燕辽地区燕山期火山活动节律与造山—深部过程
|
摘要
燕辽地区素有地质“摇篮”之称,自翁文灏在70余年前提出Yenshan Movement(燕山运动)以来,它以其独特的大地构造位置、复杂的构造特征、组成及其演化过程,特别是该地区在很短的时间间隔内发生了大规模、多幕式构造—岩浆活动,更引起世界地学界的极大关注。通过多次幕式火山喷发-构造变形-盆地充填-地壳隆升事件序列的厘定,从火山活动节律特征、火成岩构造组合类型、时空分布及其演化和构造变形的历史记录,利用岩石学、地球化学、同位素地质学等方法,反演深部过程与浅部响应等来阐明造山过程,建立与不同级别岩浆活动节律对应的壳幔动力学系统,追索壳幔深部过程,已成为当今地球动力学研究的前沿课题之一。在岩浆活动节律与深部壳幔过程的关系研究方面,才刚刚开始,本项研究正是在这样的背景开始的。燕辽地区位于中国东部北东向展布的西太平洋构造域与近东西向分布的古亚洲构造域交叉复合部位。为了揭示该区燕山期火山岩火山活动的时空分布与演化特征,探讨与深部壳幔过程的关系,选择了燕山期火山岩地层发育比典型的北京西山、内蒙多伦、冀北和部分辽西等地区,系统的测制了燕山期火山岩重点地层剖面,通过野外大量的详细观察,从建立最小的火山喷发单元开始,逐步地建立火山活动节律的级别,结合区域地层对比,建立了一个比较完整的燕山期火山活动节律及其级序。在此基础上,通过火山岩石学、矿物学、火山地质学、地球化学及同位素地质学的综合研究,探讨了燕辽地区燕山期火山活动节律与造山—深部。主要取得了如下成果:1、系统地提出了火山活动节律划分的原则和方法。把火山活动节律划分为五个级别,即巨旋回(gigantic-cycle)、大旋回(megas-cycle)、旋回(sub-cycle)、小旋回(micro-cycle)、亚旋回(sub-cycle)和韵律(rhythm)。进而指出了火山活动节律的层次性特征。2、通过对燕辽地区燕山期发育的四套火山岩的岩石学、火山地质学、地球化学、同位素年代学的综合研究,通过运用综合方法进行区域地层对比和分析火山喷发盆地火山岩地层特征的基础上,将本区燕山期火山活动节律,划分为1个二级节律(大旋回)、4个三级节律(旋回)、11个亚三级节律(小旋回)、24个四级节律(亚旋回)和多个五级节律(韵律)等,论述了各级火山活动节律特征及其时空演化和区域对比。3、在火山活动节律的划分、区域对比的基础上,研究了各级节律火山岩的岩石学、矿物学、地球化学和同位素地质学特征,将研究区燕山期火山岩划分为碱性玄武岩系列、高钾钙碱性系列和钾玄岩系列。4、在岩石系列划分的基础上,通过火成岩构造组合、岩石地球化学特征、同位素示踪等,论证了燕辽地区燕山期火山岩以钙碱性系列为主,火山岩属于陆内靠陆缘大地构造环境。总体处于挤压的构造环境中,并发生多次构造反转。5、通过岩石化学、微量元素、稀土元素的研究,探讨了不同级别节律的火山岩成因、岩浆演化等特征,认为本区燕山期火山岩有三个岩浆源区,即地幔源、地壳源和壳幔混源,早侏罗世的南大岭旋回的基性岩浆,起源于上地幔;中侏罗世髫髻山旋回火山岩是在相对挤压环境中,岩浆起源于壳幔过渡带;晚侏罗世无负Eu异常的酸性岩浆来源于下地壳的古老结晶基底的局部熔融,有负Eu异常的酸性岩浆来源于上地壳的局部熔融;早白垩世火山岩基性岩浆起源于上地幔,中性岩浆起源于下地壳底部的壳幔过渡带。同时提出本区燕山期中酸性火山岩多存在地幔物质的贡献。进而提出了本区火山岩以壳幔混源为主的认识,说明了本区燕山期强烈的壳幔相互作用特征。6、探讨了火山活动节律的反序、正序特征的形成原因,反演了所对应的深部岩浆房特
征及过程,得出亚旋回中形成反序现象主要由带状岩浆房演化引起,形成正序现象的主要原
因是岩浆房的再充填,同时说明了本区燕山期存在多级岩浆房。
7、通过火山岩踢,的研究,得出了研究区燕山期火山岩的形成太平洋板块无直接的联系。
进一步论证了本区燕山期岩石圈拆沉一减薄特征,计算本区燕山期各期、各地区的地壳厚度
和晚侏罗世莫霍面深度,得出了燕山期本区地壳总体是增厚的,不同时期的平均厚度为:早
侏罗世约(190一17OMa)地壳厚度约为49Km,中侏罗世(166一154Ma)地壳厚度为50Km(京
西)一55Km(滦平),平均53Km,晚侏罗世(147一140Ma)地壳厚度为64一118km,平均为
93Km,早白至世(136一120Ma)地壳厚度为48一18lKm,平均为71Km。区内不同地区晚侏罗
世地壳厚度总的西厚东薄,北厚南薄;早白坚世南厚北薄,西厚东薄。总体为侏罗纪时期地
壳是逐渐增厚,早白至世时期地壳又相对减薄。
8、对多伦地区兴安岭群火山岩进行‘OAr一狱r法、Rb一Sr法系统同位素测年,得到了有
价值的12个火山岩新的年龄数据,并对这些年龄的可靠性从区域地质背景上进行约束,建
立了该区燕山期区域地层对比框架。
9、探讨了研究区燕山期火山活动节律与造山一深部过程的祸合关系及其特征,进一步
说明了火山活动节律的深部成因。认为火山活动期(时限约为130 Ma)可能代表40oKm以上
的对流系统;火山活动旋回(时限约为10一20 Ma)代表以地慢加热一冷却过程;火山活动
小旋回(时限约为3一8 Ma)代表
The Yanshan-Liaoning area is called as the "cradle of geology". It is the first time that the geologist, Wen Wenghao, has put forward the "Yanshan Movement" before 70 years. From then on the Yanshan-Liaoning area had been paying attention by the geologists all over the word because it lies in the particular tectonic background, has the complex structural features, structural units, and the geological history of evolution, particularly large-scale, multi-phrase tectonic movement and magmatic activity took place in the short geological time. After the volcanic eruption of multi-phrase cycle-deformation, filling of basin, crustal uplifting event being studied, this dissertation tries constructing the different degree rhythm of magma activity corresponding with crust-mantle dynamic system, studying the crust-mantle deep processes. Based on the studies on the characteristics of volcanic rhythm, igneous rocks assemblages, temporal and spatial distribution of igneous rocks, tectonic deformation, the author has util
ized the methods of petrology, geochemistry, isotopic geology et al. to do research on the above-mentioned geological problems.
