玲珑金矿田黑云母二长岩的发现及其Ar-Ar热年代学意义

申玉科; 郭涛; 杨玉泉; 陈正乐; 韦昌山; 孙华山

玲珑金矿田黑云母二长岩的发现及其Ar-Ar热年代学意义

1.
中国地质科学院地质力学研究所, 北京 100081
2.
山东招金集团公司, 山东招远 265400
3.
中国地质大学, 武汉 430074

基金项目:

中国地质调查局地质调查工作项目 12120113096300

详细信息

作者简介:
申玉科(1966-)，男，博士，高级工程师，从事矿田构造学研究。E-mail:shenyuke@126.com

中图分类号: P597;P612
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出版历程
- 收稿日期: 2016-06-16
- 刊出日期: 2016-09-01

DISCOVERY OF BIOTITE MONZOLITE AND Ar-Ar THERMOCHRONOLOGY SIGNIFICANCE IN LINGLONG GOLD FIELD

1.
Institute of Geomechanics, Chinese Academy of Geological Sciences, Beijing 100081, China
2.
Shandong Zhaojin Group Co., Ltd., Zhaoyuan 265400, Shandong, China
3.
China University of Geosciences, Wuhan 430074, China

摘要

摘要: 胶东玲珑金矿田地表以下2070 m处发现黑云母二长岩，不仅可以探索该区金矿成矿物质的来源，而且对研究矿床成因提供了新的证据。黑云母二长岩在胶东金矿集中区地表及其他钻孔岩芯中尚未见报道，通过显微镜下观察、鉴定，具有典型的二长结构。非金属矿物主要有斜长石、正长石、石英、黑云母和角闪石；含有较多的金属矿物，主要为原生的黄铁矿和磁铁矿等。黑云母的⁴⁰Ar-³⁹Ar热年代学研究表明，黑云母二长岩的成岩年龄为123.7±1.5 Ma，晚于玲珑花岗岩、滦家河花岗岩和郭家岭花岗岩，与玲珑金矿的形成年龄非常接近。尽管玲珑金矿矿体中的金属矿物并不一定直接来源于黑云母二长岩，但从形成时间分析，二者具有成因联系。黑云母二长岩在侵入过程中可能为金矿的形成提供成矿物质、成矿流体，而且为成矿物质和成矿流体的运移提供能量及驱动力。因而可以推断，黑云母二长岩的侵入与玲珑金矿成矿作用关系密切。
- 玲珑金矿田 /
- 黑云母二长岩 /
- 成矿年龄 /
- Ar-Ar热年代学 /
- 成矿物质来源
Abstract: The biotite monzolite that was discovered at 2170 meters below the surface in Linglong Gold Field in Jiaodong is not only used to find out the source of ore-forming material, but also is used to furnish new evidence for study the cause of mineralization of gold deposit. As the new rock types that was discovered in this area, Biotite monzonitichas the typical monzonitic texture under microscope. The non-metallic minerals composed the rock mainly are plagioclase, sodium feldspar, quartz, biotite and hornblende. It contains more metal minerals that mainly are pyrite and magnetitethan the other magmatic rocks in Northwest of Jiaodong. The biotite ⁴⁰Ar-³⁹Ar thermochronology indicate that the age of the formation of biotite monzonite is 123.7±1.5 Ma which was later than the time of formation of Linglong granite, Luanjiahe granite and Guojialing granites, and is very close with the age of the formation of Linglong Gold Deposit. Although it is not sure that the metal minerals in the gold ore bodies in Linglong gold field directly come from biotite monzonite, the result of analysis of the characteristics of their generation time demonstrate that the metal minerals and biotite monzonite form in the same period and come from the same originate. In the process of invasion of the Biotite monzonite magma, it supply ore-forming materials for the formation of gold mine, and provides energy and driving force for ore-forming elements and ore-forming fluid migration. It can be deduced that the gold mineralization is closely related with the intrusion of biotite monzonite
- Linglong gold field /
- biotite monzolite /
- age of mineralization /
- Ar-Ar thermochronoloy /
- source of ore-forming material

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图 1 招平断裂带、焦家断裂带主要金矿床分布图

1—第四系；2—元古代地层；3—太古代地层；4—玲珑黑云母花岗岩；5—滦家河二长花岗岩；
6—郭家岭花岗闪长岩；7—艾山花岗岩；8—断裂；9—金矿床；10—地名

Figure 1. Location of the major gold deposits in Zhaoping fault and Jiaojia fault

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图 2 玲珑金矿田构造地质图

1—太古代粉子山群；2—玲珑黑云母花岗岩；3—滦家河二长花岗岩；4—脉岩；5—蚀变花岗岩；
6—断裂；7—蚀变岩型金矿体；8—石英脉型金矿体；9—钻孔及编号；10—居民点

Figure 2. Sketch map of structures and geology in Linglong Gold Field

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图 3 玲珑金矿田72线剖面及样品采集位置

1-玲珑黑云母花岗岩；2-推测黑云母二长岩；3-钾化花岗岩；4-绢云母化-硅化花岗岩；5-金矿体；6-主断裂面及两盘运动方向；7-钻孔及编号；8-取样位置

Figure 3. Section of the Line 72 in Linglong Gold Field and sample location

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图 4 黑云母二长岩手标本照片

Figure 4. Photographs of hand specimen of biotite monzonite

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图 5 黑云母二长岩岩性投图

Figure 5. Lithologic figure of biotite monzonite

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图 6 黑云母二长岩显微结构照片

A, C—单偏镜下黑云母二长岩的二长结构；B, D—正交镜下黑云母二长岩的二长结构；Pl—斜长石；Bit—黑云母；Or—正长石；Qz—石英；Chl—绿泥石；Py—黄铁矿

