云南兰坪—维西地区构造动力学分析
|
摘要
本文是在云南兰坪—维西地区白秧坪多金属矿化集中区的矿田构造研究基础上,对矿集区及滇西较大范围进行的构造动力学分析研究成果。
白秧坪矿集区的主成矿期是在兰坪盆地发育成喜马拉雅上叠坳陷走滑拉分盆地期间。喜马拉雅运动第一期45Ma盆地掀斜;第二期23Ma以差异隆升剥蚀为主;第三期4Ma为脆性变形期,东矿带近盆边以走向断裂及褶皱控矿为主,西矿带为断块控矿。利用岩石声发射测得成矿期主压应力值为34-46MPa,以共轭破裂求得主压应力方位为近EW向,分析了本区菱形剪切断裂网格控矿构造应力场的动力学机制。提出区域和矿带的成矿控矿规律,结合物探进行了成矿预测。
针对三江中段N26°-28°兰坪-维西地区的岩石圈正交叠加构造的区域构造动力学分析,进行了深部构造的布格重力异常延拓处理和浅部的断层分维计算,描述、制作计算了地质结构模型、弹塑性三维有限元数学模型和物理模拟。提出浅部为SN向剪切带、深部为EW向压缩带,这种构造格局的形成与65Ma和25-17Ma时段印度板块北移、青藏高原隆升时,它们与扬子陆块的相互作用有关。讨论了红河断裂剪切方式的转变过程与岩块运动的关系,论证了歹字形构造体系形成于约20Ma的中新世时期。
This paper was completed based on researches of orefield structures of Baiyangping multi-metal mineralization concentrated field, and analysis on structure dynamics of ore-concentrated area and adjacent in Lanping-Weixi area, Yunnan province.In Baiyangping ore concentrated area, the master mineralization epoch is in Lanping basin became imbricate down-warped, strike-slip and pull-apart basin. In Himalayan, the first era (45Ma) the basin is titled; the second era (23Ma) it is differential uplift and denude; the third era it is brittle defonnation.In eastern ore belt, ore-controlling is mainly strike-slip fault and fold; but in western ore belt, it is block. Principal compresso stress of mineralization epoch is measured 34-46Ma by means of AE method, and its orientation is EW-trending by conjugate fracture, at last, the dynamic mechanics of the rhombic shear fault grid is analysised, ore-controlling law of the regional and ore-belt are determined, and combined with geophysical prospecting,ore-forming are forec
ast. Based on the regional structure dynamics analysis of the lithosphere imbricate structure in Lanping-Weixi area, the middle section of three-rivers area (N26 -28 ), the Bouguer gravity anomaly of deep structures was completed and the fractal of these faults was calculated. The geology structure model and the elasticoplastic three-dimension finite-element mathematic are described, made and calculated; and physical simulation was accomplished. At last, point out the structure is SN-trending shear belt in shadow; EW-trending compresso belt in deep. The pattern was formed when India plate shift to north (65Ma) and Tibet-Qinghai plateau uplift (25-17Ma), and they related with Yangtze landmass each other. Finally, author have discussed the relationship transformation process of the Honghe fault shear mode and block movement, proofed that the eta-type tectonic system was formed in Miocene epoch.
白秧坪矿集区的主成矿期是在兰坪盆地发育成喜马拉雅上叠坳陷走滑拉分盆地期间。喜马拉雅运动第一期45Ma盆地掀斜;第二期23Ma以差异隆升剥蚀为主;第三期4Ma为脆性变形期,东矿带近盆边以走向断裂及褶皱控矿为主,西矿带为断块控矿。利用岩石声发射测得成矿期主压应力值为34-46MPa,以共轭破裂求得主压应力方位为近EW向,分析了本区菱形剪切断裂网格控矿构造应力场的动力学机制。提出区域和矿带的成矿控矿规律,结合物探进行了成矿预测。
针对三江中段N26°-28°兰坪-维西地区的岩石圈正交叠加构造的区域构造动力学分析,进行了深部构造的布格重力异常延拓处理和浅部的断层分维计算,描述、制作计算了地质结构模型、弹塑性三维有限元数学模型和物理模拟。提出浅部为SN向剪切带、深部为EW向压缩带,这种构造格局的形成与65Ma和25-17Ma时段印度板块北移、青藏高原隆升时,它们与扬子陆块的相互作用有关。讨论了红河断裂剪切方式的转变过程与岩块运动的关系,论证了歹字形构造体系形成于约20Ma的中新世时期。
This paper was completed based on researches of orefield structures of Baiyangping multi-metal mineralization concentrated field, and analysis on structure dynamics of ore-concentrated area and adjacent in Lanping-Weixi area, Yunnan province.In Baiyangping ore concentrated area, the master mineralization epoch is in Lanping basin became imbricate down-warped, strike-slip and pull-apart basin. In Himalayan, the first era (45Ma) the basin is titled; the second era (23Ma) it is differential uplift and denude; the third era it is brittle defonnation.In eastern ore belt, ore-controlling is mainly strike-slip fault and fold; but in western ore belt, it is block. Principal compresso stress of mineralization epoch is measured 34-46Ma by means of AE method, and its orientation is EW-trending by conjugate fracture, at last, the dynamic mechanics of the rhombic shear fault grid is analysised, ore-controlling law of the regional and ore-belt are determined, and combined with geophysical prospecting,ore-forming are forec
ast. Based on the regional structure dynamics analysis of the lithosphere imbricate structure in Lanping-Weixi area, the middle section of three-rivers area (N26 -28 ), the Bouguer gravity anomaly of deep structures was completed and the fractal of these faults was calculated. The geology structure model and the elasticoplastic three-dimension finite-element mathematic are described, made and calculated; and physical simulation was accomplished. At last, point out the structure is SN-trending shear belt in shadow; EW-trending compresso belt in deep. The pattern was formed when India plate shift to north (65Ma) and Tibet-Qinghai plateau uplift (25-17Ma), and they related with Yangtze landmass each other. Finally, author have discussed the relationship transformation process of the Honghe fault shear mode and block movement, proofed that the eta-type tectonic system was formed in Miocene epoch.
