Protracted and progressive crustal melting during continental collision in the Pamir and plateau growth

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Petrology Pub Date : 2024-03-01 DOI:10.1093/petrology/egae024
Gong-Jian Tang, Derek A Wyman, Wei Dan, Qiang Wang, Xi-Jun Liu, Ya-Nan Yang, Mustafo Gadoev, Ilhomjon Oimahmadov
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Abstract

Determining crustal melting in parallel with geodynamic evolution provides critical information on plateau crustal thickening and uplift. Here we investigate the timing and duration of crustal melting through in-situ analysis of zircon U-Pb ages, trace elements and Hf-O isotopes, and whole-rock elements and Sr-Nd-Hf isotopes for the granites and high-grade metamorphic rocks from the Pamir Plateau. Zircon dates record protracted crustal melting for both Central Pamir (43–33 Ma and 22–12 Ma) and South Pamir (28–10 Ma). The Pamir Cenozoic granites are characterized by significant elemental and isotopic heterogeneity. The elemental variability within the Pamir Cenozoic granites is attributed to fractional crystallization of dominantly K-feldspar and plagioclase with subordinate biotite from a variably fractionated melt, and the accumulation of early crystallized feldspar during magma ascent. Peritectic mineral entrainment and accessory mineral crystallization had some influence on the geochemical characteristics of the garnet-bearing leucogranite dikes. Zircon Hf isotopes and whole-rock Sr-Nd-Hf isotopes show secular variations for both Central and South Pamir granites. The Central Pamir granites show a mild decrease in whole-rock ƐNd(t) values from Eocene (-4.3 to -4.9) to Miocene (-6.2 to -7.7), and the zircon ƐHf(t) values decrease from c. 40 Ma (+2 to -5) to c. 10 Ma (-4 to -8). In contrast, the South Pamir granites have highly variable whole-rock Sr-Nd-Hf (87Sr/86Sr(i) = 0.70530 to 0.78302; ƐNd(t) = -31.5 to +0.2; ƐHf(t) = -40.0 to +8.2) and zircon Hf isotopes (ƐHf(t) = +7.5 to -31.7) and displays a strong decrease in ƐNd(t) and ƐHf(t) values from c. 25 Ma to c. 13 Ma. Geochemical and isotopic data indicate that both the Central and South Pamir experienced crustal melting from juvenile lower crust to ancient lower-middle crustal materials, and Indian crustal materials were incorporated into the melt region of the South Pamir leucogranites from c. 20 Ma. Our study highlights a causal link between a chain of events that includes magma underplating induced by lithosphere thinning and slab breakoff, lithosphere delamination and underthrusting of Indian lithosphere, and formation of the Cenozoic granites in Pamir. This series of processes are incorporated here into a comprehensive model for the geodynamic evolution of the Pamir during the India-Asia collision.
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帕米尔和高原生长的大陆碰撞过程中漫长而渐进的地壳熔化
在地球动力演化的同时确定地壳熔化提供了有关高原地壳增厚和隆升的重要信息。在这里,我们通过对帕米尔高原的花岗岩和高品位变质岩进行锆石U-Pb年龄、微量元素和Hf-O同位素以及全岩元素和Sr-Nd-Hf同位素的现场分析,研究了地壳熔化的时间和持续时间。帕米尔中部(43-33 Ma 和 22-12 Ma)和帕米尔南部(28-10 Ma)的锆石日期记录了漫长的地壳熔化过程。帕米尔新生代花岗岩具有显著的元素和同位素异质性。帕米尔新生代花岗岩中的元素变异性归因于以 K 长石和斜长石为主、生物橄榄石为辅的分馏结晶,这些结晶来自不同分馏的熔体,以及岩浆上升过程中早期结晶长石的累积。围岩矿物夹带和附属矿物结晶在一定程度上影响了含石榴石白榴石岩脉的地球化学特征。中帕米尔和南帕米尔花岗岩的锆石 Hf 同位素和全岩 Sr-Nd-Hf 同位素均显示出周期性变化。中帕米尔花岗岩的全岩ƐNd(t)值从始新世(-4.3 至 -4.9)轻微下降到中新世(-6.2 至 -7.7),锆石ƐHf(t)值从约 40 Ma(+2 至 -5)下降到约 10 Ma(-4 至 -8)。相反,南帕米尔花岗岩的全岩 Sr-Nd-Hf 变化很大(87Sr/86Sr(i) = 0.70530 至 0.78302;ƐNd(t) = -31.5 至 +0.2;ƐHf(t) = -40.0至+8.2)和锆石Hf同位素(ƐHf(t) = +7.5至-31.7),并显示出ƐNd(t)和ƐHf(t)值从约25Ma到约13Ma的强烈下降。地球化学和同位素数据表明,帕米尔中部和南部都经历了从幼年下地壳到古老的中下地壳物质的地壳熔融,印度地壳物质从大约 20 Ma 开始被纳入南帕米尔白榴石的熔融区域。我们的研究强调了一系列事件之间的因果联系,包括岩石圈变薄和板块断裂引起的岩浆下溢、岩石圈脱层和印度岩石圈的下推,以及帕米尔新生代花岗岩的形成。本文将这一系列过程纳入印度-亚洲碰撞期间帕米尔地球动力演变的综合模型中。
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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