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1.
2.
Himalayan magmatism and porphyry copper–molybdenum mineralization in the Yulong ore belt, East Tibet
Summary ?The NW–SE-trending Yulong porphyry Cu–Mo ore belt, situated in the Sanjiang0 area of eastern Tibet, is approximately 400 km
long and 35 to 70 km wide. Complex tectonic and magmatic processes during the Himalayan epoch have given rise to favorable
conditions for porphyry-type Cu–Mo mineralization.
Porphyry masses of the Himalayan epoch in the Yulong ore belt are distributed in groups along regional NW–SE striking tectonic
lineaments. They were emplaced mainly into Triassic and Lower Permian sedimentary-volcanic rocks. K–Ar und U–Pb isotopic datings
give an intrusion age range of 57–26 Ma. The porphyries are mainly of biotite monzogranitic and biotite syenogranitic compositions.
Geological and geochemical data indicate that the various porphyritic intrusions in the belt had a common or similar magma
source, are metaluminous to peraluminous, Nb–Y–Ba-depleted, I-type granitoids, and belong to the high-K calc-alkaline series.
Within the Yulong subvolcanic belt a number of porphyry stocks bear typical porphyry type Cu–Mo alteration and mineralization.
The most prominent porphyry Co–Mo deposits include Yulong, Malasongduo, Duoxiasongduo, Mangzong and Zhanaga, of which Yulong
is one of the largest porphyry Cu (Mo) deposits in China with approximately 8 × 106 tons of contained Cu metal. Hydrothermal alteration at Yulong developed around a biotite–monzogranitic porphyry stock that
was emplaced within Upper Triassic limestone, siltstone and mudstone. The earliest alteration was due to the effects of contact
metamorphism of the country rocks and alkali metasomatism (potassic alteration) within and around the porphyry body. The alteration
of this stage was accompanied by a small amount of disseminated and veinlet Cu–Mo sulfide mineralization. Later alteration–mineralization
zones form more or less concentric shells around the potassic zone, around which are distributed a phyllic or quartz–sericite–pyrite
zone, a silicification and argillic zone, and a propylitic zone.
Fluid inclusion data indicate that three types of fluids were involved in the alteration–mineralization processes: (1) early
high temperature (660–420 °C) and high salinity (30–51 wt% NaCl equiv) fluids responsible for the potassic alteration and
the earliest disseminated and/or veinlet Cu–Mo sulfide mineralization; (2) intermediate unmixed fluids corresponding to phyllic
alteration and most Cu–Mo sulfide mineralization, with salinities of 30–50 wt% NaCl equiv and homogenization temperatures
of 460–280 °C; and (3) late low to moderate temperature (300–160 °C) and low salinity (6–13 wt% NaCl equiv) fluids responsible
for argillic and propylitic alteration. Hydrogen and oxygen isotopic studies show that the early hydrothermal fluids are of
magmatic origin and were succeeded by increasing amounts of meteoric-derived convective waters. Sulfur isotopes also indicate
a magmatic source for the sulfur in the early sulfide mineralization, with the increasing addition of sedimentary sulfur outward
from the porphyry stock.
Received August 29, 2001; revised version accepted May 1, 2002
Published online: November 29, 2002 相似文献
3.
The data such as the H-spectrum-spectroheliographic (SSHG) observations, the H-chromospheric observations, etc., of a flare loop prominence which occurred on the western solar limb on 1981 April 27 have been obtained at Yunnan Observatory. The distribution of the internal motions and the macroscopical motion of the flare loop prominence with time and space in the course of its eruption and ascension is derived from the comprehensive analysis of the data. The possible physical pictures and the instability of the motions of the loop are inferred and discussed. 相似文献
4.
报道豹皮菌(Amanitapantherina)中两种氨基酸成分KI-Ⅰ、KI-Ⅱ对NMDA(N-Methyl-D-Aspartate)受体的活性研究。KI-Ⅰ和KI-Ⅱ对NMDA受体的作用是通过大鼠大脑皮质和脊髓突触部分的受体结合实验进行的。实验结果指出:KI-Ⅰ是一种高活性NMDA受体激动剂;KI-Ⅱ是NMDA受体拈抗剂。 相似文献
5.
我国特殊岩土研究 总被引:1,自引:0,他引:1
顾宝和 《水文地质工程地质》1997,24(2):43-45
本文分析,总结了我国特殊岩土理论与应用研究方面的新进展,内容涉及湿陷性黄土,软土膨胀岩土,红土,软岩和特殊土的结构性,指出需要进一步研究的问题,最后对特殊土的研究方法做了阐述。 相似文献
6.
不同的波在空间的质点运动轨迹和极化方向是不同的,利用三分量或二分量记录,在特定的以t0为中心,长为N△t的滑动时窗中计算出描述波的质点运动轨迹和极化方向的特征参数。利用这些参数可以设计出合适的极化滤波函数,保留那些满足特定要求的质点运动,而衰减那些不满足设计要求的质点运动,利用某些算子可以把弹性波分解成P波和SV波,而且衰减面波;利用另外一些算子可以把P波和SV波衰减而使面波增强。这些算子甚至可以在嗓音和信号具有相同频率的情况下,成功地提高信嗓比。 相似文献
7.
8.
Roger Guérin 《Hydrogeology Journal》2005,13(1):251-254
9.
The layered intrusions in the Panzhihua-Xichang area may be grouped into two types: basic rock masses represented by the Panzhihua
rockbody and basic-ultrabasic rock masses represented by the Hongge rockbody. Their major difference lies in that the former
has poorly developed ultramafic facies, while the latter is characterized by well developed mafic facies and ultramafic facies.
There exists apparent rhythmic stratification in the rock masses, which can be basically divided into four grades in terms
of superimposition relationship and multicycle characters.
Both direct and indirect evidence suggest that the magma responsible for the layered intrusions in this area should be a transition-type
alkaline olivine basalt magma derived directly from partial melting of the upper mantle. In rhythmic cycles of various grades,
the magmatic evolution is characterized obviously by periodicity and early enrichment of Fe and Ti, which is evidently different
from the evolution of the Skaergaard magma in which Fe and Ti are enriched at the late stage. The FCA diagram can be used
to describe the unique evolutionary trend of magma in this area. It is demonstrated in this diagram that the enrichment of
Fe and Ti is consistent with the increase of basicity.
In the upper magmatic chamber, the evolutionary trend of magma is conditioned by the difference in pressure, and this enables
magma to form different types of rock assemblage. In the Fo-Di-An system, when the pressure exceeds 5 x 188 Pa, forsterite is incompatible with anorthite, and the rock facies sequence of Hongge type might form; when the pressure
is lower than 5 x 108 Pa, forsterite can coexist with anorthite, and the rock facies sequence of Panzhihua type is likely to form if the magma
is relatively rich in Mg and Fe components. 相似文献
10.