引文
1.白武明,地幔对流和全球应力场,现今地球动力学问题讨论会文集,北京:地震出版社,1994,46-56。
2.陈炳蔚,金沙江构造带及邻区的构造变形特征,青藏高原地质文集第21集:“三江”论文专辑,1991,222-234
3.陈国达,关于多因复成矿床的一些问题。大地构造与成矿学,2000,24(3):199—201。
4.陈庆宣.岩石变形与构造应力场分析中值得引起注意的几个问题.中国地质科学院地质力学研究所所刊,第8号.北京:地质出版社,986。
5.陈文寄,T.M.Harrison,P.H.Lekoup等.多重扩散域模式与构造—热年代学研究,刘若新主编.现今地球动力学研究及其应用,北京:地震出版社,1994:389-397。
6.陈毓川主编.中国主要成矿区带矿产资源评价.北京:地质出版社,1999。
7.陈元坤.初论三江地区重磁场特征的地质意义.勘查地球物理勘查地球化学文集(22),北京:地质出版社,1999,107-124。
8.崔军文.哀牢山韧性平移韧剪切带的特征.中国地质科学院院报,1989,(19)。
9.邓军、杨立强、翟裕生等,构造—流体—成矿系统及其动力学的理论与方法体系。地球科学,2001。25 (1):71—78。
10.邓乃恭、任希飞,造山与成盆作用形成于统一的动力学机制。地质论评,1996,42(4):300—303。
11.邓俊国,刘洋容,油气藏成藏期构造应力场与油气聚集,1993,39(4),336-342。
12.丁原辰,张大伦.声发射抹录不净现象在地应力测量中的应用.岩石力学与工程学报,1991,10(4)。
13.段建中.滇西三江地区新生代走滑(转换)会聚构造特征.云南地质,1999,18(2):99-111。
14.范承钧,张冀飞.云南西部地质构造格局.云南地质,1993,12(2)。
15.范天佑.断裂力学基础.南京:江苏科技出版社,1988。
16.葛良胜等.滇西北地区(近)东西向隐伏构造带的存在及证据.云南地质,1999,18(2):155-167。
17.龚文君、谭凯旋、李小明等,兰坪白秧坪铜银多金属矿床流体地球化学特征及成矿机制探讨。大地构造与成矿学,2000,24(2):175—181。
18.韩玉英、王维襄,岩石圈俯冲挠褶流变演化,中国科学(D)1997,27(2),127-132。
19.何作霖,X射线岩组学,地质科学,1964,No1。
20.何科昭、何浩生、赵崇贺等,滇西中新生代构造演化,亚洲的增生。北京:地震出版社,1993。
21.何科照,赵崇贺,何浩生等.滇西陆内裂谷与造山作用—滇西地区印支期后的构造演化.中国地质大学出版社,1996。
22.胡鸿翔、颜其中,滇西地区地壳结构的爆破地震研究。地球物理学报,1986,29(2):133—134。
23.黄汉纯,柴达木盆地构造演化与石油富集规律,地质论评,1989,35(4),314-323。
24.黄汲清,陈柄蔚.中国及邻区特提斯海的演化.北京:地质出版社,1987。
25.黄汲清、陈国铭、陈炳蔚,特提斯-喜马拉雅构早域初步分析。地质学报,1984,58(1):1—17。
26.黄汲清.特提斯-喜玛拉雅构造域初步分析.地质学报,1984,(1)。
27.黄尚瑶,胡素敏,马兰,火山·温泉·地热能,北京,地质出版社,1986。
28.姜光熹,刘兆霞,魏大海等.X射线岩组学.北京:地质出版社,1998。
29.焦述强、金振民,大陆岩石圈有效弹性厚度研究及其动力学意义[J].地质科技情报,1996,15(2),8-12。
30.阚梅英、程敦模、张立生等.兰坪-思茅盆地铜矿.北京:地质出版社,1998。
31.阚荣举、林中洋,云南地壳上地幔构造的初步研究。中国地震,1986,12(4):50—61。
32.李本亮、张喜慧、孙岩、卢新卫,断裂分维值对矿产资源预测的指示意义—以青藏地区为例,高校地质学报,1999,5(1),17-21。
33.李长江、麻土华、朱兴盛等,矿产勘查中的分形、混沌与ANN。北京:地质出版社,1999。
34.李德威,大陆构造与动力学研究的若干重要方向,地学前缘 1995,2(1-2),141-146
35.李德威,再论大陆构造与动力学,地球科学—中国地质大学学报,1995,20(1),19-26
36.李峰、甫为民,兰坪盆地区域成矿特征初析。西南矿产地质,1991,5(1):25—33。
37.李峰等.滇西新生代以来地壳活动趋势及其环境影响.云南地质,1999,18(2):144-154。
38.李光勋,兰坪盆地某些逆冲推覆构造研究。云南地质,1994,13(3):203—215。
39.李继亮,滇西三江带的大地构造演化。地质科学,1988,(4):337—346。
40.李建国、周永胜、宋瑞卿等,岩石圈塑性流动网络与多层构造变形的物理模拟。地震地质,1997,19(3):248-258。
41.李思田、路凤香、林畅松等,中国东部及邻区中、新生代盆地演化及地球动力学背景。武汉:中国地质大学出版社1997。
42.李四光,地质力学方法,北京:科学出版社,1976。
43.李廷栋,李光岑,常承法,袁学诚等.喜玛拉雅岩石圈构造演化.北京:地质出版社,1988。
44.李小明、胡宝清,初论兰坪盆地构造流体与成矿作用的时空格架及可能的成矿模式。2001,25(6):187-193。
45.李小明、胡宝清,初论兰坪盆地构造流体与成矿作用的时空格架及可能的成矿模式。大地构造与成矿学,2001,25(2):187—193。
46.李小明、谭凯旋、龚革联等,裂变晶迹法对兰坪盆地构造热演化与成矿作用的初步研究。矿物岩石,2000,20(2):40—42。
47.李兴镇,刘文均,王义昭,朱勤文等.西南三江地区特提斯构造演化与成矿(总论)[M].北京:地质出版社,1999,230-232。
48.林中洋、胡鸿翔、张文彬等,滇西地区地壳上地幔速度结构特征的研究。地震学报,1993,15(4):427—440。
49.刘光海,小热泉子铜矿床物化探找矿效果及综合找矿模式,《矿床地质》,vol.19,No.1,2000。
50.刘家军、李朝阳、潘家水等,兰坪—思茅盆地砂页岩铜矿床成矿物质来源研究。地质与勘探,2000,36(4):16—19。
51.刘增乾、李兴振、叶庆同等,三江地区构造岩浆带的划分与矿产分布规律。北京:地质出版社,1993。
52.柳淮之,中国大陆的演化及其动力学,桂林工学院学报,1998,(18)3,228-232
53.吕伯西、王增、张能得等,三江地区花岗岩类及其成矿产专属性。北京:地质出版社,1993。
54.吕庆田、刘光海,矿床(体)快速定位的物探方法组合研究,《国家重点科技攻关项目,三江地区紧缺矿产资源快速勘查计价的新方法、新技术研究》,2000。
55.罗建宁、张正贵、陈明等,三江特提斯沉积地质与成矿。北京:地质出版社,1992。
56.罗君烈.滇西特提斯造山带的演化及其基本特征.云南地质,1990,(4)。
57.罗均烈,杨友华,赵准等.滇西特提斯的演化及主要金属矿床成矿作用.地质专报(45),北京:地质出版社,1994。
58.马文璞,区域构造解析——方法理论和中国板块构造。北京:地质出版社.1992。
59.马杏垣、丁国瑜、高文学等,中国岩石圈动力学地图集。北京:中国地图出版社,1989。
60.马宗晋,张家声,刘国栋等,大陆多震层研究现状和讨论,地震地质,1990,(3)262-264
61.马宗晋、高祥林、任金卫,全球活动构造特征与动力学模型,见:国家地震局地质研究所,现今地球动力学研究及其应用,p:10—18,北京:地震出版社,1994。
62.闵隆端.中国大陆第四纪新构造运动幅度和速率.地学研究(28号),北京:地质出版社,1995,105-107。
63.莫宣学,路风香,沈上越等.三江特提斯火山作用与成矿[M].地质学报,1993,11-205。
64.莫宣学,路风香等.“三江”特提斯火山作用与成矿.北京:地质出版社,1993。
65.莫宣学,沈上越、朱勤文等,三江中南段火山岩-蛇绿岩与成矿.北京:地质出版社,1998。
66.牟传龙等.兰坪中新生代沉积盆地演化.矿物岩石,1999,19(3):30-36。
67.裴荣富、翟裕生、张本仁.深部构造作用与成矿.北京:地质出版社.1999。
68.曲一华、袁品泉、帅开业等,兰坪-思茅盆地钾盐成矿规律及预测。北京:地质出版社,1998。
69.任纪舜等.中国东部及邻区大陆岩石圈的构造演化与成矿.北京:科学出版社,1990。
70.任纪舜,红河断裂的新观察,地质论评,1996,42(5),439-442
71.任治机、朱智华、赵重顺,云南地体构造与成矿作用。北京:冶金工业出版社,1996。
72.沈淑敏,郑芳芳,刘文英,中国东南大陆边缘地区构造应力场特征与东海盆地油气运移规律,中国地质科学院地质力学研究所所刊,1989,12,1-76。
73.沈淑敏,冯向阳,郑方方.构造应力驱动与油气运移.北京:地震出版社,1998。
74.宋传中、张国伟,东秦岭造山带的流变学及动力学分析,地球物理学报,1998,6(41)55-63
75.宋晓东,地球内核与地球深部动力学,地学前缘,1998,5(增刊),1-9
76.孙文珂、金宜声、涂承林主编,勘查地球物理勘查地球化学文集。北京:地质出版社,1999。
77.孙岩,徐士进,刘德良等.断裂构造地球导论.北京:科学出版社,1998。
78.孙叶,谭成轩.中国现今区域构造应力场与地壳运动趋势分析.地质力学学报,1996,1(3):1-11。
79.索书田、毕先梅、周汉文,极低级变质作用——以右江中生代构造带为例。北京:地质出版社,1999。
80.索书田.造山带的网结状构造样式.地质科技情报,1993、12(2):1-7。
81.谭筱虹.滇西三江新生代构造盆地的特征及形成机制.云南地质,1999,18(2):112-121。
82.谭筱虹等.滇西三江地区第三系变形作用及特征.云南地质,1999,18(2):122-126。
83.田洪亮,兰坪白秧坪铜多金属矿床地质特征。云南地质,1997,16(1):105—108。
84.万天丰,古构造应力场。北京:地质出版社,1988。
85.王仁,丁中一,殷有泉,固体力学基础,北京:地质出版社,1979。
86.汪集旸,黄少鹏,中国大陆地区大地热流数据汇编,地质科学,1988,19(2),196-203。
87.汪辑安等,云南大地热流及地热地质问题,地震地质,12(4)。
88.王建平,杨玉东.大青山及邻区冲断推覆构造形成机制的讨论.构造地质论从(6),北京:地质出版社,1986。
89.王建平.矿田构造研究方法的技术结构.地质力学学报,1995,1(2):59-65。
90.王建平等.内蒙古金厂沟梁金矿构造控矿分析.北京:地质出版社,1992。
91.王凯元,孙克祥,段颜学.滇西地区新构造运动几个问题的探讨.青藏高原地质文集(12),北京:地质出版社,1983,201-212。
92.王铠元,川滇交界金河—洱海深断裂带的形成机理和构造属性探讨,地震研究,1987,46(3):335-348
93.王连捷等.中国地应力测量的进展.见:地质力学文集(9).北京:地质出版社,1989。
