters, 284(3-4): 455-466.
Klemd R, John T, Scherer E E, Rondenay S and Gao J. 2011. Changes in dip of subducted slabs at depth: Petrological and geochronological evidence from HP-UHP rocks (Tianshan, NW-China). Earth and Planetary Science Letters, 310(1-2): 9-20.
Li D, He D F, Sun M and Zhang L. 2020. The role of arc-arc collision in accretionary orogenesis: Insights from ~320 Ma tectono-sedimentary transition in the Karamaili Area, NW China. Tectonics, 39(1): 1-21.
Li Q L, Lin W, Su W, Li X H, Shi Y H, Liu Y and Tang G Q. 2011. SIMS U-Pb rutile age of low-temperature eclogites from southwestern Chinese Tianshan, NW China. Lithos, 122(1-2): 76-86.
Li P F, Sun M, Rosenbaum G, Yuan C, Safonova I, Cai K D, Jiang Y D and Zhang Y Y. 2018. Geometry, kinematics and tectonic models of the Kazakhstan Orocline, Central Asian Orogenic Belt. Journal of Asian Earth Sciences, 153: 42-56.
Li X H, Long W G, Li Q L, Liu, Y, Zheng, Y F, Yang Y H, Chamberlain K R, Wan D F, Guo C H and Wang X C. 2010. Penglai zircon megacrysts: A potential new working reference material for microbeam determination of Hf-O isotopes and U-Pb age. Geostandards Geoanalytical Research, 34(2): 117-134.
Liu X, Su W, Gao J, Li J L, Jiang T, Zhang X and Ge X M. 2014. Paleozoic subduction erosion involving accretionary wedge sediments in the South Tianshan Orogen: Evidence from geochronological and geochemical studies on eclogites and their host metasediments. Lithos, 210: 89-110.
Liu Y S, Hu Z C, Zong K Q, Gao C G, Gao S, Xu J and Chen H H. 2010. Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP- MS. Chinese Science Bulletin, 55(15): 1535-1546.
Long L L, Gao J, Klemd R, Beier C, Qian Q, Zhang X, Wang J B and Jiang T. 2011. Geochemical and geochronological studies of granitoid rocks from the Western Tianshan Orogen: Implications for continental growth in the southwestern Central Asian Orogenic Belt. Lithos, 126(3-4): 321-340.
Ludwig K R. 2003. ISOPLOT 3.0: A geochronological toolkit for microsoft excel. Berkeley Geochronology Center, Special publication, 3: 1-70.
Nelson D R. 2001. An assessment of the determination of depositional ages for precambrian clastic sedimentary rocks by U-Pb dating of detrital zircons. Sedimentary Geology, 141: 37-60.
Qian Q, Gao J, Klemd R, He G Q, Song B, Liu D Y and Xu R H. 2009. Early Paleozoic tectonic evolution of the Chinese South Tianshan Orogen: constraints from SHRIMP zircon U-Pb geochronology and geochemistry of basaltic and dioritic rocks from Xiate, NW China. International Journal of Earth Sciences, 98(3): 551- 569.
Rojas-Agramonte Y, Kr?ner A, Alexeiev D V, Jeffreys T, Khudoley A K, Wong J, Geng H, Shu L S, Semiletkin S A, Mikolaichuk A V, Kiselev V V, Yang J and Seltmann R. 2014. Detrital and igneous zircon ages for supracrustal rocks of the Kyrgyz Tianshan and palaeogeographic implications. Gondwana Research, 26(3-4): 957-974.
Scherer E, Münker C and Mezger K. 2001. Calibration of the lutetium-hafnium clock. Science, 293(5530): 683?687.
Segal I, Halicz L and Platzner I T. 2003. Accurate isotope ratio measurements of ytterbium by multiple collection inductively coupled plasma mass spectrometry applying erbium and hafnium in an improved double external normalization procedure. Journal of Analytical Atomic Spectrometry, 18(10): 1217-1223.
Sláma J, Ko?ler J, Condon D J, Crowley J L, Gerdes A, Hanchar J M, Horstwood M S, Morris G A, Nasdala L and Norberg N. 2008. Ple?ovice zircon — A new natural reference material for U-Pb and Hf isotopic microanalysis. Chemical Geology, 249(1-2): 1-35.
Su W, Gao J, Klemd R, Li J L, Zhang X, Li X H, Chen N S and Zhang L. 2011. U-Pb zircon geochronology of Tianshan eclogites in NW China: Implication for the collision between the Yili and Tarim blocks of the southwestern Altaids. European Journal of Mineralogy, 22: 473-478.
Tang G J, Chung S L, Hawkesworth C J, Cawood P A, Wang Q, Wyman D A, Xu Y G and Zhao Z H. 2017. Short episodes of crust generation during protracted accretionary processes: Evidence from Central Asian Orogenic Belt, NW China. Earth and Planetary Science Letters, 464: 142-154.
Wang B, Faure M, Cluzel D, Shu L S, Charvet J, Meffre S and Ma Q. 2006. Late Paleozoic tectonic evolution of the northern West Chinese Tianshan Belt. Geodinamica Acta, 19(3-4): 237-247.
