浙西北地区晚中生代花岗岩的岩石成因

唐增才; 周汉文; 胡开明; 陈忠大; 吴小勇; 胡文杰; 董学发; 赵旭东; 余盛强; 张建芳

doi:10.3799/dqkx.2018.208

浙西北地区晚中生代花岗岩的岩石成因

doi: 10.3799/dqkx.2018.208

1.
浙江省地质调查院, 浙江杭州 311203
2.
中国地质大学地球科学学院, 湖北武汉 430074

基金项目:

浙江省国土资源厅项目 2007002

中国地质调查局地质调查项目 1212011120834

浙江省国土资源厅项目 2010001

中国地质调查局地质调查项目 12120114068901

浙江省国土资源厅项目 2014004

中国地质调查局地质调查项目 1212011220527

详细信息

作者简介:
唐增才(1980-), 男, 高级工程师, 长期从事基础地质及找矿工作

中图分类号: P51;P54;P59
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出版历程
- 收稿日期: 2018-04-12
- 刊出日期: 2019-04-15

Petrogenesis of Late Mesozoic Granites in Northwest Zhejiang

1.
Zhejiang Institute of Geological Survey, Hangzhou 311203, China
2.
School of Earth Sciences, China University of Geosciences, Wuhan 430074, China

摘要

摘要: 浙西北地区晚中生代处于环太平洋活动大陆边缘，区内岩浆侵入活动强烈，发育Ⅰ型和铝质A型两类花岗岩，前者又分为低分异Ⅰ型（简称Ⅰ型）和高分异Ⅰ型花岗岩两种，形成时限为中侏罗世-早白垩世早期（172~135 Ma），其中高分异Ⅰ型花岗岩集中于早白垩世早期（147~135 Ma）；铝质A型花岗岩形成于早白垩世中期（135~123 Ma）.同位素地球化学研究表明，中侏罗世-早白垩世早期Ⅰ型花岗岩（⁸⁷Sr/⁸⁶Sr）_i值为0.707 004~0.711 896，ε_Nd（t）值为-6.70~-2.00，锆石ε_Hf（t）值为-5.08~-1.67，T_DM^C值为1 162~1 358 Ma，系古太平洋板块俯冲挤压的构造环境下，少量幔源物质沿变向俯冲引起的板片裂隙（窗）与下地壳重熔岩浆混合作用的产物；晚侏罗世末期-早白垩世早期高分异Ⅰ型花岗岩（⁸⁷Sr/⁸⁶Sr）_i为0.706 890~ 0.709 880，ε_Nd（t）值为-6.80~-4.50，锆石ε_Hf（t）为-6.59~-5.23，T_DM^C为1 350~1 423 Ma，是古太平洋板块撤离机制下挤压向伸展转换的产物，系软流圈上涌诱发的幔源基性岩浆与中元古代地壳物质的部分熔融形成长英质岩浆混合并经高程度分异演化形成；早白垩世中期铝质A型花岗岩（⁸⁷Sr/⁸⁶Sr）_i值为0.703 503~0.710 171，ε_Nd（t）值为-8.90~-0.30，锆石ε_Hf（t）值为-9.70~2.48，T_DM^C值为734~1 593 Ma，为岩石圈持续减薄机制下，越来越多的幔源物质（或新生地壳）涌入深部长英质岩浆房混合形成.
- 动力学背景 /
- 岩石成因 /
- 地球化学 /
- 花岗岩 /
- 晚中生代 /
- 浙西北
Abstract: The strong Late Mesozoic magmatic intruding events happened in Northwest Zhejiang area, which is located in the active western Pacific margin. The granites are classified as Ⅰ- and aluminous A-types, and the former is further divided into Ⅰ-type and highly fractionated Ⅰ-type granites. The Ⅰ-type granites of Mid-Late Jurassic to early Early Cretaceous(172-135 Ma) have the initial ⁸⁷Sr/⁸⁶Sr ratios ranging from 0.707 004 to 0.711 896, ε_Nd(t) values from -6.70 to -2.00, ε_Hf(t) values from -5.08 to -1.67, indicating that these granites are originated from mixing between remelted Meso-Neoproterozoic Jiangnan island arc and little mantle materials rose along slab crack. The formation of these granites may be closely related to the subduction of Paleo-Pacific plate. The highly fractionated Ⅰ-type granites in the early Early Cretaceous(147-135 Ma) have the initial ⁸⁷Sr/⁸⁶Sr ratio ranging from 0.706 890 to 0.709 880, ε_Nd(t) values from -6.80 to -4.50, ε_Hf(t) values from -6.59 to -5.23, suggesting that they are the products of magma mixing by remelting crustal materials of the Meso-Neoproterozoic and rising mantle mafic magma due to asthenosphere uplifting. It also indicates that the tectonic environment transformed from compression to extension in this period.The A-type granites of middle Early Cretaceous(135-123 Ma) have the initial ⁸⁷Sr/⁸⁶Sr ratios ranging from 0.703 503 to 0.710 171, ε_Nd(t) values from -8.90 to -0.30, ε_Hf(t) values from -9.70 to 2.48, indicating that the magma during Middle-Early Cretaceous was mainly originated from remelting of the Meso-Neoproterozoic crustal materials, mixed by more and more mantle materials, in an extension setting.
- tectonic dynamic setting /
- petrogenesis /
- geochemistry /
- granite /
- Late Mesozoic /
- Northwest Zhejiang

