Investigating dynamic mechanisms of geological phenomena using methodology of computational geosciences:An example of equal-distant mineralization in a fault 被引量：5

Investigating dynamic mechanisms of geological phenomena using methodology of computational geosciences:An example of equal-distant mineralization in a fault

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摘要 This paper presents a research methodology associated with approximately a decade old computa- tional geosciences. To demonstrate how it can be used to investigate the dynamic mechanisms of geological phenomenon, we use as an example the equal-distant distribution of gold deposits in a three-dimensional permeable fault within the Yilgarn Craton, Western Australia. The related numerical results demonstrate that: (1) convective pore-fluid flow in fluid-saturated porous media is the control- ling dynamic mechanism leading to the equal-distant distribution of gold deposits along the fault; (2) the main characteristic of the new methodology is to change the traditionally used empirical, descrip- tive and qualitative methodology into the fundamentally scientific principles based predictive and quantitative methodology. Thus, this new methodology provides a modern scientific research tool for investigating the dynamic mechanisms associated with observed geological phenomena in nature. This paper presents a research methodology associated with approximately a decade old computational geosciences. To demonstrate how it can be used to investigate the dynamic mechanisms of geological phenomenon, we use as an example the equal-distant distribution of gold deposits in a three-dimensional permeable fault within the Yilgarn Craton, Western Australia. The related numerical results demonstrate that: (1) convective pore-fluid flow in fluid-saturated porous media is the controlling dynamic mechanism leading to the equal-distant distribution of gold deposits along the fault; (2) the main characteristic of the new methodology is to change the traditionally used empirical, descriptive and qualitative methodology into the fundamentally scientific principles based predictive and quantitative methodology. Thus, this new methodology provides a modern scientific research tool for investigating the dynamic mechanisms associated with observed geological phenomena in nature.

作者 B.E.HOBBS A.ORD

机构地区 CSIRO Division of Exploration and Mining

出处《Science China Earth Sciences》 SCIE EI CAS 2008年第7期947-954,共8页 中国科学（地球科学英文版）

关键词 COMPUTATIONAL GEOSCIENCES research METHODOLOGY GEOLOGICAL PHENOMENA dynamic mechanisms computational geosciences research methodology geological phenomena dynamic mechanisms

分类号 P611 [天文地球—矿床学]

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参考文献2

1郑海山,张中杰.横向各向同性(VTI)介质中非线性地震波场模拟[J].地球物理学报,2005,48(3):660-671. 被引量：36
2林舸,C B ZHAO,王岳军,B E HOBBS,龚纪文.含矿流体混合反应与成矿作用的动力平衡模拟研究[J].岩石学报,2003,19(2):275-282. 被引量：16

二级参考文献4

1周辉,徐世浙,刘斌,何樵登.各向异性介质中波动方程有限元法模拟及其稳定性[J].地球物理学报,1997,40(6):833-841. 被引量：21
2徐晓春,岳书仓,潘成荣,谢巧勤.河南桐柏老湾花岗岩岩浆动力学与成矿[J].岩石学报,2001,17(2):245-253. 被引量：15
3杨顶辉.双相各向异性介质中弹性波方程的有限元解法及波场模拟[J].地球物理学报,2002,45(4):575-583. 被引量：85
4郑海山,张中杰,杨宝俊.A numerical study of 1-D nonlinear P-wave propagation in solid[J].地震学报,2004,26(1):77-83. 被引量：10

