江西雅山花岗岩长石中磷的分布及意义

雅山富氟高磷花岗岩具较高的全岩磷含量（０．１５％～０．５５％）,长石是磷的主要赋存矿物,磷以ＰＡｌＳｉ－２替换方式进入长石结构中。各种结晶习性的长石的磷含量各不相同。早世代钠长石和雪球结构中钠长石包裹体的结晶较早,平均磷含量分别为０．１８％和０．１９％,而晚世代钠长石和环带钾长石中钠长石嵌晶的结晶稍晚,具较高的平均磷含量（分别为０．２５％和０．２３％）。钾长石的磷含量相对于钠长石总体上较低,早期结晶的雪球结构主晶钾长石和环带钾长石的磷含量最低,分别为０．０４％和０．０２％,晚期细粒钾长石的平均磷含量略高（０．１９％）。长石对全岩磷的贡献率还与磷锂铝石等磷酸盐副矿物是否达到饱和有关,当无磷锂铝石结晶时,长石磷的贡献率约为７６％,反之则约为３１％。     

Research and exploration progress on lithium deposits in China

Since 2012, some advances have been made through the resource investigation, metallogenesis research, and comprehensive utilizing of lithium deposits in China. Firstly, the progress of lithium exploration has been made in Sichuan, Xinjiang, Qinghai and Jiangxi provinces (autonomous region). Li deposits are not only found within the pegmatite rocks but also within the granitic rocks and sedimentary rocks. Secondly, the methods of geological survey, geochemical and geophysical exploration, remote sensing technology and even drilling technology have been improved, which can be delineating orebodies quickly. Thirdly, the mechanisms of Li mineralization were summarized by analyzing the relationship between the Li contents and kinds of geological phenomena. Based on practice, a new understanding of “multi-cycle, deep circulation, integration of internal and external” metallogenic mechanism or “MDIE” metallogenic mechanism for short has been put forwarded further in this paper, and the “five levels + basement” exploration model has been successfully expanded to guide the prospecting work both in the Jiajika and Keeryin pegmatite ore fields in western Sichuan Province. Besides, new progress has been made in the aspect of amblygonite deposits of granite-type and hydrothermal type in the Mufushan-Jiuling ore district, which points out a new direction for prospecting new types of lithium deposits in China.