闽北上房钨矿床锆石U-Pb和辉钼矿Re-Os定年及其地质意义

陈润生; 李建威; 曹康; 瞿承燚; 李玉娟

doi:10.3799/dqkx.2013.029

闽北上房钨矿床锆石U-Pb和辉钼矿Re-Os定年及其地质意义

doi: 10.3799/dqkx.2013.029

陈润生^{1, 2},
李建威^{1, 3, ,},
曹康¹,
瞿承燚²,
李玉娟²

1.
中国地质大学地质过程与矿产资源国家重点实验室，湖北武汉 430074
2.
福建省地质调查研究院，福建福州 350013
3.
中国地质大学资源学院，湖北武汉 430074

基金项目:

国家自然科学基金项目 90814004

中央高校基本科研业务费专项资金 CUG090102

地质过程与矿产资源国家重点实验室科技部专项基金 MSFGPMR201005

详细信息

作者简介:
陈润生(1968-)，男，博士研究生，矿产普查与勘探专业

通讯作者:
李建威，E-mail: jwli@cug.edu.cn

中图分类号: P597
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出版历程
- 收稿日期: 2012-06-23
- 刊出日期: 2013-03-01

Zircon U-Pb and Molybdenite Re-Os dating of the Shangfang Tungsten Deposit in Northern Fujian Province: Implications for Regional Mineralization

CHEN Run-sheng^{1, 2},
LI Jian-wei^{1, 3
, ,},
Cao Kang¹,
QU Cheng-yi²,
LI Yu-juan²

1.
State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, China
2.
Geological Survey of Fujian Province, Fuzhou 350013, China
3.
Faculty of Earth Resources, China University of Geosciences, Wuhan 430074, China

摘要

摘要: 上房钨矿床是武夷山成矿带新近发现的大型白钨矿矿床，也是福建省发现的钨矿新类型.矿床产于上房似斑状黑云母正长花岗岩体的外接触带上，赋矿围岩主要为古元古代大金山岩组斜长角闪岩和黑云斜长变粒岩，矿体产状与围岩的片理一致，矿石类型为石英细脉型和浸染型，金属矿物主要为白钨矿和辉钼矿，其次为少量磁黄铁矿、黄铁矿和黄铜矿等.野外地质观察和矿化特征研究表明，上房钨矿的矿床类型为接触交代型.采用LA-ICP-MS锆石U-Pb和辉钼矿Re-Os测年技术，对与成矿有关的上房似斑状黑云母正长花岗岩和与白钨矿共生的辉钼矿进行成岩成矿年代测定，获得上房似斑状正长花岗岩体的成岩年龄为158.8±1.6 Ma(1σ)，辉钼矿Re-Os模式年龄为159.40±0.86~149.92±1.39 Ma(n=5)，模式年龄的加权平均值为156.5±4.0 Ma，等时线年龄为158.1±5.4 Ma(2σ).同位素定年结果表明，上房钨矿床与矿区似斑状黑云母正长花岗岩关系密切，二者均形成于晚侏罗世，与华南地区中生代大规模钨多金属矿床的成矿时代一致.传统观点认为，华南地区晚侏罗世(160~150 Ma)钨多金属矿床大规模成矿作用集中于南岭成矿带中东段的湘南、粤北和赣南地区，而本文的研究结果则说明这一区域成矿作用向北东延伸进入到武夷山成矿带的闽西和闽北地区.因此，华南钨多金属矿床的空间分布不是传统认为的近东西向，而是具有北东向或北东东向展布的特点，是滨太平洋构造-岩浆-成矿域的重要组成部分.
- 锆石U-Pb定年 /
- 辉钼矿Re-Os定年 /
- 地质年代学 /
- 白钨矿 /
- 成矿带
Abstract: The newly discovered large-scale Shangfang tungsten deposit represents a new type of tungsten mineralization in Fujian Province, offering new pespectives for exploration of tungsten deposits in the province. The ore bodies are mostly hosted in amphibolite and biotite leptynite of the Paleoproterozoic Dajinshan Formation proximal to the Shangfang syenogranite intrusion and, less significantly, in the contact zone between the intrusion and the metamorphic rocks. Tungsten mineralization consists of quartz-scheelite veins and disseminated scheelite in alteration assemblages, with scheelite and molybdenite as the main ore minerals coexisting with minor pyrrhotite, pyrite, and chalcopyrite. Field relations and petrographic characterization indicate that the Shangfang deposit is typified by skarn mineralization. Zircons from the Shangfang syenogranite intrusion have LA-ICP-MS U-Pb age of 158.8±1.6 Ma (1σ), whereas five molybdenite separates yield model ages ranging from 159.40±0.86 to 149.92±1.39 Ma with a weighted mean of 156.5 ± 4.0 Ma, which is consistent with an isochrone age of 158.1±5.4 Ma (2σ). The geochronological data thus demonstrate that the Shangfang tungsten deposit formed in the Late Jurassic and is genetically related to the syenogranite intrusion in the mine. The data also indicate that the Shangfang deposit resulted from the pervasive Late Mesozoic tunsgten mineralization in South China. It has long been considered that the Late Jurassic tungsten metallogenic belt in South China is restricted in the middle-eastern portion of the Nanling Range covering areas of southern Hunan, northern Guangdong, and southern Jiangxi Province. The discovery of the Shangfang deposit, however, allows this metallogenic belt to extend into western and northern Fujian Province, which is an integral part of the Wuyishan metallogenic belt. As such, the South China polymetallic belt is distributed along a northeast strike, rather than an east-west extension as previously thought, and can be regarded as an important part of the giant Circle-Pacific tectono-magmtic-metallogenic domain.
- Zicron U-Pb dating /
- molybdenite Re-Os dating /
- geochronology /
- scheelite deposit /
- metallogenic belt