94.王绳祖,亚洲大陆岩石圈多层构造模型和塑性流动网络,地质学报,1993,67(1)。
95.王绳祖,亚洲中东部地幔涡旋对流与“涡旋/网络”大陆动力学模型,地震地质,1998,20(4),379-390
96.王思敬、韩贝传、孙惠文,韧性剪切带形成的岩石流变学特征,地质科学,1992,3,269-281。
97.王学政、邓晋福、罗照华,青藏高原隆升与东昆仑地区金矿遥感地质研究,北京:地质出版社,1999。
98.王义昭,李兴林、段丽兰等.三江地区南段大地构造与成矿.北京:地质出版社,2000。
99.王义昭,熊家镛.云南省区域地质特征概述.中国区域地质,1988.(3)。
100.吴大宁,邓起动.滇西北裂陷区的基本特征及形成机制.现代地壳运动研究.北京:地震出版社,1985。
101.吴淦国,周竞平,候光久.变形岩石的超声波研究.见:地球科学进展.武汉:中国地质大学出版社,1992。
102.吴淦国.矿田构造与成矿预测.地质力学学报,1998,4(2):1-4。
103.肖荣阁,云南中西部地洼构造系沉积建造与含矿建造。大地构造与成矿学,1999,23(4):315—324。
104.徐学义,地幔柱理论研究概述,西安地质学院学报,1997,65(2),46-51
105.许效松,盆山转换与造盆、造山过程分析。岩相古地理,1996,16(2):24-33。
106.许效松,徐强,盆山转换和当代盆地分析中的新问题。岩相古地理,1996,16(2):24—33。
107.许志琴,崔军文、张建新,大陆山链变形构造动力学。北京:冶金工业出版社,1996。
108.熊绍柏,郑晔,尹周勋等,丽江—攀枝花—者海地带二维地壳结构及其构造意义,地球物理学报,1993,36(4),434-444。
109.晏凤桐,阚荣举、周瑞琦等,滇西实验场及邻区地震构造、应力场及地震活动基本特征,滇西地震预报实验研究论文集,地震出版社,1996。
110.杨宝俊,在地学断面域内用地震学方法研究大陆地壳。北京:地质出版社,1999。
111.杨开庆.关于构造控岩控矿与构岩成矿问题.地质力学论丛,第6号,北京:科学出版社,1982。
112.杨文采,后板块地球内部物理学导论。北京:地质出版社,1999。
113.杨学祥,地球内核快速旋转的发现及其动力学意义,地壳形变与地震,1998(1),57-63
114.杨振宇等.印度支那地块第三纪构造滑移与青藏高原岩石圈构造演化.地质学报,1998,72(2):112-125。
115.叶庆同、胡云中、杨岳清等,三江地区区域地球化学背景和金银铅锌成矿作用。北京:地质出版社,1992。
116.叶庆同等.三江地区区域地球化学背景和金银锌成矿作用.北京:地质出版社,1992。
117.尹汉辉、范蔚茗、林珂等,滇西地洼构造与成矿。长沙:中南工业大学出版社,1993。
118.尹华仁.构造带的地球化学特征.地质力学文集(7),北京:地质出版社,1988。
119.於崇文.成矿作用的动力学体系.现代地质.1989,3:267-289。
120.翟裕生,林新多.矿田构造学.北京:地质出版社,1993。
121.张志敏,姜鹏,陶一川等,沉积盆地构造应力对异常流体压力影响的定量研究,1993,8,83-90。
122.张炳熹、洪大卫、吴宣志主编,岩石圈研究的现代方法。北京:原子能出版社,1997。
123.张连生,钟大赉.从红河剪切带走滑运动看东亚大陆新生代构造.地质科学,1996,(4)。
124.张永波、张礼中、周小元等,地质灾害信息系统的设计与开发。北京:地质出版社,2001。
125.钟大赉,丁林,刘福田等,造山带岩石层多层架构造及其对新生代岩浆活动的制约,中国科学(D),2000,12(增刊),1-8。
126.钟大赉等,滇川西部古特提斯造山带。北京:科学出版社,1998。
127.周建勋、漆家福、董亨茂,盆地构造研究中的砂箱模拟实验方法。北京:地震出版社,1999。
128.周思孟,复杂岩体若干岩石力学问题。北京:中国水利水电出版社,1998。
129.朱大岗,王治顺.构造岩石结构成因分类与命名.中国地质科学院地质力学研究所所刊,第16号,北京:地质出版社,1995。
130.朱大岗.实验岩石裂隙微观形态初探.地质力学学报,1997,3(1):57-62。
131.朱志澄,逆冲推覆构造,武汉:中国地质大学出版社,1989。
132. Anderson, D.L. and Hart, R. S An earth model based on free oscillations and body waves. J. Geophys.Res.,1976, 81(8):1461-1475
133. Ardnt N T, Goldstein S L. An open boundary between lower continental crust and mantle: its role in crust from ation and crustal recycling. Tectonophysics, 1989,161:201-2121989
134. B.K. Atkinson, Fracture Mechanics of Rock. 1987. 尹祥础等译,岩石断裂力学,地震出版社,1992。
135. Bai, W., C.Vigny, Y. Ricard, and C. Froidevaux, 1992, On the origin of deviatoric stresses on the lithosphere.J. Geophys. Res., 97 11729—11737.
136. Bird P. Initiation of intracontinental subduction the Himalaya. J. Geophys. Res., 1978,83:4975-4987
137. Bonnemaison M.etc., Auriferous mineralization in some shear zone: A three-stage model of metallogenesis.Mineral Deposit, 1990,25(2):96—104
138. Borradaile G.J. and Tartning D. H., The influence of deformations on magnetic fabric in weekly deformed rocks, Tectonphysics, 1981,77:151—168.
139. Boullier A.M. and Robert F., Paleoseismic events recorded in Archeam gold-quatz vein networds, Journal of Structural Geology, 1992,14:161—179
140. Bullen, K. E., An Introduction to the Theory of Seismology(3rd edition). Cambridge Univ. Press, London.
141. Capuano R.M.,Evidence of fluid flow in microfractures in geopressured shales, AAPG Bulletin, 1993,77:1303—1314.
142. Caron J. M., Potdevin J. L. and Sicard E., Solution-deposition processes and mass transfer in the deformation of a minor fold, Tectonophysics, 1987,35(1-3):77—86.
143. Cartwright J,A., Episodic basin-wide fluid expulsion from geopressured shale sequences in the North Sea Basion, Geoplogy, 1994.22:447—450.
144. Chiseffi F. and Vezzani L., Interfering paths of deformation and development of arcs in the fold-and-thrust belt of the central Apennines (Italy),Tectonics, 1997,16(3): 523—536.
145. Custafsin L. B., The importance of structural analysis in gold exploration. Economic Geology, 1989, 84:987—993.
146. Davis G H Coney P J., Geologic development of the Cordilleran metamorphic core complex.Geology,1979, 7:120—124.
147. Davis G.H., Shear zone model for the origin of metamorphic core complexes, Geology, 1983,11:348—351.
148. Demets C. Gordon R. G. Argus D. F. and Steam S., Current plate motions, Geophysics Journal International,1990, 101:425—478.
149. Doe B. R. and Stacoy J.S., The application of lead isotoes to the problems of ore genesis and ore prospect evolution: A Review. Econ. Geol. 1974.69.
150. Farrar E. and Dixon J. M., Ridge subduction: kinematics and implications for the nature of mantle upwelling ,Canadian Journal of Earth Sciences, 1993,30(8):893—907.
151. Fyfe W S., Hot spots, magma underplating and modification of continental crust. Can J Earth Sci. 1993, 30:908-912
152. Gard K. D. and King J. E., The tectonic evolution of the Superior and Slave provinces of the Canadian Shield: introduction, Canadian Journal of Earth Sciences, 1992,29(10).