The yanshan-Liaoning area lies in the crossover zone of the NE-directed West Pacific Ocenic structural system and near SW-directed Paleoz-Asian structural system. To make the yanshanian volcanic tempral and spatial distribution and evolution law clear, study the relationship of the deep crust-mantle processes and the volcanic rocks, the author selects the typical areas, Xishan of Beijing, Duolun of Inner Mongolia, West Liaoning, as the study areas where the volcanic rocks strata are developed. Through the emphasised geological profiles of Yanshanian volcanic strata being surveyed, much field work being done detailly, the small volcanic eruptive units have been defined originally, the levels of volcanic activity rhythm being constructed gradually, as a result, a integrated and systemic rhythm of Yanshanian volcanic acivity has been constructed. Fininaly the rhythm of Yanshanian volcanic acivity in the Yanshan-Liaoning area and Orogenic-deep process is disscussed. Some results are obtained as following.
1.To provide the systemic classicification and method about the rhythm of volcanic activity, the rhythm of volcanic activity is divided into 5 levels: gigantic-cycle, megas-cycle, cycle, micro-cycle sub-cycle, rhythm.
2. On the basis of study on petrology, volcanic geology, geochemistry, isotopic chronology, antitheses of the regional strata and 4 suits of volcanic rock stratum of the Yanshan-Liaoning area, the rhythm of Yanshanian volcanic activity is divided into 1 gigantic-cycle, 4 cycles, 11 micro-cycles, 24 sub-cycles and many rhythms. In addition, the temporal and spatial evolution and regional contrast of every-level rhythms are discussed.
3.Based on the study on classifications of rhythm of volcanic activity and regional contrast, the petrology, mineralogy, geochemistry, and isotopic characteristics of every-level rhythms are discussed. At last the rhythm of Yanshanian volcanic rocks is classified into three series such as alkaline basalt, HKCA, calc-alkaline Shoshonite.
4.Based on the study of rock series, assemblage of igneous rock, characteristic of geochemistry, trace effect of isotope, the Yanshanian volcanic rocks of Yanshan-Liaoning area are
mainly calc-alkaline series, which should belong to the products of near continental margin of intracontinental tectonic setting. During the Yanshanian phrase, the area is in the condition of contractional background, with multi-staged tectonic reversion.
5.Through studying the origin of volcanic rocks and the characteristics of magma evolution, it concludes that there exist 3 originated areas of magma-from mantle, crust, and mantle-crust exchange. The basic magma of Nandaling volcanic rocks of Early Jurassic is derived from Upper mantle; the magma of Tiaojishan volcanic rocks of Mid Jurassic is formed in the contractional tectonic setting, and derived from the transition zone of crust and mantle interaction; the acid
征及过程,得出亚旋回中形成反序现象主要由带状岩浆房演化引起,形成正序现象的主要原
因是岩浆房的再充填,同时说明了本区燕山期存在多级岩浆房。
7、通过火山岩踢,的研究,得出了研究区燕山期火山岩的形成太平洋板块无直接的联系。
进一步论证了本区燕山期岩石圈拆沉一减薄特征,计算本区燕山期各期、各地区的地壳厚度
和晚侏罗世莫霍面深度,得出了燕山期本区地壳总体是增厚的,不同时期的平均厚度为:早
侏罗世约(190一17OMa)地壳厚度约为49Km,中侏罗世(166一154Ma)地壳厚度为50Km(京
西)一55Km(滦平),平均53Km,晚侏罗世(147一140Ma)地壳厚度为64一118km,平均为
93Km,早白至世(136一120Ma)地壳厚度为48一18lKm,平均为71Km。区内不同地区晚侏罗
世地壳厚度总的西厚东薄,北厚南薄;早白坚世南厚北薄,西厚东薄。总体为侏罗纪时期地
壳是逐渐增厚,早白至世时期地壳又相对减薄。
8、对多伦地区兴安岭群火山岩进行‘OAr一狱r法、Rb一Sr法系统同位素测年,得到了有
价值的12个火山岩新的年龄数据,并对这些年龄的可靠性从区域地质背景上进行约束,建
立了该区燕山期区域地层对比框架。
9、探讨了研究区燕山期火山活动节律与造山一深部过程的祸合关系及其特征,进一步
说明了火山活动节律的深部成因。认为火山活动期(时限约为130 Ma)可能代表40oKm以上
的对流系统;火山活动旋回(时限约为10一20 Ma)代表以地慢加热一冷却过程;火山活动
小旋回(时限约为3一8 Ma)代表
The Yanshan-Liaoning area is called as the "cradle of geology". It is the first time that the geologist, Wen Wenghao, has put forward the "Yanshan Movement" before 70 years. From then on the Yanshan-Liaoning area had been paying attention by the geologists all over the word because it lies in the particular tectonic background, has the complex structural features, structural units, and the geological history of evolution, particularly large-scale, multi-phrase tectonic movement and magmatic activity took place in the short geological time. After the volcanic eruption of multi-phrase cycle-deformation, filling of basin, crustal uplifting event being studied, this dissertation tries constructing the different degree rhythm of magma activity corresponding with crust-mantle dynamic system, studying the crust-mantle deep processes. Based on the studies on the characteristics of volcanic rhythm, igneous rocks assemblages, temporal and spatial distribution of igneous rocks, tectonic deformation, the author has util
ized the methods of petrology, geochemistry, isotopic geology et al. to do research on the above-mentioned geological problems.
The yanshan-Liaoning area lies in the crossover zone of the NE-directed West Pacific Ocenic structural system and near SW-directed Paleoz-Asian structural system. To make the yanshanian volcanic tempral and spatial distribution and evolution law clear, study the relationship of the deep crust-mantle processes and the volcanic rocks, the author selects the typical areas, Xishan of Beijing, Duolun of Inner Mongolia, West Liaoning, as the study areas where the volcanic rocks strata are developed. Through the emphasised geological profiles of Yanshanian volcanic strata being surveyed, much field work being done detailly, the small volcanic eruptive units have been defined originally, the levels of volcanic activity rhythm being constructed gradually, as a result, a integrated and systemic rhythm of Yanshanian volcanic acivity has been constructed. Fininaly the rhythm of Yanshanian volcanic acivity in the Yanshan-Liaoning area and Orogenic-deep process is disscussed. Some results are obtained as following.
1.To provide the systemic classicification and method about the rhythm of volcanic activity, the rhythm of volcanic activity is divided into 5 levels: gigantic-cycle, megas-cycle, cycle, micro-cycle sub-cycle, rhythm.