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图 1 闽北上房白钨矿大地构造位置图(a)和区域地质简图(b)

1.晚侏罗世南园组火山岩；2.早侏罗世梨山组沉积岩；3.新元古马面山群变质岩；4.古元古代麻源群变质岩；5.晚侏罗世黑云母正长花岗岩；6.加里东期片麻状花岗岩；7.地质界线；8.脆性断裂；9.详查矿区范围；10.矿区位置示意

Fig. 1. Tectonic location (a) and regional geology (b) of the Shangfang tungsten deposit in northern Fujian Province

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图 2 闽北上房白钨矿矿区地质简图(据福建省地质调查研究院资料修编)

1.晚侏罗世黑云母正长花岗岩；2.古元古代麻源群变质岩；3.花岗斑岩；4.白钨矿体；5.详查区范围及勘探线编号；6.土壤测量钨异常等值线

Fig. 2. Simplified geological map of the Shangfang tungsten deposit (modified from Fujian Geological Survey, unpublished data)

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图 3 上房钨矿床4号勘探线剖面图(据福建省地质调查研究院资料修编)

Fig. 3. No.4 geological cross section of the Shangfang tungsten deposit (modified from Fujian Geological Survey, unpublished data)

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图 4 福建上房钨矿黑云母正长花岗岩样品锆石U-Pb谐和图

Fig. 4. Zircon U-Pb concordia diagram of the biotite syenite granite in the Shangfang tungsten deposit

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图 5 上房钨矿辉钼矿Re-Os同位素模式年龄加权平均值图(a)及Re-Os同位素等时线图(b)

Fig. 5. Weighted mean of Re-Os model age of molybdenite (a) and Re-Os isotopic isochron (b) of the Shangfang tungsten deposit

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图 6 华南晚侏罗世(160~150 Ma)主要钨矿床分布示意图(据毛景文等, 2008, 修改)

Fig. 6. Spatial distribution of the Late Jurassic W deposits in South China (modified from Mao et al., 2008)

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表 1 福建上房钨矿似斑状黑云母正长花岗岩LA-ICP-MS锆石U-Pb同位素分析结果

Table 1. LA-ICP-MS zircon U-Pb isotope data of the bioite syenogranite from the Shangfang tungsten deposit

