Abstract:The Longping largescale fluorite deposit in Xingguo county, southern Jiangxi Province, is located in the XingguoNingdu fluorite metallogenic belt on the west side of DayuNancheng deep fault. Fluorite ore bodie are primarily in the silicified fracture zone of the outer contact zone of the Yongfeng complex in the form of plate, stratoid and vein. This paper divides the oreforming stages of the deposit, and discusses the nature, source, evolution and oreforming model of the oreforming fluid of the deposit through the study of fluid inclusions and HO isotopes. According to the interpenetrating relationship of minerals and the characteristics of mineralogy, the Longping fluorite deposit is divided into early oreforming stage (fluoritequartz stage), main oreforming stage (quartzfluorite stage) and late oreforming stage (fluoritecalcite stage). The types of inclusions are mainly liquid rich twophase inclusions. Fluid inclusions in the fluorite and quartz show homogenization temperatures (111~374℃), salinities (0. 53%~3. 55% 〖JP2〗NaCleq), and densities (0. 58~1. 02 g/cm3). Raman spectroscopy showed that the〖JP〗 fluid phase is dominated by wate. Generally, the oreforming fluid belongs to NaClH2O fluid system, which is characterized by mediumlow temperature, mediumlow salinity and mediumlow density. However, there exists fluid endelements with high temperature and relatively high salinity in the early stage of mineralization (temperature higher than 300℃, salinity 2. 0%~2. 7%NaCleq). It is inferred that the magmatic hydrothermal fluids in the late stage of the Yongfeng complex participate in the early oreforming stage and provides the heat and the source of F. The δDVSMOW values of the fluid inclusions in the Longping fluorite ranged between -66. 8‰ and -53. 1‰ (average value is -59. 5‰), while the δ18OVSMOW values ranged from 5. 9‰ to -3. 3‰ (average value is -4. 6‰). Collectively, the oreforming fluid is dominated by meteoric water and geothermal water. Both the mixing magmatic hydrothermal fluid with meteoric water and waterrock reaction are the likely mechanisms of fluorite precipitation in early oreforming stage, while fluid cooling is the main mechanism of fluorite precipitation in the main and late oreforming stage. Therefore, it can be inferred that the Longping fluorite deposit is a faultcontrolled, mediumlowtemperature hydrothermal, fracturefilling type deposit.
