吉南老岭地区早白垩世铝质A型花岗岩的厘定及其构造意义

秦亚; 梁一鸿; 胡兆初; 冯坚; 李敏

doi:10.3799/dqkx.2013.068

吉南老岭地区早白垩世铝质A型花岗岩的厘定及其构造意义

doi: 10.3799/dqkx.2013.068

1.
吉林大学地球科学学院, 吉林长春 130061
2.
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

基金项目:

中国地质调查局项目 1212011120156

吉林省科技厅项目 20090480

详细信息

作者简介:
秦亚(1986-), 男, 博士研究生, 主要从事区域构造研究.E-mail: qinya11111@sohu.com

中图分类号: P588.12
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出版历程
- 收稿日期: 2012-12-27
- 刊出日期: 2013-07-01

Confirmation of Aluminous A-Type Granite Emplacement and Its Tectonic Significance during Early Cretaceous in the Laoling Area, South of Jilin Province

1.
College of Earth Sciences, Jilin University, Changchun 130061, China
2.
State Key Laboratory of Geological Process and Mineral Resources, China University of Geosciences, Wuhan 430074, China

摘要

摘要: 主微量元素分析和LA-ICP-MS锆石U-Pb年龄显示吉南老岭地区的头道、老岭、上绿水桥和高台子岩体为一套早白垩世铝质A型花岗岩.主要岩性为钾长花岗岩、晶洞钾长花岗岩、花岗斑岩和花岗岩.LA-ICP-MS锆石U-Pb年龄为121~125Ma.主量元素具有富Si、alk, 贫Fe、Mg、Ca、Ti的特征; 微量元素亏损Ba、Sr、Ti、Nb、Ta、P, 富集K、Rb、Th等不相容元素; 稀土元素具有中等到强烈的负铕异常及右倾海鸥型的球粒陨石标准化稀土配分模式.元素地球化学特征表明岩体为铝质A型花岗岩(A/CNK=0.82~1.15, A/NK=1.00~1.28).岩石具有较低的不相容元素Ce/Nb、Y/Nb、Yb/Ta比值, 为A₁型非造山花岗岩.研究表明吉南老岭地区早白垩世时处于非造山的伸展构造环境, 是华北板块东部早白垩世伸展地球动力学背景在吉林南部地区的岩浆活动体现.
- 地质年代学 /
- 铝质A型花岗岩 /
- 伸展构造环境 /
- 地球化学 /
- 吉南
Abstract: Major and trace elements analysis and LA-ICP-MS zircon U-Pb ages show Toudao, Laoling, Shanglvshuiqiao and Gaotaizi plutons are Early Cretaceous aluminum A-type granites in the Laoling area, South of Jilin Province.Plutons mainly consist of k-feldspar granite, miarolitic k-feldspar granite, granite porphyry and granites.The results of LA-ICP-MS dating are (121-125) Ma.The major elements of granitoids are high in Si, alk and low in Fe, Mg, Ca, and Ti.Trace elements are enriched in incompatible elements such as K, Rb, Th and depleted in Ba, Sr, Ti, Nb, Ta, and P.The granitoids have right-wing type of chondrite-normalized REE patterns and moderate negative Eu anomalies.Geochemical features indicate that granitoids are aluminum A-type granites (A/CNK=(0.82-1.15), A/NK=(1.00-1.28)).Granitoids with relatively low incompatible element ratio values such as Ce/Nb, Y/Nb and Yb/Ta are A₁-type anorogenic granite.The formation of A₁-type granite indicates Laoling area is in the Anorogenic extensional tectonic setting during Early Cretaceous.
- geochronology /
- aluminous A-type granite /
- extensional tectonic environment /
- geochemistry /
- South of Jilin Province

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图 1 花岗岩体地质简图

①岔信子；②小苇沙河；③龙头；④通沟；⑤高台子；⑥上绿水桥；⑦头道沟；⑧石湖；⑨老岭

Fig. 1. Geological sketch map of granite plutons

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图 2 花岗岩体阴极发光(CL)图像

a.头道岩体；b.高台子岩体；c.老岭岩体；d.上绿水桥岩体

Fig. 2. CL images of ziron

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图 3 花岗岩体锆石U-Pb谐和曲线

a.头道岩体；b.高台子岩体；c.老岭岩体；d.上绿水桥岩体

Fig. 3. Concordia diagrams

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图 4 SiO₂-K₂O图解

Fig. 4. SiO₂-K₂O diagram of granite

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图 5 含铝指数图解

Fig. 5. Aluminous index diagram of granite

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图 6 球粒陨石标准化配分模式(据Sun and McDonough, 1989)