样品号	同位素原子比值										表面年龄(Ma)
样品号	²³²Th/²³⁸U	±1σ	²⁰⁷Pb/²⁰⁶Pb	±1σ	²⁰⁷Pb/²³⁵U	±1σ	²⁰⁶Pb/²³⁸U	±1σ	²⁰⁸Pb/²³²Th	±1σ	²⁰⁷Pb/²³⁵U	±1σ	²⁰⁶Pb/²³⁸U	±1σ	²⁰⁸Pb/²³²Th	±1σ
SFZK410-1	0.746 3	0.01	0.050 0	0.007 3	0.171 9	0.026 4	0.025 0	0.001 3	0.008 1	0.001 2	161	23	159	8	162	24
SFZK410-2	0.362 3	0.03	0.049 8	0.006 0	0.239 7	0.030 6	0.034 9	0.001 5	0.013 0	0.001 6	218	25	221	9	261	33
SFZK410-3	0.847 5	0.01	0.055 7	0.006 0	0.190 6	0.021 7	0.025 1	0.001 0	0.008 4	0.000 9	177	18	160	6	169	18
SFZK410-4	0.561 8	0.02	0.050 2	0.004 5	0.163 9	0.015 4	0.023 8	0.000 7	0.008 3	0.000 7	154	13	152	4	166	14
SFZK410-5	0.917 4	0.01	0.050 0	0.004 2	0.166 3	0.014 4	0.024 6	0.000 6	0.008 1	0.000 5	156	13	157	4	164	10
SFZK410-6	0.657 9	0.02	0.052 1	0.002 7	0.177 5	0.009 4	0.024 9	0.000 4	0.008 5	0.000 4	166	8	158	2	171	7
SFZK410-7	0.666 7	0.01	0.047 7	0.002 5	0.161 5	0.008 8	0.024 9	0.000 3	0.008 5	0.000 3	152	8	158	2	172	5
SFZK410-8	1.111 1	0.01	0.050 2	0.001 7	0.170 4	0.006 0	0.024 8	0.000 2	0.007 8	0.000 2	160	5	158	1	157	3
SFZK410-9	0.917 4	0.01	0.048 3	0.002 8	0.163 7	0.009 6	0.024 7	0.000 3	0.008 2	0.000 3	154	8	158	2	165	5
SFZK410-10	0.91 74	0.01	0.051 8	0.002 5	0.173 6	0.008 8	0.024 6	0.000 5	0.007 7	0.000 2	163	8	156	3	155	4
SFZK410-11	0.492 6	0.02	0.054 0	0.002 0	0.184 4	0.007 2	0.024 6	0.000 3	0.008 1	0.000 3	172	6	157	2	164	6
SFZK410-12	0.341 3	0.03	0.050 1	0.001 4	0.170 1	0.005 2	0.024 6	0.000 3	0.007 5	0.000 2	159	5	157	2	151	3
SFZK410-13	0.645 2	0.02	0.052 2	0.001 5	0.176 1	0.005 2	0.024 4	0.000 2	0.008 0	0.000 2	165	5	155	1	162	4
SFZK410-14	0.653 6	0.02	0.052 3	0.002 5	0.178 1	0.009 0	0.024 6	0.000 3	0.008 2	0.000 2	166	8	157	2	164	5
SFZK410-15	0.578 0	0.02	0.050 8	0.002 2	0.175 9	0.008 3	0.025 1	0.000 2	0.007 9	0.000 1	164	7	160	1	159	1
SFZK410-16	0.689 7	0.01	0.050 0	0.001 6	0.178 1	0.006 5	0.025 8	0.000 2	0.008 2	0.000 1	166	6	164	1	164	1
SFZK410-17	0.497 5	0.02	0.049 4	0.001 5	0.174 2	0.005 9	0.025 6	0.000 3	0.008 2	0.000 2	163	5	163	2	164	4
SFZK410-18	1.041 7	0.01	0.055 8	0.004 0	0.189 3	0.014 0	0.025 2	0.000 4	0.008 0	0.000 3	176	12	160	3	161	5
SFZK410-19	0.970 9	0.01	0.112 6	0.001 8	5.336 5	0.096 3	0.342 8	0.002 8	0.095 8	0.001 7	1875	15	1900	13	1849	31

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表 2 福建上房钨矿床中辉钼矿Re-Os同位素分析结果

Table 2. Re-Os isotope data of molybdenite from the Shangfang tungsten deposit

编号	样重(g)	Re(10^-6)		¹⁸⁷Re(10^-6)		¹⁸⁷Os(10^-9)		模式年龄(Ma)
编号	样重(g)	测定值	2σ	测定值	2σ	测定值	2σ	年龄值	2σ
SFMo-01	0.037	2.90	0.023	1.82	0.015	4.65	0.029	153.02	1.49
SFMo-02	0.042	6.32	0.044	3.97	0.028	10.37	0.057	156.45	1.32
SFMo-03	0.039	1.15	0.011	0.73	0.007	1.93	0.012	159.40	1.71
SFMo-04	0.049	0.60	0.010	0.38	0.007	0.95	0.007	149.92	2.79
SFMo-05	0.040	7.15	0.050	4.49	0.031	11.92	0.066	159.00	1.35