2. On the basis of study on petrology, volcanic geology, geochemistry, isotopic chronology, antitheses of the regional strata and 4 suits of volcanic rock stratum of the Yanshan-Liaoning area, the rhythm of Yanshanian volcanic activity is divided into 1 gigantic-cycle, 4 cycles, 11 micro-cycles, 24 sub-cycles and many rhythms. In addition, the temporal and spatial evolution and regional contrast of every-level rhythms are discussed.
3.Based on the study on classifications of rhythm of volcanic activity and regional contrast, the petrology, mineralogy, geochemistry, and isotopic characteristics of every-level rhythms are discussed. At last the rhythm of Yanshanian volcanic rocks is classified into three series such as alkaline basalt, HKCA, calc-alkaline Shoshonite.
4.Based on the study of rock series, assemblage of igneous rock, characteristic of geochemistry, trace effect of isotope, the Yanshanian volcanic rocks of Yanshan-Liaoning area are
mainly calc-alkaline series, which should belong to the products of near continental margin of intracontinental tectonic setting. During the Yanshanian phrase, the area is in the condition of contractional background, with multi-staged tectonic reversion.
5.Through studying the origin of volcanic rocks and the characteristics of magma evolution, it concludes that there exist 3 originated areas of magma-from mantle, crust, and mantle-crust exchange. The basic magma of Nandaling volcanic rocks of Early Jurassic is derived from Upper mantle; the magma of Tiaojishan volcanic rocks of Mid Jurassic is formed in the contractional tectonic setting, and derived from the transition zone of crust and mantle interaction; the acid
引文
[1]肖庆辉等编著,1993,当代地质科学前沿——我国今后值得重视的前沿研究领域,武汉:中国地质大学出版社
[2]《走向二十一世纪的中国地球科学》编写组编,1995,走向二十一世纪的中国地球科学,郑州:河南科学技术出版社
[3]《21世纪初科学发展趋势》编写组编,1996,21世纪初科学发展趋势,北京:科学出版社
[3]陈毓川,张之一,项礼文等,1997,90年代地球科学动向——第30届国际地质大会学术报道,北京:地质出版社
[4]邓晋福,赵海玲,莫宣学等,1996,中国大陆根-柱构造——大陆动力学的钥匙,北京:地质出版社
[5]王鸿祯,1995,全球构造研究的简要回顾,地学前缘,2(1-2):37-42
[6]丸山茂德,神尾良夫,大林政行等,1993,地幔羽构造论——板块构造后理论发展的新范例,科学(日),63(6),373-386
[7]Maruyama S, 1994, Plume tectonics, Geol. Soc. Japan, 100(1): 24-49
[8]赵国春,吴福元,1994,地幔热柱构造——一种新的大地构造理论,世界地质:13(1),25-34
[9]Bucher W, 1993, The Deformation of the Earth's, [s. 1.]:Princeton University Press, 1-516
[10]邓晋福,赵海玲,1990,中国东部新生代上部软流圈性质及变迁历史,见:中国上地幔特征与动力学论文集,北京:地震出版社,8-13
[11]邓晋福,莫宣学,赵海铃等,1994,中国东部岩石圈根/去根作用与大陆“活化”——东亚型大陆动力学模型研究计划,现代地质,8(3):349-356
[12]Milanovsky E E, 1995, Pulsation of the Earth, Geotectonika, 5:3-24(in Russian)
[13]Milanovsky E E, 1997, The Earth's Pulsations, Their Manifestation, Hierarchy and Connection with Palaeomagnetism, 地学前缘,4 (3-4):47-64
[14]王鸿祯,1997,地球的节律与大陆动力学的思考,地学前缘,4(3-4):1-12
[15]王鸿祯,1997,地球动力学的演化观——共同走向科学——百名院士科技系列报告集,中册,北京:新华出版社,246-256
[16]Lambeck K, 1980, Earth's Variable Rotation, Cambridge:Cambridge Univ Press, 449
[17]马宗晋,1995,地球整体构造变动及其动力学研究,见:张涛主编,科学前沿与未来,第一集,北京:科学出版社,175-198
[18]Hofmann A W, 1997,Mantle geochemistry—the message from oceanic volcanism,Nature, 385:219-227
[19]Becker T W, Kellogg L H, Oconnell R J, 1999, Thermal constraints on the survival of primitive blobs in the lower mantle, Earth Planet Sci Lett, 171:351-365
[20]Kellegg L H, Hager B H, Van der Hilst R D, 1999, Compositional stratification in the deep mantle, Science, 283:1 881-1 884
[21]邵济安,韩庆军,1998,中生代地球系统与核-幔边界动力学研究进展,地质论评,44(4):382-388
[22]Prevot M, Derder M E, Mcwilliams M, Thompson J, 1990, Intensity of the earth's magnetic field:evidence for a Mesozoic dipole low, Earth and Planetary Science letters, 97:129-139