Fig. 6. Chondrite-normalized REE pattern of granite

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图 7 原始地幔标准化蛛网图(据Sun and McDonough, 1989)

Fig. 7. Primitive mantle-normalized spider diagram

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图 8 成因类型判别图解

Fig. 8. The diagram showing the genetic type of the A-type granites

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图 9 R₁-R₂图解

Fig. 9. R₁-R₂ diagram

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表 1 花岗岩体LA-ICP-MS锆石U-Pb年龄数据

Table 1. LA-ICP-MS U-Pb ziron age data for granite plutons

	²³²Th(10^-6)	²³⁸U(10^-6)	²³²Th/²³⁸U	比值(±1σ/100)			年龄(Ma)
	²³²Th(10^-6)	²³⁸U(10^-6)	²³²Th/²³⁸U	²⁰⁷Pb/²⁰⁶Pb	²⁰⁷Pb/²³⁵U	²⁰⁶Pb/²³⁸U	²⁰⁷Pb/²⁰⁶Pb	²⁰⁷Pb/²³⁵U	²⁰⁶Pb/²³⁸U
高台子岩体
J0101	235.63	256.22	0.92	0.0524±0.29	0.1375±0.80	0.0193±0.03	305±103	131±7	123±2
J0102	865.46	753.76	1.15	0.0496±0.19	0.1340±0.51	0.0196±0.02	174±69	128±5	125±1
J0103	195.85	292.64	0.67	0.0521±0.31	0.1337±0.78	0.0190±0.03	290±105	127±7	121±2
J0104	252.39	229.99	1.10	0.0529±0.35	0.1397±0.97	0.0194±0.03	323±128	133±9	124±2
J0105	218.55	266.23	0.82	0.0545±0.41	0.1393±0.88	0.0194±0.03	390±113	132±8	124±2
J0106	262.80	243.69	1.08	0.0540±0.36	0.1454±0.91	0.0199±0.04	373±109	138±8	127±2
J0107	160.46	150.60	1.07	0.0536±0.42	0.1432±1.07	0.0194±0.04	353±131	136±9	124±3
J0108	327.47	480.12	0.68	0.0506±0.25	0.1332±0.64	0.0192±0.02	221±92	127±6	122±1
J0109	504.20	370.11	1.36	0.0481±0.25	0.1293±0.69	0.0195±0.03	103±94	123±6	125±2
J0110	391.05	422.81	0.92	0.0501±0.25	0.1306±0.64	0.0192±0.03	202±88	125±6	122±2
J0111	369.57	471.75	0.78	0.0523±0.24	0.1393±0.63	0.0196±0.03	298±76	132±6	125±2
J0112	251.56	381.66	0.66	0.0509±0.28	0.1367±0.75	0.0196±0.03	236±99	130±7	125±2
J0113	331.41	305.91	1.08	0.0525±0.32	0.1403±0.77	0.0198±0.03	305±98	133±7	127±2
J0114	296.56	248.26	1.19	0.0518±0.36	0.1344±0.85	0.0193±0.03	276±115	128±8	123±2
J0115	220.19	375.18	0.59	0.0533±0.27	0.1413±0.68	0.0196±0.03	342±81	134±6	125±2
J0116	311.20	263.48	1.18	0.0531±0.33	0.1440±0.83	0.0202±0.04	334±96	137±7	129±2
J0117	378.96	352.29	1.08	0.0502±0.27	0.1321±0.71	0.0193±0.02	203±101	126±6	123±2
J0118	520.12	415.98	1.25	0.0471±0.25	0.1233±0.64	0.0191±0.03	52±86	118±6	122±2
老岭岩体
J601	644.75	632.75	1.02	0.0495±0.21	0.1244±0.51	0.0184±0.02	169±72	119±5	118±2
J602	570.54	555.11	1.03	0.0520±0.51	0.1358±1.32	0.0190±0.03	284±226	129±12	121±2
J603	233.35	373.78	0.62	0.0455±0.23	0.1199±0.59	0.0192±0.03	-28±80	115±5	122±2
J604	268.74	330.25	0.81	0.0520±0.34	0.1358±0.88	0.0190±0.03	285±118	129±8	121±2
J605	252.23	258.41	0.98	0.0534±0.36	0.1391±0.99	0.0189±0.03	346±131	132±9	121±2
J606	256.31	414.44	0.62	0.0510±0.23	0.1389±0.63	0.0198±0.03	241±80	132±6	126±2
J607	395.29	503.93	0.78	0.0519±0.26	0.1356±0.66	0.0189±0.02	279±91	129±6	121±1
J608	656.24	865.98	0.76	0.0508±0.20	0.1340±0.49	0.0192±0.02	232±66	128±4	123±1
J609	1851.23	1871.05	0.99	0.0511±0.12	0.1394±0.34	0.0197±0.02	243±40	133±3	126±1