153. Garven G, The role of regional fluid flow in the genesis of the Pine Point deposit, Western Canadian sedimentary basin, Economic Geology, 1985,80:307—324.
154. Groves D.I.et al,The genesis and tectonic control on Archean gold deposits of the Westetn Australinm Shidd-Ametamerphic replacement model. Ore Geology Reviews, 1987,2
155. Handy M. R., The solid-state flow of polymineralic rocks, Journal of Geophysical Research,
1990. 95(B6) :8647-8661.
156. Handy M.R. and Zing A, The tectonic and rheological evolution of an attenuated cross section of the continental crust: Ivrea crystal section, southern Alps ,northwestern Italy and southern Switzerland .Geological Society of America Bulletin ,1991,103(2) :236-253.
157. Hannington M.D., Thompson G, Rona P. A. and Scott S.D., Gold and Native Copper in Supergene Sulphides from the Mid-Atlantic Ridge. Nature, 1988,333(6468) : 64-66.
158. Hou Guangjiu and Suo Shutian ,Late Caledonian Organic Extentionai Deformation and Metamorphic Core Complexes in Xuefengshan Area, Southern China Journal of China Uni. Of Geosciences, 1997, 8(2) .
159. Hopper 3 R, Buck W R. The initation of rifting at constant tectonic force: role of diffusion creep. 3 Geophy Res, 1993,98(B9) , 16213-16221.
160. Hubert C. and Marquis P., Structural framework of the Abitibi greenstone belt of Quebec and its implications for mineral exploration, Mineralization and Shear Zones Cedited (edited by Bursnall J. T), Geol. Ass Can Short Course,1980,Notes.6:219-238.
161. Huston D.L., Larger R.R.,A Chemical Model for the Concentration of Gold in Volcanigenic Massive Sulphide Deposits, Ore Geology Review,1989,(4) :171-200.
162. Hutton D.H.W., Igneous emplacement in a shear-zone termination: The biotite granite at strontian, Scotland. Geological society of America Bulletin, 1988, 100:1392-1399.
163. J G. Ramsay. And M. I. Huber. The Techniques of Modern Structural Geology, London: Academic Press, 1987.
164. Jones M .E., The relationship between metamorphism and deformation of rock, Journal of Structural Geology. 1981, 3(3) : 333-338.
165. Karato S. Wu P. Rheology of the upper mantle: A synthesis. Science. 1993. 260, 771-777.
166. Kirb S H. Rheology of the lithosphere. Rev Geophys,1983, 21, 1458-1487.
167. Kruse,S., McNutt,M., Phipps-Morgan, J., Royden, L. and Wernicke., Lithospheric extension near Lake Mead, Nevada: A model for ductile flow in the lower crust. J. Geophys. Res., 1991, 96(B3) ,4435-4456.
168. Large R.R., Australian Volcanic-Hosted Massive Sulfide Deposits: Features, Styles, and Genetic Models. Econ.Geol., 1992,87(3) :471-510.
169. Lachenbruch, A. H. and Sass, J. H., Heat flow from Cajon Pass, fault strength, and tectonic implication. J. Geophys.Res., 1992,97(B4) :4995-5015.
170. Lister G S Davis G A. Metamophic core complexs and detachment faults. J. Str. Geol. 1989, 11 (1/2) : 65-94.
171. Lister G S. Baldin S L. Plutonism and the origin of metamorphic core complex. Geology, 1995, 21 (7) :607-610.
172. Lister GS., Davis, G.A., The origin of metamorphic core complexes and detachment fault formed during Tertiary continental extension in the northern Colorado River region ,U.S.A., Journal of Structural Geology, 1989,11(1/2) .
173. Lister GS.and Baldwin S. L., Plutonism and the origin of metamorphic core complexes, Geology, 1993,21:607-610.
174. Malavieille J Late orogenic extension in mountain belts : In sights from the basin and range and the late Paleozoic variscan belt. Tectonics, 1993, 12(5) : 1115-1130.
175. Maubeuge F. and Lerche I., Geopressure evolution and hydrocarbon generation in a north Indonesian basin: two-dimensional quantitative modeling, Marine Petroleum Geology, 1994, 11:104-120.
176. Meigs F., Sequential development of selected Pyrencan thrust faults, Journal of Structural Geology, 1997, 19(3-4) : 481-502.
177. Michael S. E. Woodward L. A., Epithermal gold deposits remobilized from Precambrian volcanogenic Sulfide source during Late Cenozoic continental rifting. Geology, 1990. 18(2) : 179-182.
178. Mitchell A. H. G and Garrison M. S., Mineral deposits and global tectonic settings, Academic press Inc.(London)Ltd.l981.
179. Molnar P. Continental tectonics in the after math of plate tectonics. Nature, 1988. 335:131-137
180. Nesbitt B.E., Gold deposit continum: A genetic model for lode Au mineralization in the Paterson continental crust.Geology, 1988,16:1044-1048.
181. Nicolas A. Bouchez J L .Blaise J .Poirier J P .Geological aspects of deformation in continental shear zones. Tectonophysics, 1977, 42: 53-73.
182. Price G. P., Preferred orientations in quartites. In: Wenk H.R.ed. Preferred orientation on deformed metals and rocks. An introduction to modern texture analysis ,APEMIC Press, INC, 1985.
183. Price N.J. and Meclay K.R.,冲断推覆构造(杨俊杰、张伯荣译).兰州:甘肃人民出版社,上册, 1984;
下册,1986.
184. Ramsay J.G. Shear zone geometry, a review. Journal of Structural Geology, 1980, 2(1/2) .
185. Ramsay J.Gand Huber M, I.,The Techniques of Modern Structural Geology. London: Academic Press,1987.
186. Ranlli G Murphy DC. Rheological stratification of the lithosphere. Tectonophysics. 1987. 132:281-295
187. Ricard, Y, and W. Bai, 1991, Inferring the Viscosity and the 3-D densitystructure of the mantle from geoid, topography and plate velocities, Geophysical Journal, 105, 561-571.
188. Roberts S. J. and Numn J. A., Episodic fluid expulsion from geopressuied sediments, Marine and Petroleum Geology, 1995. 12(2) : 195-204.
189. S. R. Paterson, O. Tobison and V. J. Morand. The influence of large ductile shear zones on the emplacement and deformation of the Wyangala Batholith, SE Australia. Journal of Structural Geology, 1990, 12(5, 6) : 639-650.
190. Sawkins F.J., Metal deposits in relation to plate tectonics ,Springer-Verlag, 1984.
191. Schemed S. M., Casey M., Complete fabric analysis of some commonly observed guartzs c-axis patterns, Mineral and Rock Deformation: Laboratory Studies. The Paterson Volume. AmGeophys Union, Geophysics. Monogr. 1986,36:263-286.
192. Schmid S. W. and Handy M. R., Towards a genetic classification of fault rocks: geological usage and tectonpohysical implications, Controversies in Modern Geology (edited by Mullcr D. W. et al),Academic Press Limited,1991,339-361.
193. Seyfert K Cordilleran metamorphic core complexes. In ; Seyferted. Encyclopedia of Structural Geology and Plate Tectonics. New York : Van Nortrand Reinhold Company . 1987, 113-130.
194. Sibson R.H.etc., Frictional constraints on thrust, wrench and normal faults, Nature, 1974, 249, 542-544.
195. Sibson R.H.etc., High-angle reverse faults, fluids pressure cycling and meso-thermal gold deposits. Geology, 1988, 16:551-555.
196. Storti R, Salvine F. and Meclay K., Fault-related folding in sandbox analogue models of thrust wedges, Journal of Structural Geology, 1997,19(3-4) : 583-602.
197. Strauss G. K. and Beck J.S., Gold Mineralization in the SW Iberian Pyrite. Mineralium Deposita, 1990, 24(4) : 237-245.
198. T. Engelder, Loading Paths to joint propagation during a tectonic cycle: an example from the Appalachian Plateau, U.S.A., J. Struct. Geol. 1985, 7, 459-476.
199. Taylor H.P. The application of oxygen and hydrogen isotope studies to problem of hydrothermal alteration and ore deposition. Econ. Geol., 1974. 69.
200. Tobison S. R.,O.T. and Morand V.J., The influence of large ductile shear zones on the emplacement and deformation of the Wyangala Batholith .SE Australia. Journal of Structural Geology, 1990,12(5,6) :639-650.
