天山—兴蒙造山带中段内生金属矿床成矿系列及成矿预测
|
摘要
矿床成矿系列是研究成矿作用在四维空间中的规律,探索在地球发展过程中成矿的时、空、物质的演化及其分布规律的科学理论体系。研究矿床成矿系列可以有效地指导找矿预测,促进矿产资源勘查工作的开展。本文选择天山-兴蒙造山带中段南蒙古-二连浩特-东乌旗地区和黄岗-甘珠尔庙地区开展内生金属矿床成矿系列与成矿预测研究。在充分整理和吸收消化前人大量研究成果的基础之上,选择重点矿床进行解剖,辅以岩石学和高精度同位素年代学研究,应用成矿系列理论来认识天山-兴蒙造山带中段多金属矿床的时空分布,以内生金属矿床时空分布样式作为大地构造环境的标志和限定,为天山-兴蒙造山带中段大型多金属矿集区的战略靶区优选提供理论依据。
在详细分析前人研究成果的基础上,提出本区经历了新元古代至晚古生代末古亚洲洋盆形成与闭合阶段、中生代-新生代滨西太平洋大陆边缘板内构造发育阶段。在充分考虑成矿时间的统一性和时序的演化性、区域地质构造演化与区域成矿演化关系基础上,结合地质、地球物理、地球化学、遥感资料,对研究区进行了成矿区带划分,共划分两个成矿区带:北部为南蒙古-二连浩特-东乌旗铜、钼、金、铁、锌、钨、铅、铬成矿带;南部为黄岗-甘珠尔庙锡、钨、铜、铅、锌、铍、银、铁、铌(钽)成矿带。
按照矿床成矿系列的学术指导思想,在二个成矿带内对矿床进行了研究,共划分为四个成矿系列,二个成矿亚系列。
1、南蒙古-二连浩特-东乌旗成矿带划分了三个矿床成矿系列:
Ⅰ、索伦山-贺根山晚泥盆世-早石炭世与洋壳超基性-基性岩(蛇绿岩)有关的岩浆岩型铬、铁矿床成矿系列(Ⅰ);
Ⅱ、南蒙古地区晚泥盆世-早石炭世与中酸性侵入岩有关的铜、钼、金矿床成矿系列(Ⅱ);
Ⅲ、二连浩特-东乌旗地区燕山期与花岗岩有关的铁、锌、铅、铜、金、钨、银矿床成矿系列(Ⅲ);
2、黄岗-甘珠尔庙成矿带划分了一个矿床成矿系列,其中包含二个成矿亚系列:黄岗—甘珠尔庙地区燕山期与酸性—中酸性侵入岩有关的锡、钨、铜、铅、锌、铍、银、铁、铌(钽)矿床成矿系列(Ⅳ),该成矿系列包含二个成矿亚系列,即:①黄岗-甘珠尔庙地区燕山期与酸性侵入岩有关的钨、锡多金属矿床成矿亚系列;②黄岗-甘珠尔庙地区燕山期与中酸性侵入岩有关的铅、锌多金属矿床成矿亚系列。
对研究区内不同成矿系列的典型矿床进行了解剖,详细描述了贺根山铬铁矿床、欧玉陶勒盖铜(金)矿床(蒙古国)、朝不楞矽卡岩型铁多金属矿床、沙麦热液型黑钨矿-石英脉钨矿床、大井锡多金属矿床和白音诺尔铅锌矿床的成矿区域地质构造背景、矿床地质、同位素、微量元素、稀土元素、包裹体测温等内容,论述了矿床之间的差异性和内在联系。根据控矿因素和成矿规律,确立了五个区域成矿模式。
从成矿构造环境、深部流体、壳幔相互作用、地质事件等方面探讨了成矿的控制因素,并分析了矿床时空分布规律。研究认为深部流体的积极参与以及地幔物质不均一性与本区大型矿集区的形成在物质上具有耦合关系。中生代构造-岩浆岩带是矿床的集中分布区。矿床的时间分布规律清楚地表明研究区内矿床集中分布于晚泥盆世-早石炭世和晚中生代二个阶段。其中,晚中生代是最重要的成矿期,这与中国北方中生代140Ma左右的构造体制大转换和120Ma左右的岩石圈减薄过程密切相关。认为370~320Ma成矿事件与洋壳俯冲、削减作用之间的藕合构成了本区第一、第二成矿系列;140Ma左右成矿事件与构造体制大转换之间的藕合构成了本区第四成矿系列;120Ma左右成矿事件与岩石圈减薄过程之间的藕合构成了本区第三成矿系列。
根据我国矿产资源的需求状况和本研究的主攻目标及内蒙古各成矿区带的实际,确定对金、银、铜、铅、锌、锡、钨、钼等进行成矿预测和远景评价。圈定了五个B类成矿预测区,即查干敖包庙铜(银)多金属成矿预测区(V-1)、达来庙铜(银)多金属成矿预测区(V-2)、奥尤特铜(银)多金属成矿预测区(V-3)、查干陶勒盖—朝不楞东银铜多金属成矿预测区(V-4)、黄岗-甘珠尔庙地区钨锡铅锌多金属成矿预测区(V-5)。
将二连浩特-东乌旗一带的成矿地质条件同南蒙古地区进行了对比,认为二连浩特-东乌旗一带具有较好的成矿条件,但在成矿元素组合方面与南蒙古地区似有差异。南蒙古地区主要产出与晚古生代中酸性侵入岩有关的斑岩型铜(金)、铜(钼)矿床,矿床规模较大,成矿元素组合相对简单;而在二连浩特-东乌旗一带,从目前发现的矿床(点)来看,其成矿元素组合较为复杂,成矿时间主要为晚古生代与晚中生代,但以晚中生代矿床规模大、数量多,这可能与该区较南蒙古地区更多地受到滨西太平洋构造-岩浆-成矿事件的强烈叠加有关。因此,在该区开展找矿勘查工作即要看到与南蒙古地区的相似性,又要注意其特殊性。
Metallogenic series study mainly is to reveal the laws of metallogenic processes in the four-dimension space, and deduce the relationship between the earth evolution and the distribution of the material constituting the earth. Such study has greatly improved our recognition of the global geologic laws, besides it also promoted exploration of the mineral resource. This dissertation mainly tries to study Metallogenic Series and Prognosis of Endogenetic Metallic Deposits in the South Mongolia-Erlianhaote-Dongwuqi district and the Huanggang-Ganzhuermiao district in the middle section of Tianshan-Xingmeng orogenic belt. My study based on the previous researches, conducting a detailed analysis on some important deposits where petrological and isotopic dating methods are employed to research the spatial and temporal distribution of the polymetallic deposits in the Tianshan-Xinmeng orogenic belt according to the metallogenic theory. The distribution pattern of various types of endogenic polymetallic deposits was thought as the marker and restriction condition of the variable tectonic setting, which provides a theoretical background to select optimum targeted large-scale polymetallic-intensive deposits in the middle section of the Tianshan-Xingmeng orogenic belt.
The Tianshan-Xingmeng orogenic belt was formed mainly by the opening and closure of the Paleo-Asian Ocean from Neoproterozoic to Later Paleozoic, and then overprinted by the intra-plate structure along the continental margin of the west Circum-Pacific tectonic belt from Mesozoic to Cenozoic. Based on detailed analyses upon the tectonic and metallogenic evolution histories, we found a strong and complicated relationship between the tectonic evolution and metallogenic evolution both in space and time. As the result, we define two metallogenic belts in the area taking into account the geologic, geophysics and geochemistry, and remote sensing data: (1) Cu, Mo, Au, Fe, Zn, W, Pb, Cr metallogenic belt in the South Mongolia-Erlianhaote-Dongwuqi district to the north; and (2)Sn, W, Cu, Pb, Zn, Be, Ag, Fe, Nb(Ta) metallogenic belt in the Huanggang-Ganzhuermiao district to the south.
After summarizing the characteristics of deposits and associated their tectonic setting, totally four metallogenic series and sub-metallogenic series are defined in the two metallogenic belts of the studied area according to the theory of metallogenic series:
1. Three metallogenic series in the South Mongolia-Erlianhaote-Dongwuqi Metallogenic belt are as following:
Ⅰ. The Later Devonian to the Early Carboniferous Magma-type Cr-Fe deposits complex related to ultramafic or mafic rock (ophiolite-type) in the Suolunshan -Hegenshan(Ⅰ).
Ⅱ. The Later Devonian to Early Carboniferous Intermediate-acid granitoids-related Cu-Au-Mo deposits complex in the South Mongolia(Ⅱ).
Ⅲ. The Yanshanian Granitoids-related Fe-Zn-Pb-Cu-Au-W-Ag deposits complex in the Erlianhaote-Dongwuqi district(Ⅲ).
2. One metallogenic series is defined in the Huanggang-Ganzhuermiao Metallogenic belt, including two sub-metallogenic series.
The Yanshanian Acid to intermediate-acid granitoids-related Sn-W-Cu-Pb- Zn-Be-Ag-Fe-Nb(Tb) deposits complex in the Huanggang-Ganzhuermiao district(Ⅳ), which is consisted of a Yanshanian Acid granitoids-related Sn-W deposits complex in the Huanggang-Ganzhuermiao district and a Yanshanian intermediate-acid granitoids-related Pb-Zn deposits complex in the Huanggang-Ganzhuermiao district.
We carried out a detailed analysis of the typical deposits of different metallogenic series, especially the geological settings and ore-bearing structure in the Hegenshan Cr-Fe deposit, Oyu Tolgoi Cu-Au porphyry deposit, Chaobuleng skarn-type Fe polymetallic deposit, Shamai hydrothermal wolframite-quartz-vein W deposit, Dajing Sn polymetallic deposit, and Baiyinnuoer Pb-Zn deposit. Employing various methods of geological analyses such as isotopic geology, geochemistry, and inclusion-thermometric method, we documented the identity and differences of variable deposits.
In the light of ore-control factors and metallogenic rules, Five regional metallogenic models have been established.
From the view point of ore-controlling factors such as ore-bearing structure, mantle fluid, and interaction of crust and mantle, geological events, we have analyzed the spatial and temporal characteristics of ore distribution, concluding that the participation of the mantle fluid, as well as the heterogeneity of mantle-sourced material is strongly coupled in the ore mass-source with the formation of the large-scale deposit-intensive area. The Mesozoic tectono-magmati crock belt is a deposit-riched area. Geo-chronological data clearly demonstrated that the deposits formed mainly in two stages: Later Devonian to Early Carboniferous and Later Mesozoic. The later one is closely related to the Mesozoic tectonic transition event (140Ma) and the lithospheric thinning process (120Ma) in the North China. we consider that the coupling between the metallogenic event from 370Ma to 320Ma and the subduction of oceanic crust formed the first and second metallogenic series, and the coupling between the metallogenic event about in 140Ma and the large transition of tectonic system formed the fourth metallogenic series, and the coupling between the metallogenic event about in 120Ma and the process of lithospheric thinning formed the third metallogenic series in this area.
In order to keeping up the Chinese requirement for mineral resource and the major goal of this study, we predicted and evaluated the prospect of Au, Ag, Cu, Pb, Zn, Sn, W and Mo deposits in the studied area based on the characteristics of the metallogenic belts in inner Mongolia. Total five B-grade potential areas, including Chaganaobaomiao Cu(Ag) polymetallic prospect(Ⅴ-1), Dalaimaio Cu(Ag) polymetallic prospect(Ⅴ-2), Aoyoute Cu(Ag) polymetallic prospect(Ⅴ-3), Chagantaolegai-Chaobuleng Ag-Cu polymetallic prospects(Ⅴ-4), Huanggang-Ganzhuermiao W-Sn, Pb-Zn polymetallic prospect(Ⅴ-5) are defined in the dissertation.
Comparing the ore-froming geological conditions of the Eelianhaote-Dongwuqi area with those of the South Mongolia area, we believe that Erlianhaote-Dongwuqi area is also of advantage for economic ore deposits same as the South Mongolia. But their ore-forming elements assemblage is different. The deposits in the South Mongolia are mainly porphyry-related Cu(Au)-Cu(Mo) deposits hosted in the Later Paleozoic intermediate and acid granitoids with a much larger scale and relatively simple mineral assemblage. On the other hand, the deposits in the Erlianhaote-Dongwuqi area have a very complicated mineral assemblage and they were formed mainly in the Later Paleozoic and Later Mesozoic according to identified deposits and occurrences. The majority of economic deposits were mainly formed in Later Mesozoic, which is very likely related to the strong superimposing events of the west Circum-Pacific tectogenesis–magmatism–metallogenesis upon the eastern segment of the Paleozoic Tianshan-Xinmeng orogenic belt. In conclusion, during our reconnaissance in the Erlianhaote-Dongwuqi area, we should notice the similarities between the Erlianhaote-Dongwuqi and South Mongolia areas. More important, we also should pay more attention to the particularities in the Erlianhaote-Dongwuqi area.
在详细分析前人研究成果的基础上,提出本区经历了新元古代至晚古生代末古亚洲洋盆形成与闭合阶段、中生代-新生代滨西太平洋大陆边缘板内构造发育阶段。在充分考虑成矿时间的统一性和时序的演化性、区域地质构造演化与区域成矿演化关系基础上,结合地质、地球物理、地球化学、遥感资料,对研究区进行了成矿区带划分,共划分两个成矿区带:北部为南蒙古-二连浩特-东乌旗铜、钼、金、铁、锌、钨、铅、铬成矿带;南部为黄岗-甘珠尔庙锡、钨、铜、铅、锌、铍、银、铁、铌(钽)成矿带。
按照矿床成矿系列的学术指导思想,在二个成矿带内对矿床进行了研究,共划分为四个成矿系列,二个成矿亚系列。
1、南蒙古-二连浩特-东乌旗成矿带划分了三个矿床成矿系列:
Ⅰ、索伦山-贺根山晚泥盆世-早石炭世与洋壳超基性-基性岩(蛇绿岩)有关的岩浆岩型铬、铁矿床成矿系列(Ⅰ);
Ⅱ、南蒙古地区晚泥盆世-早石炭世与中酸性侵入岩有关的铜、钼、金矿床成矿系列(Ⅱ);
Ⅲ、二连浩特-东乌旗地区燕山期与花岗岩有关的铁、锌、铅、铜、金、钨、银矿床成矿系列(Ⅲ);
2、黄岗-甘珠尔庙成矿带划分了一个矿床成矿系列,其中包含二个成矿亚系列:黄岗—甘珠尔庙地区燕山期与酸性—中酸性侵入岩有关的锡、钨、铜、铅、锌、铍、银、铁、铌(钽)矿床成矿系列(Ⅳ),该成矿系列包含二个成矿亚系列,即:①黄岗-甘珠尔庙地区燕山期与酸性侵入岩有关的钨、锡多金属矿床成矿亚系列;②黄岗-甘珠尔庙地区燕山期与中酸性侵入岩有关的铅、锌多金属矿床成矿亚系列。
对研究区内不同成矿系列的典型矿床进行了解剖,详细描述了贺根山铬铁矿床、欧玉陶勒盖铜(金)矿床(蒙古国)、朝不楞矽卡岩型铁多金属矿床、沙麦热液型黑钨矿-石英脉钨矿床、大井锡多金属矿床和白音诺尔铅锌矿床的成矿区域地质构造背景、矿床地质、同位素、微量元素、稀土元素、包裹体测温等内容,论述了矿床之间的差异性和内在联系。根据控矿因素和成矿规律,确立了五个区域成矿模式。
从成矿构造环境、深部流体、壳幔相互作用、地质事件等方面探讨了成矿的控制因素,并分析了矿床时空分布规律。研究认为深部流体的积极参与以及地幔物质不均一性与本区大型矿集区的形成在物质上具有耦合关系。中生代构造-岩浆岩带是矿床的集中分布区。矿床的时间分布规律清楚地表明研究区内矿床集中分布于晚泥盆世-早石炭世和晚中生代二个阶段。其中,晚中生代是最重要的成矿期,这与中国北方中生代140Ma左右的构造体制大转换和120Ma左右的岩石圈减薄过程密切相关。认为370~320Ma成矿事件与洋壳俯冲、削减作用之间的藕合构成了本区第一、第二成矿系列;140Ma左右成矿事件与构造体制大转换之间的藕合构成了本区第四成矿系列;120Ma左右成矿事件与岩石圈减薄过程之间的藕合构成了本区第三成矿系列。
根据我国矿产资源的需求状况和本研究的主攻目标及内蒙古各成矿区带的实际,确定对金、银、铜、铅、锌、锡、钨、钼等进行成矿预测和远景评价。圈定了五个B类成矿预测区,即查干敖包庙铜(银)多金属成矿预测区(V-1)、达来庙铜(银)多金属成矿预测区(V-2)、奥尤特铜(银)多金属成矿预测区(V-3)、查干陶勒盖—朝不楞东银铜多金属成矿预测区(V-4)、黄岗-甘珠尔庙地区钨锡铅锌多金属成矿预测区(V-5)。
将二连浩特-东乌旗一带的成矿地质条件同南蒙古地区进行了对比,认为二连浩特-东乌旗一带具有较好的成矿条件,但在成矿元素组合方面与南蒙古地区似有差异。南蒙古地区主要产出与晚古生代中酸性侵入岩有关的斑岩型铜(金)、铜(钼)矿床,矿床规模较大,成矿元素组合相对简单;而在二连浩特-东乌旗一带,从目前发现的矿床(点)来看,其成矿元素组合较为复杂,成矿时间主要为晚古生代与晚中生代,但以晚中生代矿床规模大、数量多,这可能与该区较南蒙古地区更多地受到滨西太平洋构造-岩浆-成矿事件的强烈叠加有关。因此,在该区开展找矿勘查工作即要看到与南蒙古地区的相似性,又要注意其特殊性。
Metallogenic series study mainly is to reveal the laws of metallogenic processes in the four-dimension space, and deduce the relationship between the earth evolution and the distribution of the material constituting the earth. Such study has greatly improved our recognition of the global geologic laws, besides it also promoted exploration of the mineral resource. This dissertation mainly tries to study Metallogenic Series and Prognosis of Endogenetic Metallic Deposits in the South Mongolia-Erlianhaote-Dongwuqi district and the Huanggang-Ganzhuermiao district in the middle section of Tianshan-Xingmeng orogenic belt. My study based on the previous researches, conducting a detailed analysis on some important deposits where petrological and isotopic dating methods are employed to research the spatial and temporal distribution of the polymetallic deposits in the Tianshan-Xinmeng orogenic belt according to the metallogenic theory. The distribution pattern of various types of endogenic polymetallic deposits was thought as the marker and restriction condition of the variable tectonic setting, which provides a theoretical background to select optimum targeted large-scale polymetallic-intensive deposits in the middle section of the Tianshan-Xingmeng orogenic belt.