J610	389.94	434.42	0.90	0.0495±0.23	0.1288±0.57	0.0192±0.02	171±81	123±5	122±1
J611	800.14	763.92	1.05	0.0505±0.17	0.1313±0.42	0.0188±0.02	219±56	125±4	120±1
J612	175.59	227.65	0.77	0.0508±0.28	0.1320±0.71	0.0190±0.03	230±99	126±6	121±2
J613	291.73	448.92	0.65	0.0516±0.21	0.1376±0.55	0.0194±0.02	269±71	131±5	124±1
J614	1384.59	955.47	1.45	0.0525±0.17	0.1387±0.46	0.0191±0.02	307±59	132±4	122±1
J615	420.63	483.81	0.87	0.0546±0.28	0.1435±0.66	0.0194±0.03	396±80	136±6	124±2
J616	272.25	366.69	0.74	0.0456±0.20	0.1222±0.54	0.0194±0.02	-22±70	117±5	124±1
J617	430.03	616.61	0.70	0.0526±0.29	0.1374±0.72	0.0191±0.03	312±93	131±6	122±2
上绿水桥岩体
J401	380.37	291.33	1.31	0.0499±0.62	0.1294±1.59	0.0188±0.05	192±227	124±14	120±3
J402	1389.61	792.00	1.75	0.0517±0.21	0.1368±0.57	0.0193±0.02	270±76	130±5	123±1
J403	1588.40	940.64	1.69	0.0525±0.18	0.1392±0.49	0.0191±0.02	307±61	132±4	122±1
J404	1492.81	824.62	1.81	0.0528±0.31	0.1365±0.77	0.0188±0.03	319±99	130±7	120±2
J405	434.89	365.83	1.19	0.0538±0.30	0.1424±0.74	0.0196±0.03	364±90	135±7	125±2
J406	1268.11	1066.46	1.19	0.0544±0.62	0.1448±1.58	0.0194±0.07	389±181	137±14	124±4
J407	851.72	637.78	1.34	0.0533±0.27	0.1409±0.75	0.0190±0.03	341±96	134±7	121±2
J408	491.97	661.81	0.74	0.0447±0.32	0.1148±0.78	0.0189±0.03	-35±113	110±7	120±2
J409	794.06	781.38	1.02	0.0516±0.21	0.1338±0.52	0.0190±0.02	267±68	128±5	121±1
J410	528.91	465.62	1.14	0.0513±0.25	0.1331±0.65	0.0189±0.02	252±91	127±6	121±1
J411	631.04	626.82	1.01	0.0488±0.21	0.1258±0.49	0.0189±0.02	139±71	120±4	120±1
头道岩体
2201	165.28	279.05	0.59	0.0487±0.33	0.1268±0.83	0.0189±0.03	133±152	121±7	121±2
2202	172.54	280.60	0.61	0.0539±0.34	0.1483±0.86	0.0203±0.03	366±107	140±8	130±2
2203	105.47	129.05	0.82	0.0473±0.52	0.1265±1.41	0.0194±0.06	64±190	121±13	124±4
2204	162.14	228.92	0.71	0.0546±0.35	0.1413±0.83	0.0192±0.03	395±105	134±7	123±2
2205	27.11	50.64	0.54	0.0540±0.48	0.1233±0.29	0.0183±0.13	370±119	118±3	117±8
2206	149.83	280.93	0.53	0.0548±0.41	0.1375±0.87	0.0189±0.04	404±104	131±8	121±3
2207	164.35	218.24	0.75	0.0494±0.28	0.1316±0.76	0.0194±0.03	166±107	126±7	124±2
2208	212.35	275.63	0.77	0.0483±0.43	0.1304±1.11	0.0196±0.05	111±199	124±10	125±3
2209	184.28	299.49	0.62	0.0527±0.30	0.1431±0.82	0.0197±0.03	317±107	136±7	126±2
2210	90.33	175.38	0.52	0.0533±0.39	0.1479±1.01	0.0204±0.04	339±124	140±9	130±2
2211	257.83	324.07	0.80	0.0535±0.30	0.1437±0.83	0.0195±0.02	348±110	136±7	125±1
2212	161.96	215.67	0.75	0.0495±0.27	0.1304±0.68	0.0193±0.03	171±94	124±6	123±2
2213	140.82	278.80	0.51	0.0522±0.35	0.1428±0.93	0.0199±0.03	295±119	136±8	127±2
2214	167.96	223.25	0.75	0.0512±0.30	0.1436±0.85	0.0203±0.03	251±109	136±8	129±2
2215	262.09	268.88	0.97	0.0517±0.26	0.1387±0.68	0.0196±0.03	271±88	132±6	125±2
2216	123.64	148.17	0.83	0.0522±0.59	0.1327±1.5	0.0188±0.04	294±217	126±13	120±2
2217	98.91	163.90	0.60	0.0469±0.79	0.1231±2.08	0.0192±0.08	43±255	118±19	123±5
2218	305.14	239.69	1.27	0.0535±0.36	0.1477±0.97	0.0200±0.04	349±116	140±9	128±2