201. Tullis F.A., Christie J.M., Griggs D.T., Microstructures and preferred orientation of experimentally deformed quartzites.Geol.Soc.Am.Bull, 1973,(84) :297-314.
202. Twiss, R. J., Sellars, C.M., Limits of applicability, of the recrystallized grain size geopiezometer, Geophysics. Res.Lett., 1978,5:337-340.
203. Vernon R. H., Question about myrekite in deformed rocks, Journal of Structural Geology, 1993. 13(9) .
204. Weng Shijie(翁世劼), tec. ,Deep Seismic probing of continental crust in the lower Yagtze region, eastern China Tectonophysics, 173(1/4) . 1990,297-306.
205. White S.H., Shear and fault controls of gold mineralization :an exploration overview , Bicentennial Gold 88,Poster Programme, 1988,2:651-654.
206. Wu Ganguo, Zhang Da and Chen Bailin. Relationship between crustal structure and tin mineralization in South China, Journal of China University o f Geosciences, 1999,1:38-42.
207. Zhu Dagang .Tectonic deformation and gold mineralization in Zhaoyuan-Yexian Area .Shandong Province . Journal of Geomechanics (English Supplement) Vol.2,1996, p149-154.
1.云南省地质矿产局,云南省区域地质志。北京,地质出版社,1990。
2.云南省地质矿产局区域地质调查队.维西幅(G-47-Ⅹ)1:20万区域地质调查报告,1984。
3.云南省地质矿产局第一区域地质测量大队,兰坪幅(G-47-Ⅹ Ⅵ)1:20万区域地质调查报告,1974。
4.云南省地质矿产局第三地质大队区调三分队,河西幅(G-47-43-B)1:5万地质图及说明书,1995。
5.云南省地质矿产局第三地质大队区调三分队,安乐街幅(G-47-43-D)1:5万地质图及说明书,1995。
6.云南省地质矿产勘察开发局第三地质大队,云南兰坪县白秧坪地区铜多金属矿普查地质工作专报,1999。
7.云南省地质调查院第三矿产地质调查所,云南兰坪县白秧坪铜、银、铅、锌、钴矿化集中区2000年地质工作设计,2000。
8.云南地勘局物化探队,三江重点片滇西北重点矿区综合物探试验工作报告,1996。
9.云南地勘局第三地质大队,西南“三江”重点片云南段北部铜多金属矿重点矿区综合物化探工作总体报告,1997。
10.云南地勘局第三地质大队,兰坪县三山矿区下区五——东至岩矿段物探电法试验工作简报,2000。
11.成都理工学院,测定磁场充电法在云南省拖顶及白秧坪地区的初步试验结果,1996。
12.杨世瑜等,浊西大理—丽江地区斑岩型铜金矿遥感地质特征,科研报告,1998。
13.中国地质科学院地质力学研究所,云南兰坪白秧坪铜、银、铅、锌、钴矿化集中区控矿条件及资源评价,2000。
14.云南省地质矿产局区域地质矿产调查大队,中甸幅(G47C001003)、贡山县幅(G47C001002)1:25万区域地质地质调查报告,2000。
15.航空物探遥感中心,云南大理—丽江地区航空物探(磁)勘查成果报告,1998。
2.陈炳蔚,金沙江构造带及邻区的构造变形特征,青藏高原地质文集第21集:“三江”论文专辑,1991,222-234
3.陈国达,关于多因复成矿床的一些问题。大地构造与成矿学,2000,24(3):199—201。
4.陈庆宣.岩石变形与构造应力场分析中值得引起注意的几个问题.中国地质科学院地质力学研究所所刊,第8号.北京:地质出版社,986。
5.陈文寄,T.M.Harrison,P.H.Lekoup等.多重扩散域模式与构造—热年代学研究,刘若新主编.现今地球动力学研究及其应用,北京:地震出版社,1994:389-397。
6.陈毓川主编.中国主要成矿区带矿产资源评价.北京:地质出版社,1999。
7.陈元坤.初论三江地区重磁场特征的地质意义.勘查地球物理勘查地球化学文集(22),北京:地质出版社,1999,107-124。
8.崔军文.哀牢山韧性平移韧剪切带的特征.中国地质科学院院报,1989,(19)。
9.邓军、杨立强、翟裕生等,构造—流体—成矿系统及其动力学的理论与方法体系。地球科学,2001。25 (1):71—78。
10.邓乃恭、任希飞,造山与成盆作用形成于统一的动力学机制。地质论评,1996,42(4):300—303。
11.邓俊国,刘洋容,油气藏成藏期构造应力场与油气聚集,1993,39(4),336-342。
12.丁原辰,张大伦.声发射抹录不净现象在地应力测量中的应用.岩石力学与工程学报,1991,10(4)。
13.段建中.滇西三江地区新生代走滑(转换)会聚构造特征.云南地质,1999,18(2):99-111。
14.范承钧,张冀飞.云南西部地质构造格局.云南地质,1993,12(2)。
15.范天佑.断裂力学基础.南京:江苏科技出版社,1988。
16.葛良胜等.滇西北地区(近)东西向隐伏构造带的存在及证据.云南地质,1999,18(2):155-167。
17.龚文君、谭凯旋、李小明等,兰坪白秧坪铜银多金属矿床流体地球化学特征及成矿机制探讨。大地构造与成矿学,2000,24(2):175—181。
18.韩玉英、王维襄,岩石圈俯冲挠褶流变演化,中国科学(D)1997,27(2),127-132。
19.何作霖,X射线岩组学,地质科学,1964,No1。
20.何科昭、何浩生、赵崇贺等,滇西中新生代构造演化,亚洲的增生。北京:地震出版社,1993。
21.何科照,赵崇贺,何浩生等.滇西陆内裂谷与造山作用—滇西地区印支期后的构造演化.中国地质大学出版社,1996。
22.胡鸿翔、颜其中,滇西地区地壳结构的爆破地震研究。地球物理学报,1986,29(2):133—134。
23.黄汉纯,柴达木盆地构造演化与石油富集规律,地质论评,1989,35(4),314-323。
24.黄汲清,陈柄蔚.中国及邻区特提斯海的演化.北京:地质出版社,1987。
25.黄汲清、陈国铭、陈炳蔚,特提斯-喜马拉雅构早域初步分析。地质学报,1984,58(1):1—17。
26.黄汲清.特提斯-喜玛拉雅构造域初步分析.地质学报,1984,(1)。
27.黄尚瑶,胡素敏,马兰,火山·温泉·地热能,北京,地质出版社,1986。
28.姜光熹,刘兆霞,魏大海等.X射线岩组学.北京:地质出版社,1998。
29.焦述强、金振民,大陆岩石圈有效弹性厚度研究及其动力学意义[J].地质科技情报,1996,15(2),8-12。
30.阚梅英、程敦模、张立生等.兰坪-思茅盆地铜矿.北京:地质出版社,1998。
31.阚荣举、林中洋,云南地壳上地幔构造的初步研究。中国地震,1986,12(4):50—61。
32.李本亮、张喜慧、孙岩、卢新卫,断裂分维值对矿产资源预测的指示意义—以青藏地区为例,高校地质学报,1999,5(1),17-21。
33.李长江、麻土华、朱兴盛等,矿产勘查中的分形、混沌与ANN。北京:地质出版社,1999。
34.李德威,大陆构造与动力学研究的若干重要方向,地学前缘 1995,2(1-2),141-146
35.李德威,再论大陆构造与动力学,地球科学—中国地质大学学报,1995,20(1),19-26
36.李峰、甫为民,兰坪盆地区域成矿特征初析。西南矿产地质,1991,5(1):25—33。
37.李峰等.滇西新生代以来地壳活动趋势及其环境影响.云南地质,1999,18(2):144-154。
38.李光勋,兰坪盆地某些逆冲推覆构造研究。云南地质,1994,13(3):203—215。
39.李继亮,滇西三江带的大地构造演化。地质科学,1988,(4):337—346。
40.李建国、周永胜、宋瑞卿等,岩石圈塑性流动网络与多层构造变形的物理模拟。地震地质,1997,19(3):248-258。
41.李思田、路凤香、林畅松等,中国东部及邻区中、新生代盆地演化及地球动力学背景。武汉:中国地质大学出版社1997。
42.李四光,地质力学方法,北京:科学出版社,1976。
43.李廷栋,李光岑,常承法,袁学诚等.喜玛拉雅岩石圈构造演化.北京:地质出版社,1988。
44.李小明、胡宝清,初论兰坪盆地构造流体与成矿作用的时空格架及可能的成矿模式。2001,25(6):187-193。
45.李小明、胡宝清,初论兰坪盆地构造流体与成矿作用的时空格架及可能的成矿模式。大地构造与成矿学,2001,25(2):187—193。
46.李小明、谭凯旋、龚革联等,裂变晶迹法对兰坪盆地构造热演化与成矿作用的初步研究。矿物岩石,2000,20(2):40—42。
47.李兴镇,刘文均,王义昭,朱勤文等.西南三江地区特提斯构造演化与成矿(总论)[M].北京:地质出版社,1999,230-232。
48.林中洋、胡鸿翔、张文彬等,滇西地区地壳上地幔速度结构特征的研究。地震学报,1993,15(4):427—440。
49.刘光海,小热泉子铜矿床物化探找矿效果及综合找矿模式,《矿床地质》,vol.19,No.1,2000。
50.刘家军、李朝阳、潘家水等,兰坪—思茅盆地砂页岩铜矿床成矿物质来源研究。地质与勘探,2000,36(4):16—19。
51.刘增乾、李兴振、叶庆同等,三江地区构造岩浆带的划分与矿产分布规律。北京:地质出版社,1993。
52.柳淮之,中国大陆的演化及其动力学,桂林工学院学报,1998,(18)3,228-232
53.吕伯西、王增、张能得等,三江地区花岗岩类及其成矿产专属性。北京:地质出版社,1993。
54.吕庆田、刘光海,矿床(体)快速定位的物探方法组合研究,《国家重点科技攻关项目,三江地区紧缺矿产资源快速勘查计价的新方法、新技术研究》,2000。
55.罗建宁、张正贵、陈明等,三江特提斯沉积地质与成矿。北京:地质出版社,1992。
