^(40)Ar-^(39)Ar Age of K-feldspar from K-feldspar Granite in the Qiaohuote Copper Deposit, Bayanbulak, Xinjiang, and Its Geological Significance

By using the 40Ar-39Ar chronological method to date K-feldspar from K-feldspar granite in the Qiaohuote copper district, the authors obtained a plateau age of 274.78±0.44 Ma and an isochron age of 272.7±3.0 Ma. Because there is no tectonic deformation overprinted or hydrothermal alteration in the K-feldspar granite intrusion after its emplacement, the 40Ar-39Ar age represents the crystallization age of K-feldspar in K-feldspar granite, i.e. the late crystallization age of the K-feldspar granite intrusion, which indicates that the K-feldspar granite formed in the intraplate extensional stage during the Early Permian. Moreover, based on the spatial relationship between the K-feldspar granite intrusion and copper orebodies, variations of copper ore grade, REE characteristics of K-feldspar granite and copper ores, and H and O isotopic compositions of fluid inclusions in copper ores, the metallogenesis of the Qiaohuote copper deposit is directly related to intrusive activities of the K-feldspar granite, and thus the crystallization age of K-feldspar in the granite approximately approaches the metallogenic epoch of the Qiaohuote copper deposit.

Experimental Study on the Mechanism for the Formation of Sn- bearing Granite in Northern Guangxi

Experimental results have proved that the Xuefengian Sn-bearing biotite granites were formed by remelting and recrystallization of the Proterozoic metamorphic rocks of the Sibao Group at 500× 105-2000× 105 Pa and 750-570℃ and further testified that the F- and B-bear-ing aqueous solution played an important part in decreasing the formation temperature of the rocks. The results tally with the reality of the field geology. The authors have thus brought to light the mechanism for the formation of the Sn-bearing biotite granites and expounded the significance of their formation in the crust dynamics of South China.

LA-ICP-MS zircon U-Pb dating of the Kunlunguan A-type granites in Guangxi Province,South China and its geological significance

The Kunlunguan biotite granite pluton, located in the southwestern part of the Nanling Mesozoic granite belt, is controlled by the NW-trending Nandan-Kunlunguan deep fault. LA-ICP-MS zircon U-Pb dating yielded a weighted mean 206Pb/238U age of 93.0±1 Ma (MSDW=1.7) for the main part of the pluton, implying its Late Creta-ceous intrusion. The Kunlunguan body is a high-K calc-alkaline rock characterized by high silicon, alkali and alu-minum, and low phosphorus and titanium. SiO2 contents of the Kunlunguan body range from 68.13% to 72.61% and K2O/Na2O ratios from 1.28 to 1.87. A/CNK values vary from 0.76 to 1.42, indicating a metaluminous to intensively peraluminous character. The rocks are enriched in Ga, Rb, Th, U and Pb but depleted in Ba, Nb, Sr, P and Ti. The REEs are characterized by remarkable negative Eu anomalies (Eu/Eu*=0.53-0.73) and exhibit right-inclined "V"-shaped patterns with LREE enrichment. Petrology, major and trace elements data all indicate that the pluton is aluminous A-type granite which intruded in a post-collisional extensional tectonic setting. It is related to back-arc extension, reflecting high-angle subduction of the paleo-Pacific plate, caused by northward movement of the Indian plate. The Nandan-Kunlunguan A-type granites belt, together with similar plutons in the coastal areas of Zhejiang and Fujian provinces, represent the two A-type granite belts under a matching tectonic system.

赣西北麦斜岩体岩石成因:来自黑云母矿物化学的约束

黑云母是花岗岩常见的暗色矿物之一。黑云母化学成分变化是寄主岩浆固结成岩时不同的物理化学条件下所对应的结果,因此,黑云母化学成分很好地记录了寄主岩浆的属性,对黑云母开展矿物化学成分的研究可以有效地反演寄主岩岩浆演化和成岩过程的物理化学条件,指示岩石的成因类型、岩浆物质来源等信息(Wones and Eugster,1965)。