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表 2 花岗岩体常量元素含量(%)

Table 2. Major element values of granite plutons

	SiO₂	TiO₂	Al₂O₃	TFe₂O₃	MnO	MgO	CaO	Na₂O	K₂O	P₂O₅	A/CNK	A/NK	K₂O/Na₂O	TFeO/MgO
高台子岩体
J002-2	74.41	0.10	12.66	2.15	0.05	0.35	0.87	3.78	5.15	0.07	0.95	1.07	1.36	5.53
J002-3	74.80	0.10	13.63	1.78	0.05	0.33	0.67	3.93	4.35	0.07	1.10	1.22	1.11	4.85
J001-1	71.60	0.24	13.92	2.58	0.09	0.49	0.54	4.32	4.80	0.05	1.05	1.13	1.11	4.74
J005-2	74.54	0.20	11.91	1.96	0.03	0.60	1.77	3.53	5.13	0.03	0.82	1.05	1.45	2.94
J005-6	75.96	0.10	12.17	1.68	0.05	0.29	0.78	3.55	5.07	0.03	0.95	1.07	1.43	5.21
上绿水桥岩体
J004-4	76.34	0	12.52	1.37	0.03	0.03	0.21	3.32	5.16	0.03	1.10	1.13	1.55	41.09
J004-5	76.30	0.04	12.50	1.47	0.03	0.02	0.15	3.31	5.20	0.05	1.10	1.13	1.57	66.14
J004-8	75.98	0.02	11.83	1.76	0.07	0.04	0.36	3.49	5.14	0.03	0.99	1.05	1.47	39.59
J004-9	75.94	0	12.43	1.44	0.03	0.03	0.56	3.09	5.20	0.04	1.06	1.16	1.68	43.19
老岭岩体
J006-1	75.54	0	12.14	1.58	0.04	0.04	0.52	3.95	5.14	0.04	0.93	1.01	1.30	35.54
J008-1	74.70	0.02	12.03	1.83	0.06	0.04	0.49	3.64	5.55	0.04	0.93	1.00	1.52	41.17
J009-1	74.52	0.10	13.53	2.43	0.03	0.17	0.44	3.70	4.43	0.04	1.16	1.24	1.20	12.86
J011-3	75.30	0.02	12.32	1.48	0.04	0.08	0.40	3.46	5.64	0.05	0.98	1.04	1.63	16.65
J011-5	75.50	0.04	12.40	1.56	0.03	0.08	0.37	3.25	5.91	0.04	1.00	1.06	1.82	17.55
头道岩体
J022-3	74.24	0.16	12.62	2.32	0.05	0.31	0.26	4.11	5.28	0.03	0.97	1.01	1.28	6.73
J022-5	75.32	0.16	12.71	1.38	0.04	0.25	0.65	3.51	4.64	0.04	1.06	1.18	1.32	4.97
J022-7	74.26	0.16	12.62	2.38	0.05	0.29	0.22	3.70	5.19	0.05	1.04	1.08	1.40	7.38
J022-9	74.56	0.12	12.64	2.18	0.04	0.25	0.22	3.46	5.19	0.04	1.08	1.12	1.50	7.85
J022-13	74.02	0.12	13.40	1.67	0.05	0.26	0.36	3.97	4.92	0.05	1.07	1.13	1.24	5.78

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表 3 花岗岩体稀土微量元素含量(10^-6)