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表 3 华南地区若干钨矿床的成矿年龄

Table 3. Ore-forming ages of representative W-Sn deposits in South China

产地	矿床名称	成因类型	测试矿物	测试方法	年龄值(Ma)	数据来源
湘南	香花铺白钨矿	矽卡岩型	白云母	Ar-Ar	161.3±1.1	Yuan et al.2007
			白云母	Ar-Ar	158.7±1.2
			白云母	Ar-Ar	154.4±1.1
	新田岭白钨矿	矽卡岩型	羟铁云母	Ar-Ar	157.1±0.2	毛景文等，2004b
	新田岭白钨矿	矽卡岩型	锆石	U-Pb	160.0±2.0	付建明等，2004
	黄沙坪白钨矿	矽卡岩型	辉钼矿	Re-Os	154.8±1.9	姚军明等，2007
	黄沙坪白钨矿	矽卡岩型	锆石	U-Pb	161.6±1.1	姚军明等，2007
	柿竹园白钨矿	矽卡岩-云英岩型	白云母	Ar-Ar	153.4±0.2	毛景文等，2004b
			辉钼矿	Re-Os	151.0±3.5	李红艳等，1996
			锆石	U-Pb	161.8±1.0	Li et al., 2004
	瑶岗仙白钨矿	矽卡岩型	辉钼矿	Re-Os	154.9±2.6	Peng et al., 2006
			金云母	Ar-Ar	153.0±1.1	Peng et al., 2006
			白云母	Ar-Ar	155.1±1.1	Peng et al., 2006
			锆石	U-Pb	157.0+2.0	李顺庭等，2011
赣南	淘锡坑黑钨矿	石英脉型	辉钼矿	Re-Os	154.4+3.8	陈郑辉等，2006
	淘锡坑黑钨矿	石英脉型	锆石	U-Pb	158.7±3.9	郭春丽等，2007
	柯树岭钨锡矿	石英脉型	白云母	Ar-Ar	158.8±1.2	刘善宝等，2008
	柯树岭钨锡矿	石英脉型	锆石	U-Pb	161.8±1.0	张文兰等，2009
	漂塘黑钨矿	石英脉型	白云母	Ar-Ar	152.1±1.9	张文兰等，2009
	茅坪钨锡矿	石英脉型	白云母	Ar-Ar	158.9±1.4	刘善宝等，2008
	茅坪钨锡矿	石英脉型	辉钼矿	Re-Os	156.8±3.9	曾载淋等，2009
	大吉山黑钨矿	石英脉型	锆石	U-Pb	151.7±1.6	张文兰等，2006
	大吉山黑钨矿	石英脉型	包裹体	Rb-Sr	150.0±？	李华芹等，1993
	摇篮寨黑钨矿	石英脉型	锆石	U-Pb	156.9±1.7	丰成友等，2011
	摇篮寨黑钨矿	石英脉型	辉钼矿	Re-Os	155.8±2.8	丰成友等，2011
	牛岭钨锡矿	石英脉型	辉钼矿	Re-Os	154.9±4.1	丰成友等，2011
	牛岭钨锡矿	石英脉型	锆石	U-Pb	151.4±3.0	丰成友等，2011
	洪水寨钨矿	云英岩型	锆石	U-Pb	155.8±1.2	丰成友等，2011
	洪水寨钨矿	云英岩型	辉钼矿	Re-Os	156.3±1.3	丰成友等，2011
	木梓园钨锡矿	石英脉型	锆石	U-Pb	153.3±1.9	张文兰等，2009
	木梓园钨锡矿	石英脉型	白云母	Ar-Ar	151.1±8.5	张文兰等，2009
	浒坑黑钨矿	石英脉型	锆石	U-Pb	151.6±2.6	刘珺等，2008
	浒坑黑钨矿	石英脉型	辉钼矿	Re-Os	150.2±2.2	刘珺等，2008
	西华山黑钨矿	石英脉型	钾长石	K-Ar	148.1±1.0	穆治国等，1988
	樟斗黑钨矿	石英脉型	辉钼矿	Re-Os	154.6±9.7	丰成友等，2007
	大坳钨锡矿	云英岩及石英脉型	辉钼矿	Re-Os	151.3±2.4	付建明等，2007
	大坳钨锡矿	云英岩及石英脉型	锆石	U-Pb	156.0±2.0	付建明等，2007
粤北	师姑山钨铋矿	石英脉型	辉钼矿	Re-Os	154.2±2.7	付建明等，2007
	石人嶂黑钨矿	石英脉型	辉钼矿	Re-Os	159.1±2.2	付建明等，2007
	红岭钨矿	石英脉型	辉钼矿	Re-Os	159.1±1.5	王小飞等，2010
	梅子窝钨矿	石英脉型	辉钼矿	Re-Os	157.7±1.4	王小飞等，2010
	瑶岭钨矿	石英脉	辉钼矿	Re-Os	159.2±2.3	王小飞等，2010
闽西	行洛坑钨矿	斑岩型	辉钼矿	Re-Os	156.3±4.8	张家菁等，2008
闽北	上房白钨矿	接触交代型	锆石	U-Pb	158.8±1.4	本文
闽北	上房白钨矿	接触交代型	辉钼矿	Re-Os	158.1±5.4	本文
注：由于篇幅限制，本表仅列出部分测试数据，主要说明燕山早期(160~150 Ma)岩浆活动与钨多金属成矿事件的关系.

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