西昆仑大红柳滩花岗岩中黑云母地球化学特征及地质意义

西昆仑大红柳滩岩体被认为与伟晶岩锂(铍)矿化密切相关。为约束大红柳滩岩体形成时的物理化学条件、岩石成因类型及源区性质,本文选取大红柳滩岩体作为研究对象,对花岗岩中的黑云母进行背散射观察(BSE)和电子探针分析(EPMA)。研究结果表明:大红柳滩二云母花岗岩与正长花岗岩中的黑云母属铁质黑云母,具有富硅、铝、铁和钾,贫镁、锰、钠和钙的特征;黑云母花岗岩中黑云母为铁质黑云母和镁质黑云母,具有富镁,贫铝、铁的特征。二云母花岗岩和正长花岗岩中黑云母具有高的AlⅥ值(0.7~0.9),与电气石、石榴子石和白云母等过铝质矿物共存。黑云母花岗岩中的黑云母具有高的MgO含量(9.30%~10.11%),黑云母与角闪石共存。通过黑云母成分估算二云母花岗岩、正长花岗岩及黑云母花岗岩中黑云母结晶温度分别为661℃~673℃、621℃~669℃、685℃~714℃,固结压力分别为332~404 MPa、356~377 MPa、248~270 MPa,对应侵位深度分别为12.46~14.98 km、13.18~14.38 km、9.18~10.01 km,氧逸度分别为-15.8~-15.0、-16~-15、-14.9~-14.0。综合研究结果表明,大红柳滩地区二云母花岗岩与正长花岗岩为壳源物质重熔的产物,具有典型强过铝质S型花岗岩的特点,而黑云母花岗岩是具有幔源物质混入成因的I型花岗岩。本研究成果为大红柳滩岩体不同岩性花岗岩成岩时的物理化学条件、岩石成因类型以及源区性质等方面提供了新资料。

桂北加里东期越城岭岩体和都庞岭西体黑云母矿物化学特征对比及对成岩成矿指示

加里东期越城岭岩体和都庞岭西体同处于南岭西段W-Sn-Cu多金属成矿带,但二者成矿能力不同。越城岭岩体以铁质黑云母为主,形成于相对低温(平均531℃)和高压(平均277 MPa)环境,具有贫镁(MgO平均8.05%、X_(Mg)=0.39),富铁(FeOT平均22.4%、I_(Fe)=0.61)、铝(Al_(2)O_(3)平均16.8%)等特征;都庞岭西体以镁质黑云母为主,形成于高温(平均687℃)和低压(平均194 MPa)环境,具有富镁(MgO平均11.9%、X_(Mg)=0.56),贫铁(FeOT平均17.0%、I_(Fe)=0.45)、铝(Al_(2)O_(3)平均15.5%)等特征。综合岩相学和前人全岩分析结果表明,越城岭岩体具有S型花岗岩特征,其岩浆可能主要来自上地壳变质泥岩的部分熔融,而都庞岭西体具有I-S过渡型花岗岩的特征,其岩浆可能主要来自壳幔混合源区岩浆岩的部分熔融。越城岭岩体具有变质泥岩源区岩浆岩属性、低氧逸度(log f_(O_(2))=-23.6)、富氟(F平均1.10%、IV(F)=1.62、IV(F/Cl)=6.00,log(f_(H_(2)O)/fHF)^(fluid)=4.78)、高铁指数(XFe=0.58)及高结晶分异程度(log(f_(H_(2)O)/f_(HCl))^(fluid)=5.10,log(fHF/f_(HCl))^(fluid)=0.10)等特征,指示其具有较好的钨及一定的铜成矿潜力;而都庞岭西体具有壳幔混合源区岩浆岩属性、较低的氧逸度(log f_(O_(2))=-17.3)、富氯(Cl平均0.04%,log(fHF/f_(HCl))^(fluid)=-0.36)、中等铁指数(XFe=0.41)及较低的结晶分异度(log(f_(H_(2)O)/f_(HCl))^(fluid)=4.41,log(fHF/f_(HCl))^(fluid)=-0.36)等特征,指示其局部可能有一定的铁成矿潜力。综合分析认为,岩石成因、源区性质以及成岩过程的物化条件是制约越城岭岩体和都庞岭西体不同类型金属成矿能力的重要因素。

黑云母温度计能否用于估计花岗质侵入岩的结晶温度?