Table 3. Trace elements and rare earth elements values of granite plutons

稀土元素	La	Ce	Pr	Nd	Sm	Eu	Gd	Tb	Dy	Ho	Er	Tm	Yb	Lu	∑REE
高台子岩体
J002-2	28.83	50.13	5.59	17.75	2.84	0.52	2.41	0.40	2.32	0.44	1.32	0.25	1.63	0.26	114.69
J002-3	34.68	62.98	6.47	19.72	2.99	0.53	2.52	0.38	2.24	0.44	1.34	0.25	1.66	0.26	136.44
J001-1	36.30	71.03	7.27	23.21	3.86	0.64	3.31	0.52	3.03	0.57	1.66	0.30	1.88	0.28	153.84
J005-2	31.43	55.65	5.86	18.44	3.10	0.50	2.73	0.44	2.64	0.51	1.56	0.28	1.85	0.28	125.26
J005-6	24.36	40.32	4.72	15.06	2.77	0.43	2.46	0.42	2.50	0.47	1.42	0.26	1.67	0.24	97.09
上绿水桥岩体
J004-4	24.62	70.83	6.16	21.35	4.16	0.06	3.82	0.64	3.81	0.72	2.07	0.36	2.19	0.30	141.08
J004-5	22.87	66.58	5.60	18.91	3.53	0.06	3.08	0.51	3.02	0.56	1.64	0.27	1.68	0.24	128.55
J004-8	28.28	81.55	6.64	22.24	4.07	0.06	3.72	0.65	3.83	0.73	2.17	0.37	2.24	0.32	156.86
J004-9	16.35	50.81	4.34	15.47	3.16	0.06	3.00	0.54	3.20	0.61	1.84	0.31	1.94	0.28	101.90
老岭岩体
J006-1	40.52	96.36	8.91	30.46	5.36	0.23	4.65	0.74	4.14	0.74	2.10	0.34	2.08	0.29	196.93
J008-1	38.63	84.64	8.77	30.67	5.68	0.23	5.08	0.85	4.94	0.92	2.57	0.43	2.6	0.37	186.37
J009-1	46.11	78.45	10.34	36.19	6.90	0.58	6.41	1.05	6.00	1.10	3.10	0.51	3.15	0.44	200.34
J011-3	22.16	41.80	4.67	15.71	3.26	0.24	3.18	0.54	3.12	0.60	1.74	0.29	1.78	0.27	99.38
J011-5	28.09	46.82	5.89	19.42	3.89	0.29	3.95	0.71	4.35	0.80	2.47	0.43	2.74	0.41	120.24
头道岩体
J022-13	17.25	84.20	3.98	13.28	2.49	0.20	2.18	0.38	2.20	0.41	1.22	0.20	1.20	0.17	129.37
J022-3	33.24	103.70	6.84	22.34	3.66	0.3	3.34	0.55	3.23	0.61	1.76	0.28	1.77	0.23	181.85
J022-5	31.07	97.87	6.88	23.05	4.05	0.29	3.54	0.56	3.22	0.57	1.63	0.27	1.63	0.23	174.85
J022-7	36.46	98.93	8.09	26.72	4.83	0.33	4.05	0.63	3.49	0.63	1.78	0.28	1.69	0.24	188.16
J022-9	23.50	72.32	6.31	21.90	4.37	0.33	3.83	0.70	4.23	0.80	2.37	0.39	2.61	0.37	144.04