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图 1 浙西北地区晚中生代花岗岩分布

Fig. 1. Distribution of Late-Mesozoic granites in Northwest Zhejiang

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图 2 浙西北地区晚中生代花岗岩Na₂O+K₂O-SiO₂(a)及K₂O-SiO₂(b)图解

据Rickwood(1989).Ⅰ₁类花岗岩(172~135 Ma)唐燕文等(2012)、张建芳等(2013)、厉子龙等(2013)、Li et al.(2013)、王科强(2015)、胡开明等(2016)、唐增才等(2014, 2016, 2018)、唐增才(2016)、浙江省第三地质大队(2013, 江绍拼合带中西段铜多金属矿床区域成矿规律研究与成矿预测)、浙江省地质调查院(2015, 浙江1:5万杭垓、仙霞、船村幅区域地质矿产调查成果报告)、浙江省地质调查院(2011, 淳安唐村-临岐地区区域地质矿产调查成果报告)和浙江省地质调查院(2014, 开化杨林-淳安叶村地区矿产远景调查成果报告)；Ⅰ₂类花岗岩(147~135 Ma)张建芳等(2013)和唐增才(2016)；Ⅱ类花岗岩(135~123 Ma)引自Jiang et al.(2011)、Li et al.(2013)、张建芳等(2015)和唐增才等(2016, 2017, 2018)

Fig. 2. Na₂O+K₂O vs. SiO₂ diagram (a) and K₂O vs. SiO₂ diagram (b) for Late Mesozoic granites in Northwest Zhejiang

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图 3 浙西北地区晚中生代花岗岩Harker图解

数据来源同图 2

Fig. 3. Hacker diagrams for Late Mesozoic granites in Northwest Zhejiang

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图 4 浙西北地区晚中生代花岗岩A.R.-SiO₂(a)及A/CNK-A/NK(b)图解

图a据Wright(1969)；图b据Maniar(1989).数据来源同图 2

Fig. 4. SiO₂ vs. A.R diagram (a) and A/CNK vs. A/NK diagram (b) for Late Mesozoic granites in Northwest Zhejiang

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图 5 浙西北地区晚中生代花岗岩稀土元素球粒陨石标准化曲线(a, c)和微量元素蛛网图(b, d)

标准值据Sun and McDonough(1989)；数据来源同图 2

Fig. 5. Chondrite-normalized REE patterns (a, c) and trace element spider diagrams (b, d) for Late Mesozoic granites in Northwest Zhejiang

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图 6 浙西北地区晚中生代花岗岩(⁸⁷Sr/⁸⁶Sr)_i-t和ε_Nd(t)-t图解