为了探讨黑云母温度计是否适用于估计花岗质侵入岩的结晶温度,汇编了国内外典型花岗质侵入体的岩石化学和矿物化学数据,利用Henry等(2005)的黑云母Ti饱和温度计、Li和Zhang(2022)的黑云母全组分温度计估算了岩浆温度,并与Shao等(2020)的锆饱和温度计估算结果进行了对比。结果表明,黑云母Ti饱和温度计估算的温度比锆饱和温度计和黑云母全组分温度计低50~200℃,因此认为黑云母Ti饱和温度计并不适用于估算花岗质侵入岩的结晶温度,而黑云母全组分温度计可以复现S型和I型花岗岩的锆饱和温度计结果。

U-Pb Zircon Dating of the Yeniutan Granitic Intrusion in the Western Sector of the North Qilian Mountains

Zircons from granodiorite and biotite granite in the Yeniutan granitic intrusion in the western North Qilian Mountains yielded a weighted mean 206Pb/238U apparent age of 460±3 Ma, suggesting that the intrusion originated during the late stage of plate subduction. Its related Ta'ergou and Xiaoliugou deposits are two of the few large tungsten deposits formed in the plate subduction environment in the world. The U-Pb dating of the zircons from the biotite granite gave a discordant lower intercept age of 183±4 Ma, which implies that the Yanshanian event was probably superimposed on the North Qilian region.

东秦岭东段五垛山花岗岩基白草垛花岗伟晶岩微量元素富集型锆石特征及岩浆热液过程

锆石是岩石中常见的副矿物,锆石晶体结构和地球化学特征的变化可以记录热液蚀变过程。东秦岭东段白草垛花岗伟晶岩中识别出三种类型锆石。类型一锆石具有明显的振荡环带,部分锆石边部有少量裂隙,微量元素含量相对较低,重稀土元素(HREE)富集,具明显Ce的正异常和Eu的负异常,指示其为岩浆锆石。类型二锆石具核-幔-边结构,边部裂隙发育,核部与类型一锆石具有相似的CL和微量元素特征,为岩浆锆石;幔部呈深色海绵状,内部结构不均匀,偶见环带锆石残留,微量元素含量较高,具有较高的U和Th含量,Ce异常不明显,具热液锆石特征,为热液沿着裂隙进入锆石内部不完全热液改造的结果。类型三锆石的结构特征和微量元素含量与类型二锆石的幔部相似,具有异常高U和Th含量以及较高的Dα值,为类型二锆石近完全热液改造的结果。花岗伟晶岩作为岩浆演化晚期的产物,经过结晶分异,残留的岩浆热液富集微量元素,岩浆热液沿着锆石的裂隙进入晶体内部对锆石经过不同程度热液改造,形成了花岗伟晶岩中不同类型的锆石。

滇东南个旧矿区花岗岩黑云母成分特征及其对锡成矿的指示

滇东南个旧矿区发育有著名的超大型锡多金属矿床,该矿床的形成与花岗质岩浆活动密切相关。本文利用电子探针分析技术对个旧矿区花岗岩中的黑云母开展研究;研究结果表明,黑云母表现出富铝铁、贫镁钙的特征,其FeO^(T)含量为22.81%~26.17%,含铁指数为0.75~0.81,属于富铁黑云母。黑云母的化学组成特征显示其具有较高的结晶温度(616℃~691℃)、结晶压力(318~403 MPa)和结晶深度(12.03~15.24 km),以及较低的氧逸度(logf_(O_(2))=-19.74~-17.05)。综合研究表明,个旧矿区花岗岩源区物质复杂,具有多源性;花岗岩中黑云母整体表现出高铁指数和较低氧逸度等特征,是锡成矿的有利条件。

滇东南薄竹山雷达站花岗岩黑云母矿物化学特征与成岩成矿

黑云母是花岗岩中最常见的暗色矿物,其成分特征可以指示岩石成因和成矿环境。薄竹山雷达站花岗岩中黑云母矿物化学成分表明该花岗岩中的黑云母属于铁镁质黑云母,Ti温度计计算的黑云母结晶温度为665~756℃,结晶氧逸度介于-12~-16之间,其固结压力为98.44~386.29 MPa,对应的形成深度为3.72~14.60 km,表明薄竹山雷达站花岗岩形成于中深成环境。w(Al_(2)O_(3))含量高以及原生白云母的出现表明该花岗岩可能属于S型花岗岩。黑云母中w(MgO)含量为7.52%~9.99%,镁质率(I_(Mg))为0.41~0.50,氧化系数为0.075~0.167,以及Mg/(Fe^(3+)+Fe^(2+)+Mg+Mn)值>0.38均指示雷达站花岗岩兼具I型花岗岩的特征,雷达站花岗岩岩浆源区具有壳幔混合的特点。中高温及低氧逸度的成岩环境有利于W、Sn矿床的形成,I型花岗岩的特点利于Cu、Pb、Zn、Ag矿床的形成。

高铁镁S型花岗岩成因剖析——以华南早古生代金溪花岗岩为例

S型花岗岩是大陆上地壳分布最广泛的火成岩,般被认为起源于古老变质沉积岩的部分熔融。近年来,越来越多的研究指出世界上有些S型花岗岩,比如南非Cape花岗岩岩基、美国Cardigan岩体以及中国九岭岩体等.