微量元素	Be	V	Cr	Ga	Rb	Sr	Y	Zr	Nb	Cs	Ba	Hf	Ta	Th	U
高台子岩体
J002-2	1.71	13.35	3.44	26.69	133.5	158.1	13.61	154.90	12.41	1.55	889.4	5.44	1.92	16.81	1.93
J002-3	1.56	13.00	2.74	26.15	136.9	162.8	13.97	147.60	11.88	1.54	863.7	4.81	1.41	16.48	1.94
J001-1	2.12	9.76	1.54	27.51	153.4	184.8	16.11	204.80	15.63	1.85	893.5	6.28	1.41	17.81	3.11
J005-2	1.90	9.30	1.93	24.76	152.1	133.4	15.15	132.80	13.04	1.28	832.5	4.79	1.45	18.06	3.16
J005-6	1.78	8.63	1.74	23.31	134.8	120.2	14.37	92.09	12.87	1.08	798.4	3.56	1.47	15.66	2.83
上绿水桥岩体
J004-4	4.28	0.48	0.65	10.65	204.1	6.98	18.44	198.60	23.17	2.54	26.07	8.37	1.82	19.69	5.48
J004-5	3.62	0.40	0.58	10.22	196.4	6.75	14.71	165.10	22.89	2.63	27.16	6.92	1.75	17.48	4.63
J004-8	3.18	0.48	2.15	10.50	204.8	6.65	19.88	175.20	23.92	2.66	24.64	7.37	1.73	18.35	4.82
J004-9	3.99	0.71	2.69	10.22	187.5	7.26	17.22	150.80	21.35	2.40	23.25	6.47	1.65	16.75	4.77
老岭岩体
J006-1	3.44	0.55	0.79	12.34	180.5	9.11	19.95	189.70	19.82	1.81	124.0	7.31	1.50	18.81	4.28
J008-1	3.73	0.58	0.95	14.10	169.2	18.92	24.23	198.40	19.93	1.92	117.6	7.3	1.52	17.09	4.29
J009-1	2.60	5.96	1.38	24.97	137.9	99.93	30.60	234.90	22.98	2.21	590.7	7.65	1.67	15.24	2.37
J011-3	2.57	2.51	1.47	15.95	190.1	67.81	17.02	98.88	20.70	2.46	364.8	3.99	2.13	16.67	5.06
J011-5	2.43	2.70	0.80	18.67	191.7	76.88	26.06	94.67	20.84	2.51	410.5	3.97	2.25	19.24	5.10
头道岩体
J022-13	3.28	7.07	2.32	16.45	139.0	66.83	9.90	276.50	27.00	2.79	305.4	8.79	2.44	17.00	3.82
J022-3	4.42	9.00	1.39	18.15	170.4	93.66	14.53	369.20	35.83	3.93	340.6	11.07	2.88	19.70	4.16
J022-5	3.85	7.78	2.13	18.53	140.1	87.04	13.89	278.30	29.30	2.56	340.8	8.85	2.48	20.20	4.03
J022-7	3.56	7.40	1.85	18.39	141.0	82.88	15.57	272.70	28.25	2.65	348.8	8.48	2.44	19.99	3.69
J022-9	3.61	6.98	1.94	24.04	121.1	84.74	19.10	148.50	28.74	2.45	367.6	5.57	2.42	16.19	3.29

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参考文献(42)