共引文献49

1邓军,高帮飞,王庆飞,杨立强.成矿流体系统的形成与演化[J].地质科技情报,2005,24(1):49-54. 被引量：29
2林舸,赵重斌,张晏华,王岳军,单业华.地质构造变形数值模拟研究的原理、方法及相关进展[J].地球科学进展,2005,20(5):549-555. 被引量：16
3郑海山,张中杰,田小波.VTI介质中非线性对地震波频率和频宽变化的约束[J].地球物理学报,2006,49(3):885-894. 被引量：8
4王忠仁,林君,冯声涯.地震勘探中相控阵震源的方向特性研究[J].地球物理学报,2006,49(4):1191-1197. 被引量：18
5李景叶,陈小宏.TI介质地震波场数值模拟边界条件处理[J].西安石油大学学报（自然科学版）,2006,21(4):20-23. 被引量：11
6魏祥荣,林舸,龙期华,周叶.江西相山邹家山-石洞断裂带及其控矿作用[J].铀矿地质,2006,22(5):281-289. 被引量：45
7李景叶,陈小宏.横向各向同性介质地震波场数值模拟研究[J].地球物理学进展,2006,21(3):700-705. 被引量：19
8王忠仁,陈祖斌,张林行,柴治媛.可控震源非线性扫描地震响应的数值模拟[J].地球物理学进展,2006,21(3):756-761. 被引量：12
9郝重涛,姚陈.任意空间取向TI介质中体波速度特征[J].地球物理学报,2007,50(2):546-555. 被引量：26
10牛滨华,孙晟,孙春岩,黄新武,李佳.地震波的场方程矩阵和能量的正定二次型及其意义[J].地球物理学进展,2007,22(2):353-358. 被引量：4

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1Zeng Yunfu, Liu Wenjun, Cheng Hongde, Zheng Rongcai, Zhang Jinquan Chengdu Institute of Technology, Chengdu, SichuanLi Xiaoquan and Jiang Tingcao Regional Geological Survey Party of Guangxi,Guilin,Guangxi Jiang M inxi.Evolution of Sedimentation and Tectonics of the Youjiang Composite Basin, South China[J].Acta Geologica Sinica(English Edition),1995,69(4):358-371. 被引量：19
2张国伟,程顺有,郭安林,董云鹏,赖绍聪,姚安平.秦岭-大别中央造山系南缘勉略古缝合带的再认识——兼论中国大陆主体的拼合[J].地质通报,2004,23(9):846-853. 被引量：232
3周涛发,岳书仓,袁峰.安徽月山矿田铜、金矿床氢氧同位素地球化学及成矿流体输运-化学反应成矿动力学[J].安徽地质,2001,11(2):131-139. 被引量：7
4韩发,沈建忠,R W 哈钦森.冰长石——大厂锡-多金属矿床同生成因的标志矿物[J].矿床地质,1993,12(4):330-337. 被引量：9
5蔡明海,梁婷,吴德成,黄惠民.广西丹池成矿带构造特征及其控矿作用[J].地质与勘探,2004,40(6):5-10. 被引量：65
6张东宁,许忠淮.青藏高原现代构造应力状态及构造运动的三维弹粘性数值模拟[J].中国地震,1994,10(2):136-143. 被引量：21
7林舸,赵重斌,张晏华,王岳军,单业华.地质构造变形数值模拟研究的原理、方法及相关进展[J].地球科学进展,2005,20(5):549-555. 被引量：16
8崔学军,夏斌,张宴华,刘宝明,王冉,闫义.地幔活动在南海扩张中的作用数值模拟与讨论[J].大地构造与成矿学,2005,29(3):334-338. 被引量：15
9张东宁,高龙生.东亚地区应力场的三维数值模拟[J].中国地震,1989,5(4):24-33. 被引量：26
10马润勇,席先武,彭建兵,赵法锁,李喜安.青藏高原递进式隆升的力学模式[J].大地构造与成矿学,2005,29(4):451-458. 被引量：9

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2Minghui Ju,Chongbin Zhao,Tagen Dai,Jianwen Yang.Finite element modeling of pore-fluid flow in the Dachang ore district,Guangxi,China:Implications for hydrothermal mineralization[J].Geoscience Frontiers,2011,2(3):463-474. 被引量：8
3陈振坤,苏金宝,陆艺.中国造山带动力学研究中的数值模拟应用与发展[J].地质力学学报,2019,25(2):151-165. 被引量：1
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5ZHAO Chong-bin,Bruce HOBBS,Alison ORD.Finite element modeling of convective pore-fluid flow in fluid-saturated porous rocks within upper crust:An overview[J].Journal of Central South University,2019,26(3):501-514. 被引量：2