泰国北部花岗岩黑云母成分特征及其对锡成矿作用的制约

本文通过电子探针分析对采自泰国北部成矿(沙蒙矿床)和贫矿(Tak岩体)花岗岩体中的黑云母开展了对比研究,以期厘清花岗岩制约锡成矿的控制因素。结果显示,成矿和贫矿花岗岩中的黑云母均属于岩浆成因,前者偏铁质,具有S型花岗岩黑云母成分特征;后者偏镁质,与I型花岗岩黑云母成分一致。利用机器学习拟合的黑云母温压计,估算成矿花岗岩早期岩浆结晶温度和压力分别为812~858℃(平均835℃)和702~882 MPa(平均781 MPa),而贫矿岩体对应的温度和压力分别为795~833℃(平均811℃)和188~373 MPa(平均226 MPa)。两类花岗岩具有明显不同的侵位深度、岩浆氧逸度和初始挥发分。研究表明,在伸展构造体制下,深部地壳的富F变沉积岩高温熔融形成的还原性岩浆,经长距离运移至较浅的深度侵位更有利于锡成矿。

东昆仑东段早泥盆世“A”型花岗岩的确定——来自乌兰东地区都南哑合黑云母花岗岩锆石U-Pb年代学、元素地球化学证据

都南哑合岩体位于东昆仑东段乌兰东呼德生地区,通过对岩体锆石U-Pb定年和岩石地球化学进行研究,分析该岩体成因及构造背景。结果表明:都南哑合岩体主要为黑云母花岗岩,锆石^(206)Pb/^(238)U加权平均年龄为(413.3±2.1)Ma,岩体结晶年龄为早泥盆世;岩石属准铝质-过铝质高钾钙碱性系列,具高硅,SiO_(2)=71.13%~74.67%、富碱,Na_(2)O+K_(2)O=8.3%~9.26%,低铝,Al_(2)O_(3)=12.28%~13.56%、贫钛,0.15%~0.31%、贫镁,0.22%~0.34%及富钾特征。K_(2)O/Na_(2)O=0.69~1.64,平均1.36;稀土元素分布曲线呈强负铕,δEu=0.18~0.42,平均0.26,异常轻稀土富集的右倾型;富集大离子亲石元素Rb,K和高场强元素Th,La,Ce,Nd。Ba相对亏损,Sr强亏损;明显亏损高场强元素P,Ti,弱富集Nb,Ta,Sm,Zr,Hf,Y,Yb,整体具“A”型花岗岩特征。结合区域地质资料及判别图解认为,都南哑合岩体形成于后碰撞伸展构造环境,为中-下地壳物质的部分熔融及后期的分离结晶作用形成。

滇东南老君山花岗(斑)岩黑云母矿物化学特征及其对成岩成矿的指示意义

黑云母作为花岗岩中最常见的暗色矿物,其成分特征对研究岩石的形成环境和成矿潜力具有重要指示意义。滇东南老君山燕山期花岗(斑)岩中黑云母富Si、Al、Fe、K和F,相对贫Ti、Mg、Mn和Na。SiO2、Al2O3、FeOT、K2O和F含量分别为33.20%~37.67%、18.83%~21.81%、22.53%~26.73%、7.89%~9.85%和0.63%~2.65%;TiO2、MgO、MnO和Na2O含量分别为1.63%~3.31%、1.63%~6.41%、0.21%~1.02%和0.02%~0.22%。其含铁指数Fe/(Fe+Mg)值较高,集中在0.68~0.89之间,大部分属于铁叶云母,少量为铁质云母。利用黑云母Ti饱和温度计和Al压力计估算的岩体结晶温度和压力分别为528~669℃和381~522 MPa。这些花岗(斑)岩的氧逸度相对较低(log?O2=-18.3~-15.5)。综上,黑云母具有较高的含铁指数和结晶温度,以及较低的氧逸度,均指示该岩体具有较好的W、Sn成矿潜力。