Chen, C., Lv, X.B., Cao, X.F., et al., 2013. Geochronology, Geochemistry and Geological Significance of Late Carboniferous-Early Permian Granites in Kumishi Area, Xinjiang. Earth Science—Journal of China University of Geosciences, 38(2): 219-232. doi: 10.3799/dqkx.2013.023(in Chinese with English abstract).
Duan, Q.L., Tan, W.Y., Yang, C.C., et al., 2007. A Review on the Late Mesozoic Extensional Tectonics on the Eastern North China Craton. Progress in Geophysics, 22(2): 403-410(in Chinese with English abstract).
Eby, G.N., 1992. Chemical Subdivision of the A-Type Granitoids: Petrogenesis and Implications. Geology, 20(7): 641-644. doi: 10.1130/0091-7613
Hong, D.W., Wang, S.G., Han, B.F., et al., 1995. Kind of Tectonic Settings of Alkaline Granite and Discrimination Indicator. Science China(Series B), 25(4): 418-426(in Chinese with English abstract).
Li, X.W., Mo, X.X., Zhao, Z.D., et al., 2010. A Discussion on How to Discriminate A-Type Granite. Geological Bulletin of China, 29(2/3): 278-285(in Chinese with English abstract).
Lin, W., Wang, Q.C., Wang, J., et al., 2011. Late Mesozoic Extensional Tectonics of the Liaodong Peninsula Massif: Response of Crust to Continental Lithosphere Destruction of the North China Craton. Sci. China (Series D): Earth Science, 54: 843-857(in Chinese with English abstract). doi: 10.1007/s11430-011-4190-5
Liu, J.L., Davis, G.A., Ji, M., et al., 2008. Crustal Detachment and Destruction of the North China Craton: Constraints from Late Mesozoic Extensional Structures. Earth Science Frontiers, 15(3): 72-81(in Chinese with English abstract). doi: 10.1016/S1872-5791(08)60063-9
Liu, Y.S., Gao, S., Hu, Z.C., et al., 2009. Continental and Oceanic Crust Recycling-Induced Melt-Peridotite Interactions in the Trans-North China Orogen: U-Pb Dating, Hf Isotopes and Trace Elements in Zircons of Mantle Xenoliths. Journal of Petrology, 51(1-2): 537-571. doi: 10.1093/petrology/egp082
Liu, Y.S., Hu, Z.C., Zong, K.Q., et al., 2010. Reappraisement and Refinement of Zircon U-Pb Isotope and Trace Element Analyses by LA-ICP-MS. Chinese Science Bulletin, 55(15): 1535-1546. doi: 10.1007/s11434-010-0052-3
Lu, X.P., Wu, F.Y., Lin, J.Q., et al., 2004. Geochronological Successions of the Early Precambrian Granitic Magmatism in Southern Liaodong Peninsula and Its Constraints on Tectonic Evolution of the North China Craton. Chinese Journal of Geology, 39(1): 123-138(in Chinese with English abstract). http://www.researchgate.net/publication/279567103_Geochronological_successions_of_the_Early_Precambrian_granitic_magmatism_in_Southern_Liaodong_Peninsula_and_its_constraints_on_tectonic_evolution_of_the_North_China_Craton_in_Chinese
Lu, X.P., Wu, F.Y., Guo, J.H., et al., 2005. Late Paleoproterozoic Granitic Magmatism and Crustal Evolution in the Tonghua Region, Northeast China. Acta Petrologica Sinica, 21(3): 721-736(in Chinese with English abstract).
Loiselle, M.C., Wones, D.R., 1979. Characteristics and Origin of Anorogenic Granites. Geological Society of America, 11(7): 468. http://ci.nii.ac.jp/naid/10019593683
Su, Y.P., Tang, H.F., 2005. Trace Element Geochemistry of A-Type Granites. Bulletin of Mineralogy. Petrology and Geochemistry, 24(3): 245-251(in Chinese with English abstract).
Sun, D.Y., SUZUKI, K., Wu, F.Y., et al., 2005. CHIME Dating and Its Application for Mesozoic Granites of Huanggoushan, Jilin Province. Chinese Journal of Geochemistry, 34(4): 305-314(in Chinese with English abstract). http://d.wanfangdata.com.cn/periodical/dqhx200504001
Sun, S.S., McDonough, W.F., 1989. Chemical and Isotopic Systematic of Oceanic Basalts; Implication for Mantle Compostion and Processes (in Magmatism in Oceanic Basins). Geological Society Apecial Publication, 42: 313-345. doi: 10.1144/GSL.SP.1989.042.01.19
Whalen, J.B., Currie, K.L., Chappell, B.W., 1987. A-Type Granites: Geochemical Characteristics, Discrimination and Petrogenesis. Contributions to Mineralogy and Petrology, 95(4): 407-419. doi: 10.1007/BF00402202
Wu, S.P., Wang, M.Y., Qi, K.J., 2007. Present Situation of Researches on A-Type Granites: A View. Acta Petrologica et Mineralogica, 26(1): 57-66(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-YSKW200701008.htm
