赣南旱叫山复式花岗岩年代学、地球化学特征及地质意义OA
Geochronology,geochemistry,and geological implications of the Hanjiaoshan composite granite,southern Jiangxi
赣南地区广泛分布着与大规模钨锡成矿关系密切的燕山期高分异花岗岩,但与铌、钽、锂等稀有金属成矿有关的高分异花岗岩体报道较少.旱叫山复式岩体是赣南为数不多的与稀有金属成矿相关的花岗岩体.本文以旱叫山复式岩体为对象,在详细的野外调查基础之上,开展了花岗岩的岩石学、岩石地球化学和同位素年代学研究.旱叫山复式岩体从早到晚可划分为粗粒黑云母二长花岗岩、不等粒黑云母二长花岗岩和细粒黑云母二长花岗岩3个侵入阶段,对应的LA-ICP-MS独居石U-Pb同位素年龄分别为143.7±1.0Ma、144.5±1.8 Ma、143.4±1.5 Ma,成岩时代在误差范围内一致,均归属于早白垩世.岩石SiO2(76.58%~76.90%)、全碱(6.97%~9.03%)含量较高,Al2O3(12.35%~14.41%)和 P2O5(0.007%~0.011%)含量低,TFeO/MgO 比值(5.85~169.02)、A/CNK 值(0.99~1.57)及DI值(92.5~96.8)高,属高分异花岗岩.稀土总量较高(ΣREE=197.2×10-6~510.6×10-6)、轻重稀土中等分异、Eu亏损明显(δEu=0.011~0.032),轻稀土富集,且四分组效应明显(TE1,3=0.88~1.13).相对富集Rb、K、Pb,亏损Sr、Ba、Nb、P等,Li含量为17.3×10-6~370×10-6,F含量为2 682×10-6~6 265×10-6.旱叫山复式岩体粗粒黑云母二长花岗岩、不等粒黑云母二长花岗岩和细粒黑云母二长花岗岩均具S型花岗岩特征,推测岩浆主要源于地壳泥质岩,其形成与早白垩世板内伸展环境有关.旱叫山复式岩体岩相复杂,显示高分异特点,具备稀有金属成矿潜力,指示赣南地区燕山晚期大规模钨锡成矿之后,仍发育有与稀有金属成矿有关的高分异花岗岩.
Highly fractionated granites of the Yanshanian Period are widely distributed in the southern Jiangxi(Gannan)region,and are closely associated with large-scale W-Sn mineralization.However,there are relatively few reports on highly fractionated granitic plutons related to the mineralization of rare metals such as Nb,Ta,and Li.The Hanjiaoshan composite pluton is one of the few granitic bodies in the southern Jiangxi associated with rare metal mineralization.This study focuses on the Hanjiaoshan composite pluton.Based on detailed field investigations,petrological,petrochemical,and isotopic geochronological studies were conducted on the granites.The Hanjiaoshan composite pluton can be divided into three intrusive phases(from early to late):coarse-grained biotite monzogranite,inequigranular biotite monzogranite,and fine-grained biotite monzogranite.LA-ICP-MS monazite U-Pb isotopic ages for these phases are 143.7±1.0 Ma,144.5±1.8 Ma,and 143.4±1.5 Ma,respectively.These ages are consistent within error,all belonging to the Early Cretaceous.The rocks exhibit high SiO2(76.58%~76.9%)and total alkali(6.97%~9.03%)contents,low Al2O3(12.35%~14.41%)and P2O5(0.007%~0.011%)contents,high TFeO/MgO(5.85~169.02),A/CNK(0.99~1.57)ratios,and differentiation DI(92.5~96.8).These characteristics classify them as highly fractionated granites.They show relatively high total rare earth element(ΣREE)contents(197.2×10-6~510.6×10-6),moderate fractionation between light and heavy REEs(LREEs and HREEs),significant negative Eu anomalies(δEu=0.011~0.032),LREE enrichment,and an indistinct tetrad effect(TE1,3=0.88~1.13).The rocks are relatively enriched in Rb,K,and Pb,but depleted in Sr,Ba,Nb,and P.Li contents range from 17.3×10-6 to 370×10-6,and F contents range from 2 682×10-6 to 6 265× 10-6.The coarse-grained biotite monzogranite,inequigranular biotite monzogranite,and fine-grained biotite monzogranite of the Hanjiaoshan pluton all exhibit characteristics of S-type granites.It is inferred that the magmas were primarily derived from crustal pelitic sources and their formation was related to an intraplate extensional setting during the Early Cretaceous.The complex lithofacies and highly fractionated characteristics of the Hanjiaoshan composite pluton indicate potential for rare metal mineralization.This suggests that highly fractionated granites related to rare metal mineralization continued to develop in the Gannan region after the large-scale Late Yanshanian W-Sn mineralization event.
贺彬;吴正昌;徐喆;陈以良;张芳荣;熊燕云;周渝;符海明;孙超;张福神
关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009||铀资源探采与核遥感全国重点实验室,东华理工大学 南昌 330013关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009||铀资源探采与核遥感全国重点实验室,东华理工大学 南昌 330013关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009关键矿产资源勘查与开发江西省重点实验室,江西省地质调查勘查院基础地质调查所 南昌 330009
天文与地球科学
花岗岩地球化学独居石U-Pb同位素燕山晚期旱叫山赣南
GraniteGeochemistryMonazite U-Pb isotopeLate Yanshan PeriodHanjiaoshanSouthern Jiangxi
《地质科学》 2026 (2)
359-381,23
关键矿产资源勘查与开发江西省重点实验室开放课题项目(编号:GJKC2024KF01)、江西省地质局科技研究项目(编号:2025JXDZKJKY01)、江西省"科技+地质"联合计划项目(编号:2023KDG01003)和江西省地质局青年科学技术带头人培养计划项目(编号:2022JXDZKJRC04)资助
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