早白垩世华北克拉通东部岩石圈减薄过程和机制:来自辽宁本溪北大山岩体的证据

早白垩世华北克拉通岩石圈经历了巨厚减薄事件,但减薄过程及机制仍存在较大争论。本文对位于华北克拉通东部辽宁本溪地区的北大山岩体进行了野外地质调查、岩相学、地球化学、锆石U-Pb定年和Lu-Hf同位素研究,探讨其形成时代、源区和成因,以期得到关于华北克拉通东部早白垩世岩石圈减薄研究的启示。北大山岩体岩性为似斑状黑云二长花岗岩,锆石LA-ICP-MS U-Pb同位素测年结果显示,花岗岩的^(206)Pb/^(238)U加权平均年龄为(117.1±1.4)Ma,表明为早白垩世岩浆活动的产物。北大山岩体似斑状黑云二长花岗岩具有富硅(w(SiO_(2))=69.15%~69.87%)、富碱(w(Na_(2)O+K_(2)O)=8.46%~8.66%)、贫镁(w(MgO)=0.80%~0.90%)、贫钙(w(CaO)=2.03%~2.04%),准铝质(A/CNK=0.98~0.99)的特征;富集Rb、Th、K、Ba等大离子亲石元素,相对亏损Nb、Ta、Ti、P等高场强元素,稀土元素配分曲线为右倾型,轻稀土较陡,重稀土较平缓,花岗岩熔体的锆石饱和温度(763.14~768.87℃)明显低于A型花岗岩(>800℃),以上特征总体表现出高钾钙碱性I型花岗岩特征。锆石Lu-Hf同位素分析表明,锆石εHf(t)值为-21.49~-19.04,均为负值,二阶段亏损地幔Hf模式年龄(t DM2)=2536~2383 Ma,表明其源岩主要为古元古代古老下地壳基性岩的部分熔融。根据年代学和岩石地球化学研究认为,北大山岩体形成于早白垩世时期古太平洋板块俯冲回撤而导致的区域伸展背景环境下,同时,上涌的软流圈引起华北克拉通深部岩石圈发生大规模的拆沉作用,从而致使华北克拉通岩石圈减薄。

上黑龙江盆地前哨林场黑云母二长花岗岩锆石U-Pb年龄、地球化学特征及地质意义

上黑龙江盆地前哨林场位于兴蒙造山带东段额尔古纳微地块北缘,北与西伯利亚古陆以蒙古—鄂霍次克缝合带相隔,东以塔源—喜桂图断裂与兴安地块相邻。本文通过对上黑龙江盆地前哨林场黑云母二长花岗岩进行锆石U-Pb年龄、主微量及同位素地球化学系统研究,为探讨早古生代额尔古纳微地块与相邻地块的碰撞机制提供理论依据。利用LA-ICP-MS锆石U-Pb同位素测定技术,获得研究区黑云母二长花岗岩结晶年龄为(458.4±2.4)Ma(MSWD=0.022),确定了岩体形成时代为早古生代中—晚奥陶纪。岩石中锆石Hf同位素ɛHf(t)值介于–4.64~1.84,其测点大部分位于球粒陨石演化线之下,两阶段模式年龄(tDM2)介于715~1126 Ma。地球化学显示岩石具有富硅、富铝、富碱等特征;稀土配分曲线表现出轻稀土(LREE)相对富集,重稀土(HREE)相对亏损的右倾特征,且岩石相对富集大离子亲石元素Rb、K及高场强元素Th、U、Zr、Hf,相对亏损大离子亲石元素Ba、Sr及高场强元素Nb、Ta、P、Ti。岩石成因类型判别图显示前哨林场黑云母二长花岗岩具A型花岗岩特征,岩石Hf同位素及微量元素特征显示岩体岩浆来源于中—新元古代古老地壳的熔融,且存在少许幔源物质及新增生地壳物质熔融的参与,元素特征暗示岩石形成于额尔古纳地块与西伯利亚古陆碰撞后的伸展构造环境背景下。结合前人对额尔古纳地块早古生代花岗岩形成背景的研究,认为额尔古纳地块北缘及东北缘早古生代花岗岩形成机制不同,前者形成于额尔古纳地块与西伯利亚古陆及蒙古—图瓦地块碰撞、拼接后伸展背景下;后者主要形成于额尔古纳与兴安地块碰撞伸展背景下。