MORB据夏林圻等(2004); 扬子下地壳、江南造山带东部地壳据Jiang et al.(2011)和Wang et al.(2012); 扬子上地壳据王元龙等(2004)

Fig. 6. (⁸⁷Sr/⁸⁶Sr)_i-t diagram and ε_Nd(t)-t diagram for Late Mesozoic granites in Northwest Zhejiang

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图 7 浙西北地区晚中生代花岗岩Hf同位素演化图解

Fig. 7. Hf isotopic diagram for Late Mesozoic granites in Northwest Zhejiang

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图 8 浙西北地区晚中生代花岗岩成因类型判别图解

图a据Frost et al.(2001)；图b据Wolf and London(1994)；图c~f据Whalen et al.(1987)

Fig. 8. Origin and classification diagrams for Late Mesozoic granites in Northwest Zhejiang

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图 9 浙西北地区晚中生代花岗岩构造环境判别图解

图a~d据Pearce et al.(1984)；图e, f据Harris et al.(1986)

Fig. 9. Discrimination diagrams of tectonic setting for Late Mesozoic granites in Northwest Zhejiang

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图 10 浙西北地区晚中生代花岗岩形成深度

据张旗等(2006, 据2010)；数据来源同图 2

Fig. 10. Formation depth diagrams of the Late Mesozoic granites in Northwest Zhejiang