Wu, F.Y., Yang, J.H., Liu, X.M., et al., 2005. Geochronological Framwork of the Mesozoic Granitic Magmatism in the Liaodong Peninsula. Geological Journal of China Universities, 11(3): 305-317(in Chinese with English abstract). http://www.researchgate.net/publication/286695037_Geochronological_framework_of_the_Mesozoic_granitic_magmatism_in_the_Liaodong_Peninsula_Northeast_China
Wei, H.Y., Sun, D.Y., Ye, S.Q., et al., 2012. Zircon U-Pb Ages and Its Geological Significance of the Granitic Rocks in the Yichun-Hegang Region, Southeastern Xiao Hinggan Mountains. Earth Science—Journal of China University of Geosciences, 37(Suppl. ): 50-59. doi: 10.3799/dqkx.2012.SI.006 (in Chinese with English abstract).
Xu, B.L., Yan, G.H., Zhang, C., et al., 1998. Petrological Subdivision and Source Material of A-Type Granites. Earth Science Frontiers, 5(3): 113-124(in Chinese with English abstract). http://www.cnki.com.cn/Article/CJFDTotal-DXQY803.015.htm
Yang, J.H., Wu, F.Y., Zhong, S.L., et al., 2008. The Extensional Geodynamic Setting of Early Cretaceous Granitic Intrusions in the Eastern North China Craton: Evidence from Laser Ablation ⁴⁰Ar/³⁹Ar Dating of K-bearing Minerals. Acta Petrologica Sinica, 24(6): 1175-1184(in Chinese with English abstract). http://www.oalib.com/paper/1472948
Yuan, Z.X., 2001. A Discussion on the Naming of A-Type Granite. Acta Petrological et Mineralogica, 20(3): 293-296 (in Chinese with English abstract).
Zhang, R.Y., Cong, B.L., Liu, Z.G., et al., 1993. Su-Lu Ultrahigh-Pressure Metamorphic Terrane and Explanation of its Origin. Acta Peteologica Sinica, 9(3): 211-226(in Chinese with English abstract).
Zhai, M.G., Meng, Q.R., Liu J.M., et al., 2004. Geological Features of Mesozoic Tectonic Regime Inversion in Eastern North China and Implication for Geodynamics. Earth Science Frontiers, 11(3): 285-297(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dxqy200403027
陈超, 吕新彪, 曹晓峰, 等, 2013. 新疆库米什地区晚石炭世-早二叠世花岗岩年代学、地球化学及其地质意义. 地球科学——中国地质大学学报, 38(2): 219-232. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX201302004.htm
段秋梁, 谭未一, 杨长春, 等, 2007. 华北东部晚中生代伸展构造作用. 地球物理学进展, 22(2): 403-410. doi: 10.3969/j.issn.1004-2903.2007.02.010
洪大卫, 王式洸, 韩宝福, 等, 1995. 碱性花岗岩的构造环境分类及其鉴别标志. 中国科学(B辑), 25(4): 418-426. https://www.cnki.com.cn/Article/CJFDTOTAL-JBXK199504012.htm
李小伟, 莫宣学, 赵志丹, 等, 2010. 关于A型花岗岩判别过程中若干问题的讨论. 地质通报, 29(2-3): 278-285. https://www.cnki.com.cn/Article/CJFDTOTAL-ZQYD2010Z1013.htm
刘俊来, Davis, G.A., 纪沫, 等, 2008. 地壳的拆离作用与华北克拉通破坏: 晚中生代伸展构造约束. 地学前缘, 15(3): 72-81. doi: 10.3321/j.issn:1005-2321.2008.03.005
林伟, 王清晨, 王军, 等, 2011. 辽东半岛晚中生代伸展构造-华北克拉通破坏的地壳响应. 中国科学(D辑): 地球科学, 41(5): 638-653. https://www.cnki.com.cn/Article/CJFDTOTAL-JDXK201105004.htm
路孝平, 吴福元, 郭敬辉, 等, 2005. 通化地区古元古代晚期花岗质岩浆作用与地壳演化. 岩石学报, 21(3): 721-736. https://www.cnki.com.cn/Article/CJFDTOTAL-YSXB200503014.htm
路孝平, 吴福元, 林景仟, 等, 2004. 辽东半岛南部早前寒武纪花岗质岩浆作用的年代学格架. 地质科学, 39(1): 123-138. https://www.cnki.com.cn/Article/CJFDTOTAL-DZKX200401013.htm
苏玉平, 唐红峰, 2005. A型花岗岩的微量元素地球化学. 矿物岩石地球化学通报, 24(3): 245-251. doi: 10.3969/j.issn.1007-2802.2005.03.012
孙德有, 铃木和博, 吴福元, 等, 2005. 吉林省南部荒沟山地区中生代花岗岩CHIME定年. 地球化学, 34(4): 305-314. doi: 10.3321/j.issn:0379-1726.2005.04.001
吴福元, 杨进辉, 柳小明, 2005. 辽东半岛中生代花岗质岩浆作用的年代学格架. 高校地质学报, 11(3): 305-317. doi: 10.3969/j.issn.1006-7493.2005.03.003
吴锁平, 王梅英, 戚开静, 2007. A型花岗岩研究现状及其评述. 岩石矿物学杂志, 26(1): 57-66. doi: 10.3969/j.issn.1000-6524.2007.01.009
魏红艳, 孙德有, 叶松青, 等, 2012. 小兴安岭东南部伊春-鹤岗地区花岗质岩石锆石U-Pb年龄测定及其地质意义. 地球科学——中国地质大学学报, 37(增刊): 50-59. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX2012S1008.htm
许保良, 阎国翰, 张臣, 等, 1998. A型花岗岩的岩石学亚类及其物质来源. 地学前缘, 5(3): 113-124. doi: 10.3321/j.issn:1005-2321.1998.03.011
杨进辉, 吴福元, 钟孙霖, 等, 2008. 华北东部早白垩世花岗岩侵位的伸展地球动力学背景: 激光⁴⁰Ar/³⁹Ar年代学证据. 岩石学报, 24(6): 1175-1184. https://www.cnki.com.cn/Article/CJFDTOTAL-YSXB200806002.htm
袁忠信, 2001. 关于A型花岗岩命名问题的讨论. 岩石矿物学杂志, 20(3): 293-296. doi: 10.3969/j.issn.1000-6524.2001.03.011
张儒媛, 从柏林, 刘忠光, 等, 1993. 苏鲁超高压变质地体及其成因解释. 岩石学报, 9(3): 211-226. doi: 10.3321/j.issn:1000-0569.1993.03.001
翟明国, 孟庆任, 刘建明, 等, 2004. 华北东部中生代构造体制转折峰期的主要地质效应和形成动力学探讨. 地学前缘, 11(3): 285-297. doi: 10.3321/j.issn:1005-2321.2004.03.027