The Tianshan-Xingmeng orogenic belt was formed mainly by the opening and closure of the Paleo-Asian Ocean from Neoproterozoic to Later Paleozoic, and then overprinted by the intra-plate structure along the continental margin of the west Circum-Pacific tectonic belt from Mesozoic to Cenozoic. Based on detailed analyses upon the tectonic and metallogenic evolution histories, we found a strong and complicated relationship between the tectonic evolution and metallogenic evolution both in space and time. As the result, we define two metallogenic belts in the area taking into account the geologic, geophysics and geochemistry, and remote sensing data: (1) Cu, Mo, Au, Fe, Zn, W, Pb, Cr metallogenic belt in the South Mongolia-Erlianhaote-Dongwuqi district to the north; and (2)Sn, W, Cu, Pb, Zn, Be, Ag, Fe, Nb(Ta) metallogenic belt in the Huanggang-Ganzhuermiao district to the south.
After summarizing the characteristics of deposits and associated their tectonic setting, totally four metallogenic series and sub-metallogenic series are defined in the two metallogenic belts of the studied area according to the theory of metallogenic series:
1. Three metallogenic series in the South Mongolia-Erlianhaote-Dongwuqi Metallogenic belt are as following:
Ⅰ. The Later Devonian to the Early Carboniferous Magma-type Cr-Fe deposits complex related to ultramafic or mafic rock (ophiolite-type) in the Suolunshan -Hegenshan(Ⅰ).
Ⅱ. The Later Devonian to Early Carboniferous Intermediate-acid granitoids-related Cu-Au-Mo deposits complex in the South Mongolia(Ⅱ).
Ⅲ. The Yanshanian Granitoids-related Fe-Zn-Pb-Cu-Au-W-Ag deposits complex in the Erlianhaote-Dongwuqi district(Ⅲ).
2. One metallogenic series is defined in the Huanggang-Ganzhuermiao Metallogenic belt, including two sub-metallogenic series.
The Yanshanian Acid to intermediate-acid granitoids-related Sn-W-Cu-Pb- Zn-Be-Ag-Fe-Nb(Tb) deposits complex in the Huanggang-Ganzhuermiao district(Ⅳ), which is consisted of a Yanshanian Acid granitoids-related Sn-W deposits complex in the Huanggang-Ganzhuermiao district and a Yanshanian intermediate-acid granitoids-related Pb-Zn deposits complex in the Huanggang-Ganzhuermiao district.
We carried out a detailed analysis of the typical deposits of different metallogenic series, especially the geological settings and ore-bearing structure in the Hegenshan Cr-Fe deposit, Oyu Tolgoi Cu-Au porphyry deposit, Chaobuleng skarn-type Fe polymetallic deposit, Shamai hydrothermal wolframite-quartz-vein W deposit, Dajing Sn polymetallic deposit, and Baiyinnuoer Pb-Zn deposit. Employing various methods of geological analyses such as isotopic geology, geochemistry, and inclusion-thermometric method, we documented the identity and differences of variable deposits.
In the light of ore-control factors and metallogenic rules, Five regional metallogenic models have been established.
From the view point of ore-controlling factors such as ore-bearing structure, mantle fluid, and interaction of crust and mantle, geological events, we have analyzed the spatial and temporal characteristics of ore distribution, concluding that the participation of the mantle fluid, as well as the heterogeneity of mantle-sourced material is strongly coupled in the ore mass-source with the formation of the large-scale deposit-intensive area. The Mesozoic tectono-magmati crock belt is a deposit-riched area. Geo-chronological data clearly demonstrated that the deposits formed mainly in two stages: Later Devonian to Early Carboniferous and Later Mesozoic. The later one is closely related to the Mesozoic tectonic transition event (140Ma) and the lithospheric thinning process (120Ma) in the North China. we consider that the coupling between the metallogenic event from 370Ma to 320Ma and the subduction of oceanic crust formed the first and second metallogenic series, and the coupling between the metallogenic event about in 140Ma and the large transition of tectonic system formed the fourth metallogenic series, and the coupling between the metallogenic event about in 120Ma and the process of lithospheric thinning formed the third metallogenic series in this area.
In order to keeping up the Chinese requirement for mineral resource and the major goal of this study, we predicted and evaluated the prospect of Au, Ag, Cu, Pb, Zn, Sn, W and Mo deposits in the studied area based on the characteristics of the metallogenic belts in inner Mongolia. Total five B-grade potential areas, including Chaganaobaomiao Cu(Ag) polymetallic prospect(Ⅴ-1), Dalaimaio Cu(Ag) polymetallic prospect(Ⅴ-2), Aoyoute Cu(Ag) polymetallic prospect(Ⅴ-3), Chagantaolegai-Chaobuleng Ag-Cu polymetallic prospects(Ⅴ-4), Huanggang-Ganzhuermiao W-Sn, Pb-Zn polymetallic prospect(Ⅴ-5) are defined in the dissertation.
Comparing the ore-froming geological conditions of the Eelianhaote-Dongwuqi area with those of the South Mongolia area, we believe that Erlianhaote-Dongwuqi area is also of advantage for economic ore deposits same as the South Mongolia. But their ore-forming elements assemblage is different. The deposits in the South Mongolia are mainly porphyry-related Cu(Au)-Cu(Mo) deposits hosted in the Later Paleozoic intermediate and acid granitoids with a much larger scale and relatively simple mineral assemblage. On the other hand, the deposits in the Erlianhaote-Dongwuqi area have a very complicated mineral assemblage and they were formed mainly in the Later Paleozoic and Later Mesozoic according to identified deposits and occurrences. The majority of economic deposits were mainly formed in Later Mesozoic, which is very likely related to the strong superimposing events of the west Circum-Pacific tectogenesis–magmatism–metallogenesis upon the eastern segment of the Paleozoic Tianshan-Xinmeng orogenic belt. In conclusion, during our reconnaissance in the Erlianhaote-Dongwuqi area, we should notice the similarities between the Erlianhaote-Dongwuqi and South Mongolia areas. More important, we also should pay more attention to the particularities in the Erlianhaote-Dongwuqi area.
引文
1内蒙古自治区成矿远景区划成果摘要汇编,1989 年
2内蒙古自治区地质科技成果汇编,2000 年
3邵和明,张履桥.2001.内蒙古自治区主要成矿区(带)和成矿系列.22-27.
4邵和明,张履桥.2001.内蒙古自治区主要成矿区(带)和成矿系列.22-27.
5 内蒙古自冶区地质矿产局.1995.内蒙古自冶区区域矿产总结.252~268.
7 内蒙古自冶区地质调查院内部资料,2006。
9 内蒙古地质调查院编译.2002.蒙古地质建造图(1:5 000 000).
Badarch G, Cunningham D W, Windley B F. 2002 A new terrane subdivision for Mongolia: implications for the Phanerozoic crustal growth of Central Asia. Journal of Asian Earth Sciences, 21:87~110.
Badarch G, Orolma D. 1998. Overview of the geology and tectonic evolution of southern Mongolia. Mongolian Geoscientist, 10:10~16.
Badarch G. 2005. Tectonics of South Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 119~129.
Bai D, Zhang H L, Kong X R. 1993a. A magnetotelluric study of the Paleozoic collision zone in the east of Inner Mongolia, I: Observations and data analysis, Acta Geophys. Sin., 36:326 ~336.
Bai D, Zhang H L, Kong X R. 1993b. A magnetotelluric study of the Paleozoic collision zone in the east of Inner Mongolia, Ⅱ: Two-dimensional modelling,Acta Geophys.Sin.,36:773~783.
Baker E M, Andrew A S. l99l. Geologic fluid inclusion,and stable isotope studies of the go1d-bearing breccia pipe at Kidston,Queensland,Australia:Economic GeolOgy,86:8l0~830.
Batchelor R A, Bowden P. 1985. Petrogenetic interpretation of granitoid rock series using multicationic parameters. Chem. Geol., 48: 43~55.
Batkhishig B, lizumi S. 2001. Petrographical, petrochemical and geochronological study of the Carbnoniferous Shuteen complex in South Mongolia.Geology, 2:135~145.
Boorder H, Spakman W, White S H et al.1998.Late Cenozoic mineralization,orogenic collapse and slab detachment in the European Alpine Belt, Earth and Planetary Science,letters,164:569~575.
Brown G C. 1982. Calc-alkaline intrusive rocks their diversity, evolution, and relation to volcanic arcs. In: Thorpe R S, ed. Andesites-orogenic andesites and related rocks. New York: John Wiley & Sons, 437~464.
Buslov M M, Yu I, Saphonova T, et al. 2001. Evolution of the Paleo-Asian ocean (Altai-Sayan region, central Asia) and collision of possible Gondwana-derived terranes with the southern marginal part of the Siberian continent, Geosci. J.,5:203~224.
Coleman R G. 1994. Reconstruction of the Paleo-Asian Ocean, VSP Int. Sci. Publ., Utrecht, Netherlands.
Collins W J, Beams S D, White A J B, Chappell B W. 1982. Nature and origin of A-type granites with particular reference to south-eastern Australia[J.] Contrite Mineral Petrol, 80: 189~200.
Cox D P, Singer. 1986. Mineral deposits models. U.S.Geological Survey Bulletin Creaser R A, Papanastassiou D A, Wasserburg G J. 1991. Negative thermal ion mass spectrometry of osmium, rhenium, and iridium. Geochim. Cosmochim. Acta, 55: 397~401.
Cunningham W D. 1998. Lithospheric controls on late Cenozoic construction of the Mongolia Altai. Tectonics, 17: 891~902.
Deines P. 1992. Mantle carbon: concentration, mode of occurrence, and isotopic composition. In:Early Organic Evolution: Implications for Mineral and Energy Resources (eds M Schidlowski et al.), Springer-Verlag, Berlin, 133~146.
Dobretsov N L, Berzin N A, Buslov M M. 1995. Opening and tectonic evolution of the Paleo-Asian ocean, Intern. Geol. Rev., 37:335~360.
Eenjin. 1983. South Mongolian Hercynian eugeosynclinal zone (Dzolen, Mandal-Ovo ridge) in the early Devonian, Geotectonics, 4: 87~98.
Fan W M, Menzies M A.1992. Destruction of lower lithosphere mantle beneath eastern China. Geotectonic et Metallogenia, 16:171~179.
Forster C N, Kirwin D J, Kavalieris I,et al. 2003. Exploration, geology and mineralisation of the Oyu Tolgoi gold copper porphyry deposit, South Gobi, Mongolia. in Baker, T., Cleverly, J., and Fu, B., eds., Magmas, Fluids and porphyry-epithermal deposits. James Cook University Economic Geology Research Unit Contribution, 61: 47~59.
Frey F.A. 1984. Rare earth element aboundances in upper mantle rocks.Rare Earth Element Geochemistry(edited by Henderson,P.),Amsterdam-Oxford-New York-Tokyo.
Gao S, Zhang B R, Jin Z M, et al.1998.How mafic is the lower continental crust? Earth & Planetary Science letters,106:101~117.
Garwin S. 2002. The geology of intrusion-related hydrothermal systems near the Batu Hijau porphyry copper-gold deposit,Sumbawa,Indonesia.in:Goldfarb,R.,and Nielsen,R.,eds.,Integrated Methods for Discovery.Reviews in
Economic Geology,Special Publication,9:333~366. Gerel O.1998.Phanerozoic felsic magmatism and related mineralization in Mongolia. Bulletin of the Geological Survey of Japan, 49:239~248.
Greg Bignal, Bayaraa Batkhishig , Noriyoshi Tsuchiya, Delgertsogt. 2005. The Shuteen Cu-Au poryphyry deposite.CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 193~201.
Han C, Rui Z, Mao J, et al. 2003, Geological characteristics of the Tuwu copper deposit, Hami, Xinjiang. in Mao, Goldfarb, Seltmann, Wang Xiao and Hart (Eds.), 2003 Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan Proceedings Volume of the International Symposium of the IGCP-473 project in. Urumqi and guidebook of the Field Excursion in Xinjiang, China: August 9-21, 2003 IAGOD Guidebook Series 10: CERCAMS/NHM London, 249~260.
Hart S R. 1984. A large-scale isotope anomaly in the southern hemisphere mantle Nature, 309:753~757.
Henry C D. 1988. Chemical and thermal zonation in a mildly alkalin magmas system, Infiernito Coldero, Trans-Pecos Texas. Contrib. Mineral. Petrol. 98:194~211.
Heubeck C. 2001. Assembly of central Asia during the middle and late Paleozoic, in Paleozoic and Mesozoic Tectonic Evolution of Central and Eastern Asia,edited by M. S. Hendrix and G. A. Davis, Mem.Geol. Soc. Am., 194:1~22.
Hithersay E S, Walshe J L. 1995. Endevour 26 north: a porphyry copper-gold deposit in the late Ordovician shoshonite Goonumbla volcanic complex, New South Wales, Australia. Economic geology, .90: 1506~1532.
Hovan M, Gregus J, Moravec R, Delgertsogt B. 1983. Report of results of mapping and exploration survey carried out on property of Shuteen's volcanic-plutonic structure and Hagbayan horst, located in southern Gobi aimag in 1982. Report 3615, Geological Information Center, Mongolian Geological Survey, 136(in Russian).
Hu Huabin, Mao Jingwen, Liu Dunyi, et al. 2005. SHRIMP Zircon U-Pb Dating of the Tongshi Magmatic Complex in Western Shandong and Its Geological Implications. Acta Geologica Sinica,79(4): 491~496.
Imants Kavalieris, Alan Wainwright. 2005. Whole-rock geochemistry of late Devonian island arc and instrusive suites from Oyu Tolgoi,South Gobi,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,170~174.
Ishihara D, Mizuta T, Ishikawa Y, et al. 2001. Geochemical characteristics of igneous rocks and tin-copper mineralization.Project Final Report of Chinese Research Center for Mineral Resources Exploration, 4-115~4-138.
Ishihara.1977.The magnetite-series and ilmenite-series grannitic rocks. Mining Geology,27(5):293~305.
Jahn B M, Wu F, Chen B. 2000. Granitoids of the central Asian orogenic belt and continental growth in the Phanerozoic, Trans. R. Soc. Edinburgh:Earth Sci., 91: 81~93.
Kavalieris I, Bunting K. 2003. Unidirectional solidification textures and associated Cu-Au mineralization in the Tampang Cu-Au poyphyry system,Sabah,Malaysia.
Khramov A N,Ustritsky V I. 1990. Plaeopoition of sourse northern Eurasian tectonic blocks:Paleomagnetic and Paleobiologic constrains.Tectonophysics,184:101~109.and Hish-Sulfidation Cu Mineralization with a Creaiceous Chalcocite Blanket[J].Economic Geology.96:1407~1423.
Kirkham R V, Sinclair W D. 1995. Porphyry copper, gold, molybdenum, tungsten, tin and silver: Geology of Canadian mineral deposit type. Geol. N. Am,1: 421~446
Kirkham R V, Sinclair W D. l988. Comb quartz layers in felsic intrusions and the relationship to porphyry deposits.in Taylor R P and Strong D F, eds.Recent Advances in the Geology of Granite Related Mineral Deposits. Canadian Institute of Mining, 31: 50~71.
Kirwin D J, Forster C N, Kavalieris I, et al. 2005b. The Oyu Tolgol copper-gold porphyry deposits,South Gobi,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,154~168.
Kirwin D J, Seltmann R. 2002. Unidirectional solidification textures associated with intrusion-related gold deposits. Extended Abstracts CD-Rom, 11th Quadrennial IAGOD Symposium and Geocongress, Windhoek, Namibia, 22-26th July 2002.
