西准噶尔晚古生代成矿构造体系研究
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摘要
成矿构造体系是构造体系与成矿系统的有机结合,它的构建已成为区域成矿规律与矿田构造研究的重要发展方向。本论文在前人研究基础上,选取西准噶尔成矿带及其邻区进行了成矿构造体系的研究。西准噶尔成矿带可能是中亚成矿域巴尔喀什成矿带的东延部分。在西准噶尔地区,平行展布的北东向大型左行走滑断裂构成了与中亚成矿域西部总体构造线方向极不协调的西准噶尔“多字”型构造体系,即“西准系”,同时包含了一系列与一级断裂性质相似的次级断裂,构成了环状旋转构造、“入字”型构造和帚状构造等,它们控制了西准噶尔成矿带晚古生代岩浆活动与成矿作用,例如花岗岩体内元素的分布及区域金铜矿床的产出。庙尔沟岩体是西准噶尔地区典型的海西中期碱长花岗岩岩体,具有高Si、低Al、高钾钙碱性、准铝质到弱过铝质的岩石化学特征,是产于后碰撞环境中的A型花岗岩,岩体的源岩可能为亏损地幔组分在下地壳发生部分熔融的产物,代表了与成矿带内成矿作用密切相关的岩浆活动。巴尔喀什—西准噶尔地区金属矿床类型多样,具有多期成矿的特征。地质年代学和成矿年代学数据表明,巴尔喀什成矿带西部科翁腊德地区存在如下的晚古生代岩浆—成矿序列:二长花岗斑岩侵入(~327.3Ma)→早期斑岩铜成矿作用(稍晚于~327.3Ma)→晚期斑岩铜成矿作用(~315.9Ma)→英云闪长玢岩侵入(~308.7Ma)→早期石英脉—云英岩型钨钼成矿作用(298~295Ma)→碱性花岗岩侵入(~293.6Ma)→晚期石英脉—云英岩型钨钼成矿作用(~289.3Ma)。西准噶尔包古图地区晚古生代岩浆—成矿序列为:花岗闪长斑岩(~335Ma)→闪长玢岩(325~305Ma)→斑岩铜(金、钼)成矿作用(310Ma)。在西准噶尔成矿带中,西准系与晚古生代的斑岩铜(金、钼)成矿系统构成了西准噶尔晚古生代成矿构造体系,将成矿带内的金属矿床在空间上分为加曼—杨庄—萨雷诺海铍-铜-钼-铬-铁-镍成矿区、萨尔托海—哈图—别鲁阿尕西金-铬-铜-镍-铁成矿区和包古图铜-金-铬成矿区三个成矿区;时间上主要集中在海西中晚期。结合区域成矿规律的研究,本论文推测了斑岩型铜矿床、矽卡岩型矿床和石英脉—云英岩型钨—钼矿床在西准噶尔成矿带内的可能成矿远景区及找矿方向。
The organic combination of tectonic systems with mineralization systems brings on the building of mineralizing tectonic systems (MTSs), which will prove to be important for study of regional mineralization and ore-field structural geology. The Western Junggar domino-type tectonic system(WJTS) is composed of the NE-extending left-lateral strike-slip Darabut, Mayile, and Baerleike faults in Western Junggar metallogenic belt(WJMB). Besides, the subordinate NE-extending faults constitute ring-type, λ-type system and broom-type fracture, which controlled the distribution of elements in granitic mass, Cu, Au, Mo deposits in Late Paleozoic in WJMB. Miaoergou mass is the typical alkali-granitic mass with the character of high Si, low Al, high K, which is A-type granite in the post-colision environment. The sourse of granite is probably the product of partial melting of the depleted mantle in low crust. There are many types and phases of metal deposits in WJMB. The date of geochronology show the following magma-metallogenic series in Kounrad of the Balkhash metallogenic belt:diorite-porphyrites (-327.3Ma)→Early porphyry copper deposits (little less than327.3Ma)→Terminal porphyry copper deposits (~315.9Ma)→quartz-biotite-diorite (~308.7Ma)→Early quartz-vein greisen W-Mo deposits (298-295Ma)→Alkali-granitic (~293.6Ma)→Terminal quartz-vein greisen W-Mo deposits (~289.3Ma). The magma-metallogenic seriesin Baogutu:Early granodiorite-porphyry (~335Ma)→Terminal diorite porphyrite (325~305Ma)→Porphyry copper (Au and Mo) deposits (310Ma). All these show that the WJMB is the eastward extension of the Balkhash metallogenic belt. Based on the Western Junggar MTSs, which is composed of WJTS (including other subordinate fault tectonic systems) and Porphyry copper (Au and Mo) mineralization systems in Late Paleozoic, divide3advantaged metallogenic areas, including Be-Cu-Au-Cr area in Jiaman-Yangzhuang-Saleinuohai; Au-Cr-Cu-Ni-Fe area in Saertuohai-Hatu-Bieluagaxi;Cu-Au-Cr area in Bogutu; and delimit potential prospective areas of porphyry copper deposits, skarn deposits and quartz-vein greisen W-Mo deposits.
The organic combination of tectonic systems with mineralization systems brings on the building of mineralizing tectonic systems (MTSs), which will prove to be important for study of regional mineralization and ore-field structural geology. The Western Junggar domino-type tectonic system(WJTS) is composed of the NE-extending left-lateral strike-slip Darabut, Mayile, and Baerleike faults in Western Junggar metallogenic belt(WJMB). Besides, the subordinate NE-extending faults constitute ring-type, λ-type system and broom-type fracture, which controlled the distribution of elements in granitic mass, Cu, Au, Mo deposits in Late Paleozoic in WJMB. Miaoergou mass is the typical alkali-granitic mass with the character of high Si, low Al, high K, which is A-type granite in the post-colision environment. The sourse of granite is probably the product of partial melting of the depleted mantle in low crust. There are many types and phases of metal deposits in WJMB. The date of geochronology show the following magma-metallogenic series in Kounrad of the Balkhash metallogenic belt:diorite-porphyrites (-327.3Ma)→Early porphyry copper deposits (little less than327.3Ma)→Terminal porphyry copper deposits (~315.9Ma)→quartz-biotite-diorite (~308.7Ma)→Early quartz-vein greisen W-Mo deposits (298-295Ma)→Alkali-granitic (~293.6Ma)→Terminal quartz-vein greisen W-Mo deposits (~289.3Ma). The magma-metallogenic seriesin Baogutu:Early granodiorite-porphyry (~335Ma)→Terminal diorite porphyrite (325~305Ma)→Porphyry copper (Au and Mo) deposits (310Ma). All these show that the WJMB is the eastward extension of the Balkhash metallogenic belt. Based on the Western Junggar MTSs, which is composed of WJTS (including other subordinate fault tectonic systems) and Porphyry copper (Au and Mo) mineralization systems in Late Paleozoic, divide3advantaged metallogenic areas, including Be-Cu-Au-Cr area in Jiaman-Yangzhuang-Saleinuohai; Au-Cr-Cu-Ni-Fe area in Saertuohai-Hatu-Bieluagaxi;Cu-Au-Cr area in Bogutu; and delimit potential prospective areas of porphyry copper deposits, skarn deposits and quartz-vein greisen W-Mo deposits.
引文
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