Fluid and source magma evolution of the Questa porphyry Mo deposit, New Mexico, USA

被引:319
作者
Klemm, Leonhard M. [1 ]
Pettke, Thomas [1 ,2 ]
Heinrich, Christoph A. [1 ]
机构
[1] ETH, Dept Earth Sci, CH-8092 Zurich, Switzerland
[2] Univ Bern, Inst Geol Sci, CH-3012 Bern, Switzerland
关键词
porphyry molybdenum; fluid inclusion; Questa;
D O I
10.1007/s00126-008-0181-7
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
Combined fluid inclusion microthermometry and microanalysis by laser ablation inductively coupled plasma mass spectrometry (LA-ICPMS) are used to constrain the hydrothermal processes forming a typical Climax-type porphyry Mo deposit. Molybdenum mineralisation at Questa occurred in two superimposed hydrothermal stages, a magmatic-hydrothermal breccia and later stockwork veining. In both stages, texturally earliest fluids were single-phase, of low salinity (similar to 7 wt.% NaClequiv.) and intermediate-density. Upon decompression to similar to 300 bar, they boiled off a vapour phase, leaving behind a residual brine (up to 45 wt.% NaClequiv) at temperatures of similar to 420 degrees C. The highest average Mo concentrations in this hot brine were similar to 500 mu g/g, exceeding the Mo content of the intermediate-density input fluid by about an order of magnitude and reflecting pre-concentration of Mo by fluid phase separation prior to MoS2 deposition from the brine. Molybdenum concentrations in brine inclusions, then, decrease down to 5 mu g/g, recording Mo precipitation in response to cooling of the saline liquid to similar to 360 degrees C. Molybdenite precipitation from a dense, residual and probably sulphide-depleted brine is proposed to explain the tabular shape of the ore body and the absence of Cu-Fe sulphides in contrast to the more common Cu-Mo deposits related to porphyry stocks. Cesium and Rb concentrations in the single-phase fluids of the breccia range from 2 to 8 and from 40 to 65 mu g/g, respectively. In the stockwork veins, Cs and Rb concentrations are significantly higher (45-90 and 110-230 mu g/g, respectively). Because Cs and Rb are incompatible and hydrothermally non-reactive elements, the systematic increase in their concentration requires two distinct pulses of fluid exsolution from a progressively more fractionated magma. By contrast, major element and ore metal concentrations of these two fluid pulses remain essentially constant. Mass balance calculations using fluid chemical data from LA-ICPMS suggest that at least 25 km(3) of melt and 7 Gt of deep input fluid were necessary to provide the amount of Mo contained in the stockwork vein stage alone. While the absolute amounts of fluid and melt are uncertain, the well-constrained element ratios in the fluids together with empirical fluid/melt partition coefficients derived from the inclusion analyses suggest a high water content of the source melt of similar to 10%. In line with other circumstantial evidence, these results suggest that initial fluid exsolution may have occurred at a confining pressure exceeding 5 kbar. The source of the molybdenum-mineralising fluids probably was a particularly large magma chamber that crystallised and fractionated in the lower crust or at mid-crustal level, well below the shallow intrusions immediately underlying Questa and other porphyry molybdenum deposits.
引用
收藏
页码:533 / 552
页数:20
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