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表 1 浙西北地区晚中生代花岗岩成岩年龄

Table 1. The formation age of the Late Mesozoic granites in Northwest Zhejiang

成岩阶段及分类		岩体位置	编号	测试对象	成岩年龄(Ma)	测试方法	资料来源
中晚侏罗世-早白垩世早期	Ⅰ型 I₁类	开化桐村	1	花岗斑岩	167.6~155.6	锆石U-Pb LA-ICP-MS	邱骏挺等, 2011
		开化桐村	1	花岗斑岩	168.7~162.6	锆石U-Pb SHRIMP	王科强, 2015
		开化桐村	2	花岗闪长岩	165.7~162.1	锆石U-Pb SHRIMP	王科强, 2015
		常山兰花坞	3	花岗斑岩	172.0±3.4	锆石U-Pb SHRIMP	浙江省第三地质大队^①
		常山兰花坞	4	花岗闪长岩	162.3±0.9	锆石U-Pb SHRIMP	浙江省第三地质大队^①
		淳安大铜坑	5	花岗闪长岩	148.3±1.9	锆石U-Pb SHRIMP	胡开明等, 2016
		淳安结蒙	6	花岗闪长岩	147.3±1.0	锆石U-Pb LA-ICP-MS	Li et al., 2013
		建德岭后	7	花岗闪长岩	169.9±1.4	锆石U-Pb LA-ICP-MS	贾少华等, 2014
		建德岭后	7	花岗闪长岩	162.9±1.9	锆石U-Pb SHRIMP	王科强, 2015
		淳安开岭脚	8	花岗闪长岩	151±3	锆石U-Pb SHRIMP	汪建国等, 2010
		淳安里陈家	9	花岗闪长岩	148±2	锆石U-Pb SHRIMP	汪建国等, 2010
		临安赤石	10	花岗闪长岩	147.2±1.0	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		桐庐彰坞	11	花岗闪长岩	159.7±2.6	锆石U-Pb LA-ICP-MS	唐增才, 2016
		绍兴珊溪	12	花岗闪长岩	150.1±2.6	锆石U-Pb LA-ICP-MS	顾明光等, 2011
		富阳千家	13	花岗闪长岩	146.8±2.1	锆石U-Pb SHRIMP	唐增才等, 2016
		余杭中泰	14	花岗闪长岩	144.9±1.5	锆石U-Pb LA-ICP-MS	刘荣，未发表
		余杭闲林	15	花岗闪长岩	151.8±2.2	锆石U-Pb SHRIMP	唐增才等, 2014
		德清何村	16	石英二长岩	149.2±1.1	锆石U-Pb LA-ICP-MS	唐增才等, 2018
		安吉唐舍	17	二长花岗岩	140.4±3.3	锆石U-Pb LA-ICP-MS	浙江省地质调查院^②
		余杭长乐	18	二长花岗岩	138.8±1.9	锆石U-Pb SHRIMP	唐增才等，2016
		富阳拔山	19	二长花岗岩	137.3±1.7	锆石U-Pb SHRIMP	唐增才等，2016
	高分异 Ⅰ型I₂类	湖州康山	20	二长花岗岩	137.4±1.2	锆石U-Pb LA-ICP-MS	唐增才等, 2018
		安吉马鞍山	21	二长花岗岩	138.0~129.7	锆石U-Pb LA-ICP-MS	陈芳等, 2014；张建芳等, 2015
		安吉章村	22	二长花岗岩	145.1~144.2	锆石U-Pb LA-ICP-MS	张建芳等, 2017
		安吉坞山关	23	二长花岗岩	141.0~139.2	锆石U-Pb LA-ICP-MS	唐燕文等，2013
		临安学川	24	二长花岗岩	136.8±1.9	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		诸暨广山	25	花岗岩	147.2±1.7	锆石U-Pb LA-ICP-MS	顾明光等, 2011
		淳安木瓜	26	花岗斑岩	142.2±1.2	锆石U-Pb LA-ICP-MS	厉子龙等，2013
早白垩世中期	铝质 A型Ⅱ类	常山岩前	27	二长花岗岩	127±2	锆石U-Pb SHRIMP	王科强, 2015
		常山岩前	27	二长花岗岩	128.5±1.9	锆石U-Pb LA-ICP-MS	唐增才, 2016
		衢州白菊花尖	28	正长花岗岩	125.6±3.2	锆石U-Pb LA-ICP-MS	Wong et al., 2009
		衢州九华山	29	正长花岗岩	135.1~132.4	锆石U-Pb LA-ICP-MS	Yang et al., 2012
		淳安儒洪	30	二长花岗岩	128.5±2.4	锆石U-Pb LA-ICP-MS	Jiang et al., 2011
		淳安儒洪	30	二长花岗岩	132±1	锆石U-Pb SHRIMP	王科强, 2015
		淳安双溪口	31	二长花岗岩	130.4±1.1	锆石U-Pb LA-ICP-MS	唐增才等, 2017
		淳安黄石潭	32	二长花岗岩	125.8±1.4	锆石U-Pb LA-ICP-MS	Li et al., 2013
		临安夏色岭	33	正长花岗岩	125.5~123.5	锆石U-Pb LA-ICP-MS	黄国成等, 2012a
		桐庐合村	34	二长花岗岩	129.2±1.4	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		临安河桥	35	二长花岗岩	126.8±1.6	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		安吉章村	36	正长花岗岩	131.7~130.8	锆石U-Pb LA-ICP-MS	张建芳等, 2017
		安吉唐舍	37	正长花岗岩	131.4±2.4	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		安吉马鞍山	38	二长花岗岩	130~127	锆石U-Pb LA-ICP-MS	Wu et al., 2012
		安吉坞山关	39	正长花岗岩	134.5~133.9	锆石U-Pb LA-ICP-MS	谢玉玲等，2012b
		余杭泗岭	40	正长花岗岩	131.3±1.7	锆石U-Pb LA-ICP-MS	唐增才等，2018
		德清沈家墈	41	正长花岗岩	133.6±0.95	锆石U-Pb LA-ICP-MS	唐增才等，2018
		德清莫干山	42	正长花岗岩	128.1±2.1	锆石U-Pb LA-ICP-MS	章邦桐等，2012
		湖州凤凰山	43	正长花岗岩	131.7±1.5	锆石U-Pb LA-ICP-MS	唐增才等，2018
注：①浙江省第三地质大队, 2013, 江绍拼合带中西段铜多金属矿床区域成矿规律研究与成矿预测；②浙江省地质调查院, 2015, 浙江1:5万杭垓、仙霞、船村幅区域地质矿产调查成果报告.

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