Figure 6. Microphotograph of the minerals and texture of biotite monzonite

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图 7 黑云母二长岩中金属矿物显微照片

Figure 7. Microphotograph of pyrite and magnetite in biotite monzonite

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图 8 蚀变黑云母二长岩显微照片

A—绢云母化黑云母二长岩；B—黑云母二长岩中大理岩化；C, D—硅化绢云母化黑云母二长岩；Pl—斜长石；Bit—黑云母；Or—正长石；Qz—石英；Chl—绿泥石；Ser—绢云母；Cal—方解石

Figure 8. Microphotograph of alteration biotite monzonite

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图 9 黑云母二长岩中黑云母⁴⁰Ar/³⁹Ar年龄谱图和等时线图

Figure 9. ⁴⁰Ar/³⁹Ar age spectra and ³⁹Ar/⁴⁰Ar vs. ³⁶Ar/⁴⁰Ar inverse isochorn diagram of biotite from the biotite in biotite monzonite

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表 1 胶东黑云母二长岩、二长花岗岩及花岗细晶岩脉岩石化学成分(%)

Table 1. Chemical composition of biotite monzonite, monzonite granite in Jiaodong

样品编号	ZK1-16	1015-1	1015-2	1012-5	1012-11
岩石名称	黑云母二长岩	滦家河花岗岩	滦家河花岗岩	滦家河花岗岩	细晶岩脉
SiO₂	55.95	72.71	72.52	70.06	69.3
Al₂O₃	17.54	14.54	14.26	15.15	16.05
TiO₂	0.78	0.06	0.12	0.36	0.37
Fe₂O₃	3.14	0.22	1.36	2.42	2.55
FeO	3.22	1.75	1.40	1.63	1.19
CaO	5.74	0.52	0.53	0.78	0.46
MgO	2.41	0.17	0.15	0.37	0.41
K₂O	2.99	5.25	4.53	2.19	3.10
Na₂O	3.49	3.92	4.08	4.74	3.93
MnO	0.06	0.03	0.03	0.06	0.05
P₂O₅	0.40	0.02	0.02	0.15	0.13
H₂O⁺	1.80	0.27	0.61	1.58	1.99
H₂O^-	0.09	0.12	0.19	0.37	0.39
灼失量	3.85	0.48	0.69	1.76	2.07
总和	99.59	99.68	99.68	99.68	99.62

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表 2 黑云母二长岩中黑云母阶段升温测年数据

Table 2. The results of ⁴⁰Ar/³⁹Ar stepwise heating dating for biotite in biotite monzonite

T/ (℃)	${{\left( \frac{^{40}\text{Ar}}{^{39}\text{Ar}} \right)}_{\text{m}}}$	${{\left( \frac{^{36}\text{Ar}}{^{39}\text{Ar}} \right)}_{\text{m}}}$	${{\left( \frac{^{37}\text{Ar}}{^{39}\text{Ar}} \right)}_{\text{m}}}$	${{\left( \frac{^{38}\text{Ar}}{^{39}\text{Ar}} \right)}_{\text{m}}}$	⁴⁰Ar/%	F	³⁹Ar/ (×10 ^-¹⁴mol)	³⁹Ar(Cum)/ %	Age/ Ma	±1σ/ Ma
700	96.5965	0.3180	0.4972	0.0885	2.76	2.6687	0.12	0.50	23.5	7.4
800	55.8444	0.1529	0.2025	0.0519	19.12	10.6804	1.49	6.98	92.4	1.4
840	19.0382	0.0171	0.0989	0.0258	73.44	13.9828	1.61	13.96	120.0	1.4
880	16.6376	0.0076	0.0352	0.0231	86.45	14.3830	1.83	21.91	123.3	1.3
920	15.9413	0.0047	0.0468	0.0226	91.21	14.5412	1.67	29.19	124.6	1.6
960	16.0929	0.0051	0.0398	0.0224	90.57	14.5756	1.60	36.13	124.9	1.6
1000	16.1686	0.0034	0.0000	0.0214	93.82	15.1695	2.07	45.11	129.8	1.4
1040	15.4683	0.0030	0.0309	0.0222	94.25	14.5795	3.22	59.08	124.9	1.3
1080	15.1447	0.0025	0.0196	0.0218	95.13	14.4072	3.14	72.71	123.5	1.4
1120	14.8859	0.0019	0.0179	0.0222	96.28	14.3318	3.67	88.63	122.9	1.2
1160	14.8145	0.0027	0.0985	0.0231	94.63	14.0193	2.36	98.88	120.3	1.3
1200	18.1637	0.0093	0.0815	0.0241	84.87	15.4159	0.25	99.96	131.9	5.9
1400	172.8819	0.4922	0.0000	0.0285	15.87	27.4429	0.01	100.00	228	273
总气体年龄=121.4 Ma
注：表中下标m代表样品中测定的同位素比值；F=⁴⁰Ar^*/³⁹Ar，指放射成因⁴⁰Ar与K生成³⁹Ar的比值；测试由中国地质科学院地质研究所完成

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