[23]van der Hilst R D, Karason K, 1999, Compositional heterogeneity in the bottom 1000 km of earth's mantle:Towards a hybrid convection model, Science, 283:1885-1888
[24]Sengor A M C, 1990, Tectonics and orogeny after 25 years-A Tethyan perspective, Earth Science Reuiew, 27:1-201
[25]Wilson J T, 1990, On the building and classification of mountains, Jour Geophys Res, 95(B5):6611-6628
[26]崔盛芹,1999,论全球性中-新生代陆内造山作用与造山带,地学前缘,6(4):283-293
[27]王瑜,1996,中国东部内蒙-燕山造山带晚古生代晚期-中生代的造山作用过程,北京:地质出版社,125-132
[28]Dewey J F. Bird J M, 1970. Mountain belts and the new global tectonics, Jour Geophys Res, 75:2625-2647
[29]张长厚,1999,初论板内造山带,地学前缘,6(4):295-380
[30]宋鸿林,1999,燕山式板内造山带基本特征与动力学探讨,地学前缘,6(4):309-316
[31]李继亮,孙枢,郝杰等,1999,论碰撞造山带的分类,地质科学,34(2):129-140
[32]李继亮,孙枢,郝杰等,1999,碰撞造山带的碰撞事件时限的确定,岩石学报,15(2):315-320
[33]李伍平,1999,钙碱性火山岩构造背景的研究进展,地质科技情报,18(2):15-18
[34]钱青,王焰,1999,不同构造环境中双峰式火山岩的地球化学特征,地质地球化学,27(4):29-32
[35]Leeman W P, Harry D L, 1993, A binary source mldel for extension related magmatism in the Great Basin, Western North America, Sci.,262(3):1550-1554
[36]金振民,高山,1996,底侵作用(underplating)及其壳-幔演化动力学意义,地质科技情报,15(2):1-8
[37]Furlong K P, Fountain D M, 1986, Continental crustal underplating:thermal consideration and seismic-pertrologic consequences, J. Geophys. Res.,91(B8):8285-8294
[38]Fyfe W S, Leonardos O H, 1973, Ancient metamorphic-migmatite belts of the Brazilian African coasts, Nature, 224:501-502
[39]Voshage H, Hofman A W, Mazzucchelli M et al, 1990, Isotopic evidence from the Ivrea zone for a hybrid lower crust formed by magmatic underplating. Nature, 347:731-736
[40]郑建平,李昌年,薛重生等,1996,江西灵山花岗岩中玄武岩包体的成因,地质科技情报,15(1):19-24
[41]樊祺诚,刘若新,1996,汉诺坝玄武岩中高温麻粒岩捕虏体,科学通报,41(3):235-238
[42]高山,金振民,1997,拆沉作用(delamination)及其壳-幔演化动力学意义,地质科技情报,16(1):1-9
[43]陶奎元,1994,火山岩相构造学,南京:江苏科学技术出版社,71~81
[44]李兆鼐,1998,火山岩和火山作用与资源环境关系研究的若干问题,见:世纪之交矿物学岩石学地球化学的回顾与展望,北京:原子能出版社,64~68
[45]赖绍聪,1999,岩浆作用的物理过程研究进展,地球科学进展,14(2):153-164
[46]邓晋福,1989,地幔-岩浆-C-H-O系统——八十年代火成岩研究新进展,地质科技情报,8(4):7-13
[47]欧新功,金淑燕,1999,壳幔混合层的物质过程及其动力学意义,世界地质,18(3):1-6
[48]任纪舜,1984,印支运动及其在中国大地构造演化中的意义,中国地质科学院院报,第9期:31~44
[49]赵越,扬振宇,马醒华,1994,东亚大地构造发展的重大转折,地质科学,29(2):105~119
[50]任纪舜,牛宝贵,和政军,谢广连,刘志刚,1997,中国东部的构造格局和动力演化,见:中国地质科学院地质研究所编,地学研究,29~30,北京:地质出版社,44~55
[51]Otofuji Y, Hayashida A, Torii M, 1985,When was the Japan sea opened?In:Nasu N et al.ed. Formation of Active Ocean Mar gins,ToKyo:TERRPUB.551~566
[52]翁文灏,1927,中国东部中生代以来的地壳运动及火山活动,中国地质学会志,6(1)(英文):9-37
[53]赵宗溥,1959.论燕山运动,地质论评,19(8):339-346
[54]赵宗溥,1963,中国东部的燕山运动,地质科学,3:128-138
[55]鲍亦刚,谢德源,陈正邦等,1983,论北京地区燕山运动,地质学报,2:195-204
[56]崔盛芹,李锦荣,赵越,1985,论中国及邻区滨太平洋带的燕山运动,见:国际交流地质学术论文集(2),北京:地质出版社,221-234
[57]聂宗笙,1985,华北地区的燕山运动,地质学报,4:320-333
[58]董国臣,1996,论燕山地区燕山运动,河北地质学院学报,19(6):660-667
[58]郭令智,施央申,马瑞士,1983,西太平洋中、新生代活动大陆边缘和岛弧构造的形成及演化,地质学报,1:11-21
[59]马杏垣,刘和甫,王维襄,1983,中国东部中、新生代裂陷作用和伸展作用,地质学报,1:22-32
[60]张文佑,张抗,赵永贵等,1983,华北断块区中、新生代地质构造特征及岩石圈动力学模型,地质学报,1:33-40
[61]翁世颉,黄海,1983,中国东南部侏罗——白垩纪板块构造活动与相关的岩浆活动,地质学报,2:119-127
[62]林强,1999,东北亚中生代火山岩研究若干问题的思考,世界地质,18(2):14-22
[63]吴福元,曹林,1999,东北亚地区若干重要基础地质问题,18(2):1-13
[64]郑亚东,Davis G A,王琮等,1998,内蒙古大青山大型逆冲推覆构造,中国科学(D辑),28:289-295
[65]邓晋福,刘厚祥,赵海玲等,1996,燕辽地区燕山期火成岩与造山模型,现代地质,10(2):137~148
[66]李锦轶,1998,中国东北及邻区若干地质构造问题的新认识,地质论评,44(4):339-347
[67]邵济安,牟保磊,何国琦等,1997,华北北部在古亚洲域与古太平洋域构造叠加过程中的地质作用,中国科学(D辑),27(5):390-394
[68]赵越,1990,燕山地区中生代造山运动及构造演化,地质论评,36(1):1-13
[69]陶奎元,毛建仁,邢光福等,1999,中国东部燕山期火山-岩浆大爆发,矿床地质,18(4):316-322
[70]徐正聪,王振民,1983,河北燕山地区地质构造基本特征,中国区域地质,3:39-55
[71]萧宗正,1992,北京地区中生代若干地质问题讨论,北京地质,2:1-7
[72]朱大岗,吴珍汉,崔盛芹,1999,燕山地区中生代岩浆活动特征及其与陆内造山作用关系,地质论评,45(2):163-172
[73]赵海玲,邓晋福,陈发景等,1996,松辽盆地东南缘中生代火山岩及盆地形成的构造背景,地球科学——中国地质大学学报,21(4):421-427