56.罗君烈.滇西特提斯造山带的演化及其基本特征.云南地质,1990,(4)。
57.罗均烈,杨友华,赵准等.滇西特提斯的演化及主要金属矿床成矿作用.地质专报(45),北京:地质出版社,1994。
58.马文璞,区域构造解析——方法理论和中国板块构造。北京:地质出版社.1992。
59.马杏垣、丁国瑜、高文学等,中国岩石圈动力学地图集。北京:中国地图出版社,1989。
60.马宗晋,张家声,刘国栋等,大陆多震层研究现状和讨论,地震地质,1990,(3)262-264
61.马宗晋、高祥林、任金卫,全球活动构造特征与动力学模型,见:国家地震局地质研究所,现今地球动力学研究及其应用,p:10—18,北京:地震出版社,1994。
62.闵隆端.中国大陆第四纪新构造运动幅度和速率.地学研究(28号),北京:地质出版社,1995,105-107。
63.莫宣学,路风香,沈上越等.三江特提斯火山作用与成矿[M].地质学报,1993,11-205。
64.莫宣学,路风香等.“三江”特提斯火山作用与成矿.北京:地质出版社,1993。
65.莫宣学,沈上越、朱勤文等,三江中南段火山岩-蛇绿岩与成矿.北京:地质出版社,1998。
66.牟传龙等.兰坪中新生代沉积盆地演化.矿物岩石,1999,19(3):30-36。
67.裴荣富、翟裕生、张本仁.深部构造作用与成矿.北京:地质出版社.1999。
68.曲一华、袁品泉、帅开业等,兰坪-思茅盆地钾盐成矿规律及预测。北京:地质出版社,1998。
69.任纪舜等.中国东部及邻区大陆岩石圈的构造演化与成矿.北京:科学出版社,1990。
70.任纪舜,红河断裂的新观察,地质论评,1996,42(5),439-442
71.任治机、朱智华、赵重顺,云南地体构造与成矿作用。北京:冶金工业出版社,1996。
72.沈淑敏,郑芳芳,刘文英,中国东南大陆边缘地区构造应力场特征与东海盆地油气运移规律,中国地质科学院地质力学研究所所刊,1989,12,1-76。
73.沈淑敏,冯向阳,郑方方.构造应力驱动与油气运移.北京:地震出版社,1998。
74.宋传中、张国伟,东秦岭造山带的流变学及动力学分析,地球物理学报,1998,6(41)55-63
75.宋晓东,地球内核与地球深部动力学,地学前缘,1998,5(增刊),1-9
76.孙文珂、金宜声、涂承林主编,勘查地球物理勘查地球化学文集。北京:地质出版社,1999。
77.孙岩,徐士进,刘德良等.断裂构造地球导论.北京:科学出版社,1998。
78.孙叶,谭成轩.中国现今区域构造应力场与地壳运动趋势分析.地质力学学报,1996,1(3):1-11。
79.索书田、毕先梅、周汉文,极低级变质作用——以右江中生代构造带为例。北京:地质出版社,1999。
80.索书田.造山带的网结状构造样式.地质科技情报,1993、12(2):1-7。
81.谭筱虹.滇西三江新生代构造盆地的特征及形成机制.云南地质,1999,18(2):112-121。
82.谭筱虹等.滇西三江地区第三系变形作用及特征.云南地质,1999,18(2):122-126。
83.田洪亮,兰坪白秧坪铜多金属矿床地质特征。云南地质,1997,16(1):105—108。
84.万天丰,古构造应力场。北京:地质出版社,1988。
85.王仁,丁中一,殷有泉,固体力学基础,北京:地质出版社,1979。
86.汪集旸,黄少鹏,中国大陆地区大地热流数据汇编,地质科学,1988,19(2),196-203。
87.汪辑安等,云南大地热流及地热地质问题,地震地质,12(4)。
88.王建平,杨玉东.大青山及邻区冲断推覆构造形成机制的讨论.构造地质论从(6),北京:地质出版社,1986。
89.王建平.矿田构造研究方法的技术结构.地质力学学报,1995,1(2):59-65。
90.王建平等.内蒙古金厂沟梁金矿构造控矿分析.北京:地质出版社,1992。
91.王凯元,孙克祥,段颜学.滇西地区新构造运动几个问题的探讨.青藏高原地质文集(12),北京:地质出版社,1983,201-212。
92.王铠元,川滇交界金河—洱海深断裂带的形成机理和构造属性探讨,地震研究,1987,46(3):335-348
93.王连捷等.中国地应力测量的进展.见:地质力学文集(9).北京:地质出版社,1989。
94.王绳祖,亚洲大陆岩石圈多层构造模型和塑性流动网络,地质学报,1993,67(1)。
95.王绳祖,亚洲中东部地幔涡旋对流与“涡旋/网络”大陆动力学模型,地震地质,1998,20(4),379-390
96.王思敬、韩贝传、孙惠文,韧性剪切带形成的岩石流变学特征,地质科学,1992,3,269-281。
97.王学政、邓晋福、罗照华,青藏高原隆升与东昆仑地区金矿遥感地质研究,北京:地质出版社,1999。
98.王义昭,李兴林、段丽兰等.三江地区南段大地构造与成矿.北京:地质出版社,2000。
99.王义昭,熊家镛.云南省区域地质特征概述.中国区域地质,1988.(3)。
100.吴大宁,邓起动.滇西北裂陷区的基本特征及形成机制.现代地壳运动研究.北京:地震出版社,1985。
101.吴淦国,周竞平,候光久.变形岩石的超声波研究.见:地球科学进展.武汉:中国地质大学出版社,1992。
102.吴淦国.矿田构造与成矿预测.地质力学学报,1998,4(2):1-4。
103.肖荣阁,云南中西部地洼构造系沉积建造与含矿建造。大地构造与成矿学,1999,23(4):315—324。
104.徐学义,地幔柱理论研究概述,西安地质学院学报,1997,65(2),46-51
105.许效松,盆山转换与造盆、造山过程分析。岩相古地理,1996,16(2):24-33。
106.许效松,徐强,盆山转换和当代盆地分析中的新问题。岩相古地理,1996,16(2):24—33。
107.许志琴,崔军文、张建新,大陆山链变形构造动力学。北京:冶金工业出版社,1996。
108.熊绍柏,郑晔,尹周勋等,丽江—攀枝花—者海地带二维地壳结构及其构造意义,地球物理学报,1993,36(4),434-444。
109.晏凤桐,阚荣举、周瑞琦等,滇西实验场及邻区地震构造、应力场及地震活动基本特征,滇西地震预报实验研究论文集,地震出版社,1996。
110.杨宝俊,在地学断面域内用地震学方法研究大陆地壳。北京:地质出版社,1999。
111.杨开庆.关于构造控岩控矿与构岩成矿问题.地质力学论丛,第6号,北京:科学出版社,1982。
112.杨文采,后板块地球内部物理学导论。北京:地质出版社,1999。
113.杨学祥,地球内核快速旋转的发现及其动力学意义,地壳形变与地震,1998(1),57-63
114.杨振宇等.印度支那地块第三纪构造滑移与青藏高原岩石圈构造演化.地质学报,1998,72(2):112-125。
115.叶庆同、胡云中、杨岳清等,三江地区区域地球化学背景和金银铅锌成矿作用。北京:地质出版社,1992。
116.叶庆同等.三江地区区域地球化学背景和金银锌成矿作用.北京:地质出版社,1992。
117.尹汉辉、范蔚茗、林珂等,滇西地洼构造与成矿。长沙:中南工业大学出版社,1993。
118.尹华仁.构造带的地球化学特征.地质力学文集(7),北京:地质出版社,1988。
119.於崇文.成矿作用的动力学体系.现代地质.1989,3:267-289。
120.翟裕生,林新多.矿田构造学.北京:地质出版社,1993。
121.张志敏,姜鹏,陶一川等,沉积盆地构造应力对异常流体压力影响的定量研究,1993,8,83-90。
122.张炳熹、洪大卫、吴宣志主编,岩石圈研究的现代方法。北京:原子能出版社,1997。
123.张连生,钟大赉.从红河剪切带走滑运动看东亚大陆新生代构造.地质科学,1996,(4)。
124.张永波、张礼中、周小元等,地质灾害信息系统的设计与开发。北京:地质出版社,2001。
125.钟大赉,丁林,刘福田等,造山带岩石层多层架构造及其对新生代岩浆活动的制约,中国科学(D),2000,12(增刊),1-8。
126.钟大赉等,滇川西部古特提斯造山带。北京:科学出版社,1998。
127.周建勋、漆家福、董亨茂,盆地构造研究中的砂箱模拟实验方法。北京:地震出版社,1999。
128.周思孟,复杂岩体若干岩石力学问题。北京:中国水利水电出版社,1998。
129.朱大岗,王治顺.构造岩石结构成因分类与命名.中国地质科学院地质力学研究所所刊,第16号,北京:地质出版社,1995。
130.朱大岗.实验岩石裂隙微观形态初探.地质力学学报,1997,3(1):57-62。
131.朱志澄,逆冲推覆构造,武汉:中国地质大学出版社,1989。
132. Anderson, D.L. and Hart, R. S An earth model based on free oscillations and body waves. J. Geophys.Res.,1976, 81(8):1461-1475
133. Ardnt N T, Goldstein S L. An open boundary between lower continental crust and mantle: its role in crust from ation and crustal recycling. Tectonophysics, 1989,161:201-2121989
134. B.K. Atkinson, Fracture Mechanics of Rock. 1987. 尹祥础等译,岩石断裂力学,地震出版社,1992。
135. Bai, W., C.Vigny, Y. Ricard, and C. Froidevaux, 1992, On the origin of deviatoric stresses on the lithosphere.J. Geophys. Res., 97 11729—11737.
136. Bird P. Initiation of intracontinental subduction the Himalaya. J. Geophys. Res., 1978,83:4975-4987
137. Bonnemaison M.etc., Auriferous mineralization in some shear zone: A three-stage model of metallogenesis.Mineral Deposit, 1990,25(2):96—104
138. Borradaile G.J. and Tartning D. H., The influence of deformations on magnetic fabric in weekly deformed rocks, Tectonphysics, 1981,77:151—168.