Kirwin D J, Wilson C C, Turmagnai D, Wolfe R. 2005a. Exploration history,geology,and mineralization of the Kharmagtai gold-copper porphyry district,South Gobi region,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,175~191.
Kirwin D J. 2005c. Unidirectional solidificational textures associated with instrusive-related Mongolian mineral deposites. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,63~84.
Kovalenko V I, Yarmolyuk V V. 1990. Evolution of magmastism in geological structures of Mongolia. In: Zaitsev, N.S., Kovalenko, V.I., (Eds.), Evolution of Geological processes. Moscow, Nauka, 23~54 (in Russian). Kyser T K. 1986. Stable isotope variations in the mantle.In: Valley J W, Taylor H P Jr, O’Neil J R (eds.). Stable Isotopes in High Temperature Geological Processes. Reviews in Mineralogy,16: 141~164.
Lamb M A, Badarch G. 2001. Paleozoic sedimentary basins and volcanic arc systems of southern Mongolia: New geochemical and petrographic constrains. In: Davis, G.A., Hendrix, M.S., 9Eds.), Paleozoic and Mesozoic tectonic evolution of central Aisa- from continental assembly to intracontinental deformation , Geological Society of America Memoir. 194: 117~149.
Lamb M A, Cox D. 1998. New Ar40/Ar39 age data and implications for porphyry copper deposits of Mongolia. Economic Geology, 93: 524~529.
Lickford V, Wilson A J, Harris A C, Cooke D R. 2003. The alkalic Au-Cu porphyry deposits of NSW, Australia: evidence for coexisting melt and hydrothermal fluids in comb quartz layers, in Eliopoulos, D.G., et al., eds., Mineral Exploration and Sustainable Development. Proceedings of the 7th Biennial SGA meeting, Athens, Greece, 24--28 August, 2003, 315~318.
Madera A, Rohrlach B. 1998. Geology and resource potential of the Tampakan copper deposit, southern Mindanao. in 11th Annual Geological Society of the Philippines Convention, Geological Society of the Philippines, Manila, 220~231.
Maniar P D, Piccoli P M. 1989. Tectonic discrimination of granitoids Geol Soc A m Bull, 101: 635~643.
Mao J, Qiu Y, Goldfarb R J, et al. 2002c. Geology, distribution of gold deposits in the western Qinling belt, central China. Mineralium Deposita, 37(3): 352~377.
Mao Jingwen, Kerrich Robert, Li Hongyan, Li Yanhe. 2002a. High 3He/4He ratios in the Wangu gold deposit, Hunan Province, China: implications for mantle fluid along the Tanlu deep fault zone. Geochemical Journal, 36(3), 197~208.
Mao Jingwen, Li Yinqing, Goldfrab Richard, He Ying, et al. 2003. Fluid inclusions noble gas studies of the Dongping gold deposit, Heibei Province, China: A mantle connection for mineralization. Economic Geology, 98: 517~534
Mao Jingwen, Wang Yitian, Ding Tiping, et al..2002b. Dashuigou Tellurium Deposit in Sichuan Province, China – An Example of Mantle Fluid Evolving in Mineralized Process: Evidences from C, O, H, S Isotopes. Resource Geology, 52(1):15~23.
Menzies M A, Fan W M, Zhang M.1993. Pleozoic and Cenozoic lithoprobes and the loss of>120km of Archean lithosphere, Sino-Korean craton,China. In: Prichard H M et al. ed. Magmatic Process and plate Tectonic. Geological Society Special Publication,76:71~81.
Merrihue C, Turner G. 1962. Potassium-argon dating by activation with fast neutrons. J. Geophys.Res., 71: 2852~2857.
Mitchell A H G, Garson M.S. 1981. Mineral deposits and global tectonic settings. Academic Press, London. Mossakovsky A A, Ruzhentsov S V, Samygin S G, Kheraskova T N. 1994. Central Asian foldbelt: Geodynamic evolution and formation history, Geotectonics, 27: 445~473.
Ochir Gerel, Sambuu Oyuugerel, Chuluun Minjin. 2005. Instrusive Magmatism of South Mongolia. CERCAMS: Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 131~148.
Ohmoto H.1986. Stable isotope geochemistry of ore deposit. In: stable isotope in high temperature geological processes. Valley J W, Taylor H P, Neil J R O, eds. Bookcrafters, Inc., Chelsea, Michigan,491~559.
Perello J, Cox D, Garamjav D, et al. 2001. Oyu Tolgoi, Mongolia: Siluro - Devonian porphyry Cu-Au-(Mo) and high sulphidation Cu mineralization with a Cretaceous chalcocite blanket. Economic Geology, 96: 1407~1428.
Plyusnin.1980.Strontium isotopes in the rocks of the ophiolite complex in the Khan-Tayshiri Range(West Mongolia), Internat. Rew.,22(8).
Ren Jishun, Niu Baogui, Lin Zhigang. 1996. Microcontinents,soft collision and polycyclic suturing. Continental Dynamics,1(1):1~9.
Ren Jishun. 1991. Microcontinents, soft-collision and polycyclic suturing-Dynamic characteristics of the tectonic evolution of continental Southeast Asia. In: Ren Jishun and Xie Guanglian(eds.),Proceeding of the First International Symposium on Gondwana Dispersion and Asian Accretion-Geological Evolution of Eastern Tethys,1991,Kunming,China, 216~218.
Ruzhentsev S V, Pospelov I I. 1992. The South Mongolian Variscan fold system. Geotectonics. 30(5):383~395. Ruzhentsev S V. 1985. Geology of Gobi Tienshan and aspects of the south Mongolian ocean: Izvestiya VUZ, geology I razvedka. 6: 12~19 (in Russian).
Sawkins F J. 1984. Metal deposits in relation to plate tectonics. Springer-Verlag, Berlin, Heidelberg, New York, Tokyo, 1~325
Seltmann R, Muller A. 2003. From mantled feldspars to snowball quartzes: petrogenesis of the Eastern Erzgebrige granite pluton.in Tapani,r.,ed.,Granitic Systems-State of the Art and Future Avenues.IGCP-426 Symposium in honor of Professor Ilmari Haapala.University of Helsinki,12-14 January, 96~99.
?engo?r A MC,Natalin B A. 1996. Paleotectonics of Asia:Fragments of a synthesis.In The tectonic evolution of Asia, ed A Yin, TM Harrison,Cambridge University Press,New York, 486~640.
Shannon J R, Walker B M, Carten R B, et al. 1982. Unidirectional solidification textures and their significance in determining relative ages of intrusion at the Henderson Mine, Colorado, Geology, 10: 293~297.
Shao Ji’an, Zhai Mingguo,Li Daming.2004.Identification of five steges of dike swarms in the Shanxi-Hebei-Inner Mongolia border area and its implication. Acta Geologica Sinca,78(1):320~330.
Shaoji'an. 1989. Continental crust accretion and tectonic magmatic activity at the northern margin of the Sino-Korean Plate.Journal of Southeast Asian Earth Scicnces, 3(l-4): 57~62.
Sheehan M P. 2003. Oyu Tolgoi PIMA study.Report to Ivanhoe Mines Limited(Unpublished). Shirey S B, Walker R J. 1995. Carius tube digestion for low-blank rhenium- osmium analysis. Anal. Chem., 67: 2136~2141.
Sinclair D W, Kooiman J A, Martin D A. 1988. Geological setting of granites and related tin deposits in the North zone, Mt. Pleasant, New Brunswick. Current Research, Part B, Geological Survey of Canada, Paper 88-1B, 201~208.
Song Y, Frey F A. 1989. Geochemistry of prridotite xenoliths in basalt of Hannuoba,Eastern China:Implications for the subcontinental mantle heterogeneity.Geochi.et Cosmochi.Acta, 53: 97~113.
Stein H J. 2003. Re-Os data and ages for molybdenites from Mongolia and China. Report to ivanhoe Mines Limited (unpublished).
Suzuki K, Lu Q, Shimizu H, et al.1993. Reliable Re-Os age for molybdenite. Geochim. Cosmochim. Acta, 57: 1625~1628.
Tang K, Yan Z. 1993. Regional metamorphism and tectonic evolution of the Inner Mongolian suture zone.J. Metamorph. Geol., 11:511~522.
Tsuchiya N, Kanisawa S. 1994. Early Cretaceous Sr-rich silicic magmatism by slab melting in Kitakami Mountains,Northeast Japan.J.Geophys.Res,99.B11,22.205~22.220.
Voznesenskaya T A, Ruzhentsev S V, Badarch G. 1986. The Middle Paleozoic basaltoids of Transaltai zone of Mongolia: Izvestiya Academy Nauk SSSR, geology series 9, 37~52(in Russian).
Wang Xibin, Hao Ziguo. 1994. Time-space distribution and tectonic types of ophiolites in China.Proc.29th Iner.Geol.Conger.,Part D(Ed. By Ishiwatari),VSP, 183~204.
Watanabe Y, Stein H. 2000. Re-Os ages for the Erdenet and Tsagaan Suvurga porphyry Cu-Mo deposits, Mongolia, and tectonic implications. Economic Geology, 95: 1537~1542.
Wilson J T. 1968. Static and mobile earth: The current scientific revolution in the earth. Proc. Am Phil. Soc. 112:309~320
Xiao W J, Brian F W, Jie H, Mingguo Z. 2003. Accretion leading to collision and the Permian Solonkersuture, Inner Mongolia, China:Termination of the central Asian orogenic belt.Tectonics,22(6):1~21.
Zartman R E, Doe B R. 1981. Plumbotectonics-the model Tectonophysics, 75:135~162.
Zhang Y, Zhang Q,Wang Y. 1996. Great Jurassic thrust sheets in Beishan(North Mountains)-Gobi areas of China and southern Mongolia. Journal of Structural Geology, 18(9): 1111~1126.
Zhang Yunping, Tang.Kedong. 1989. Pre-Jurassic tectonic evolution of intercontinental region and the suture zone between the North China and Siberian Platforms.Journal of Southeast Asian Earth Sciences,3(l-4):47~55.
Zhang Z W, Zhu B Q, Cai K Q, et al. 2000. Lead isotopic steep dipping zone and mineralization-An example from mineral deposits contracted area in East Qinling China.J China Univ Geosci, 11(l): 287~294.
Zhao X X, Coe R S, Zhou Y X, et al. 1990. New Paleomagnetic results from North China:Collision and suturing with Siberia and Kazakstan.Tectonopysics, 181:43~81.
Zhu B Q, Chang S Y, Wang H F. 1996. The geochemical boundary between South China and Yangtze blocks and its constraintion the formation of super large deposits.Science in China(D),39(l): 58~65.
Zhu B Q, Chang X Y, Qin H N, et al. 1998. Characteristics of proterozoic basements on the geochemical steep zones in the contiment of China and their implications for setting of super large deposits.Science in China(D),41(Supp): 54~64.
Zhu B Q, Li X H, Liu B L. 1990. Three-component mixing and four system recycling models for explaining Nd-Sr-Pb istopic correlation of suboceanic and subcontinental mantles. Science in China(B),33: 757~768.
Zhu B Q. 1994. Geochemical evidence for the Southern China block being apart of Gondwana.J S Asian Earth Sci,9:319~324.
Zhu B Q. 1995. The mapping of geochemical provinces in China based on Pb isotopes,J Geochem Exploration,55:171~181.
Zonenshain L P, Kuzmin M I, Natapov M L. 1990. Geology of the USSR: A Plate Tectonic Synthesis. Geodyn. Ser., 21: 242., AGU, Washington,D. C.
Zonenshain L P, Suentenko O D, Jamyandamba L, Eenjin G. 1975. Structure of the axial part of South Mongolian eugeosyncline in the Dzolen Range. Geotectonics, 4: 28~44.
Zonenshain L P. 1973. The evolution of central Asian geosynclines through sea-floor spreading.Tectonophysics,19: 213~232.
艾永富,刘国平.1998.内蒙古大井矿床的绿泥石研究.北京大学学报(自然科学版),1998,34(1):97~105.
白登海,张丽,孔祥儒,等.1993b.内蒙古东部古生代块体碰撞区的大地电磁测深研究.地球物理学报,36(3):326~336.
白登海,张丽,孔祥儒.1993a.内蒙古东部古生代块体碰撞区的大地电磁测深研究.地球物理学报,36(6):773~783.
白文吉,周美付,杨经绥,胡旭峰.1995.内蒙古贺根山蛇绿岩岩石成因和地壳增生的地球化学制约.岩石学报,11(增刊),112~124.
包志伟,陈森煌,张祯堂.1994.内蒙古贺根山地区蛇绿岩稀土元素和Sm-Nd同位素研究.地球化学,23(4):339~349.
鲍佩声,王希斌,彭根永,陈方远.1999.中国铬铁矿床.北京:科学出版社.143~355.
鲍佩声,王希斌.2004.富铝型豆荚状铬铁矿床的成矿模式.地球学报,18(1):25~39.
曹从周,杨芳林,田昌裂,等.1986.内蒙古贺根山地区蛇绿岩及中朝板块和西伯利亚板块之间的缝合带位置.见:中国北方板块构造论文集(l).北京:地质出版社,64~83.
曹荣龙, 朱华寿.1995.地幔流体与成矿作用. 地球科学进展, 10(4), 324~329.
车自成,刘良,罗金海.2002.中国及邻区区域大地构造学.北京:科学出版社,1~314.
陈德潜,赵平,魏振国.1995.论小坝梁铜矿床的海底火山热液成因.地球学报,2:190~203.
陈江峰, 谢智, 刘顺生, 李学明, K.A.Folan, 1995. 大别造山带冷却年龄的 40Ar-39Ar 和裂变径迹年龄测定. 中国科学(B 辑), 25(10): 1086~1092.
陈崎,孟良义,杜玉申.1994.华北陆块北缘及邻区有色金属矿床地质.北京:地质出版社,200~238.
陈毓川, 薛春纪, 王登红, 李华芹, 路远发. 2003. 华北陆块北缘区域矿床成矿谱系探讨. 高校地质学报, 9(4): 520~535
陈毓川, 朱裕生. 1991.中国矿床成矿模式. 北京: 地质出版社, 1~367.
陈毓川,毛景文.1995.桂北地区矿床成矿系列和成矿历史演化轨迹.广西:广西科学技术出版社.
陈毓川. 1994a. 矿床的成矿系列. 地学前缘, 1(4):90~94
陈毓川.1997.矿床的成矿系列研究现状与趋势.地质与勘探,33(1):21~25.
陈毓川.1999.中国主要成矿区带矿产资源远景评价.北京:地质出版社,119~246.
陈毓川.王平安等.1994b.秦岭地区主要金属矿床成矿系列的划分及区域成矿规律探讨.矿床地质,13(4).
陈振胜,张理刚.1989.一个典型大气降水热液矿床-内蒙古白乃庙铜矿成因的稳定同位素证据.桂林冶金地质学院学报,9(1).
程裕淇, 陈毓川, 赵一鸣. 1979. 初论矿床的成矿系列问题. 中国地质科学院院报, 第 1 号, 1~55
程裕淇,陈毓川,赵一鸣,宋天锐.1983.再论矿床的成矿系列问题.中国地质科学院院报,第 6 号.
池际尚,路凤香.1996.华北地台金伯利岩及古生代岩石圈地幔特征.北京:科学出版社,1~292.
储雪蕾,霍卫国,张巽. 2002.内蒙古林西县大井铜多金属矿床的硫、碳和铅同位素及成矿物质来源.岩石学报,18(4):566~574.
邓晋福,罗照华,苏尚国,等. 2004. 岩石成因、构造环境与成矿作用.北京:地质出版社,85~122.
邓晋福,赵海玲,莫宣学.1996.中国大陆根-柱构造:大陆动力学的钥匙.北京:地质出版社,1~110.
董长海,乔兰.1987.大兴安岭南段黄岗梁-大井地区花岗岩类侵入体成因及含锡岩体判别.华北有色金属地质,1(17): 2~12.
杜安道, 何红蓼, 殷宁万, 等. 1994. 辉钼矿的铼-锇同位素地质年龄测定方法研究. 地质学报, 68(4): 339~347.
杜安道, 赵敦敏, 王淑贤, 等. 2001. Carius 管溶样和负离子热表面电离质谱准确测定辉钼矿铼-锇同位素地质年龄. 岩矿测试, 20(4) : 247~252.
杜乐天. 1988. 幔汁 H-A-C-O-N-S 流体. 大地构造与成矿学, 12(1), 87~94.
杜乐天. 1989. 幔汁(HACONS 流体)的重大意义. 大地构造与成矿学, 13(1), 91~99.
杜乐天. 1990. 幔汁(HACONS)假说. 矿物岩石地球化学通讯, (1):39~42
杜乐天 1986b. 碱交代作用的地球化学原理. 中国科学(B), 81~90.
杜乐天 1996a. 地壳流体与地幔流体间的关系. 地学前缘, 172~180
杜琦.1988. 多宝山斑岩铜矿床. 北京:地质出版社.
范书义,毛华人,张晓东,等. 1997.大兴安岭中段二叠系地球化学特征及其成矿意义.中国区域地质,16(1):89~97.
