对江南-雪峰带构造属性的讨论

讨论了江南-雪峰山“隆起带”的性质问题,它既不是造山带的“厚皮构造”,也不属于沉积盖层褶皱的“薄皮构造”,而是“过渡型的基底拆离式”的构造。其发生机制是印支—早燕山运动期间由SE向NW(同时派生由S向N、由E向W)的基底拆离和推覆,成为控制整个扬子板块海相中古生界盆地改造变形的动力来源和主导因素,也控制了海相油气的形成与聚集。     

Geology and Metallogenesis of the Sawayaerdun Gold Deposit in the Southwestern Tianshan Mountains, Xinjiang, China

The Sawayaerdun gold deposit, located in Wuqia County, Southwest Tianshan, China, occurs in Upper Silurian and Lower Devonian low‐grade metamorphic carbonaceous turbidites. The orebodies are controlled by a series of NE‐NNE‐trending, brittle–ductile shear zones. Twenty‐four gold mineralized zones have been recognized in the Sawayaerdun ore deposit. Among these, the up to 4‐km‐long and 200‐m wide No. IV mineralized zone is economically the most important. The average gold grade is 1–6 g/t. Gold reserves of the Sawayaerdun deposit have been identified at approximately 37 tonnes and an inferred resource of 123 tonnes. Hydrothermal alteration is characterized by silicification, pyritization, arsenopyritization, sericitization, carbonatization and chloritization. On the basis of field evidence and petrographic analysis, five stages of vein emplacement and hydrothermal mineralization can be distinguished: stage 1, early quartz stage, characterized by the occurrence of quartz veins; stage 2, arsenopyrite–pyrite–quartz stage, characterized by the formation of auriferous quartz veinlets and stockworks; stage 3, polymetallic sulfide quartz stage, characterized by the presence of auriferous polymetallic sulfide quartz veinlets and stockworks; stage 4, antimony–quartz stage, characterized by the formation of stibnite–jamesonite quartz veins; and stage 5, quartz–carbonate vein stage. Stages 2 and 3 represent the main gold mineralization, with stage 4 representing a major antimony mineralization episode in the Sawayaerdun deposit. Two types of fluid inclusion, namely H₂O–NaCl and H₂O–CO₂–NaCl types, have been recognized in quartz and calcite. Aqueous inclusions show a wide range of homogenization temperatures from 125 to 340°C, and can be correlated with the mineralization stage during which the inclusions formed. Similarly, salinities and densities of these fluids range for each stage of mineralization from 2.57 to 22 equivalent wt% NaCl and 0.76 to 1.05 g/cm³, respectively. The ore‐forming fluids thus are representative of a medium‐ to low‐temperature, low‐ to medium‐salinity H₂O–NaCl–CO₂–CH₄–N₂ system. The δ³⁴S_CDT values of sulfides associated with mineralization fall into a narrow range of ?3.0 to +2.6‰ with a mean of +0.1‰. The δ¹³C_PDB values of dolomite and siderite from the Sawayaerdun gold deposit range from ?5.4 to ?0.6‰, possibly reflecting derivation of the carbonate carbon from a mixed magmatic/sedimentary source. Changes in physico‐chemical conditions and composition of the hydrothermal fluids, water–rock exchange and immiscibility of hydrothermal fluids are inferred to have played important roles in the ore‐forming process of the Sawayaerdun gold–antimony deposit.     

青海滩间山金矿床成矿模式

滩间山金矿床位于柴达木地块北缘,产于中元古界蓟县系万洞沟群碳质糜棱片岩和华力西晚期侵入岩中。矿床形成与柴北缘区域地壳多阶段演化和多次成矿作用有关,属多因复成矿床。矿床是在热水沉积、区域变质、热变质等预富集的基础上,与区域绿片岩相韧性剪切带的退化演化同步,经历了脆韧性、韧脆性和脆性剪切变形成矿阶段的演化并遭受华力西晚期侵入岩浆活动的叠加改造形成的。成矿物质来自容矿黑色岩系和华力西晚期侵入岩。     

东天山秋格明塔什黄山韧性剪切带变形特征分析

东天山秋黄韧性剪切带位于新疆东部两大板块碰撞接合地带,东西延长逾６００ｋｍ,由石炭系组成,规模巨大,分带明显,宏微观变形标志清晰,石英Ｃ轴组构呈点极密型,分为四期变形,序列演化明显,应变测量属平面单剪,剪切位移量达７５ｋｍ以上,存在脆韧性变形转换,变形时代为海西中晚期,强弱应变相间排列的标度不变性特征明显,变形机制属地壳中深层次塑性流变和韧性剪切,与板块间的俯冲碰撞构造演化密切相关。控制着金铜矿分布。     