岩浆性质对个旧超大型锡矿区不同花岗岩成矿潜力差异的控制

云南个旧锡矿是全球最大的锡多金属矿床之一,但矿区内同时代花岗岩成锡矿潜力差异显著,其控制因素仍不清楚。本文选取贫矿的龙岔河似斑状花岗岩和成锡矿的老厂-卡房(后文简称老-卡)花岗岩为研究对象,通过全岩地球化学成分和黑云母成分分析,系统研究个旧矿区不同花岗岩成锡矿潜力差异的控制因素。测试结果表明,龙岔河花岗岩和老-卡花岗岩具有相似的、以表壳物质为主的岩浆源区以及较高的初始熔融温度,表明岩浆源区和熔融条件不是控制二者成矿潜力差异的主要原因。黑云母成分显示老-卡花岗岩和龙岔河花岗岩均具有较低的氧逸度,岩浆演化过程中锡为不相容元素,有利于锡在残余熔体中富集,表明氧逸度条件也不是导致成矿潜力差异的关键因素。龙岔河花岗岩发育角闪石、榍石、黑云母,而老-卡花岗岩发育岩浆白云母,指示后者分异程度更高。此外,与龙岔河花岗岩相比,老-卡花岗岩具有富硅,贫钛、铁、镁、钙和稀土元素特征,稀土元素呈现“海鸥式”配分模式,并且具有较低的Nb/Ta、Zr/Hf、K/Rb和较高的Rb/Sr比值,同样指示老-卡花岗岩具有更高的结晶分异程度。并且相比于龙岔河花岗岩为准铝质的特征,老-卡花岗岩的过铝质特征有利于锡分配进入岩浆出溶的流体相中富集成矿。因此,岩浆性质和演化程度是导致个旧地区不同花岗岩成矿潜力差异的主要原因,龙岔河花岗岩形成锡矿化的潜力较小。

Mineral Chemistry of Biotite and Its Petrogenesis Implications in ca.2.5 Ga Wangjiazhuang Granitic Pluton,North China Craton

The Wangjiazhuang granitic pluton is located in the central Zanhuang Domain,the central part of the North China Craton,which is mainly composed of biotite monzogranite with few mafic microgranular enclaves.Biotite is an important ferromagnesian mineral in most of the intermediatefelsic igneous rocks,and its mineral chemistry can record the properties of magma and the petrogenetic physicochemical conditions.In this study,we carried out a detailed petrographic study by electric probe microanalysis on biotite for the biotite monzogranite and mafic microgranular enclaves,to discuss the source,physicochemical conditions,and the magma mingling/mixing processes of the Wangjiazhuang granite.The results show significantly different chemical compositions from the biotite monzogranite and mafic microgranular enclaves.The crystallization of these biotite grains from the biotite monzogranite and mafic microgranular enclaves all occurred in low oxygen fugacity.The biotite grains in biotite monzogranite are rich in Fe,poor in Mg,which belong to siderophyllite.The ratios of[(Fe^(3+)+Fe^(2+))/(Fe^(3+)+Fe^(2+)+Mg2+)]are between 0.78 and 0.86.The average of FeOT(total FeO)/MgO of biotite grains in biotite monzogranite is 9.02.The MF values[2×Mg/(Fe^(2+)+Mg+Mn)]of biotite monzogranite are between 0.31 and 0.47,suggesting biotite monzogranite derived from crustal source rocks(metasedimentary rocks).The formation of granitic rocks including the Wangjiazhuang granite was related to the subduction event at ca.2.5 Ga which resulted in the melting event,and then induced the early partial melting of TTGs and metasedimentary rocks.The biotite in mafic microgranular enclaves varies from siderophyllite to ferrobiotite,and MF values range from 0.63 to 1.06,suggesting that magma of mafic microgranular enclaves had experienced magma mixing/mingling in various degrees.Biotite monzogranite and parts of mafic microgranular enclaves have a similar crystallized condition,while other mafic microgranular enclaves are different from biotite monzogranite.The differences between biotite monzogranite and mafic microgranular enclaves may be a consequence of continuous interaction between granitic and mafic magmas.

Trace elemental behavior during chemical weathering: A case study of biotite-granitic weathering profile in Longnan, Jiangxi Province, China

THE study of chemical weathering processes can provide significant insight into not only the behavior ofmigration, deposition and accumulation of REEs and other elements (e.g. Au, Fe, Al ), but also themechanism of material cycle on the surface of the earth, especially the relationship between detrital sediments and provenance. Lateritic profiles are widespread in southern China, where two kinds of valuable supergene deposit occur. One is "ion-adsorbed" REE ore deposit; the other is lateritic gold ore deposit. This study is to investigate the mobility and fractionation of major and trace elements and mineralogical variations during chemical weathering of biotite granite in Longnan, Jiangxi Province, China, andto provide significant data for a better understanding of the relationships between weathering of