冯建忠,艾霞,吴俞斌,等.1994.内蒙大井多金属矿床稳定同位素地球化学特征.吉林地质,13(3):60~66.
高星,王卫民,姚振兴.2005.中国及邻近地区地壳结构[J].地球物理学报,48(3):592~601.
耿元生, 杨崇辉, 宋彪, 万渝生.2004.吕梁地区 18 亿年的后造山花岗岩:同位素年代和地球化学制约.高校地质学报,10(4): 477~487
韩春明,毛景文,杨建民,王志良.2002.东天山晚古生代内生金属矿床成矿系列和成矿规律.地质与勘探,38(5):5~10.
郝立波,段国正, 李殿超,等. 1999.大兴安岭锡多金属成矿带花岗岩地球化学特征.世界地质,18(2):66~72.
何国琦,李茂松.1996.兴蒙一北疆及邻区古生代蛇绿岩的对比研究及其大地构造意义.蛇绿岩与地球动力学研究.北京:地质出版社,104~107.
何红蓼, 杜安道, 邹晓秋, 等. 1993. 铼-锇同位素的等离子体质谱测定及其在辉钼矿测年中的应用. 岩矿测试, 12(3): 161~165.
洪大卫,黄怀曾,肖宜君,等.1994. 内蒙古中部二叠纪碱性花岗岩及其地球动力学意义. 地质学报,68(3):219~230
洪大卫,王式洸,谢锡林,等.2000. 兴蒙造山带正ε(Nd,t)值花岗岩的成因和大陆地壳增长. 地学前缘,7(2):441~456.
洪大卫,王试光,谢锡林,等.2003.试析地幔来源物质成矿域.矿床地质,22(1):41~55.
胡朋.2004.内蒙古沙麦钨矿床地质与地球化学初步研究.西北大学硕士论文,1~72.
胡文宣, 孙睿, 张文兰. 2001. 金矿成矿流体的特点及深-浅部流体相互作用成矿机制. 地学前缘, 8(4), 281~288
胡骁,许传诗,牛树根.1991.华北地台北缘早古生代大陆边缘演化.北京:北京大学出版社.
胡骁.1988.华北地台北侧古生代大陆边缘构造演化及其成矿作用,河北地质学院学报,11(1).
胡晓,牛树银.1986.内蒙古温都尔庙地区早古生代板块俯冲带的研究.中国北方板块构造论文集,第1集.北京:地质出版社,87~101.
黄本宏.1983.天山-兴安褶皱区东部古生代未植物地理区系及其地质意义.中国北方板块构造文集.沈阳:中国地质科学院沈阳地质研究所,1:186~208.
黄典豪,丁孝石,吴澄宇,张长江.1992.蔡家营铅-锌-银矿床.北京:地质出版社,15~17.
黄典豪,杜安道,吴澄宇,等. 1996.华北地台钼(铜)矿床成矿年代学研究[J].矿床地质, 15(4):365~373.
黄汲清,任纪舜,姜春发.1977.中国大地构造基本轮廓.地质学报,2:117~135.
黄汲清.1960.中国地质构造特征的初步总结.地质学报,40(l):l~37.
李东旭,吴淦国.1987.内蒙古白乃庙铜矿区叠生成矿构造地球化学研究.地质学报,61(1).
李红艳, 毛景文, 孙亚莉等. 1996.柿竹园钨多金属矿床的 Re-Os 同位素等时线年龄研究. 地质论评, 42(3): 261~267.
李锦轶.1986.内蒙古东部中朝板块与西伯利亚板块之间古缝合带的初步研究.科学通报,14:1093~1096.
李锦轶.2001.中朝地块与杨子地块碰撞的时限与方式――长江中下游地区震量纪-侏罗纪沉积环境的演变.地质学报,75(1):25~34.
李三忠, 刘建忠, 赵国春, 吴福元, 韩宗珠, 杨中柱.2004. 华北板块东部地块中生代变形的关键时限及其对
构造的制约—以胶辽地区为例.岩石学报, 20(3)633~646.
李署光,李惠民,陈移之,等.1997.大别山苏鲁地区超高压变质年代学――Ⅱ锆石 U-Pb 同位素体系.中国科学(D辑),27:310~322.
李述清,张维杰,耿明山,等.1998.蒙古弧地质构造特征及形成演化概论.北京:地质出版社,1~7.
李双林,欧阳自远.1998.兴蒙造山带及邻区的构造格局与构造演化.海洋地质与第四纪地质,18(3):45~54.
李四光.1999.地质力学概论(第二版).北京:地质出版社,1~228.
李英,祁思敬,马国良,等. 1999.中国北方超大型热水沉积硫化物矿床基本特征及形成条件研究.西安工程学院学报, 21(4):19~24.
李永峰, 毛景文, 白凤军, 李俊平, 和志军. 2003. 东秦岭南泥湖钼矿 Re-Os 同位素年龄及其地质意义.地质论评, 49(6): 652~659
李永峰, 毛景文, 胡华斌, 白凤军, 李厚民, 李蒙文, 郭保健, 叶会寿. 2005. 豫西公峪金矿床流体包裹体及其 He、Ar、S、H、O 同位素组成对成矿流体来源的示踪. 岩石学报, 1347~1358
李兆龙.1988.内蒙古中部层控多金属矿床硫、铅、碳、氧同素组成及矿床成因.地球化学,(1).
李忠,刘少峰,张金芳,王清晨.2003.燕山典型盆地充填序列及迁移特征:对中国东部构造转折的响应.中国科学(D 辑),33(10):931~940.
林方成. 2005.扬子地台西缘大渡河谷超大型层状铅锌矿床地质地球化学特征及成因.,79(4):540~558.
刘大文,谢学锦,严光生,连长云.2002.地球化学块体的方法技术在山东金资源潜力预测中的应用.地球学报,23(2):169~174.
刘敦一. 2002. SHRIMP 技术及其在中国的首次登陆. 地质通报, 21(1).
刘家义.1983.内蒙古贺根山地区蛇绿岩套研究及构造意义.中国北方板块构造文集,第一集.北京:地质出版社.
刘建明,张锐,张庆洲.2004.大兴安岭地区的区域成矿特征.地学前缘(中国地质大学,北京),11(1);269~277.
刘伟,邓军,储雪蕾.2000. 华北北部大型-超大型矿床的特征及其形成的宏观地质背景. 地球物理学进 展,15(2):67~78.
刘伟,李新俊,谭骏.2002.内蒙古大井铜-锡-银-铅-锌矿床的流体混合作用——流体包裹体和稳定同位素证据.中国科学(D 辑),32(5):405~414.
刘永高,谭佐山,刘书金. 1999.内蒙古东部的上二叠统林西组.内蒙古地质,2:21~26.
刘勇胜, 袁洪林, 高山, 胡兆初, 王选策, 柳小明, 凌文黎.2004.汉诺坝橄榄辉石岩包体锆石 U-Pb 年龄:97~158 Ma 岩浆底侵作用和麻粒岩相变质作用之间的成因联系.科学通报,49(8): 790~797
卢欣祥, 尉向东, 董有, 于在平, 常秋玲,等. 2004a. 小秦岭-熊耳山地区金矿特征与地幔流体. 北京:地质出版社, 102~119
卢欣祥, 尉向东, 董有,等. 2004b. 小秦岭-熊耳山地区金矿特征与地幔流体. 北京: 地质出版社, 1~123
卢欣祥, 尉向东, 肖庆辉, 张宗清, 李惠民, 王 卫. 1999. 秦岭环斑花岗岩的年代学研究及其意义.高校地质学报,5(4):372~377
吕庆田, 侯增谦, 杨竹森, 史大年. 2004. 长江中下游地区的底侵作用及动力学演化模式:来自地球物理资料的约束. 中国科学(D 辑), 34(9): 783~794
吕庆田, 侯增谦, 赵金花, 史大年, 吴宣志, 常印佛, 裴荣富, 黄东定, 匡朝阳. 2003. 深地震反射剖面揭示的铜陵矿集区复杂地壳结构形态. 中国科学(D 辑), 33(5): 442~449
马鸿文. 1990. 西藏玉龙斑岩铜矿带花岗岩类与成矿. 武汉:中国地质大学出版社.
毛景文, 杜安道, 张光第, 等. 2001b. 贵州黄家湾钼镍矿地质、地球化学和 Re-Os 同位素测年. 地质学报,75(2):234~243.
毛景文, 杜安道. 2001a. 广西宝坛地区铜镍硫化物矿石 982Ma 铼-锇同位素年龄及其地质意义. 中国科学(D辑),(12):992~998.
毛景文, 李荫清. 2001c. 河北省东坪碲化物金矿床流体包裹体研究:地幔流体与成矿关系. 矿床地质,20(1):23~36.
毛景文, 王志良. 2000. 中国东部大规模成矿时限及其动力学背景的初步探讨. 矿床地质, 19(4): 289~296
毛景文, 张作衡, 余金杰,等. 2003a. 华北及邻区中生代大规模成矿的地球动力学背景: 从金属矿床年龄精测得到启示. 中国科学(D 辑), 33(4): 289~299.
毛景文,李晓峰,李厚民,等.2005a. 中国造山带内生金属矿床类型、特点和成矿过程探讨. 地质学报,79(3),342~372.
毛景文,李晓峰,王义天,等.2005b,深部流体成矿系统. 中国大地出版社,北京:1~365.
毛景文,谢桂青,李晓峰,等.2005c.大陆动力学演化与成矿研究:历史与现状.矿床地质,24(3):193~205.
毛景文,谢桂青,张作衡,等.2005d.中国北方中生代大规模成矿作用的期次及其地球动力学背景.岩石学报,21(1):169~188.
毛景文,杨建民,韩春明,王志良.2002.东天山铜金多金属矿床成矿系统和成矿地球动力学模型.地球科学-中国地质大学学报,27(4):413~424.
毛景文,张作衡,余金杰, 等. 2003b. 华北中生代大规模成矿的地球动力学背景:从金属矿床年龄精测得到启示. 中国科学(D 辑), 33(4): 289~299.
内蒙古自冶区地质矿产局.1991.内蒙古自冶区区域地质志.北京:地质出版社.1~350.
内蒙古自冶区地质矿产局.1996.内蒙古自冶区岩石地层.武汉:中国地质出版社,15~51.
内蒙古自冶区国土资源厅.2002.内蒙古自冶矿产资源总体规划.
内蒙古自治区第三地质大队.1988.白音诺铅锌矿床研究初步总结.河北地质情报,3.
聂凤军,江思宏,白大明,等.2002.北山地区金属矿床成矿规律及找矿方向.北京:地质出版社,103~134.
聂凤军,江思宏,张义,刘妍,等.2004.中蒙边境及邻区斑岩型铜矿床地质特征及成因.矿床地质.23(2):176~189.
聂凤军,裴荣富,吴良士,Arne Bjфrlykke.1994.内蒙古温都尔庙群变质火山-沉积岩钐-钕同位素研究.科学通报,39(13):1212~1214.
聂凤军,裴荣富,吴良士,张洪涛.1993.内蒙古白乃庙地区岩浆活动与金属成矿作用.北京:北京科学技术出版社,1~241.
聂凤军,裴荣富,吴良士.1995.内蒙古白乃庙地区绿片岩和花岗闪长斑岩的钕和鳃同位素研究.地球学报,1:36~44.
聂凤军,张洪涛,孙浩,樊建廷.1989a.内蒙古哈达庙金矿床地质特征及找矿探讨.矿床地质,8(2):51~60.
聂凤军,张洪涛.1989b.内蒙古哈达庙含金侵入杂岩体的基本特征及岩体成因探讨.地质论评,35(4):297~306.
牛宝贵,和政军,宋彪,等.2003.张家口群火山岩 SHRIMP 定年及其地质意义.地质通报,22(2):140~141.
裴荣富,吕凤翔,范继璋,方如恒,等.1998a.华北地块北缘及其北测金属矿床成矿系列与勘查.北京:地质出版社.1~150.
裴荣富,熊群尧.1999.中国特大型金属矿床成矿偏在性与成矿构造聚敛(场).矿床地质.18(1):37~46.
裴荣富. 1995. 中国矿床模式. 北京: 地质出版社, 1~120
裴荣富.1997.金属成矿省演化与大型矿床.矿床地质,16(2):169~170.
裴荣富.1998b.特大型矿床成矿偏在性研究-成矿物质巨量堆积动力学系统.中国学术期刊,1~2.
祁思敏,徐钰,胡晓,丁溥权.1982 内蒙温都尔庙地区铁矿的层性质和火山沉积环境.河北地质学院学报,5(2).
齐金忠, 李莉, 袁士松, 等.2005. 甘肃省阳山金矿床石英脉中锆石 SHRIMP U~Pb 年代学研究.矿床地质. 24(2):141~150
齐金忠, 马占荣, 李 莉. 2004. 河南祁雨沟金矿床成矿流体演化特征. 黄金地质,10(4): 1~10
秦克章,方同辉,王书来,等.2001.吐哈盆地南缘古生代“天窗”卡拉塔格铜金矿化区的发现及其成矿潜力.中国地质,28(3):16~23.
邱检生,McInnes B I A,徐夕生等.2004.赣南大吉山五里亭岩体的锆石 ELA-ICP-MS 定年及其与钨成矿关系的新认识. 地质论评,50(2):125~133.
曲丽莉,王莉娟,王玉往.华北克拉通北部内、外缘中生代流体成矿作用研究-以大井、蔡家营典型矿床为例.矿产与地质,193~198.
权恒.1983.内蒙东部黄岗地区花岗岩类及锡矿[J].沈阳地质矿产研究所所刊,6:95~110.
任秉琛,杨兴科,李文明,等.2001.土屋超大型斑岩铜矿成矿地质特征与矿床对比.东大山铜多金属矿床成矿过程和成矿动力学及找矿预测新技术新方法会议,99~102.
任纪舜,陈廷愚,牛宝贵,等.1992.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,1~203.
任纪舜,陈廷愚,牛宝贵等.1990.中国东部及邻区岩石圈的构造演化与成矿.北京:科学出版社.
任纪舜,王作勋,陈炳蔚,等.1999.从全球看中国大地构造[M].北京:地质出版社,1~50.
任纪舜.1984.中国东部地质构造单元划分的几个问题.地质论评,30(4).
任纪舜.1991.论中国大陆岩石圈构造的基本特征.中国区域地质,4:289~293.
任收麦,黄宝春.2002.晚古生代以来古亚洲洋构造域主要块体运动学特征初探.地球物理学进展,17(1):113~120.
任耀武. 1994 大兴安岭中南段铜多金属矿床的重要矿源层.华北地质矿产杂志,9(3):313~316.
芮宗瑶,刘玉琳,王龙生,等.2002c.新疆东天山斑岩铜矿带及其大地构造格局.地质学报,76(1):83~94.
芮宗瑶,施林道,方如恒,等.1994.华北陆块北缘及邻区有色金属矿床地质.北京:地质出版社.
芮宗瑶,王福同,李恒海,等.2001.新疆东天山斑岩铜矿带的新进展.中国地质,28(2):11~16.
芮宗瑶.2000.西北、华北、东北斑岩铜矿床研究.见涂光炽等著中国超大型矿床.北京:科学出版社,397~425.
芮宗瑶等.2002b.国内外斑岩型铜矿研究新进展.北京:中国地质调查局,1~44.
邵和明,张履桥. 2001.内蒙古自治区主要成矿区(带)和成矿系列.1~243.
邵济安,洪大卫,张履桥. 2002.内蒙古火成岩 Sr-Nd 同位素特征及成因. 地质通报. 21(12):817~822.
邵济安,唐克东.1996.蛇绿岩与古蒙古洋的演化.蛇绿岩与地球动力学研究.北京:地质出版社,117~120.
邵济安,张履桥,牟保垒,等.1998.大兴安岭中南段中生代的构造热演化.中国科学(D 辑),28(3):193~200.
邵济安,张履桥.1999.大兴安岭中生代伸展造山过程中的岩浆作用.地学前缘(中国地质大学,北京),6(4):339~346.
邵济安,张履桥.2002b.华北北部中生代岩墙群.岩石学报,18(3):312~318.
邵济安.1986.内蒙古中部早古生代的蛇绿岩及其在恢复地壳演化历史中的意义.中国板块构造论文集,第1集.北京:地质出版社,158~172.
邵济安.1991.中朝板块北缘中段地壳演化.北京:北京大学出版社,1~135.
沈存利,苏宏伟,王守光.2004.内蒙古铜矿床区域成矿特征初步研究.西北地质.37(3):44~50.
沈谓洲,凌洪飞,李武显,等.1999.中国东南部花岗岩类Nd-Sr同位素研究. 高校地质学报,5(1):22~32.
沈渭洲,徐士进,王银喜,等.1994 西华山花岗岩的 Nd-Sr 同位素研究.科学通报,39(2):154~156.
盛继福,付先政.1997.突泉-天山地区铜多金属矿床地质及成矿模 式.见:赵一鸣,张德全,主编.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价.北京:地震出版社.107~124.
盛继福,傅先政.1999.大兴安岭中段成矿环境与铜多金属矿床地质特征.北京:地震出版社,1~125.