江山—绍兴断裂带中的金矿─—以桐树林～潘村韧性剪切带为例

以江山—绍兴断裂带北东端桐树林～潘村韧性剪切带中的金矿特征为例,阐述韧性剪切带与金矿化的关系,认为该韧性剪切带对金矿的成矿和窑矿具明显的控制作用,剪切带与神功期石英闪长岩的接触部位是金矿分布的有利地段。剪切带内浅色蚀变带和糜棱岩带及成群出现的含碎裂状黄铁矿的石英脉是良好的找金标志。根据韧性剪切带具有长期多次活动、产状变化复杂的特点,今后应注意在剪切带深部寻找工业矿体。     

简单剪切——中国活动构造变形主要机制

采用简单剪切对中国活动的构造组合进行解译,提出简单剪切是主要变形机制,着重对简单剪切依据进行了论述,对简单剪切与老构造的关系作了初步讨论,提出需要继续探讨的主要问题。     

韧性剪切过程中金沉淀富集的新机制

一般认为,金的沉淀是因为成矿热液在宏观上已达到金络合物失稳、分解的条件。笔者认为金在黄铁矿、毒砂等硫化物矿物中富集的原因,是这些矿物生长时造成了在其生长面附近的微区内会出现Ｅｈ值及（或）Ｓ＾２－、［ＡｓＳ］＾３－等浓度的局部降低,以致引起了金络合物在此微区内的失稳、分解,分解出来的金将就近附着在矿物的生长面上及随后被包围。成矿热液此时在宏观上不一定已达到金络合物的分解条件。韧性剪切过程中石英普遍会     

Laboratory modelling of shear behaviour of soft joints under constant normal stiffness conditions

Shear behaviour of regular sawtooth rock joints produced from casting plaster are investigated under constant normal stiffness (CNS) conditions. Test results obtained in this investigation are also compared with the constant normal load (CNL) tests. It is observed that the peak shear stress obtained under CNL conditions always underestimates the peak shear stress corresponding to the CNS condition. Plots of shear stress against normal stress show that a nonlinear (curved) strength envelope is acceptable for soft rock joints subjected to a CNS condition, in comparison with the linear or bilinear envelopes often proposed for a CNL condition. Models proposed by Patton (1966) and Barton (1973) have also been considered for the predictions of peak shear stress of soft joints under CNS conditions. Although Patton's model is appropriate for low asperity angles, it overestimates the shear strength in the low to medium normal stress range at higher asperity angles. In contrast, while Barton's model is realistic for the CNL condition, it seems to be inappropriate for modelling the shear behaviour of soft joints under CNS conditions. The effect of infill material on the shear behaviour of the model joints is also investigated, and it is found that a small thickness of bentonite infill reduces the peak stress significantly. The peak shear stress almost approached that of the shear strength of infill when the infill thickness to asperity height ratio (t/a) reached 1.40. This paper also introduces an original, empirical shear strength envelope to account for the change in normal stress and surface degradation during CNS shearing. © Rapid Science Ltd. 1998     

Experimental study on the mechanism of non-synchronism of seismo-electromagnetic radiation precursors

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P–T–t paths and post-metamorphic exhumation of the Day Nui Con Voi shear zone in Vietnam

The Day Nui Con Voi belt in Vietnam is the southeasternmost part of the Red River shear zone in Asia. It is a narrow high-grade metamorphic core complex consisting of garnet–sillimanite–biotite gneisses, mylonite bands, amphibolite layers and migmatites. Geothermobarometric study of the complex revealed that the peak metamorphism took place under amphibolite-facies conditions of 690₋₆₀⁺³⁰°C and 0.65±0.15 GPa and the subsequent mylonitization occurred under greenschist-facies conditions of 480°C and under 0.3 GPa. Fifteen synkinematic hornblende and biotite separates from gneisses, amphibolites and mylonites were dated with the K/Ar method. Hornblende separates from the Day Nui Con Voi give K–Ar ages of 26.4–28.5 Ma, and the biotite separates do give 24.5–24.7 Ma. Combination of thermobarometric and geochronological data yields the cooling history of 500°C at 28 Ma and 300°C at 24 Ma with a cooling rate of 70–110°C Ma⁻¹, and 23 km post-metamorphic exhumation of the core complex. The first 16 km exhumation from the peak of metamorphism (at probably 31 Ma) to 28 Ma was triggered by the left-lateral strike-slip displacement of the Red River shear zone.