Wang B, Jahn B M, Shu L S, Li K S, Chung S L and Liu D Y. 2012. Middle-Late Ordovician arc-type plutonism in the NW Chinese Tianshan: Implication for the accretion of the Kazakhstan continent in Central Asia. Journal of Asian Earth Sciences, 49: 40-53.
Wang B, Liu H S, Shu L S, Jahn B M, Chung S L, Zhai Y Z and Liu D Y. 2014a. Early Neoproterozoic crustal evolution in northern Yili Block: Insights from migmatite, orthogneiss and leucogranite of the Wenquan metamorphic complex in the NW Chinese Tianshan. Precambrian Research, 242: 58-81.
Wang B, Shu L S, Liu H S, Gong H J, Ma Y Z, Mu L X and Zhong L L. 2014b. First evidence for ca. 780 Ma intra-plate magmatism and its implications for Neoproterozoic rifting of the North Yili Block and tectonic origin of the continental blocks in SW of Central Asia. Precambrian Research, 254: 258-272.
Wang M, Zhang J J, Pei X Z, Liu K, Zhang B and Chen Y X. 2018a. Significant Carboniferous magmatism and continental growth in the northern West Tianshan orogen, NW China: Revealed by detrital zircon U-Pb and Lu-Hf analyses for turbidites from the North Tianshan accretionary complex. Journal of Geodynamics, 118: 11-31.
Wang M, Zhang J J, Pei X Z, Zhang B, Chen Y X, Xiao Z B and Zheng Y R. 2018b. Detrital zircon U-Pb-Hf isotopes study of the Lower Carboniferous Anjihai Formation from the northern margin of the Yili Block, NW China. Geological Journal, 53: 223-236.
Wilhem C, Windley B F and Stampfli G M. 2012. The Altaids of Central Asia: A tectonic and evolutionary inno?vative review. Earth-Science Reviews, 113(3-4): 303-341.
Williams I S. 2001. Response of detrital zircon and monazite, and their U-Pb isotopic systems, to regional metamor?phism and host-rock partial melting, Cooma Complex, southeastern Australia. Journal of the Geological Society of Australia, 48(4): 557-580.
Windley B F, Alexeiev D, Xiao W J, Kr?ner A and Badarch G. 2007. Tectonic models for accretion of the Central Asian Orogenic Belt. Journal of the Geological Society, 164(1): 31-47.
Wu F Y, Yang Y H, Xie L W, Yang J H and Xu P. 2006. Hf isotopic compositions of the standard zircons and baddeleyites used in U-Pb geochronology. Chemical Geology, 234(1-2): 105-126.
Xia B, Zhang L F and Bader T. 2014. The tectonic evolution of the Tianshan Orogenic Belt: Evidence from U-Pb dating of detrital zircons from the Chinese southwestern Tianshan accretionary mélange. Gondwana Research, 25(4): 1627-1643.
Xiao W J, Windley B F, Allen M B and Han C M. 2013. Paleozoic multiple accretionary and collisional tectonics of the Chinese Tianshan orogenic collage. Gondwana Research, 23(4): 1316-1341.
Xiao W J, Windley B F, Sun S, Li J L, Huang B C, Han C M, Yuan C, Sun M and Chen H L. 2015. A tale of amalgamation of three Permo-Triassic collage systems in Central Asia: Oroclines, sutures, and terminal accretion. Annual Review of Earth and Planetary Sciences, 43(1): 477-507.
Xu X Y, Wang H L, Li P, Chen J L, Ma Z P, Zhu T, Wang N and Dong Y P. 2013. Geochemistry and geochronology of Paleozoic intrusions in the Nalati (Narati) area in western Tianshan, Xinjiang, China: Implications for Paleozoic tectonic evolution. Journal of Asian Earth Sciences, 72: 33-62.
Yang W, Jolivet M, Dupont-Nivet G, Guo Z J, Zhang Z C and Wu C D. 2012. Source to sink relations between the Tian Shan and Junggar Basin (northwest China) from Late Palaeozoic to Quaternary: Evidence from detrital U-Pb zircon geochronology. Basin Research, 25(2): 219-240.
Yang X, Zhang L F, Tian Z L and Bader T. 2013. Petrology and U-Pb zircon dating of coesite-bearing metapelite from the Kebuerte Valley, western Tianshan, China. Journal of Asian Earth Sciences, 70: 295-307.
Zhang X R, Zhao G C, Sun M, Eizenh?fer P R, Han Y G, Hou W Z, Liu D X, Wang B, Liu Q and Xu B. 2016. Tectonic evolution from subduction to arc-continent collision of the Junggar ocean: Constraints from U-Pb dating and Hf isotopes of detrital zircons from the North Tianshan belt, NW China. Geological Society of America Bulletin, 128(3-4): 644-660.

备注/Memo

备注/Memo:
收稿日期: 2021-01-05; 改回日期: 2021-03-12
项目资助: 中国科学院国际合作项目(132744KYSB20200001)、国家自然科学基金(41872222)和广东省项目(2019QN01H101)联合资助。
第一作者简介: 黄惠明(1995-), 男, 硕士研究生, 构造地质学专业。Email: huanghuiming@gig.ac.cn
通信作者: 李鹏飞(1983-), 男, 研究员, 主要从事造山带大地构造学研究。Email: pengfeili@gig.ac.cn
更新日期/Last Update: 2021-07-20