施俊法, 肖庆辉. 2004. 经验勘查与理论勘查的发展趋势.地质通报, 23(8): 809~815
孙德有,吴福元,李惠民,林强.2000.小兴安岭西北部造山后A型花岗岩的时代及与索伦山-贺根山-扎赉特碰撞拼合带东延的关系.科学通报,2217~2222.
孙丰月, 石准立, 冯本智. 1998. 胶东金矿地质及幔源 C-H-O 流体分异成岩成矿. 长春: 吉林人民出版社, 1~170.
唐克东,颜竹药,张允平,等.1983.关于温都尔庙群及其构造意义.中国北方板块构造文集,第1集,中国地质科学院沈阳地质矿产研究所.
唐克东.1992.中朝板块北侧褶皱带构造演化及其成矿规律.中国北方板块构造丛书,北京大学出版社.
陶继雄,苏茂荣,宝音乌力吉,白立兵.2004.内蒙古达尔罕茂明安联合旗满都拉地区索伦山蛇绿混杂岩的特征及构造意义.地质通报,23(12):1238~1242.
万天丰.2004.中国大地构造学纲要.北京:地质出版社,387~400.
王宝德, 牛树银, 孙爱群, 李红阳. 2003. 冀北地区金矿床氦、氩、铅同位素组成及其成矿物质来源. 地球化学, 32(2), 181~187
王登红,陈毓川,徐志刚,等.2002.阿尔泰成矿省的成矿系列及成矿规律.北京:原子能出版社.
王东方.1985.关于温都尔庙群内涵、时代问题的讨论及其在板块会聚带构造发展中的意义.地质论评,31(5).
王东方.1987.华北地台北缘地质构造演化及多金属成矿带的构造控制问题.矿床地质,6(3).
王东方.1992.中朝陆台北缘大陆构造地质[M].北京:地震出版社,62~196.
王非,朱日祥,李齐,等.2004.秦岭造山带的差异隆升特征-花岗岩 40Ar/39Ar年代学研究的证据. 地学前缘,11(4): 445~459.
王高尚,唐建,范世家,等.2005.世界矿产品概要.国家发改委储备局,中国地质科学院全球矿产资源战略研究中心(内部资料).1~241
王楫.1989.华北地台北缘西段裂谷系构造特征及其成矿.内蒙古地质,(1).
王魁元,赵彦明,曹秀秀兰.1989.华北陆台北缘元古宙的铅锌矿.前寒武纪地质,4.
王莉娟,岛崎英彦,王京彬,等.2001.黄冈梁夕卡岩型铁锡矿床成矿流体及成矿作用.中国科学D辑, ,31(7):553~562.
王莉娟,王京彬,王玉往,等. 2004 .内蒙古东部与夕卡岩型矿床有关的花岗岩氧同位素特征-以浩布高矿床为例.地质论评,5: 513~560.
王荃,刘雪亚,李锦轶.1991.中国华夏与安加拉古陆间的板块构造.北京:北京大学出版社,19~32.
王守光,黄占起,苏新旭,等.2004一条值得重视的跨国境成矿带-南戈壁-东乌旗铜多金属成矿带.地学前缘(中国地质大学,北京),11(1):250~255.
王希斌,鲍佩声,戎合. 1995.中国蛇绿岩中变质橄榄岩的稀土元素地球化学.岩石学报,11(增刊):24~41.
王学求.2000.巨型矿床与大型矿集区勘查地球化学.矿床地质,19(1):76~87.
王义天, 毛景文, 卢欣祥, 叶安旺. 2002. 河南小秦岭金矿区Q875脉中深部矿化蚀变岩的40Ar/39Ar年龄及其意义. 科学通报, 47(18): 1427~1431.
王义天, 毛景文, 卢欣祥. 2001. 嵩县祁雨沟金矿成矿时代的 40Ar/ 39Ar 年代学证据. 地质论评, 47(5): 551~555.
王玉往,曲丽莉,王京彬,等.2002.大井锡多金属矿床矿石矿物成分及时空演化.矿床地质,21(1):23~35.
王玉往,王京彬,王莉娟,等.2002.内蒙古大井矿床中银矿物的研究.地质论评,48(5):526~533.
王喻.1995.中国东部内蒙古-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,1~132.
王之添,张树文,孙树人,等. 1997.大兴安岭东南缘成矿集中区成矿演化特征与找矿潜力.有色金属矿产与勘查, 6,增刊:4~12.
王之田,秦克章,张守林.1994.大型铜矿地质与找矿.北京:冶金工业出版社.1~162.
王之田,秦克章.1988.乌奴格吐山下壳源斑岩铜钼矿床地质地球化学特征与成矿物质来源.矿床地质,7(4).
韦永福.1994.中国金矿床.北京:地震出版社.
吴福元,江博明,林强.1997 中国北方造山带造山后花岗岩的同位素特点与地壳生长意义. 科学通报,42(20):2188~2192.
吴华, 李华芹, 莫新华, 陈富文, 路远发, 梅玉萍, 邓岗.2005. 新疆哈密白石泉铜镍矿区基性—超基性岩的形成时代及其地质意义.79(4): 498~502.
吴建平,曾融生,明跃红.1998.中国北部及蒙古地区上地幔 P 波速度结构的研究.地震学报,20(6):580~589.
吴良士, 邹晓秋. 1997. 江西城门山铜矿铼-锇同位素年龄研究.矿床地质, 16(4): 376~381.
肖成东,付国立,赵利青. 2000.内蒙古锡盟-赤峰北部板块构造演化与金矿床. 黄金地质,6(2):17~20.
肖序常,汤跃庆,李锦轶,等.1991.古中亚复合巨型缝合带南缘构造演化.北京:北京科学技术出版社,1~25.
徐备,陈斌,张臣,等.1994.华北板块北缘中段含铁变质岩系的时代和构造环境初探.地质论评,307~311.
徐备,陈斌.1997.内蒙古北部华北板块与西伯利亚板块之间中古生代造山带的结构及演化.中国科学,27(3):227~232.
徐克勤,孙鼐.1982.华南花岗岩成因与成矿.南京:南京大学出版社,41.
徐志刚,赵一鸣,张德全.1995.大兴安岭及其邻区铜多金属成矿地质背景、成矿系列、找矿标志及预测."八五"国家科技攻关计划专题成果报告.
徐志刚.1993.内蒙古东南部铜多金属矿床成矿构造背景.大兴安岭及邻区铜多金属矿床论文集.北京:地震出版社.
徐志刚.1997.大兴安岭及其邻区构造演化及控矿作用.见:赵一鸣,张德全主编.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价.北京:地震出版社,1~21.
杨经绥,许志琴,斐先治,等.2002 秦岭发现金刚石横贯中国中部巨型超高压变质带新证据及古生代和中生代两期深俯冲作用的识别.地质学报,76(4)484~495.
叶杰,刘建明,张安立,张瑞斌.2002.沉积喷流型矿化的岩石学证据.岩石学报,18(4):585~591.
叶天竺.2004.固体矿产预测评价方法技术.北京:中国地质大学出版社,128-171.
翟裕生,邓军,李晓波.1999b.区域成矿学.北京:地质出版社,186~261.
翟裕生,润民,向运川. 2004.区域成矿研究法.北京:中国大地出版社.
翟裕生. 1999a. 论成矿系统. 地学前缘. 6(1):13~26.
翟裕生.1996.成矿系列研究.北京:中国地质大学出版社.
张臣,吴泰然.1998.内蒙古温都尔庙群变质基性火山岩Sm-Nd、Rb-Sr同位素年代研究.地质科学,33(1):25~30.
张臣,吴泰然.1999.内蒙古苏左旗南部早古生代蛇绿混杂岩特征及其构造意义地质科学,34(3):381~389.
张春华.2004.内蒙古大井锡多金属矿床矿石的物质成分及特征.矿产与地质,2004,18(1):13~17.
张德全,艾霞,鲍修坡.1994.黄岗-甘珠尔庙中生代活化区有色金属矿床.见芮宗瑶等(1994)著:华北陆块北缘及邻区有色金属矿床地质.314~363.
张德全,鲍修波.1990.内蒙古白音诺中酸性火山-深成杂岩体的岩石学、地球化学与成因研究.地质论评,36(4).
张德全.1993.大兴安岭南段不同构造环境中的两类花岗岩. 岩石矿物学杂志. 1993,12(1):1~11.
张建中,戴云,金宜声.1999.中国大陆 1∶500 万剩余重力异常与大地构造的关系.物探化探计算技术,21(4):333~337.
张炯飞,庞庆邦,朱群,等.2003.试论与埃达克岩有关的热液矿床成因类型和成矿系列-以中国北方若干矿床为例.地质与资源,12(3): 171~176.
张理刚.1995a.东亚岩石圈块体地质.北京:科学出版社,1~252.
张理刚.1995b.东亚岩石圈块体地质-上地幔、基底和花岗岩同位素地球化学及其动力学.北京:科学出版社,153~173.
张连昌, 沈远超, 李厚民等. 2002. 胶东地区金矿床流体包裹体的 He、Ar 同位素组成及成矿流体来源示踪. 岩石学报,18(4), 559~565
张旗,钱青,王二七,等.2001.燕山中晚期的“中国东部高原”:埃达克岩的启示.地质科学,36(2):248~255.
张乾,潘家永,邵树勋.2000.中国某些金属矿床矿石铅来源的铅同位素诠释.地球化学,29(3):231~238.
张荣华,胡书敏.1989.高温高压的流动溶液内矿物-水反应动力学研究.中国科学B辑, (11): 1212~1222.
张义,聂凤军,江思宏,胡朋.2003.中蒙边境欧玉陶勒盖大型铜-金矿床的发现及对找矿勘查工作的启示.地质通报,22(9):709~712.
张作衡,毛景文,杨建民,等. 2002. 北祁连加里东造山带塔儿沟夕卡岩-石英脉型钨矿床地质及成因.矿床地质,21(2): 200~211.
赵国龙,杨桂林,傅嘉友,等.1989.大兴安岭中南部中生代火山岩.北京:北京科学技术出版社,25~87.
赵太平, 翟明国, 夏斌,等.2004. 熊耳群火山岩锆石 SHRIMP 年代学研究:对华北板块盖层发育初始时间的制约. 科学通报, 49(22):2342~2349.
赵一鸣,王大畏,张德全,等. 1994.内蒙古东南部铜多金属成矿地质条件及找矿模式.北京:地震出版社.
赵一鸣,张德全,等. 1997.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价. 北京:地震出版社.,125~144.
赵越,崔盛芹,郭涛,徐刚.2002.北京西山侏罗纪盆地演化及其构造意义.地质通报,21(4-5):211~217.
郑建平, 路凤香, 郭晖, 任迎新. 1994. 金刚石中流体包裹体的研究. 科学通报, 39(3): 253~256.
郑永飞,陈江峰. 2000. 稳定同位素地球化学. 北京:科学出版社.
中国地质调查局.2002.国内外斑岩型铜矿研究进展.1~277.
中国地质科学院.1982.中国地层概论.北京:地质出版社.
中国科学院贵阳地球化学研究所.1979.华南花岗岩类地球化学.北京:科学出版社.
周安朝.2000.华北地块北缘晚古生代盆地演化及盆山耦合关系.西北大学博士学位论文.
朱炳泉,常向阳.2001.地球化学省与地球化学边界.地球科学进展,16(2):153~162.
朱炳泉.1993.矿石 Pb 同位素三维空间拓扑图解用于地球化学省划分与矿种区划.地球化学,(3):209~216.
朱炳泉.1997.地球科学中同位素体系理论与应用.北京:科学出版社,1~321.
朱炳泉.1998.壳幔化学不均一性与块体地球化学边界研究.地学前缘(中国地质大学,北京),5(1-2):72~82.
朱嘉伟, 张天义, 薛良伟. 1999. 豫西崤山地区金矿成矿年龄的测定及其意义. 地质论评,45(4): 418~422.
朱介寿,曹家敏,李显贵,等.1997.中国及其邻区地球三维结构初始模型的建立.地球物理学报,40(5):627~650.
朱赖民,胡瑞忠,袁海华,栾世伟. 1997.热液改造成矿机制—四川底苏铅锌矿床成矿作用研究.四川地质学报, 17(3):182~190.
朱训等.1983. 德兴斑岩铜矿. 北京: 地质出版社.
左国朝,金松桥,何国琦,等.1987.北山地区白云山-洗肠井一带早古生代蛇绿岩带推覆构造及蛇绿岩混杂体的发现中国北方板块构造论文集,第2集.北京:地质出版社,51~58.
2内蒙古自治区地质科技成果汇编,2000 年
3邵和明,张履桥.2001.内蒙古自治区主要成矿区(带)和成矿系列.22-27.
4邵和明,张履桥.2001.内蒙古自治区主要成矿区(带)和成矿系列.22-27.
5 内蒙古自冶区地质矿产局.1995.内蒙古自冶区区域矿产总结.252~268.
7 内蒙古自冶区地质调查院内部资料,2006。
9 内蒙古地质调查院编译.2002.蒙古地质建造图(1:5 000 000).
Badarch G, Cunningham D W, Windley B F. 2002 A new terrane subdivision for Mongolia: implications for the Phanerozoic crustal growth of Central Asia. Journal of Asian Earth Sciences, 21:87~110.
Badarch G, Orolma D. 1998. Overview of the geology and tectonic evolution of southern Mongolia. Mongolian Geoscientist, 10:10~16.
Badarch G. 2005. Tectonics of South Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 119~129.
Bai D, Zhang H L, Kong X R. 1993a. A magnetotelluric study of the Paleozoic collision zone in the east of Inner Mongolia, I: Observations and data analysis, Acta Geophys. Sin., 36:326 ~336.
Bai D, Zhang H L, Kong X R. 1993b. A magnetotelluric study of the Paleozoic collision zone in the east of Inner Mongolia, Ⅱ: Two-dimensional modelling,Acta Geophys.Sin.,36:773~783.
Baker E M, Andrew A S. l99l. Geologic fluid inclusion,and stable isotope studies of the go1d-bearing breccia pipe at Kidston,Queensland,Australia:Economic GeolOgy,86:8l0~830.
Batchelor R A, Bowden P. 1985. Petrogenetic interpretation of granitoid rock series using multicationic parameters. Chem. Geol., 48: 43~55.
Batkhishig B, lizumi S. 2001. Petrographical, petrochemical and geochronological study of the Carbnoniferous Shuteen complex in South Mongolia.Geology, 2:135~145.
Boorder H, Spakman W, White S H et al.1998.Late Cenozoic mineralization,orogenic collapse and slab detachment in the European Alpine Belt, Earth and Planetary Science,letters,164:569~575.
Brown G C. 1982. Calc-alkaline intrusive rocks their diversity, evolution, and relation to volcanic arcs. In: Thorpe R S, ed. Andesites-orogenic andesites and related rocks. New York: John Wiley & Sons, 437~464.
Buslov M M, Yu I, Saphonova T, et al. 2001. Evolution of the Paleo-Asian ocean (Altai-Sayan region, central Asia) and collision of possible Gondwana-derived terranes with the southern marginal part of the Siberian continent, Geosci. J.,5:203~224.
Coleman R G. 1994. Reconstruction of the Paleo-Asian Ocean, VSP Int. Sci. Publ., Utrecht, Netherlands.
Collins W J, Beams S D, White A J B, Chappell B W. 1982. Nature and origin of A-type granites with particular reference to south-eastern Australia[J.] Contrite Mineral Petrol, 80: 189~200.
Cox D P, Singer. 1986. Mineral deposits models. U.S.Geological Survey Bulletin Creaser R A, Papanastassiou D A, Wasserburg G J. 1991. Negative thermal ion mass spectrometry of osmium, rhenium, and iridium. Geochim. Cosmochim. Acta, 55: 397~401.
Cunningham W D. 1998. Lithospheric controls on late Cenozoic construction of the Mongolia Altai. Tectonics, 17: 891~902.
Deines P. 1992. Mantle carbon: concentration, mode of occurrence, and isotopic composition. In:Early Organic Evolution: Implications for Mineral and Energy Resources (eds M Schidlowski et al.), Springer-Verlag, Berlin, 133~146.
Dobretsov N L, Berzin N A, Buslov M M. 1995. Opening and tectonic evolution of the Paleo-Asian ocean, Intern. Geol. Rev., 37:335~360.
Eenjin. 1983. South Mongolian Hercynian eugeosynclinal zone (Dzolen, Mandal-Ovo ridge) in the early Devonian, Geotectonics, 4: 87~98.
Fan W M, Menzies M A.1992. Destruction of lower lithosphere mantle beneath eastern China. Geotectonic et Metallogenia, 16:171~179.
Forster C N, Kirwin D J, Kavalieris I,et al. 2003. Exploration, geology and mineralisation of the Oyu Tolgoi gold copper porphyry deposit, South Gobi, Mongolia. in Baker, T., Cleverly, J., and Fu, B., eds., Magmas, Fluids and porphyry-epithermal deposits. James Cook University Economic Geology Research Unit Contribution, 61: 47~59.
Frey F.A. 1984. Rare earth element aboundances in upper mantle rocks.Rare Earth Element Geochemistry(edited by Henderson,P.),Amsterdam-Oxford-New York-Tokyo.
Gao S, Zhang B R, Jin Z M, et al.1998.How mafic is the lower continental crust? Earth & Planetary Science letters,106:101~117.
Garwin S. 2002. The geology of intrusion-related hydrothermal systems near the Batu Hijau porphyry copper-gold deposit,Sumbawa,Indonesia.in:Goldfarb,R.,and Nielsen,R.,eds.,Integrated Methods for Discovery.Reviews in
Economic Geology,Special Publication,9:333~366. Gerel O.1998.Phanerozoic felsic magmatism and related mineralization in Mongolia. Bulletin of the Geological Survey of Japan, 49:239~248.
Greg Bignal, Bayaraa Batkhishig , Noriyoshi Tsuchiya, Delgertsogt. 2005. The Shuteen Cu-Au poryphyry deposite.CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 193~201.
Han C, Rui Z, Mao J, et al. 2003, Geological characteristics of the Tuwu copper deposit, Hami, Xinjiang. in Mao, Goldfarb, Seltmann, Wang Xiao and Hart (Eds.), 2003 Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan Proceedings Volume of the International Symposium of the IGCP-473 project in. Urumqi and guidebook of the Field Excursion in Xinjiang, China: August 9-21, 2003 IAGOD Guidebook Series 10: CERCAMS/NHM London, 249~260.
Hart S R. 1984. A large-scale isotope anomaly in the southern hemisphere mantle Nature, 309:753~757.
Henry C D. 1988. Chemical and thermal zonation in a mildly alkalin magmas system, Infiernito Coldero, Trans-Pecos Texas. Contrib. Mineral. Petrol. 98:194~211.
Heubeck C. 2001. Assembly of central Asia during the middle and late Paleozoic, in Paleozoic and Mesozoic Tectonic Evolution of Central and Eastern Asia,edited by M. S. Hendrix and G. A. Davis, Mem.Geol. Soc. Am., 194:1~22.
Hithersay E S, Walshe J L. 1995. Endevour 26 north: a porphyry copper-gold deposit in the late Ordovician shoshonite Goonumbla volcanic complex, New South Wales, Australia. Economic geology, .90: 1506~1532.
Hovan M, Gregus J, Moravec R, Delgertsogt B. 1983. Report of results of mapping and exploration survey carried out on property of Shuteen's volcanic-plutonic structure and Hagbayan horst, located in southern Gobi aimag in 1982. Report 3615, Geological Information Center, Mongolian Geological Survey, 136(in Russian).
Hu Huabin, Mao Jingwen, Liu Dunyi, et al. 2005. SHRIMP Zircon U-Pb Dating of the Tongshi Magmatic Complex in Western Shandong and Its Geological Implications. Acta Geologica Sinica,79(4): 491~496.
Imants Kavalieris, Alan Wainwright. 2005. Whole-rock geochemistry of late Devonian island arc and instrusive suites from Oyu Tolgoi,South Gobi,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,170~174.
Ishihara D, Mizuta T, Ishikawa Y, et al. 2001. Geochemical characteristics of igneous rocks and tin-copper mineralization.Project Final Report of Chinese Research Center for Mineral Resources Exploration, 4-115~4-138.
Ishihara.1977.The magnetite-series and ilmenite-series grannitic rocks. Mining Geology,27(5):293~305.
Jahn B M, Wu F, Chen B. 2000. Granitoids of the central Asian orogenic belt and continental growth in the Phanerozoic, Trans. R. Soc. Edinburgh:Earth Sci., 91: 81~93.
Kavalieris I, Bunting K. 2003. Unidirectional solidification textures and associated Cu-Au mineralization in the Tampang Cu-Au poyphyry system,Sabah,Malaysia.
Khramov A N,Ustritsky V I. 1990. Plaeopoition of sourse northern Eurasian tectonic blocks:Paleomagnetic and Paleobiologic constrains.Tectonophysics,184:101~109.and Hish-Sulfidation Cu Mineralization with a Creaiceous Chalcocite Blanket[J].Economic Geology.96:1407~1423.
Kirkham R V, Sinclair W D. 1995. Porphyry copper, gold, molybdenum, tungsten, tin and silver: Geology of Canadian mineral deposit type. Geol. N. Am,1: 421~446
Kirkham R V, Sinclair W D. l988. Comb quartz layers in felsic intrusions and the relationship to porphyry deposits.in Taylor R P and Strong D F, eds.Recent Advances in the Geology of Granite Related Mineral Deposits. Canadian Institute of Mining, 31: 50~71.
Kirwin D J, Forster C N, Kavalieris I, et al. 2005b. The Oyu Tolgol copper-gold porphyry deposits,South Gobi,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,154~168.
Kirwin D J, Seltmann R. 2002. Unidirectional solidification textures associated with intrusion-related gold deposits. Extended Abstracts CD-Rom, 11th Quadrennial IAGOD Symposium and Geocongress, Windhoek, Namibia, 22-26th July 2002.
Kirwin D J, Wilson C C, Turmagnai D, Wolfe R. 2005a. Exploration history,geology,and mineralization of the Kharmagtai gold-copper porphyry district,South Gobi region,Mongolia. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,175~191.
Kirwin D J. 2005c. Unidirectional solidificational textures associated with instrusive-related Mongolian mineral deposites. CERCAMS:Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits,63~84.
Kovalenko V I, Yarmolyuk V V. 1990. Evolution of magmastism in geological structures of Mongolia. In: Zaitsev, N.S., Kovalenko, V.I., (Eds.), Evolution of Geological processes. Moscow, Nauka, 23~54 (in Russian). Kyser T K. 1986. Stable isotope variations in the mantle.In: Valley J W, Taylor H P Jr, O’Neil J R (eds.). Stable Isotopes in High Temperature Geological Processes. Reviews in Mineralogy,16: 141~164.
Lamb M A, Badarch G. 2001. Paleozoic sedimentary basins and volcanic arc systems of southern Mongolia: New geochemical and petrographic constrains. In: Davis, G.A., Hendrix, M.S., 9Eds.), Paleozoic and Mesozoic tectonic evolution of central Aisa- from continental assembly to intracontinental deformation , Geological Society of America Memoir. 194: 117~149.
Lamb M A, Cox D. 1998. New Ar40/Ar39 age data and implications for porphyry copper deposits of Mongolia. Economic Geology, 93: 524~529.
Lickford V, Wilson A J, Harris A C, Cooke D R. 2003. The alkalic Au-Cu porphyry deposits of NSW, Australia: evidence for coexisting melt and hydrothermal fluids in comb quartz layers, in Eliopoulos, D.G., et al., eds., Mineral Exploration and Sustainable Development. Proceedings of the 7th Biennial SGA meeting, Athens, Greece, 24--28 August, 2003, 315~318.
Madera A, Rohrlach B. 1998. Geology and resource potential of the Tampakan copper deposit, southern Mindanao. in 11th Annual Geological Society of the Philippines Convention, Geological Society of the Philippines, Manila, 220~231.
Maniar P D, Piccoli P M. 1989. Tectonic discrimination of granitoids Geol Soc A m Bull, 101: 635~643.
Mao J, Qiu Y, Goldfarb R J, et al. 2002c. Geology, distribution of gold deposits in the western Qinling belt, central China. Mineralium Deposita, 37(3): 352~377.
Mao Jingwen, Kerrich Robert, Li Hongyan, Li Yanhe. 2002a. High 3He/4He ratios in the Wangu gold deposit, Hunan Province, China: implications for mantle fluid along the Tanlu deep fault zone. Geochemical Journal, 36(3), 197~208.
Mao Jingwen, Li Yinqing, Goldfrab Richard, He Ying, et al. 2003. Fluid inclusions noble gas studies of the Dongping gold deposit, Heibei Province, China: A mantle connection for mineralization. Economic Geology, 98: 517~534
Mao Jingwen, Wang Yitian, Ding Tiping, et al..2002b. Dashuigou Tellurium Deposit in Sichuan Province, China – An Example of Mantle Fluid Evolving in Mineralized Process: Evidences from C, O, H, S Isotopes. Resource Geology, 52(1):15~23.
Menzies M A, Fan W M, Zhang M.1993. Pleozoic and Cenozoic lithoprobes and the loss of>120km of Archean lithosphere, Sino-Korean craton,China. In: Prichard H M et al. ed. Magmatic Process and plate Tectonic. Geological Society Special Publication,76:71~81.
Merrihue C, Turner G. 1962. Potassium-argon dating by activation with fast neutrons. J. Geophys.Res., 71: 2852~2857.
Mitchell A H G, Garson M.S. 1981. Mineral deposits and global tectonic settings. Academic Press, London. Mossakovsky A A, Ruzhentsov S V, Samygin S G, Kheraskova T N. 1994. Central Asian foldbelt: Geodynamic evolution and formation history, Geotectonics, 27: 445~473.
Ochir Gerel, Sambuu Oyuugerel, Chuluun Minjin. 2005. Instrusive Magmatism of South Mongolia. CERCAMS: Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits, 131~148.
Ohmoto H.1986. Stable isotope geochemistry of ore deposit. In: stable isotope in high temperature geological processes. Valley J W, Taylor H P, Neil J R O, eds. Bookcrafters, Inc., Chelsea, Michigan,491~559.
Perello J, Cox D, Garamjav D, et al. 2001. Oyu Tolgoi, Mongolia: Siluro - Devonian porphyry Cu-Au-(Mo) and high sulphidation Cu mineralization with a Cretaceous chalcocite blanket. Economic Geology, 96: 1407~1428.
Plyusnin.1980.Strontium isotopes in the rocks of the ophiolite complex in the Khan-Tayshiri Range(West Mongolia), Internat. Rew.,22(8).
Ren Jishun, Niu Baogui, Lin Zhigang. 1996. Microcontinents,soft collision and polycyclic suturing. Continental Dynamics,1(1):1~9.
Ren Jishun. 1991. Microcontinents, soft-collision and polycyclic suturing-Dynamic characteristics of the tectonic evolution of continental Southeast Asia. In: Ren Jishun and Xie Guanglian(eds.),Proceeding of the First International Symposium on Gondwana Dispersion and Asian Accretion-Geological Evolution of Eastern Tethys,1991,Kunming,China, 216~218.
Ruzhentsev S V, Pospelov I I. 1992. The South Mongolian Variscan fold system. Geotectonics. 30(5):383~395. Ruzhentsev S V. 1985. Geology of Gobi Tienshan and aspects of the south Mongolian ocean: Izvestiya VUZ, geology I razvedka. 6: 12~19 (in Russian).
Sawkins F J. 1984. Metal deposits in relation to plate tectonics. Springer-Verlag, Berlin, Heidelberg, New York, Tokyo, 1~325
Seltmann R, Muller A. 2003. From mantled feldspars to snowball quartzes: petrogenesis of the Eastern Erzgebrige granite pluton.in Tapani,r.,ed.,Granitic Systems-State of the Art and Future Avenues.IGCP-426 Symposium in honor of Professor Ilmari Haapala.University of Helsinki,12-14 January, 96~99.
?engo?r A MC,Natalin B A. 1996. Paleotectonics of Asia:Fragments of a synthesis.In The tectonic evolution of Asia, ed A Yin, TM Harrison,Cambridge University Press,New York, 486~640.
Shannon J R, Walker B M, Carten R B, et al. 1982. Unidirectional solidification textures and their significance in determining relative ages of intrusion at the Henderson Mine, Colorado, Geology, 10: 293~297.
Shao Ji’an, Zhai Mingguo,Li Daming.2004.Identification of five steges of dike swarms in the Shanxi-Hebei-Inner Mongolia border area and its implication. Acta Geologica Sinca,78(1):320~330.
Shaoji'an. 1989. Continental crust accretion and tectonic magmatic activity at the northern margin of the Sino-Korean Plate.Journal of Southeast Asian Earth Scicnces, 3(l-4): 57~62.
Sheehan M P. 2003. Oyu Tolgoi PIMA study.Report to Ivanhoe Mines Limited(Unpublished). Shirey S B, Walker R J. 1995. Carius tube digestion for low-blank rhenium- osmium analysis. Anal. Chem., 67: 2136~2141.
Sinclair D W, Kooiman J A, Martin D A. 1988. Geological setting of granites and related tin deposits in the North zone, Mt. Pleasant, New Brunswick. Current Research, Part B, Geological Survey of Canada, Paper 88-1B, 201~208.
Song Y, Frey F A. 1989. Geochemistry of prridotite xenoliths in basalt of Hannuoba,Eastern China:Implications for the subcontinental mantle heterogeneity.Geochi.et Cosmochi.Acta, 53: 97~113.
Stein H J. 2003. Re-Os data and ages for molybdenites from Mongolia and China. Report to ivanhoe Mines Limited (unpublished).
Suzuki K, Lu Q, Shimizu H, et al.1993. Reliable Re-Os age for molybdenite. Geochim. Cosmochim. Acta, 57: 1625~1628.
Tang K, Yan Z. 1993. Regional metamorphism and tectonic evolution of the Inner Mongolian suture zone.J. Metamorph. Geol., 11:511~522.
Tsuchiya N, Kanisawa S. 1994. Early Cretaceous Sr-rich silicic magmatism by slab melting in Kitakami Mountains,Northeast Japan.J.Geophys.Res,99.B11,22.205~22.220.
Voznesenskaya T A, Ruzhentsev S V, Badarch G. 1986. The Middle Paleozoic basaltoids of Transaltai zone of Mongolia: Izvestiya Academy Nauk SSSR, geology series 9, 37~52(in Russian).
Wang Xibin, Hao Ziguo. 1994. Time-space distribution and tectonic types of ophiolites in China.Proc.29th Iner.Geol.Conger.,Part D(Ed. By Ishiwatari),VSP, 183~204.
Watanabe Y, Stein H. 2000. Re-Os ages for the Erdenet and Tsagaan Suvurga porphyry Cu-Mo deposits, Mongolia, and tectonic implications. Economic Geology, 95: 1537~1542.
Wilson J T. 1968. Static and mobile earth: The current scientific revolution in the earth. Proc. Am Phil. Soc. 112:309~320
Xiao W J, Brian F W, Jie H, Mingguo Z. 2003. Accretion leading to collision and the Permian Solonkersuture, Inner Mongolia, China:Termination of the central Asian orogenic belt.Tectonics,22(6):1~21.
Zartman R E, Doe B R. 1981. Plumbotectonics-the model Tectonophysics, 75:135~162.
Zhang Y, Zhang Q,Wang Y. 1996. Great Jurassic thrust sheets in Beishan(North Mountains)-Gobi areas of China and southern Mongolia. Journal of Structural Geology, 18(9): 1111~1126.
Zhang Yunping, Tang.Kedong. 1989. Pre-Jurassic tectonic evolution of intercontinental region and the suture zone between the North China and Siberian Platforms.Journal of Southeast Asian Earth Sciences,3(l-4):47~55.
Zhang Z W, Zhu B Q, Cai K Q, et al. 2000. Lead isotopic steep dipping zone and mineralization-An example from mineral deposits contracted area in East Qinling China.J China Univ Geosci, 11(l): 287~294.
Zhao X X, Coe R S, Zhou Y X, et al. 1990. New Paleomagnetic results from North China:Collision and suturing with Siberia and Kazakstan.Tectonopysics, 181:43~81.
Zhu B Q, Chang S Y, Wang H F. 1996. The geochemical boundary between South China and Yangtze blocks and its constraintion the formation of super large deposits.Science in China(D),39(l): 58~65.
Zhu B Q, Chang X Y, Qin H N, et al. 1998. Characteristics of proterozoic basements on the geochemical steep zones in the contiment of China and their implications for setting of super large deposits.Science in China(D),41(Supp): 54~64.
Zhu B Q, Li X H, Liu B L. 1990. Three-component mixing and four system recycling models for explaining Nd-Sr-Pb istopic correlation of suboceanic and subcontinental mantles. Science in China(B),33: 757~768.
Zhu B Q. 1994. Geochemical evidence for the Southern China block being apart of Gondwana.J S Asian Earth Sci,9:319~324.
Zhu B Q. 1995. The mapping of geochemical provinces in China based on Pb isotopes,J Geochem Exploration,55:171~181.
Zonenshain L P, Kuzmin M I, Natapov M L. 1990. Geology of the USSR: A Plate Tectonic Synthesis. Geodyn. Ser., 21: 242., AGU, Washington,D. C.
Zonenshain L P, Suentenko O D, Jamyandamba L, Eenjin G. 1975. Structure of the axial part of South Mongolian eugeosyncline in the Dzolen Range. Geotectonics, 4: 28~44.
Zonenshain L P. 1973. The evolution of central Asian geosynclines through sea-floor spreading.Tectonophysics,19: 213~232.
艾永富,刘国平.1998.内蒙古大井矿床的绿泥石研究.北京大学学报(自然科学版),1998,34(1):97~105.
白登海,张丽,孔祥儒,等.1993b.内蒙古东部古生代块体碰撞区的大地电磁测深研究.地球物理学报,36(3):326~336.
白登海,张丽,孔祥儒.1993a.内蒙古东部古生代块体碰撞区的大地电磁测深研究.地球物理学报,36(6):773~783.
白文吉,周美付,杨经绥,胡旭峰.1995.内蒙古贺根山蛇绿岩岩石成因和地壳增生的地球化学制约.岩石学报,11(增刊),112~124.