[74]赵海玲,邓晋福,陈发景等,1998,中国东北地区中生代火山岩岩石学特征与盆地形成,现代地质,12 (1):56-62
[75]任纪舜,姜春发,张正坤等,1980,中国大地构造及其演化——1:400万中国大地构造图简要说明,北京:科学出版社,111-112
[76]吴福元,叶茂,张世红,1995,中国满洲里-绥芬河地学断面的地球动力学模型,地球科学——中国地质大学学报,20:535-539
[77]郭占谦,1998,火山活动与沉积盆地的形成和演化,地球科学,23(1):59-64
[78]将国源,权恒,1988,大兴安岭根河-海拉尔盆地中生代火山岩,中国地质科学院沈阳地矿所所刊,17:23-100
[79]朱勤文,路凤香,谢意红等,1997,大陆边缘扩张型火山岩组合——松辽盆地周边中生代火山岩研究,岩石学报,13:551-562
[80]王东方,周世光,陈成林,1985,辽宁中西部中生代火山岩的稀土元素测定、分布模式及其构造意义,地球科学,2:134-141
[81]孙善平,汪洋,李家振等,1995,北京西山中生代火山活动特征及构造环境分析,见:李东旭等著,北京西山地质构造系统分析,北京:地质出版社,65-76
[81]邱家骧,廖群安,1998,北京地区中生代与中生代火山岩的酸度、系列、构造环境及岩浆成因,岩石矿物学杂志,17(2):104-117
[82]何政军,李锦轶,牛宝贵等,1998,燕山——阴山地区晚侏罗世强烈推覆——隆升事件及沉积响应,地质论评,44(4):407-418
[83]陶奎元,1990,环太平洋中国东部大陆边缘构造-岩浆作用的独特性,矿物岩石地球化学通讯,4:239-240
[84]林强,葛文春,孙德有等,1998,中国东北地区中生代火山岩的大地构造意义,地质科学,33:129-139
[85]张履桥,邵济安,郑广瑞,内蒙古甘珠尔庙变质核杂岩,地质科学,33:140-146
[86]鲍亦刚,白志民,葛世炜等,1995,北京燕山期火山地质及火山岩,北京:地质出版社,142-151
[87]吴利仁等,1984,华北及邻区中、新生代火山岩,北京:科学出版社,287
[88]廖群安,邱家骧,1993,北京地区中生代钾玄岩系列-高钾钙碱性系列的识别与成因分析,岩石学报,9(增刊):14-23
[89]李耀松,1988,冀北沽源盆地中生代火山岩的同位素年龄及成因,中国地质科学院南京地质矿产研究所所刊,9(4):47-59
[90]曹丛周,1982,辽西地区侏罗纪火山岩特征,中国地质科学院沈阳地质矿产研究所所刊,3:186-188
[91]钟瑞元,1986,辽宁南部中生代岩浆活动特征,辽宁地质,2:97-111
[92]郭洪中,张招崇,1992,辽宁西部中生代火山岩的某些特征,岩石矿物学杂志,11(3):193-204
[93]陈义贤,陈文寄等著,1997,辽西及邻区中生代火山岩——年代学、地球化学和构造背景,北京:地震出版社,255-279
[94]路凤香,朱勤文,李思田,1997,岩浆岩-研究盆地深部过程的“探针”,见:李思田等著,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,169-196
[95]周新民,徐夕生,董传万等,1994,中国东南活动大陆边缘的矿物标志:钙长石质斜长石,科学通报,39:1011-1014
[96]李武显,周新民,1999,中国东南部晚中生代俯冲带探索,高校地质学报,5:164-168
[97]邓晋福,叶德隆,赵海玲等,1992,下扬子地区火山作用深部过程与盆地形成,武汉:中国地质大学出版社,
[98]任纪舜,陈廷愚,牛宝贵等,1990,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
[99]徐嘉炜,崔可锐,刘庆等,1985,东亚大陆边缘中生代的左行平移断裂作用,海洋地质与第四纪地质,5(2):51-63
[100]张宏仁,1998,燕山事件,地质学报,72(2):103-111
[101]Griffin W L, Zhang A D, O'Reilly S Y. et al., 1998, Phanerozoic evolution of the lithosphere beneath the Sino-Korean craton, In: Flower M, Chung S L, Lo C H, Lee T Y, eds, Mantle dynamics and plate interactions in east Asia, Am. Geophys. Union., Geodyn Series, 100:107-126
[102]Menzies M A, Fan W M, Zhang M, 1993, Palaeozoic and Cenozoic lithoprobe and the loss of>120km of Archean lithosphere, Sino-Korean craton, China, In: Prichard HM, Alabaster T, Harris N B W, Neary C R, eds, Magmatic Processes and Plate Tectonics, Geol. Soc. Spec. Pub., 76: 71-81
[103]Menzie M A, Xu Y G, 1998, Geodynamics of the North China Craton, In: Flower M, Chung S L, Lo C H, Lee TY, eds, Mantle dynamics and plate interactions in east Asia, Am. Geophys. Union., Geodyn Series, 100: 155-165
[104]巽好幸,1997,起源活動史,科学,67(7):480-483
[105]丸山茂德,1997,全地球——新地球観,科学,67(7):498-506
[106]左藤博榭,长谷川 昭,1996,东北日本上部部分熔融域——岛弧上升,火山,41(3):115-125
[107]周藤贤治,牛来正夫,1997,地壳構成物质,日本东京:共立出版株式会社
[108]张伯声,1959,从陕西大地构造单位的划分提出一种有关大地构造发展的看法,西北大学学报(自然科学版),(2):13~32.
[109]徐道一,扬正宗,张勤文等,1983,天文地质学概论,北京:地质出版社,220~224.
[110]刘本培,张世红,1997,侏罗-白垩纪地球圈层演化节律及相互关系,地学前缘,4(3):65-74
[111]史晓颍,1996,35Ma—地质历史上一个重要的自然周期—自然临界的概念及其成因,地球科学,21(3):235~241.
[112]王战,1997,地球演化中最大的两级节律.地学前缘,4(3):95~99
[113]蒋志,1998,地幔脉动与地质现象,见:北京大学主编,北京大学国际地质科学研讨会论文集,北京:地震出版社,39~45
[114]董国润,白宜真,李洪等,1991,张家口盆地火山沉积旋回与演化,河北地质学院学报,14(4):344-350
[115]邓晋福,莫宣学,赵海玲等,1997,岩浆活动旋回与地球多层对流系统,地学前缘,4(3-4):205-210
[116]赵国春,邓晋福,白志达等,1999,多伦地区晚侏罗世火山活动节律研究,地质论评,45(Sup):508-516
[117]邓晋福,莫宣学,赵海玲等,1999,岩石圈/软流圈系统的大灾变与巨型矿集区形成,见:裴荣富,翟裕生,张本仁主编,深部构造作用与成矿,北京:地质出版社,36~44
[118]Gill J B 1981. Orogenic andesites and plate tectonics. Berlin Haidelberg: Springer_Verlag,.90
[119]Barberi F. A, 1975. Transitional basalt-pantellerite sequence of fractional crystallization, the Boina Center(after Rift, Ethiopia.)J Petro, (16):22~56
[120]Condie K T. Plate 1982.Tectonic and Crust Evolution. New York: Pergamon Press Inc
