川西义敦岛弧中生代典型花岗岩体矿物学、地球化学特征及岩浆来源探讨   总被引：2，自引：0，他引：2  

王楠  吴才来  秦海鹏 《地质论评》2017,63(4):981-1000

义敦岛弧是位于松潘—甘孜褶皱带和羌塘地体之间的三叠纪火山岛弧。稻城岩体和海子山岩体分别为义敦岛弧上出露的晚三叠世和白垩纪花岗质岩体。结合岩石地球化学,以及偏光显微镜和电子探针(EPMA)、扫描电镜(SEM)对上述岩体进行了系统的矿物学研究,结果表明:两个岩体的主要造岩矿物为斜长石(中长石—更长石),钾长石(正长石)、石英和黑云母(铁叶云母—铁质黑云母),副矿物为锆石、榍石、磁铁矿和磷灰石等;黑云母的成分表明两个岩体的源区均为壳幔混源。稻城岩体属高钾钙碱性系列,具过铝质特征的花岗岩,海子山岩体为高钾钙碱性—钾玄岩系列,同样具过铝质特征。根据锆元素饱和浓度温度计和稀土元素饱和浓度温度计对两个岩体进行了温度限定,稻城岩体岩浆形成的平均上限温度为783℃,海子山岩体岩浆形成时的平均上限温度为844℃。结合前人研究结果,笔者等认为稻城岩体为高分异I型花岗岩,可能为与扬子克拉通有关的晚古元古代至早中元古代的下地壳物质,在甘孜—理塘洋向西俯冲和闭合之后的弧—陆同碰撞背景下,因幔源岩浆的底侵作用而发生部分熔融,同时伴有少量的亏损地幔成分加入,因密度上升至中上—上地壳深度侵位,并且侵位后经历了快速的冷却过程,在侏罗纪之初冷却至300℃以下;海子山岩体为与俯冲有关的造山后伸展环境下形成的白垩纪A2型花岗岩,岩浆来源同样为地壳物质伴有少量地幔物质混合而成,且在地壳中侵位深度较浅,之后经历快速的冷却过程。  相似文献   

香港花岗岩风化分级化学指标体系与风化壳分带   总被引：10，自引：3，他引：7  

吴宏伟  尚彦军 《工程地质学报》1999,7(2):125-134

火成岩的化学风化过程实质上就是碱、碱土金属组分水解淋失与脱硅富铁铝化的地球化学过程。不同风化程度的岩石处于整个化学风化过程的不同阶段,因而具有不同的化学成分和风化度指标。笔者在对香港九龙两个地方5个钻孔共计150件不同深度、不同风化程度的样品化学全分析结果与岩土风化程度宏观判别结果的相互对比、选择和确认的基础上,建立了香港地区花岗岩风化岩土风化程度工程分级的化学指标体系。这一研究成果的提出不仅有利于提高花岗岩风化岩土工程分类的科。学性、可靠性和实用性,而且可以为风化岩土工程特性与风化作用关系研究提供理论依据。  相似文献   

Zircon U–Pb and Lu–Hf systematics of the major terranes of the Western Superior Craton,Canada: Mantle-crust interaction and mechanism(s) of craton formation     

《Gondwana Research》2020

Paleo-to Neoarchean granitoid gneisses (ca. 3.30 to 2.49 Ga) are well preserved in the Western Superior Craton. Protoliths of these gneisses are mainly I-type granitoids characterized by high Sr/Y and La/Yb ratios and low Mg#, consistent with Archean tonalite-trondhjemite-granodiorites. Zircons from granitoid gneisses commonly contain three growth phases: inherited cores (zircon I), magmatic rims (zircon II) and outer rims that have undergone Pb-loss (zircon III). The 3.12 Ga to 2.86 Ga zircon I represent early crustal material, that was captured in younger zircons; zircon II preserve crustal re-working and younger crustal additions that are constrained between 2.85 to 2.72 and 2.69 to 2.65 Ga.Zircon II contains both positive and negative εHf(t) values (−6.3 to +8.1), with both depleted-mantle and older crustal signatures. Half of the magmatic rims (II) are characterized by depleted mantle signatures with positive εHf(t) values representing juvenile crust-forming events, whereas the other half are characterized by recycled crustal signatures with negative εHf(t) values. εHf(t) results show that the North Caribou and the Island Lake terranes and the northern Uchi domain are isotopically more enriched than the southern Uchi, English River, Wabigoon and Winnipeg River terranes, suggesting the northern Uchi margin represents a major terrane boundary.Based on mass balance calculations, large volumes of juvenile material at circa 3.0 Ga mixed with smaller amounts of older crust. The vast majority of the granites were derived from a source with about 50% mantle material during the peak crust formation events after 2.8 Ga. The decline in the volume of felsic magmatism in the later Archean is coeval with a reduced supply of both heat and material from depleted mantle sources. Combined with previously published geochemical, geochronological and isotopic data, this suggests an evolution in felsic magma sources consistent with crustal thickening.  相似文献