包志伟,陈森煌,张祯堂.1994.内蒙古贺根山地区蛇绿岩稀土元素和Sm-Nd同位素研究.地球化学,23(4):339~349.
鲍佩声,王希斌,彭根永,陈方远.1999.中国铬铁矿床.北京:科学出版社.143~355.
鲍佩声,王希斌.2004.富铝型豆荚状铬铁矿床的成矿模式.地球学报,18(1):25~39.
曹从周,杨芳林,田昌裂,等.1986.内蒙古贺根山地区蛇绿岩及中朝板块和西伯利亚板块之间的缝合带位置.见:中国北方板块构造论文集(l).北京:地质出版社,64~83.
曹荣龙, 朱华寿.1995.地幔流体与成矿作用. 地球科学进展, 10(4), 324~329.
车自成,刘良,罗金海.2002.中国及邻区区域大地构造学.北京:科学出版社,1~314.
陈德潜,赵平,魏振国.1995.论小坝梁铜矿床的海底火山热液成因.地球学报,2:190~203.
陈江峰, 谢智, 刘顺生, 李学明, K.A.Folan, 1995. 大别造山带冷却年龄的 40Ar-39Ar 和裂变径迹年龄测定. 中国科学(B 辑), 25(10): 1086~1092.
陈崎,孟良义,杜玉申.1994.华北陆块北缘及邻区有色金属矿床地质.北京:地质出版社,200~238.
陈毓川, 薛春纪, 王登红, 李华芹, 路远发. 2003. 华北陆块北缘区域矿床成矿谱系探讨. 高校地质学报, 9(4): 520~535
陈毓川, 朱裕生. 1991.中国矿床成矿模式. 北京: 地质出版社, 1~367.
陈毓川,毛景文.1995.桂北地区矿床成矿系列和成矿历史演化轨迹.广西:广西科学技术出版社.
陈毓川. 1994a. 矿床的成矿系列. 地学前缘, 1(4):90~94
陈毓川.1997.矿床的成矿系列研究现状与趋势.地质与勘探,33(1):21~25.
陈毓川.1999.中国主要成矿区带矿产资源远景评价.北京:地质出版社,119~246.
陈毓川.王平安等.1994b.秦岭地区主要金属矿床成矿系列的划分及区域成矿规律探讨.矿床地质,13(4).
陈振胜,张理刚.1989.一个典型大气降水热液矿床-内蒙古白乃庙铜矿成因的稳定同位素证据.桂林冶金地质学院学报,9(1).
程裕淇, 陈毓川, 赵一鸣. 1979. 初论矿床的成矿系列问题. 中国地质科学院院报, 第 1 号, 1~55
程裕淇,陈毓川,赵一鸣,宋天锐.1983.再论矿床的成矿系列问题.中国地质科学院院报,第 6 号.
池际尚,路凤香.1996.华北地台金伯利岩及古生代岩石圈地幔特征.北京:科学出版社,1~292.
储雪蕾,霍卫国,张巽. 2002.内蒙古林西县大井铜多金属矿床的硫、碳和铅同位素及成矿物质来源.岩石学报,18(4):566~574.
邓晋福,罗照华,苏尚国,等. 2004. 岩石成因、构造环境与成矿作用.北京:地质出版社,85~122.
邓晋福,赵海玲,莫宣学.1996.中国大陆根-柱构造:大陆动力学的钥匙.北京:地质出版社,1~110.
董长海,乔兰.1987.大兴安岭南段黄岗梁-大井地区花岗岩类侵入体成因及含锡岩体判别.华北有色金属地质,1(17): 2~12.
杜安道, 何红蓼, 殷宁万, 等. 1994. 辉钼矿的铼-锇同位素地质年龄测定方法研究. 地质学报, 68(4): 339~347.
杜安道, 赵敦敏, 王淑贤, 等. 2001. Carius 管溶样和负离子热表面电离质谱准确测定辉钼矿铼-锇同位素地质年龄. 岩矿测试, 20(4) : 247~252.
杜乐天. 1988. 幔汁 H-A-C-O-N-S 流体. 大地构造与成矿学, 12(1), 87~94.
杜乐天. 1989. 幔汁(HACONS 流体)的重大意义. 大地构造与成矿学, 13(1), 91~99.
杜乐天. 1990. 幔汁(HACONS)假说. 矿物岩石地球化学通讯, (1):39~42
杜乐天 1986b. 碱交代作用的地球化学原理. 中国科学(B), 81~90.
杜乐天 1996a. 地壳流体与地幔流体间的关系. 地学前缘, 172~180
杜琦.1988. 多宝山斑岩铜矿床. 北京:地质出版社.
范书义,毛华人,张晓东,等. 1997.大兴安岭中段二叠系地球化学特征及其成矿意义.中国区域地质,16(1):89~97.
冯建忠,艾霞,吴俞斌,等.1994.内蒙大井多金属矿床稳定同位素地球化学特征.吉林地质,13(3):60~66.
高星,王卫民,姚振兴.2005.中国及邻近地区地壳结构[J].地球物理学报,48(3):592~601.
耿元生, 杨崇辉, 宋彪, 万渝生.2004.吕梁地区 18 亿年的后造山花岗岩:同位素年代和地球化学制约.高校地质学报,10(4): 477~487
韩春明,毛景文,杨建民,王志良.2002.东天山晚古生代内生金属矿床成矿系列和成矿规律.地质与勘探,38(5):5~10.
郝立波,段国正, 李殿超,等. 1999.大兴安岭锡多金属成矿带花岗岩地球化学特征.世界地质,18(2):66~72.
何国琦,李茂松.1996.兴蒙一北疆及邻区古生代蛇绿岩的对比研究及其大地构造意义.蛇绿岩与地球动力学研究.北京:地质出版社,104~107.
何红蓼, 杜安道, 邹晓秋, 等. 1993. 铼-锇同位素的等离子体质谱测定及其在辉钼矿测年中的应用. 岩矿测试, 12(3): 161~165.
洪大卫,黄怀曾,肖宜君,等.1994. 内蒙古中部二叠纪碱性花岗岩及其地球动力学意义. 地质学报,68(3):219~230
洪大卫,王式洸,谢锡林,等.2000. 兴蒙造山带正ε(Nd,t)值花岗岩的成因和大陆地壳增长. 地学前缘,7(2):441~456.
洪大卫,王试光,谢锡林,等.2003.试析地幔来源物质成矿域.矿床地质,22(1):41~55.
胡朋.2004.内蒙古沙麦钨矿床地质与地球化学初步研究.西北大学硕士论文,1~72.
胡文宣, 孙睿, 张文兰. 2001. 金矿成矿流体的特点及深-浅部流体相互作用成矿机制. 地学前缘, 8(4), 281~288
胡骁,许传诗,牛树根.1991.华北地台北缘早古生代大陆边缘演化.北京:北京大学出版社.
胡骁.1988.华北地台北侧古生代大陆边缘构造演化及其成矿作用,河北地质学院学报,11(1).
胡晓,牛树银.1986.内蒙古温都尔庙地区早古生代板块俯冲带的研究.中国北方板块构造论文集,第1集.北京:地质出版社,87~101.
黄本宏.1983.天山-兴安褶皱区东部古生代未植物地理区系及其地质意义.中国北方板块构造文集.沈阳:中国地质科学院沈阳地质研究所,1:186~208.
黄典豪,丁孝石,吴澄宇,张长江.1992.蔡家营铅-锌-银矿床.北京:地质出版社,15~17.
黄典豪,杜安道,吴澄宇,等. 1996.华北地台钼(铜)矿床成矿年代学研究[J].矿床地质, 15(4):365~373.
黄汲清,任纪舜,姜春发.1977.中国大地构造基本轮廓.地质学报,2:117~135.
黄汲清.1960.中国地质构造特征的初步总结.地质学报,40(l):l~37.
李东旭,吴淦国.1987.内蒙古白乃庙铜矿区叠生成矿构造地球化学研究.地质学报,61(1).
李红艳, 毛景文, 孙亚莉等. 1996.柿竹园钨多金属矿床的 Re-Os 同位素等时线年龄研究. 地质论评, 42(3): 261~267.
李锦轶.1986.内蒙古东部中朝板块与西伯利亚板块之间古缝合带的初步研究.科学通报,14:1093~1096.
李锦轶.2001.中朝地块与杨子地块碰撞的时限与方式――长江中下游地区震量纪-侏罗纪沉积环境的演变.地质学报,75(1):25~34.
李三忠, 刘建忠, 赵国春, 吴福元, 韩宗珠, 杨中柱.2004. 华北板块东部地块中生代变形的关键时限及其对
构造的制约—以胶辽地区为例.岩石学报, 20(3)633~646.
李署光,李惠民,陈移之,等.1997.大别山苏鲁地区超高压变质年代学――Ⅱ锆石 U-Pb 同位素体系.中国科学(D辑),27:310~322.
李述清,张维杰,耿明山,等.1998.蒙古弧地质构造特征及形成演化概论.北京:地质出版社,1~7.
李双林,欧阳自远.1998.兴蒙造山带及邻区的构造格局与构造演化.海洋地质与第四纪地质,18(3):45~54.
李四光.1999.地质力学概论(第二版).北京:地质出版社,1~228.
李英,祁思敬,马国良,等. 1999.中国北方超大型热水沉积硫化物矿床基本特征及形成条件研究.西安工程学院学报, 21(4):19~24.
李永峰, 毛景文, 白凤军, 李俊平, 和志军. 2003. 东秦岭南泥湖钼矿 Re-Os 同位素年龄及其地质意义.地质论评, 49(6): 652~659
李永峰, 毛景文, 胡华斌, 白凤军, 李厚民, 李蒙文, 郭保健, 叶会寿. 2005. 豫西公峪金矿床流体包裹体及其 He、Ar、S、H、O 同位素组成对成矿流体来源的示踪. 岩石学报, 1347~1358
李兆龙.1988.内蒙古中部层控多金属矿床硫、铅、碳、氧同素组成及矿床成因.地球化学,(1).
李忠,刘少峰,张金芳,王清晨.2003.燕山典型盆地充填序列及迁移特征:对中国东部构造转折的响应.中国科学(D 辑),33(10):931~940.
林方成. 2005.扬子地台西缘大渡河谷超大型层状铅锌矿床地质地球化学特征及成因.,79(4):540~558.
刘大文,谢学锦,严光生,连长云.2002.地球化学块体的方法技术在山东金资源潜力预测中的应用.地球学报,23(2):169~174.
刘敦一. 2002. SHRIMP 技术及其在中国的首次登陆. 地质通报, 21(1).
刘家义.1983.内蒙古贺根山地区蛇绿岩套研究及构造意义.中国北方板块构造文集,第一集.北京:地质出版社.
刘建明,张锐,张庆洲.2004.大兴安岭地区的区域成矿特征.地学前缘(中国地质大学,北京),11(1);269~277.
刘伟,邓军,储雪蕾.2000. 华北北部大型-超大型矿床的特征及其形成的宏观地质背景. 地球物理学进 展,15(2):67~78.
刘伟,李新俊,谭骏.2002.内蒙古大井铜-锡-银-铅-锌矿床的流体混合作用——流体包裹体和稳定同位素证据.中国科学(D 辑),32(5):405~414.
刘永高,谭佐山,刘书金. 1999.内蒙古东部的上二叠统林西组.内蒙古地质,2:21~26.
刘勇胜, 袁洪林, 高山, 胡兆初, 王选策, 柳小明, 凌文黎.2004.汉诺坝橄榄辉石岩包体锆石 U-Pb 年龄:97~158 Ma 岩浆底侵作用和麻粒岩相变质作用之间的成因联系.科学通报,49(8): 790~797
卢欣祥, 尉向东, 董有, 于在平, 常秋玲,等. 2004a. 小秦岭-熊耳山地区金矿特征与地幔流体. 北京:地质出版社, 102~119
卢欣祥, 尉向东, 董有,等. 2004b. 小秦岭-熊耳山地区金矿特征与地幔流体. 北京: 地质出版社, 1~123
卢欣祥, 尉向东, 肖庆辉, 张宗清, 李惠民, 王 卫. 1999. 秦岭环斑花岗岩的年代学研究及其意义.高校地质学报,5(4):372~377
吕庆田, 侯增谦, 杨竹森, 史大年. 2004. 长江中下游地区的底侵作用及动力学演化模式:来自地球物理资料的约束. 中国科学(D 辑), 34(9): 783~794
吕庆田, 侯增谦, 赵金花, 史大年, 吴宣志, 常印佛, 裴荣富, 黄东定, 匡朝阳. 2003. 深地震反射剖面揭示的铜陵矿集区复杂地壳结构形态. 中国科学(D 辑), 33(5): 442~449
马鸿文. 1990. 西藏玉龙斑岩铜矿带花岗岩类与成矿. 武汉:中国地质大学出版社.
毛景文, 杜安道, 张光第, 等. 2001b. 贵州黄家湾钼镍矿地质、地球化学和 Re-Os 同位素测年. 地质学报,75(2):234~243.
毛景文, 杜安道. 2001a. 广西宝坛地区铜镍硫化物矿石 982Ma 铼-锇同位素年龄及其地质意义. 中国科学(D辑),(12):992~998.
毛景文, 李荫清. 2001c. 河北省东坪碲化物金矿床流体包裹体研究:地幔流体与成矿关系. 矿床地质,20(1):23~36.
毛景文, 王志良. 2000. 中国东部大规模成矿时限及其动力学背景的初步探讨. 矿床地质, 19(4): 289~296
毛景文, 张作衡, 余金杰,等. 2003a. 华北及邻区中生代大规模成矿的地球动力学背景: 从金属矿床年龄精测得到启示. 中国科学(D 辑), 33(4): 289~299.
毛景文,李晓峰,李厚民,等.2005a. 中国造山带内生金属矿床类型、特点和成矿过程探讨. 地质学报,79(3),342~372.
毛景文,李晓峰,王义天,等.2005b,深部流体成矿系统. 中国大地出版社,北京:1~365.
毛景文,谢桂青,李晓峰,等.2005c.大陆动力学演化与成矿研究:历史与现状.矿床地质,24(3):193~205.
毛景文,谢桂青,张作衡,等.2005d.中国北方中生代大规模成矿作用的期次及其地球动力学背景.岩石学报,21(1):169~188.
毛景文,杨建民,韩春明,王志良.2002.东天山铜金多金属矿床成矿系统和成矿地球动力学模型.地球科学-中国地质大学学报,27(4):413~424.
毛景文,张作衡,余金杰, 等. 2003b. 华北中生代大规模成矿的地球动力学背景:从金属矿床年龄精测得到启示. 中国科学(D 辑), 33(4): 289~299.
内蒙古自冶区地质矿产局.1991.内蒙古自冶区区域地质志.北京:地质出版社.1~350.
内蒙古自冶区地质矿产局.1996.内蒙古自冶区岩石地层.武汉:中国地质出版社,15~51.
内蒙古自冶区国土资源厅.2002.内蒙古自冶矿产资源总体规划.
内蒙古自治区第三地质大队.1988.白音诺铅锌矿床研究初步总结.河北地质情报,3.
聂凤军,江思宏,白大明,等.2002.北山地区金属矿床成矿规律及找矿方向.北京:地质出版社,103~134.
聂凤军,江思宏,张义,刘妍,等.2004.中蒙边境及邻区斑岩型铜矿床地质特征及成因.矿床地质.23(2):176~189.
聂凤军,裴荣富,吴良士,Arne Bjфrlykke.1994.内蒙古温都尔庙群变质火山-沉积岩钐-钕同位素研究.科学通报,39(13):1212~1214.
聂凤军,裴荣富,吴良士,张洪涛.1993.内蒙古白乃庙地区岩浆活动与金属成矿作用.北京:北京科学技术出版社,1~241.
聂凤军,裴荣富,吴良士.1995.内蒙古白乃庙地区绿片岩和花岗闪长斑岩的钕和鳃同位素研究.地球学报,1:36~44.
聂凤军,张洪涛,孙浩,樊建廷.1989a.内蒙古哈达庙金矿床地质特征及找矿探讨.矿床地质,8(2):51~60.
聂凤军,张洪涛.1989b.内蒙古哈达庙含金侵入杂岩体的基本特征及岩体成因探讨.地质论评,35(4):297~306.
牛宝贵,和政军,宋彪,等.2003.张家口群火山岩 SHRIMP 定年及其地质意义.地质通报,22(2):140~141.
裴荣富,吕凤翔,范继璋,方如恒,等.1998a.华北地块北缘及其北测金属矿床成矿系列与勘查.北京:地质出版社.1~150.
裴荣富,熊群尧.1999.中国特大型金属矿床成矿偏在性与成矿构造聚敛(场).矿床地质.18(1):37~46.
裴荣富. 1995. 中国矿床模式. 北京: 地质出版社, 1~120
裴荣富.1997.金属成矿省演化与大型矿床.矿床地质,16(2):169~170.
裴荣富.1998b.特大型矿床成矿偏在性研究-成矿物质巨量堆积动力学系统.中国学术期刊,1~2.
祁思敏,徐钰,胡晓,丁溥权.1982 内蒙温都尔庙地区铁矿的层性质和火山沉积环境.河北地质学院学报,5(2).