[121]Jackes P, White A J R 1972.Hornblende from calc-alkaline volcanic rocks of island arcs and continental margins .Am Mineral.57:887~902
[122]Dickinson W R, 1975. Potash-depth (k-h) relation continental margin and intraoceanic magmatic arcs. Geology, (3):56-56
[123]奥的拓生,1997,核溶素——上升流新驱动力,科学,67(7):475-477
[124]本多 了,中久喜伴益,岩漱康行,1997,——立埸,科学,67(7):513-518
[125]高桥栄一,中岛勝治,1997,洪水玄武岩起源——新,科学,67(7): 519-529
[126]滕井敏嗣,1997,研究现状喷火予知,火山,42(6):435-444
[127]大谷栄治,九保友明,铃木昭夫,1997,——内部超高压实验,科学,67(7):534-542
[128]牛来正夫,1990,大陆地壳进化论序说,日本东京:共立出版株式会社
[129]陈毓川,赵逊,张之一等编著,2000,世纪之交的地球科学——重大地学领域进展,北京:地质出版社
[130]石耀霖,2001,地幔对流研究的一些新进展,地球科学进展,16(4):496-500
[131]李伍平,路凤香,李献华,2001,北京西山晚侏罗世粗安岩的成因及其地质意义,岩石矿物学杂志,20(3):247-254
[132]许文良,王冬艳,王嗣敏,2000,中国东部中新生代火山作用的Pttc模型与岩石圈演化,长春科技大学学报,30(4):329-335
[133]陈树旺,张立东,郭胜哲等,2001,辽西义县组基性、中基性火山岩内沉凝灰岩的发现及其意义,辽宁地质,18(1):52-57
[2]《走向二十一世纪的中国地球科学》编写组编,1995,走向二十一世纪的中国地球科学,郑州:河南科学技术出版社
[3]《21世纪初科学发展趋势》编写组编,1996,21世纪初科学发展趋势,北京:科学出版社
[3]陈毓川,张之一,项礼文等,1997,90年代地球科学动向——第30届国际地质大会学术报道,北京:地质出版社
[4]邓晋福,赵海玲,莫宣学等,1996,中国大陆根-柱构造——大陆动力学的钥匙,北京:地质出版社
[5]王鸿祯,1995,全球构造研究的简要回顾,地学前缘,2(1-2):37-42
[6]丸山茂德,神尾良夫,大林政行等,1993,地幔羽构造论——板块构造后理论发展的新范例,科学(日),63(6),373-386
[7]Maruyama S, 1994, Plume tectonics, Geol. Soc. Japan, 100(1): 24-49
[8]赵国春,吴福元,1994,地幔热柱构造——一种新的大地构造理论,世界地质:13(1),25-34
[9]Bucher W, 1993, The Deformation of the Earth's, [s. 1.]:Princeton University Press, 1-516
[10]邓晋福,赵海玲,1990,中国东部新生代上部软流圈性质及变迁历史,见:中国上地幔特征与动力学论文集,北京:地震出版社,8-13
[11]邓晋福,莫宣学,赵海铃等,1994,中国东部岩石圈根/去根作用与大陆“活化”——东亚型大陆动力学模型研究计划,现代地质,8(3):349-356
[12]Milanovsky E E, 1995, Pulsation of the Earth, Geotectonika, 5:3-24(in Russian)
[13]Milanovsky E E, 1997, The Earth's Pulsations, Their Manifestation, Hierarchy and Connection with Palaeomagnetism, 地学前缘,4 (3-4):47-64
[14]王鸿祯,1997,地球的节律与大陆动力学的思考,地学前缘,4(3-4):1-12
[15]王鸿祯,1997,地球动力学的演化观——共同走向科学——百名院士科技系列报告集,中册,北京:新华出版社,246-256
[16]Lambeck K, 1980, Earth's Variable Rotation, Cambridge:Cambridge Univ Press, 449
[17]马宗晋,1995,地球整体构造变动及其动力学研究,见:张涛主编,科学前沿与未来,第一集,北京:科学出版社,175-198
[18]Hofmann A W, 1997,Mantle geochemistry—the message from oceanic volcanism,Nature, 385:219-227
[19]Becker T W, Kellogg L H, Oconnell R J, 1999, Thermal constraints on the survival of primitive blobs in the lower mantle, Earth Planet Sci Lett, 171:351-365
[20]Kellegg L H, Hager B H, Van der Hilst R D, 1999, Compositional stratification in the deep mantle, Science, 283:1 881-1 884
[21]邵济安,韩庆军,1998,中生代地球系统与核-幔边界动力学研究进展,地质论评,44(4):382-388
[22]Prevot M, Derder M E, Mcwilliams M, Thompson J, 1990, Intensity of the earth's magnetic field:evidence for a Mesozoic dipole low, Earth and Planetary Science letters, 97:129-139
[23]van der Hilst R D, Karason K, 1999, Compositional heterogeneity in the bottom 1000 km of earth's mantle:Towards a hybrid convection model, Science, 283:1885-1888
[24]Sengor A M C, 1990, Tectonics and orogeny after 25 years-A Tethyan perspective, Earth Science Reuiew, 27:1-201
[25]Wilson J T, 1990, On the building and classification of mountains, Jour Geophys Res, 95(B5):6611-6628
[26]崔盛芹,1999,论全球性中-新生代陆内造山作用与造山带,地学前缘,6(4):283-293
[27]王瑜,1996,中国东部内蒙-燕山造山带晚古生代晚期-中生代的造山作用过程,北京:地质出版社,125-132
[28]Dewey J F. Bird J M, 1970. Mountain belts and the new global tectonics, Jour Geophys Res, 75:2625-2647
[29]张长厚,1999,初论板内造山带,地学前缘,6(4):295-380
[30]宋鸿林,1999,燕山式板内造山带基本特征与动力学探讨,地学前缘,6(4):309-316
[31]李继亮,孙枢,郝杰等,1999,论碰撞造山带的分类,地质科学,34(2):129-140
[32]李继亮,孙枢,郝杰等,1999,碰撞造山带的碰撞事件时限的确定,岩石学报,15(2):315-320
[33]李伍平,1999,钙碱性火山岩构造背景的研究进展,地质科技情报,18(2):15-18
[34]钱青,王焰,1999,不同构造环境中双峰式火山岩的地球化学特征,地质地球化学,27(4):29-32