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1Guoxiang Chi Department of Geology,University of Regina, Regina,Saskatchewan,Canada Chunji Xue State Key Laboratory of Geological Processes and Mineral Resources,China University of Geosciences, Xueyuan Road 29,Beijing 100083,China.Introduction to thematic section on hydrodynamic studies of mineralization[J].Geoscience Frontiers,2011,2(3):421-422.
2Guoxiang Chi,Chunji Xue.An overview of hydrodynamic studies of mineralization[J].Geoscience Frontiers,2011,2(3):423-438. 被引量：14
3池国祥,薛春纪.成矿流体动力学的原理、研究方法及应用[J].地学前缘,2011,18(5):1-18. 被引量：31
4朱江建,陈广浩,曾乔松,龚贵伦,易金,龚朝阳,黄栋林,林舸.综合找矿方法在河台金矿找矿预测中的应用[J].大地构造与成矿学,2012,36(2):240-247. 被引量：10
5贾蔡,袁峰,张明明,李晓晖,周涛发,邵尉,郑通科,高道明.宁芜盆地白象山铁矿床成矿作用过程数值模拟[J].岩石学报,2014,30(4):1031-1040. 被引量：14
6ZHAO ChongBin,HOBBS Bruce,ORD Alison.A unified theory for sharp dissolution front propagation inchemical dissolution of fluid-saturated porous rocks[J].Science China(Technological Sciences),2019,62(1):163-174. 被引量：3
7ZHAO ChongBin.Advances in numerical algorithms and methods in computational geosciences with modeling characteristics of multiple physical and chemical processes[J].Science China(Technological Sciences),2015,58(5):783-795. 被引量：4
8戴黎明,李三忠,刘泽,胡梦颖,刘连启,杨彦峰.车镇凹陷大1断层对区域油气成藏控制作用的三维数值模拟[J].大地构造与成矿学,2016,40(1):47-57. 被引量：3
9刘亮明,曹伟.铜官山矿田深部构造的三维计算模拟及其找矿意义[J].大地构造与成矿学,2016,40(5):928-938. 被引量：1
10赵义来,胡荣国.复杂地质体离散化三维网格模型建模方法探讨——以面向FLAC^(3D)软件的建模为例[J].南方国土资源,2017(6):23-26. 被引量：1

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2冯向东,魏东平,陈棋福.Discussion on the dynamic mechanism of Great North China area based on the observed stress data[J].Acta Seismologica Sinica(English Edition),2005,18(1):1-11.
3Ping WU,Yihui DING,Yanju LIU.Atmospheric Circulation and Dynamic Mechanism for Persistent Haze Events in the Beijing–Tianjin–Hebei Region[J].Advances in Atmospheric Sciences,2017,34(4):429-440. 被引量：63
4杨建文.Hydrothermal fluid circulation in anisotropic permeable media associated with discrete fractures[J].中国有色金属学会会刊：英文版,2000,10(4):542-547.
5Wu Ganguo Zhang Da Faculty of Earth Sciences and Mineral Resources, China University of Geosciences, Beijing 100083, China Chen Bailin Institute of Geomechanics, CAGS, Beijing 100081, China Wu Jianshe Institute of Geological Survey of Fujian Pr.Post-Mesozoic Transformation of Tectonic Domain in Southeastern China and Its Geodynamic Mechanism[J].Journal of Earth Science,2000,19(3):94-98. 被引量：12
6Journal of Geoscientific Research in Northeast Asia[J].Journal of Geoscientific Research in Northeast Asia,2005,8(1).
7WANG Ge-Li,YANG Pei-Cai.Projections of Global Mean Surface Temperature Under Future Emissions Scenarios Using a New Predictive Technique[J].Atmospheric and Oceanic Science Letters,2014,7(3):186-189. 被引量：1
8闫淑莲,周淑玲,李宏江.DIAGNOSTIC ANALYSIS OF A RAINSTORM IN SHANDONG PENINSULA INFLUENCED BY A DISTANT TROPICAL DEPRESSION[J].Journal of Tropical Meteorology,2008,14(1):73-76.
9Zhang Guomin,Shao Zhigang,Liu Guiping,Ma Hongsheng.The Geodynamic Mechanism of the M_S8.0 Wenchuan Earthquake[J].Earthquake Research in China,2009,23(3):266-277.
10FENG Ming.Eddy-induced cross-shelf phytoplankton transport along the downwelling coast off Western Australia[J].热带海洋学报,2009,28(5):6-10. 被引量：1

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