齐金忠, 李莉, 袁士松, 等.2005. 甘肃省阳山金矿床石英脉中锆石 SHRIMP U~Pb 年代学研究.矿床地质. 24(2):141~150
齐金忠, 马占荣, 李 莉. 2004. 河南祁雨沟金矿床成矿流体演化特征. 黄金地质,10(4): 1~10
秦克章,方同辉,王书来,等.2001.吐哈盆地南缘古生代“天窗”卡拉塔格铜金矿化区的发现及其成矿潜力.中国地质,28(3):16~23.
邱检生,McInnes B I A,徐夕生等.2004.赣南大吉山五里亭岩体的锆石 ELA-ICP-MS 定年及其与钨成矿关系的新认识. 地质论评,50(2):125~133.
曲丽莉,王莉娟,王玉往.华北克拉通北部内、外缘中生代流体成矿作用研究-以大井、蔡家营典型矿床为例.矿产与地质,193~198.
权恒.1983.内蒙东部黄岗地区花岗岩类及锡矿[J].沈阳地质矿产研究所所刊,6:95~110.
任秉琛,杨兴科,李文明,等.2001.土屋超大型斑岩铜矿成矿地质特征与矿床对比.东大山铜多金属矿床成矿过程和成矿动力学及找矿预测新技术新方法会议,99~102.
任纪舜,陈廷愚,牛宝贵,等.1992.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,1~203.
任纪舜,陈廷愚,牛宝贵等.1990.中国东部及邻区岩石圈的构造演化与成矿.北京:科学出版社.
任纪舜,王作勋,陈炳蔚,等.1999.从全球看中国大地构造[M].北京:地质出版社,1~50.
任纪舜.1984.中国东部地质构造单元划分的几个问题.地质论评,30(4).
任纪舜.1991.论中国大陆岩石圈构造的基本特征.中国区域地质,4:289~293.
任收麦,黄宝春.2002.晚古生代以来古亚洲洋构造域主要块体运动学特征初探.地球物理学进展,17(1):113~120.
任耀武. 1994 大兴安岭中南段铜多金属矿床的重要矿源层.华北地质矿产杂志,9(3):313~316.
芮宗瑶,刘玉琳,王龙生,等.2002c.新疆东天山斑岩铜矿带及其大地构造格局.地质学报,76(1):83~94.
芮宗瑶,施林道,方如恒,等.1994.华北陆块北缘及邻区有色金属矿床地质.北京:地质出版社.
芮宗瑶,王福同,李恒海,等.2001.新疆东天山斑岩铜矿带的新进展.中国地质,28(2):11~16.
芮宗瑶.2000.西北、华北、东北斑岩铜矿床研究.见涂光炽等著中国超大型矿床.北京:科学出版社,397~425.
芮宗瑶等.2002b.国内外斑岩型铜矿研究新进展.北京:中国地质调查局,1~44.
邵和明,张履桥. 2001.内蒙古自治区主要成矿区(带)和成矿系列.1~243.
邵济安,洪大卫,张履桥. 2002.内蒙古火成岩 Sr-Nd 同位素特征及成因. 地质通报. 21(12):817~822.
邵济安,唐克东.1996.蛇绿岩与古蒙古洋的演化.蛇绿岩与地球动力学研究.北京:地质出版社,117~120.
邵济安,张履桥,牟保垒,等.1998.大兴安岭中南段中生代的构造热演化.中国科学(D 辑),28(3):193~200.
邵济安,张履桥.1999.大兴安岭中生代伸展造山过程中的岩浆作用.地学前缘(中国地质大学,北京),6(4):339~346.
邵济安,张履桥.2002b.华北北部中生代岩墙群.岩石学报,18(3):312~318.
邵济安.1986.内蒙古中部早古生代的蛇绿岩及其在恢复地壳演化历史中的意义.中国板块构造论文集,第1集.北京:地质出版社,158~172.
邵济安.1991.中朝板块北缘中段地壳演化.北京:北京大学出版社,1~135.
沈存利,苏宏伟,王守光.2004.内蒙古铜矿床区域成矿特征初步研究.西北地质.37(3):44~50.
沈谓洲,凌洪飞,李武显,等.1999.中国东南部花岗岩类Nd-Sr同位素研究. 高校地质学报,5(1):22~32.
沈渭洲,徐士进,王银喜,等.1994 西华山花岗岩的 Nd-Sr 同位素研究.科学通报,39(2):154~156.
盛继福,付先政.1997.突泉-天山地区铜多金属矿床地质及成矿模 式.见:赵一鸣,张德全,主编.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价.北京:地震出版社.107~124.
盛继福,傅先政.1999.大兴安岭中段成矿环境与铜多金属矿床地质特征.北京:地震出版社,1~125.
施俊法, 肖庆辉. 2004. 经验勘查与理论勘查的发展趋势.地质通报, 23(8): 809~815
孙德有,吴福元,李惠民,林强.2000.小兴安岭西北部造山后A型花岗岩的时代及与索伦山-贺根山-扎赉特碰撞拼合带东延的关系.科学通报,2217~2222.
孙丰月, 石准立, 冯本智. 1998. 胶东金矿地质及幔源 C-H-O 流体分异成岩成矿. 长春: 吉林人民出版社, 1~170.
唐克东,颜竹药,张允平,等.1983.关于温都尔庙群及其构造意义.中国北方板块构造文集,第1集,中国地质科学院沈阳地质矿产研究所.
唐克东.1992.中朝板块北侧褶皱带构造演化及其成矿规律.中国北方板块构造丛书,北京大学出版社.
陶继雄,苏茂荣,宝音乌力吉,白立兵.2004.内蒙古达尔罕茂明安联合旗满都拉地区索伦山蛇绿混杂岩的特征及构造意义.地质通报,23(12):1238~1242.
万天丰.2004.中国大地构造学纲要.北京:地质出版社,387~400.
王宝德, 牛树银, 孙爱群, 李红阳. 2003. 冀北地区金矿床氦、氩、铅同位素组成及其成矿物质来源. 地球化学, 32(2), 181~187
王登红,陈毓川,徐志刚,等.2002.阿尔泰成矿省的成矿系列及成矿规律.北京:原子能出版社.
王东方.1985.关于温都尔庙群内涵、时代问题的讨论及其在板块会聚带构造发展中的意义.地质论评,31(5).
王东方.1987.华北地台北缘地质构造演化及多金属成矿带的构造控制问题.矿床地质,6(3).
王东方.1992.中朝陆台北缘大陆构造地质[M].北京:地震出版社,62~196.
王非,朱日祥,李齐,等.2004.秦岭造山带的差异隆升特征-花岗岩 40Ar/39Ar年代学研究的证据. 地学前缘,11(4): 445~459.
王高尚,唐建,范世家,等.2005.世界矿产品概要.国家发改委储备局,中国地质科学院全球矿产资源战略研究中心(内部资料).1~241
王楫.1989.华北地台北缘西段裂谷系构造特征及其成矿.内蒙古地质,(1).
王魁元,赵彦明,曹秀秀兰.1989.华北陆台北缘元古宙的铅锌矿.前寒武纪地质,4.
王莉娟,岛崎英彦,王京彬,等.2001.黄冈梁夕卡岩型铁锡矿床成矿流体及成矿作用.中国科学D辑, ,31(7):553~562.
王莉娟,王京彬,王玉往,等. 2004 .内蒙古东部与夕卡岩型矿床有关的花岗岩氧同位素特征-以浩布高矿床为例.地质论评,5: 513~560.
王荃,刘雪亚,李锦轶.1991.中国华夏与安加拉古陆间的板块构造.北京:北京大学出版社,19~32.
王守光,黄占起,苏新旭,等.2004一条值得重视的跨国境成矿带-南戈壁-东乌旗铜多金属成矿带.地学前缘(中国地质大学,北京),11(1):250~255.
王希斌,鲍佩声,戎合. 1995.中国蛇绿岩中变质橄榄岩的稀土元素地球化学.岩石学报,11(增刊):24~41.
王学求.2000.巨型矿床与大型矿集区勘查地球化学.矿床地质,19(1):76~87.
王义天, 毛景文, 卢欣祥, 叶安旺. 2002. 河南小秦岭金矿区Q875脉中深部矿化蚀变岩的40Ar/39Ar年龄及其意义. 科学通报, 47(18): 1427~1431.
王义天, 毛景文, 卢欣祥. 2001. 嵩县祁雨沟金矿成矿时代的 40Ar/ 39Ar 年代学证据. 地质论评, 47(5): 551~555.
王玉往,曲丽莉,王京彬,等.2002.大井锡多金属矿床矿石矿物成分及时空演化.矿床地质,21(1):23~35.
王玉往,王京彬,王莉娟,等.2002.内蒙古大井矿床中银矿物的研究.地质论评,48(5):526~533.
王喻.1995.中国东部内蒙古-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,1~132.
王之添,张树文,孙树人,等. 1997.大兴安岭东南缘成矿集中区成矿演化特征与找矿潜力.有色金属矿产与勘查, 6,增刊:4~12.
王之田,秦克章,张守林.1994.大型铜矿地质与找矿.北京:冶金工业出版社.1~162.
王之田,秦克章.1988.乌奴格吐山下壳源斑岩铜钼矿床地质地球化学特征与成矿物质来源.矿床地质,7(4).
韦永福.1994.中国金矿床.北京:地震出版社.
吴福元,江博明,林强.1997 中国北方造山带造山后花岗岩的同位素特点与地壳生长意义. 科学通报,42(20):2188~2192.
吴华, 李华芹, 莫新华, 陈富文, 路远发, 梅玉萍, 邓岗.2005. 新疆哈密白石泉铜镍矿区基性—超基性岩的形成时代及其地质意义.79(4): 498~502.
吴建平,曾融生,明跃红.1998.中国北部及蒙古地区上地幔 P 波速度结构的研究.地震学报,20(6):580~589.
吴良士, 邹晓秋. 1997. 江西城门山铜矿铼-锇同位素年龄研究.矿床地质, 16(4): 376~381.
肖成东,付国立,赵利青. 2000.内蒙古锡盟-赤峰北部板块构造演化与金矿床. 黄金地质,6(2):17~20.
肖序常,汤跃庆,李锦轶,等.1991.古中亚复合巨型缝合带南缘构造演化.北京:北京科学技术出版社,1~25.
徐备,陈斌,张臣,等.1994.华北板块北缘中段含铁变质岩系的时代和构造环境初探.地质论评,307~311.
徐备,陈斌.1997.内蒙古北部华北板块与西伯利亚板块之间中古生代造山带的结构及演化.中国科学,27(3):227~232.
徐克勤,孙鼐.1982.华南花岗岩成因与成矿.南京:南京大学出版社,41.
徐志刚,赵一鸣,张德全.1995.大兴安岭及其邻区铜多金属成矿地质背景、成矿系列、找矿标志及预测."八五"国家科技攻关计划专题成果报告.
徐志刚.1993.内蒙古东南部铜多金属矿床成矿构造背景.大兴安岭及邻区铜多金属矿床论文集.北京:地震出版社.
徐志刚.1997.大兴安岭及其邻区构造演化及控矿作用.见:赵一鸣,张德全主编.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价.北京:地震出版社,1~21.
杨经绥,许志琴,斐先治,等.2002 秦岭发现金刚石横贯中国中部巨型超高压变质带新证据及古生代和中生代两期深俯冲作用的识别.地质学报,76(4)484~495.
叶杰,刘建明,张安立,张瑞斌.2002.沉积喷流型矿化的岩石学证据.岩石学报,18(4):585~591.
叶天竺.2004.固体矿产预测评价方法技术.北京:中国地质大学出版社,128-171.
翟裕生,邓军,李晓波.1999b.区域成矿学.北京:地质出版社,186~261.
翟裕生,润民,向运川. 2004.区域成矿研究法.北京:中国大地出版社.
翟裕生. 1999a. 论成矿系统. 地学前缘. 6(1):13~26.
翟裕生.1996.成矿系列研究.北京:中国地质大学出版社.
张臣,吴泰然.1998.内蒙古温都尔庙群变质基性火山岩Sm-Nd、Rb-Sr同位素年代研究.地质科学,33(1):25~30.
张臣,吴泰然.1999.内蒙古苏左旗南部早古生代蛇绿混杂岩特征及其构造意义地质科学,34(3):381~389.
张春华.2004.内蒙古大井锡多金属矿床矿石的物质成分及特征.矿产与地质,2004,18(1):13~17.
张德全,艾霞,鲍修坡.1994.黄岗-甘珠尔庙中生代活化区有色金属矿床.见芮宗瑶等(1994)著:华北陆块北缘及邻区有色金属矿床地质.314~363.
张德全,鲍修波.1990.内蒙古白音诺中酸性火山-深成杂岩体的岩石学、地球化学与成因研究.地质论评,36(4).
张德全.1993.大兴安岭南段不同构造环境中的两类花岗岩. 岩石矿物学杂志. 1993,12(1):1~11.
张建中,戴云,金宜声.1999.中国大陆 1∶500 万剩余重力异常与大地构造的关系.物探化探计算技术,21(4):333~337.
张炯飞,庞庆邦,朱群,等.2003.试论与埃达克岩有关的热液矿床成因类型和成矿系列-以中国北方若干矿床为例.地质与资源,12(3): 171~176.
张理刚.1995a.东亚岩石圈块体地质.北京:科学出版社,1~252.
张理刚.1995b.东亚岩石圈块体地质-上地幔、基底和花岗岩同位素地球化学及其动力学.北京:科学出版社,153~173.
张连昌, 沈远超, 李厚民等. 2002. 胶东地区金矿床流体包裹体的 He、Ar 同位素组成及成矿流体来源示踪. 岩石学报,18(4), 559~565
张旗,钱青,王二七,等.2001.燕山中晚期的“中国东部高原”:埃达克岩的启示.地质科学,36(2):248~255.
张乾,潘家永,邵树勋.2000.中国某些金属矿床矿石铅来源的铅同位素诠释.地球化学,29(3):231~238.
张荣华,胡书敏.1989.高温高压的流动溶液内矿物-水反应动力学研究.中国科学B辑, (11): 1212~1222.
张义,聂凤军,江思宏,胡朋.2003.中蒙边境欧玉陶勒盖大型铜-金矿床的发现及对找矿勘查工作的启示.地质通报,22(9):709~712.
张作衡,毛景文,杨建民,等. 2002. 北祁连加里东造山带塔儿沟夕卡岩-石英脉型钨矿床地质及成因.矿床地质,21(2): 200~211.
赵国龙,杨桂林,傅嘉友,等.1989.大兴安岭中南部中生代火山岩.北京:北京科学技术出版社,25~87.
赵太平, 翟明国, 夏斌,等.2004. 熊耳群火山岩锆石 SHRIMP 年代学研究:对华北板块盖层发育初始时间的制约. 科学通报, 49(22):2342~2349.
赵一鸣,王大畏,张德全,等. 1994.内蒙古东南部铜多金属成矿地质条件及找矿模式.北京:地震出版社.
赵一鸣,张德全,等. 1997.大兴安岭及其邻区铜多金属矿床成矿规律与远景评价. 北京:地震出版社.,125~144.
赵越,崔盛芹,郭涛,徐刚.2002.北京西山侏罗纪盆地演化及其构造意义.地质通报,21(4-5):211~217.
郑建平, 路凤香, 郭晖, 任迎新. 1994. 金刚石中流体包裹体的研究. 科学通报, 39(3): 253~256.
郑永飞,陈江峰. 2000. 稳定同位素地球化学. 北京:科学出版社.
中国地质调查局.2002.国内外斑岩型铜矿研究进展.1~277.
中国地质科学院.1982.中国地层概论.北京:地质出版社.
中国科学院贵阳地球化学研究所.1979.华南花岗岩类地球化学.北京:科学出版社.
周安朝.2000.华北地块北缘晚古生代盆地演化及盆山耦合关系.西北大学博士学位论文.
朱炳泉,常向阳.2001.地球化学省与地球化学边界.地球科学进展,16(2):153~162.
朱炳泉.1993.矿石 Pb 同位素三维空间拓扑图解用于地球化学省划分与矿种区划.地球化学,(3):209~216.
朱炳泉.1997.地球科学中同位素体系理论与应用.北京:科学出版社,1~321.
朱炳泉.1998.壳幔化学不均一性与块体地球化学边界研究.地学前缘(中国地质大学,北京),5(1-2):72~82.
朱嘉伟, 张天义, 薛良伟. 1999. 豫西崤山地区金矿成矿年龄的测定及其意义. 地质论评,45(4): 418~422.
朱介寿,曹家敏,李显贵,等.1997.中国及其邻区地球三维结构初始模型的建立.地球物理学报,40(5):627~650.
朱赖民,胡瑞忠,袁海华,栾世伟. 1997.热液改造成矿机制—四川底苏铅锌矿床成矿作用研究.四川地质学报, 17(3):182~190.
朱训等.1983. 德兴斑岩铜矿. 北京: 地质出版社.
左国朝,金松桥,何国琦,等.1987.北山地区白云山-洗肠井一带早古生代蛇绿岩带推覆构造及蛇绿岩混杂体的发现中国北方板块构造论文集,第2集.北京:地质出版社,51~58.