139. Boullier A.M. and Robert F., Paleoseismic events recorded in Archeam gold-quatz vein networds, Journal of Structural Geology, 1992,14:161—179
140. Bullen, K. E., An Introduction to the Theory of Seismology(3rd edition). Cambridge Univ. Press, London.
141. Capuano R.M.,Evidence of fluid flow in microfractures in geopressured shales, AAPG Bulletin, 1993,77:1303—1314.
142. Caron J. M., Potdevin J. L. and Sicard E., Solution-deposition processes and mass transfer in the deformation of a minor fold, Tectonophysics, 1987,35(1-3):77—86.
143. Cartwright J,A., Episodic basin-wide fluid expulsion from geopressured shale sequences in the North Sea Basion, Geoplogy, 1994.22:447—450.
144. Chiseffi F. and Vezzani L., Interfering paths of deformation and development of arcs in the fold-and-thrust belt of the central Apennines (Italy),Tectonics, 1997,16(3): 523—536.
145. Custafsin L. B., The importance of structural analysis in gold exploration. Economic Geology, 1989, 84:987—993.
146. Davis G H Coney P J., Geologic development of the Cordilleran metamorphic core complex.Geology,1979, 7:120—124.
147. Davis G.H., Shear zone model for the origin of metamorphic core complexes, Geology, 1983,11:348—351.
148. Demets C. Gordon R. G. Argus D. F. and Steam S., Current plate motions, Geophysics Journal International,1990, 101:425—478.
149. Doe B. R. and Stacoy J.S., The application of lead isotoes to the problems of ore genesis and ore prospect evolution: A Review. Econ. Geol. 1974.69.
150. Farrar E. and Dixon J. M., Ridge subduction: kinematics and implications for the nature of mantle upwelling ,Canadian Journal of Earth Sciences, 1993,30(8):893—907.
151. Fyfe W S., Hot spots, magma underplating and modification of continental crust. Can J Earth Sci. 1993, 30:908-912
152. Gard K. D. and King J. E., The tectonic evolution of the Superior and Slave provinces of the Canadian Shield: introduction, Canadian Journal of Earth Sciences, 1992,29(10).
153. Garven G, The role of regional fluid flow in the genesis of the Pine Point deposit, Western Canadian sedimentary basin, Economic Geology, 1985,80:307—324.
154. Groves D.I.et al,The genesis and tectonic control on Archean gold deposits of the Westetn Australinm Shidd-Ametamerphic replacement model. Ore Geology Reviews, 1987,2
155. Handy M. R., The solid-state flow of polymineralic rocks, Journal of Geophysical Research,
1990. 95(B6) :8647-8661.
156. Handy M.R. and Zing A, The tectonic and rheological evolution of an attenuated cross section of the continental crust: Ivrea crystal section, southern Alps ,northwestern Italy and southern Switzerland .Geological Society of America Bulletin ,1991,103(2) :236-253.
157. Hannington M.D., Thompson G, Rona P. A. and Scott S.D., Gold and Native Copper in Supergene Sulphides from the Mid-Atlantic Ridge. Nature, 1988,333(6468) : 64-66.
158. Hou Guangjiu and Suo Shutian ,Late Caledonian Organic Extentionai Deformation and Metamorphic Core Complexes in Xuefengshan Area, Southern China Journal of China Uni. Of Geosciences, 1997, 8(2) .
159. Hopper 3 R, Buck W R. The initation of rifting at constant tectonic force: role of diffusion creep. 3 Geophy Res, 1993,98(B9) , 16213-16221.
160. Hubert C. and Marquis P., Structural framework of the Abitibi greenstone belt of Quebec and its implications for mineral exploration, Mineralization and Shear Zones Cedited (edited by Bursnall J. T), Geol. Ass Can Short Course,1980,Notes.6:219-238.
161. Huston D.L., Larger R.R.,A Chemical Model for the Concentration of Gold in Volcanigenic Massive Sulphide Deposits, Ore Geology Review,1989,(4) :171-200.
162. Hutton D.H.W., Igneous emplacement in a shear-zone termination: The biotite granite at strontian, Scotland. Geological society of America Bulletin, 1988, 100:1392-1399.
163. J G. Ramsay. And M. I. Huber. The Techniques of Modern Structural Geology, London: Academic Press, 1987.
164. Jones M .E., The relationship between metamorphism and deformation of rock, Journal of Structural Geology. 1981, 3(3) : 333-338.
165. Karato S. Wu P. Rheology of the upper mantle: A synthesis. Science. 1993. 260, 771-777.
166. Kirb S H. Rheology of the lithosphere. Rev Geophys,1983, 21, 1458-1487.
167. Kruse,S., McNutt,M., Phipps-Morgan, J., Royden, L. and Wernicke., Lithospheric extension near Lake Mead, Nevada: A model for ductile flow in the lower crust. J. Geophys. Res., 1991, 96(B3) ,4435-4456.
168. Large R.R., Australian Volcanic-Hosted Massive Sulfide Deposits: Features, Styles, and Genetic Models. Econ.Geol., 1992,87(3) :471-510.
169. Lachenbruch, A. H. and Sass, J. H., Heat flow from Cajon Pass, fault strength, and tectonic implication. J. Geophys.Res., 1992,97(B4) :4995-5015.