[35]Leeman W P, Harry D L, 1993, A binary source mldel for extension related magmatism in the Great Basin, Western North America, Sci.,262(3):1550-1554
[36]金振民,高山,1996,底侵作用(underplating)及其壳-幔演化动力学意义,地质科技情报,15(2):1-8
[37]Furlong K P, Fountain D M, 1986, Continental crustal underplating:thermal consideration and seismic-pertrologic consequences, J. Geophys. Res.,91(B8):8285-8294
[38]Fyfe W S, Leonardos O H, 1973, Ancient metamorphic-migmatite belts of the Brazilian African coasts, Nature, 224:501-502
[39]Voshage H, Hofman A W, Mazzucchelli M et al, 1990, Isotopic evidence from the Ivrea zone for a hybrid lower crust formed by magmatic underplating. Nature, 347:731-736
[40]郑建平,李昌年,薛重生等,1996,江西灵山花岗岩中玄武岩包体的成因,地质科技情报,15(1):19-24
[41]樊祺诚,刘若新,1996,汉诺坝玄武岩中高温麻粒岩捕虏体,科学通报,41(3):235-238
[42]高山,金振民,1997,拆沉作用(delamination)及其壳-幔演化动力学意义,地质科技情报,16(1):1-9
[43]陶奎元,1994,火山岩相构造学,南京:江苏科学技术出版社,71~81
[44]李兆鼐,1998,火山岩和火山作用与资源环境关系研究的若干问题,见:世纪之交矿物学岩石学地球化学的回顾与展望,北京:原子能出版社,64~68
[45]赖绍聪,1999,岩浆作用的物理过程研究进展,地球科学进展,14(2):153-164
[46]邓晋福,1989,地幔-岩浆-C-H-O系统——八十年代火成岩研究新进展,地质科技情报,8(4):7-13
[47]欧新功,金淑燕,1999,壳幔混合层的物质过程及其动力学意义,世界地质,18(3):1-6
[48]任纪舜,1984,印支运动及其在中国大地构造演化中的意义,中国地质科学院院报,第9期:31~44
[49]赵越,扬振宇,马醒华,1994,东亚大地构造发展的重大转折,地质科学,29(2):105~119
[50]任纪舜,牛宝贵,和政军,谢广连,刘志刚,1997,中国东部的构造格局和动力演化,见:中国地质科学院地质研究所编,地学研究,29~30,北京:地质出版社,44~55
[51]Otofuji Y, Hayashida A, Torii M, 1985,When was the Japan sea opened?In:Nasu N et al.ed. Formation of Active Ocean Mar gins,ToKyo:TERRPUB.551~566
[52]翁文灏,1927,中国东部中生代以来的地壳运动及火山活动,中国地质学会志,6(1)(英文):9-37
[53]赵宗溥,1959.论燕山运动,地质论评,19(8):339-346
[54]赵宗溥,1963,中国东部的燕山运动,地质科学,3:128-138
[55]鲍亦刚,谢德源,陈正邦等,1983,论北京地区燕山运动,地质学报,2:195-204
[56]崔盛芹,李锦荣,赵越,1985,论中国及邻区滨太平洋带的燕山运动,见:国际交流地质学术论文集(2),北京:地质出版社,221-234
[57]聂宗笙,1985,华北地区的燕山运动,地质学报,4:320-333
[58]董国臣,1996,论燕山地区燕山运动,河北地质学院学报,19(6):660-667
[58]郭令智,施央申,马瑞士,1983,西太平洋中、新生代活动大陆边缘和岛弧构造的形成及演化,地质学报,1:11-21
[59]马杏垣,刘和甫,王维襄,1983,中国东部中、新生代裂陷作用和伸展作用,地质学报,1:22-32
[60]张文佑,张抗,赵永贵等,1983,华北断块区中、新生代地质构造特征及岩石圈动力学模型,地质学报,1:33-40
[61]翁世颉,黄海,1983,中国东南部侏罗——白垩纪板块构造活动与相关的岩浆活动,地质学报,2:119-127
[62]林强,1999,东北亚中生代火山岩研究若干问题的思考,世界地质,18(2):14-22
[63]吴福元,曹林,1999,东北亚地区若干重要基础地质问题,18(2):1-13
[64]郑亚东,Davis G A,王琮等,1998,内蒙古大青山大型逆冲推覆构造,中国科学(D辑),28:289-295
[65]邓晋福,刘厚祥,赵海玲等,1996,燕辽地区燕山期火成岩与造山模型,现代地质,10(2):137~148
[66]李锦轶,1998,中国东北及邻区若干地质构造问题的新认识,地质论评,44(4):339-347
[67]邵济安,牟保磊,何国琦等,1997,华北北部在古亚洲域与古太平洋域构造叠加过程中的地质作用,中国科学(D辑),27(5):390-394
[68]赵越,1990,燕山地区中生代造山运动及构造演化,地质论评,36(1):1-13
[69]陶奎元,毛建仁,邢光福等,1999,中国东部燕山期火山-岩浆大爆发,矿床地质,18(4):316-322
[70]徐正聪,王振民,1983,河北燕山地区地质构造基本特征,中国区域地质,3:39-55
[71]萧宗正,1992,北京地区中生代若干地质问题讨论,北京地质,2:1-7
[72]朱大岗,吴珍汉,崔盛芹,1999,燕山地区中生代岩浆活动特征及其与陆内造山作用关系,地质论评,45(2):163-172
[73]赵海玲,邓晋福,陈发景等,1996,松辽盆地东南缘中生代火山岩及盆地形成的构造背景,地球科学——中国地质大学学报,21(4):421-427
[74]赵海玲,邓晋福,陈发景等,1998,中国东北地区中生代火山岩岩石学特征与盆地形成,现代地质,12 (1):56-62
[75]任纪舜,姜春发,张正坤等,1980,中国大地构造及其演化——1:400万中国大地构造图简要说明,北京:科学出版社,111-112
[76]吴福元,叶茂,张世红,1995,中国满洲里-绥芬河地学断面的地球动力学模型,地球科学——中国地质大学学报,20:535-539
[77]郭占谦,1998,火山活动与沉积盆地的形成和演化,地球科学,23(1):59-64
[78]将国源,权恒,1988,大兴安岭根河-海拉尔盆地中生代火山岩,中国地质科学院沈阳地矿所所刊,17:23-100
[79]朱勤文,路凤香,谢意红等,1997,大陆边缘扩张型火山岩组合——松辽盆地周边中生代火山岩研究,岩石学报,13:551-562
[80]王东方,周世光,陈成林,1985,辽宁中西部中生代火山岩的稀土元素测定、分布模式及其构造意义,地球科学,2:134-141
[81]孙善平,汪洋,李家振等,1995,北京西山中生代火山活动特征及构造环境分析,见:李东旭等著,北京西山地质构造系统分析,北京:地质出版社,65-76
[81]邱家骧,廖群安,1998,北京地区中生代与中生代火山岩的酸度、系列、构造环境及岩浆成因,岩石矿物学杂志,17(2):104-117
[82]何政军,李锦轶,牛宝贵等,1998,燕山——阴山地区晚侏罗世强烈推覆——隆升事件及沉积响应,地质论评,44(4):407-418
[83]陶奎元,1990,环太平洋中国东部大陆边缘构造-岩浆作用的独特性,矿物岩石地球化学通讯,4:239-240
[84]林强,葛文春,孙德有等,1998,中国东北地区中生代火山岩的大地构造意义,地质科学,33:129-139
[85]张履桥,邵济安,郑广瑞,内蒙古甘珠尔庙变质核杂岩,地质科学,33:140-146
[86]鲍亦刚,白志民,葛世炜等,1995,北京燕山期火山地质及火山岩,北京:地质出版社,142-151
[87]吴利仁等,1984,华北及邻区中、新生代火山岩,北京:科学出版社,287
[88]廖群安,邱家骧,1993,北京地区中生代钾玄岩系列-高钾钙碱性系列的识别与成因分析,岩石学报,9(增刊):14-23
[89]李耀松,1988,冀北沽源盆地中生代火山岩的同位素年龄及成因,中国地质科学院南京地质矿产研究所所刊,9(4):47-59
[90]曹丛周,1982,辽西地区侏罗纪火山岩特征,中国地质科学院沈阳地质矿产研究所所刊,3:186-188
[91]钟瑞元,1986,辽宁南部中生代岩浆活动特征,辽宁地质,2:97-111
[92]郭洪中,张招崇,1992,辽宁西部中生代火山岩的某些特征,岩石矿物学杂志,11(3):193-204
[93]陈义贤,陈文寄等著,1997,辽西及邻区中生代火山岩——年代学、地球化学和构造背景,北京:地震出版社,255-279
[94]路凤香,朱勤文,李思田,1997,岩浆岩-研究盆地深部过程的“探针”,见:李思田等著,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,169-196
[95]周新民,徐夕生,董传万等,1994,中国东南活动大陆边缘的矿物标志:钙长石质斜长石,科学通报,39:1011-1014
[96]李武显,周新民,1999,中国东南部晚中生代俯冲带探索,高校地质学报,5:164-168
[97]邓晋福,叶德隆,赵海玲等,1992,下扬子地区火山作用深部过程与盆地形成,武汉:中国地质大学出版社,
[98]任纪舜,陈廷愚,牛宝贵等,1990,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
[99]徐嘉炜,崔可锐,刘庆等,1985,东亚大陆边缘中生代的左行平移断裂作用,海洋地质与第四纪地质,5(2):51-63
[100]张宏仁,1998,燕山事件,地质学报,72(2):103-111
[101]Griffin W L, Zhang A D, O'Reilly S Y. et al., 1998, Phanerozoic evolution of the lithosphere beneath the Sino-Korean craton, In: Flower M, Chung S L, Lo C H, Lee T Y, eds, Mantle dynamics and plate interactions in east Asia, Am. Geophys. Union., Geodyn Series, 100:107-126
[102]Menzies M A, Fan W M, Zhang M, 1993, Palaeozoic and Cenozoic lithoprobe and the loss of>120km of Archean lithosphere, Sino-Korean craton, China, In: Prichard HM, Alabaster T, Harris N B W, Neary C R, eds, Magmatic Processes and Plate Tectonics, Geol. Soc. Spec. Pub., 76: 71-81
[103]Menzie M A, Xu Y G, 1998, Geodynamics of the North China Craton, In: Flower M, Chung S L, Lo C H, Lee TY, eds, Mantle dynamics and plate interactions in east Asia, Am. Geophys. Union., Geodyn Series, 100: 155-165
[104]巽好幸,1997,起源活動史,科学,67(7):480-483
[105]丸山茂德,1997,全地球——新地球観,科学,67(7):498-506
[106]左藤博榭,长谷川 昭,1996,东北日本上部部分熔融域——岛弧上升,火山,41(3):115-125
[107]周藤贤治,牛来正夫,1997,地壳構成物质,日本东京:共立出版株式会社
[108]张伯声,1959,从陕西大地构造单位的划分提出一种有关大地构造发展的看法,西北大学学报(自然科学版),(2):13~32.
[109]徐道一,扬正宗,张勤文等,1983,天文地质学概论,北京:地质出版社,220~224.
[110]刘本培,张世红,1997,侏罗-白垩纪地球圈层演化节律及相互关系,地学前缘,4(3):65-74
[111]史晓颍,1996,35Ma—地质历史上一个重要的自然周期—自然临界的概念及其成因,地球科学,21(3):235~241.
[112]王战,1997,地球演化中最大的两级节律.地学前缘,4(3):95~99
[113]蒋志,1998,地幔脉动与地质现象,见:北京大学主编,北京大学国际地质科学研讨会论文集,北京:地震出版社,39~45
[114]董国润,白宜真,李洪等,1991,张家口盆地火山沉积旋回与演化,河北地质学院学报,14(4):344-350
[115]邓晋福,莫宣学,赵海玲等,1997,岩浆活动旋回与地球多层对流系统,地学前缘,4(3-4):205-210
[116]赵国春,邓晋福,白志达等,1999,多伦地区晚侏罗世火山活动节律研究,地质论评,45(Sup):508-516
[117]邓晋福,莫宣学,赵海玲等,1999,岩石圈/软流圈系统的大灾变与巨型矿集区形成,见:裴荣富,翟裕生,张本仁主编,深部构造作用与成矿,北京:地质出版社,36~44
[118]Gill J B 1981. Orogenic andesites and plate tectonics. Berlin Haidelberg: Springer_Verlag,.90
[119]Barberi F. A, 1975. Transitional basalt-pantellerite sequence of fractional crystallization, the Boina Center(after Rift, Ethiopia.)J Petro, (16):22~56
[120]Condie K T. Plate 1982.Tectonic and Crust Evolution. New York: Pergamon Press Inc
[121]Jackes P, White A J R 1972.Hornblende from calc-alkaline volcanic rocks of island arcs and continental margins .Am Mineral.57:887~902
[122]Dickinson W R, 1975. Potash-depth (k-h) relation continental margin and intraoceanic magmatic arcs. Geology, (3):56-56
[123]奥的拓生,1997,核溶素——上升流新驱动力,科学,67(7):475-477
[124]本多 了,中久喜伴益,岩漱康行,1997,——立埸,科学,67(7):513-518
[125]高桥栄一,中岛勝治,1997,洪水玄武岩起源——新,科学,67(7): 519-529
[126]滕井敏嗣,1997,研究现状喷火予知,火山,42(6):435-444
[127]大谷栄治,九保友明,铃木昭夫,1997,——内部超高压实验,科学,67(7):534-542
[128]牛来正夫,1990,大陆地壳进化论序说,日本东京:共立出版株式会社
[129]陈毓川,赵逊,张之一等编著,2000,世纪之交的地球科学——重大地学领域进展,北京:地质出版社
[130]石耀霖,2001,地幔对流研究的一些新进展,地球科学进展,16(4):496-500
[131]李伍平,路凤香,李献华,2001,北京西山晚侏罗世粗安岩的成因及其地质意义,岩石矿物学杂志,20(3):247-254
[132]许文良,王冬艳,王嗣敏,2000,中国东部中新生代火山作用的Pttc模型与岩石圈演化,长春科技大学学报,30(4):329-335
[133]陈树旺,张立东,郭胜哲等,2001,辽西义县组基性、中基性火山岩内沉凝灰岩的发现及其意义,辽宁地质,18(1):52-57