不同造岩矿物中磷灰石包体微量和卤素成分揭示岩浆演化过程:以中国普朗斑岩型Cu-Mo-Au矿床为例
编号:625 稿件编号:1568 访问权限:仅限参会人 更新:2021-06-12 22:37:05 浏览:694次 口头报告

报告开始:2021年07月11日 10:40 (Asia/Shanghai)

报告时间:10min

所在会议:[S14A] 14A、矿产与资源 » [S14A-1] 14A、矿产与资源 专题14.1 斑岩成矿系统及层圈相互作用

暂无文件

摘要
Reading the geochemical record of magma mixing and degassing processes in the formation of porphyry deposits is critical in order to fully understand and quantify the processes that lead to metal deposition. Here, the halogens and trace element compositions of apatite inclusions shielded within magmatic biotite, low-Al amphibole, feldspar, and groundmass in the pre-ore quartz diorite porphyry (QDP), the syn-ore quartz monzonite porphyry (QMP), and the mafic microgranular enclaves (MMEs) from the giant Pulang porphyry Cu-Mo-Au deposit were present to interpret its behaviors during the late magmatic-hydrothermal translation stage. The biotite-hosted apatite inclusions with 0.01 ~ 1.01 wt.% SO3 and variable XF/XCl (7.14 ~ 80.48) from the QMP were crystallized in an adakitic magma chamber, which was probably injected with a S-rich mafic melt (MMEs-hosted apatites with 0.14 ~ 0.37 wt.% SO3). The broad range of XF/XCl (12.30 ~ 964.35) from the amphibole-hosted apatite inclusions of the QMP, together with its lower SO3 (0.01 ~ 0.65 wt.%) contents, are mostly ascribed to losses of volatiles triggered by the magma degassing. Whereas, those from the barren QDP systematically returns very low sulfur concentrations (< 0.05 wt.% SO3) and limited XF/XCl (22.36 ~ 160.85), indicating a lacking of the above magma mixing and degassing process. Such open magmatic processes are also contributed to the sharp ƒO2 (ΔFMQ = +0.7 ~ +1.6) decrease of magmatic biotite, and the following ƒO2 (ΔFMQ = +2.7 ~ +3.7) increase of low-Al amphibole at very shallow depth (< 4 km). The low-Al amphibole-hosted apatite of QMP show lower Sr/Y (0.61 ~ 0.81) and Mg (61 ~ 78 ppm) contents than those crystallized in biotite, plagioclase and groundmass, but conversely elevated Eu/Eu* (0.55 ~ 0.73) values, also indicating a fluid saturation and high ƒO2 condition caused by the magma degassing. The remain apatite inclusions of the QMP exhibit consistent Sr/Y ratios (2.21 ~ 3.62) with decreasing Mg contents (119.06 ~ 528.79 ppm), suggesting that these inclusions are likely co-crystallized with biotite, earlier than the plagioclase crystallization. Whereas, none variations occur both in the Sr/Y ratios (0.82 ~ 0.97) and Mg contents (11.24 ~ 42.67 ppm) of most apatite inclusions in groundmass of the QDP, possibly indicating that these inclusions crystallize later than biotite, low-Al amphibole and plagioclase. Therefore, the magma mixing and degassing processes, together with the fraction of primary minerals, could both cause large variations in apatite trace elements. Overall, the mafic magma recharge model could generate the sulfur fluxing events in the biotite-hosted apatites from the QMP, and likely triggered the extensive magma degassing at the crystallization of low-Al amphibole in the Pulang porphyry Cu-Mo-Au deposit.
 
关键字
磷灰石,挥发分,微量元素,镁铁质岩浆补充,普朗斑岩矿床
报告人
张少颖
中国地质大学(北京)

稿件作者
张少颖 中国地质大学(北京)
杨立强 中国地质大学(北京)
和文言 中国地质大学(北京)
发表评论
验证码 看不清楚,更换一张
全部评论
登录 会议管理 酒店预订 提交摘要