170. Lister G S Davis G A. Metamophic core complexs and detachment faults. J. Str. Geol. 1989, 11 (1/2) : 65-94.
171. Lister G S. Baldin S L. Plutonism and the origin of metamorphic core complex. Geology, 1995, 21 (7) :607-610.
172. Lister GS., Davis, G.A., The origin of metamorphic core complexes and detachment fault formed during Tertiary continental extension in the northern Colorado River region ,U.S.A., Journal of Structural Geology, 1989,11(1/2) .
173. Lister GS.and Baldwin S. L., Plutonism and the origin of metamorphic core complexes, Geology, 1993,21:607-610.
174. Malavieille J Late orogenic extension in mountain belts : In sights from the basin and range and the late Paleozoic variscan belt. Tectonics, 1993, 12(5) : 1115-1130.
175. Maubeuge F. and Lerche I., Geopressure evolution and hydrocarbon generation in a north Indonesian basin: two-dimensional quantitative modeling, Marine Petroleum Geology, 1994, 11:104-120.
176. Meigs F., Sequential development of selected Pyrencan thrust faults, Journal of Structural Geology, 1997, 19(3-4) : 481-502.
177. Michael S. E. Woodward L. A., Epithermal gold deposits remobilized from Precambrian volcanogenic Sulfide source during Late Cenozoic continental rifting. Geology, 1990. 18(2) : 179-182.
178. Mitchell A. H. G and Garrison M. S., Mineral deposits and global tectonic settings, Academic press Inc.(London)Ltd.l981.
179. Molnar P. Continental tectonics in the after math of plate tectonics. Nature, 1988. 335:131-137
180. Nesbitt B.E., Gold deposit continum: A genetic model for lode Au mineralization in the Paterson continental crust.Geology, 1988,16:1044-1048.
181. Nicolas A. Bouchez J L .Blaise J .Poirier J P .Geological aspects of deformation in continental shear zones. Tectonophysics, 1977, 42: 53-73.
182. Price G. P., Preferred orientations in quartites. In: Wenk H.R.ed. Preferred orientation on deformed metals and rocks. An introduction to modern texture analysis ,APEMIC Press, INC, 1985.
183. Price N.J. and Meclay K.R.,冲断推覆构造(杨俊杰、张伯荣译).兰州:甘肃人民出版社,上册, 1984;
下册,1986.
184. Ramsay J.G. Shear zone geometry, a review. Journal of Structural Geology, 1980, 2(1/2) .
185. Ramsay J.Gand Huber M, I.,The Techniques of Modern Structural Geology. London: Academic Press,1987.
186. Ranlli G Murphy DC. Rheological stratification of the lithosphere. Tectonophysics. 1987. 132:281-295
187. Ricard, Y, and W. Bai, 1991, Inferring the Viscosity and the 3-D densitystructure of the mantle from geoid, topography and plate velocities, Geophysical Journal, 105, 561-571.
188. Roberts S. J. and Numn J. A., Episodic fluid expulsion from geopressuied sediments, Marine and Petroleum Geology, 1995. 12(2) : 195-204.
189. S. R. Paterson, O. Tobison and V. J. Morand. The influence of large ductile shear zones on the emplacement and deformation of the Wyangala Batholith, SE Australia. Journal of Structural Geology, 1990, 12(5, 6) : 639-650.
190. Sawkins F.J., Metal deposits in relation to plate tectonics ,Springer-Verlag, 1984.
191. Schemed S. M., Casey M., Complete fabric analysis of some commonly observed guartzs c-axis patterns, Mineral and Rock Deformation: Laboratory Studies. The Paterson Volume. AmGeophys Union, Geophysics. Monogr. 1986,36:263-286.
192. Schmid S. W. and Handy M. R., Towards a genetic classification of fault rocks: geological usage and tectonpohysical implications, Controversies in Modern Geology (edited by Mullcr D. W. et al),Academic Press Limited,1991,339-361.
193. Seyfert K Cordilleran metamorphic core complexes. In ; Seyferted. Encyclopedia of Structural Geology and Plate Tectonics. New York : Van Nortrand Reinhold Company . 1987, 113-130.
194. Sibson R.H.etc., Frictional constraints on thrust, wrench and normal faults, Nature, 1974, 249, 542-544.
195. Sibson R.H.etc., High-angle reverse faults, fluids pressure cycling and meso-thermal gold deposits. Geology, 1988, 16:551-555.
196. Storti R, Salvine F. and Meclay K., Fault-related folding in sandbox analogue models of thrust wedges, Journal of Structural Geology, 1997,19(3-4) : 583-602.
197. Strauss G. K. and Beck J.S., Gold Mineralization in the SW Iberian Pyrite. Mineralium Deposita, 1990, 24(4) : 237-245.
198. T. Engelder, Loading Paths to joint propagation during a tectonic cycle: an example from the Appalachian Plateau, U.S.A., J. Struct. Geol. 1985, 7, 459-476.
199. Taylor H.P. The application of oxygen and hydrogen isotope studies to problem of hydrothermal alteration and ore deposition. Econ. Geol., 1974. 69.
200. Tobison S. R.,O.T. and Morand V.J., The influence of large ductile shear zones on the emplacement and deformation of the Wyangala Batholith .SE Australia. Journal of Structural Geology, 1990,12(5,6) :639-650.
201. Tullis F.A., Christie J.M., Griggs D.T., Microstructures and preferred orientation of experimentally deformed quartzites.Geol.Soc.Am.Bull, 1973,(84) :297-314.
202. Twiss, R. J., Sellars, C.M., Limits of applicability, of the recrystallized grain size geopiezometer, Geophysics. Res.Lett., 1978,5:337-340.
203. Vernon R. H., Question about myrekite in deformed rocks, Journal of Structural Geology, 1993. 13(9) .
204. Weng Shijie(翁世劼), tec. ,Deep Seismic probing of continental crust in the lower Yagtze region, eastern China Tectonophysics, 173(1/4) . 1990,297-306.
205. White S.H., Shear and fault controls of gold mineralization :an exploration overview , Bicentennial Gold 88,Poster Programme, 1988,2:651-654.
206. Wu Ganguo, Zhang Da and Chen Bailin. Relationship between crustal structure and tin mineralization in South China, Journal of China University o f Geosciences, 1999,1:38-42.
207. Zhu Dagang .Tectonic deformation and gold mineralization in Zhaoyuan-Yexian Area .Shandong Province . Journal of Geomechanics (English Supplement) Vol.2,1996, p149-154.
1.云南省地质矿产局,云南省区域地质志。北京,地质出版社,1990。
2.云南省地质矿产局区域地质调查队.维西幅(G-47-Ⅹ)1:20万区域地质调查报告,1984。
3.云南省地质矿产局第一区域地质测量大队,兰坪幅(G-47-Ⅹ Ⅵ)1:20万区域地质调查报告,1974。
4.云南省地质矿产局第三地质大队区调三分队,河西幅(G-47-43-B)1:5万地质图及说明书,1995。
5.云南省地质矿产局第三地质大队区调三分队,安乐街幅(G-47-43-D)1:5万地质图及说明书,1995。
6.云南省地质矿产勘察开发局第三地质大队,云南兰坪县白秧坪地区铜多金属矿普查地质工作专报,1999。
7.云南省地质调查院第三矿产地质调查所,云南兰坪县白秧坪铜、银、铅、锌、钴矿化集中区2000年地质工作设计,2000。
8.云南地勘局物化探队,三江重点片滇西北重点矿区综合物探试验工作报告,1996。
9.云南地勘局第三地质大队,西南“三江”重点片云南段北部铜多金属矿重点矿区综合物化探工作总体报告,1997。
10.云南地勘局第三地质大队,兰坪县三山矿区下区五——东至岩矿段物探电法试验工作简报,2000。
11.成都理工学院,测定磁场充电法在云南省拖顶及白秧坪地区的初步试验结果,1996。
12.杨世瑜等,浊西大理—丽江地区斑岩型铜金矿遥感地质特征,科研报告,1998。
13.中国地质科学院地质力学研究所,云南兰坪白秧坪铜、银、铅、锌、钴矿化集中区控矿条件及资源评价,2000。
14.云南省地质矿产局区域地质矿产调查大队,中甸幅(G47C001003)、贡山县幅(G47C001002)1:25万区域地质地质调查报告,2000。
15.航空物探遥感中心,云南大理—丽江地区航空物探(磁)勘查成果报告,1998。
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |