桂林工学院学报
桂林工學院學報
계림공학원학보
JOURNAL OF GUILIN INSTITUTE OF TECHNOLOGY
2009年
2期
183-194
,共12页
花岗岩%侵位机制%杂岩体%增量生长%花岗岩构造%成矿作用
花崗巖%侵位機製%雜巖體%增量生長%花崗巖構造%成礦作用
화강암%침위궤제%잡암체%증량생장%화강암구조%성광작용
granite%emplacement mechanism%composite pluton%incremental growth%deformation structure%mineralization
在地壳不同层次侵位的花岗岩浆具有不同的温度压力条件,与围岩之间存在不同的密度差和粘度差,加之不同地壳层次存在着不同的岩石流变学特征,导致花岗岩浆在地壳不同层次具有相异的侵位机制和侵位构造特征.一般来说,在下地壳层次侵位的岩体形成于封闭-半封闭环境,不利于岩浆系统中物质和能量的交换以及矿床的形成;在中上地壳层次侵位的岩体因处于相对开放环境,且又经历过一定程度的分异演化过程,因而有利于形成诸如接触交代或其他岩浆热液矿床.由于不同侵位机制的岩浆体系具有不同的机械力和化学活动性,从而产生不同特征的侵入接触构造体系,营造出不同的侵入接触成矿环境.在中上地壳层次侵位的杂岩体以多次脉动、增量式生长为特征,其增量生长方式可表现为反环带-外侵式、正环带-内侵式和不规则-离散式,其中有利于成矿的杂岩体往往表现为反环带-外侵式.
在地殼不同層次侵位的花崗巖漿具有不同的溫度壓力條件,與圍巖之間存在不同的密度差和粘度差,加之不同地殼層次存在著不同的巖石流變學特徵,導緻花崗巖漿在地殼不同層次具有相異的侵位機製和侵位構造特徵.一般來說,在下地殼層次侵位的巖體形成于封閉-半封閉環境,不利于巖漿繫統中物質和能量的交換以及礦床的形成;在中上地殼層次侵位的巖體因處于相對開放環境,且又經歷過一定程度的分異縯化過程,因而有利于形成諸如接觸交代或其他巖漿熱液礦床.由于不同侵位機製的巖漿體繫具有不同的機械力和化學活動性,從而產生不同特徵的侵入接觸構造體繫,營造齣不同的侵入接觸成礦環境.在中上地殼層次侵位的雜巖體以多次脈動、增量式生長為特徵,其增量生長方式可錶現為反環帶-外侵式、正環帶-內侵式和不規則-離散式,其中有利于成礦的雜巖體往往錶現為反環帶-外侵式.
재지각불동층차침위적화강암장구유불동적온도압력조건,여위암지간존재불동적밀도차화점도차,가지불동지각층차존재착불동적암석류변학특정,도치화강암장재지각불동층차구유상이적침위궤제화침위구조특정.일반래설,재하지각층차침위적암체형성우봉폐-반봉폐배경,불리우암장계통중물질화능량적교환이급광상적형성;재중상지각층차침위적암체인처우상대개방배경,차우경력과일정정도적분이연화과정,인이유리우형성제여접촉교대혹기타암장열액광상.유우불동침위궤제적암장체계구유불동적궤계력화화학활동성,종이산생불동특정적침입접촉구조체계,영조출불동적침입접촉성광배경.재중상지각층차침위적잡암체이다차맥동、증량식생장위특정,기증량생장방식가표현위반배대-외침식、정배대-내침식화불규칙-리산식,기중유리우성광적잡암체왕왕표현위반배대-외침식.
This paper provides in-depth reviews and discussions on granitic magma ascent and emplacement mechanisms and their relations to mineralization process.Granite-related mineralization is part of granitic magma evolution process.Consequently,ores generated by the mineralization process are products of the magmatic evolution process.Due to distinct temperature and pressure conditions and different density and viscosity contrasts with their country rocks,granitic magmas emplaced at various rheological crustal levels demonstrate different emplacement mechanisms and mineralization styles.Granites emplaced at deeper crust levels are unlikely mineralized due to a close or near-close magmatic system and lack of elemental and energy exchange with their country rocks.Granites emplaced at shallower crust levels,however,tend to generate a contact-zone mineralization system and/or a hydrothermal mineralization system due to the opening environment and frequent interaction with their country rocks,as well as a prolonged differentiation and fractionation process of the granites themselves.The contact zone systems of granites could also differ from one another due to their distinct emplacement mechanisms at various crust levels,and therefore may show different mineralization styles and characteristics.Examination of growth styles of composite plutons and their likelihood of mineralization suggests that those with reverse concentric zonation and constructed by outward-incremental emplacement of multiple pulses of magmas may tend to significantly contribute to hydrothermal and skarn-type mineralization.