吉林通化南岔式金矿地质—地球物理—地球化学综合找矿模型

老岭成矿带为吉林省最重要的贵金属、有色金属成矿带，南岔金矿是该成矿带近几年新发现的金矿床。在阐述南岔金矿成矿地质条件、岩（矿）石物性参数特征、地球物理场、地球化学特征的基础上，归纳并提取了控矿地质因素和物化控找矿标志，从而建立了“南岔式”金矿的地质－地球物理－地球化学找矿模型。     

云南墨江金矿床硅质岩的地质地球化学特征及其意义

墨江金矿床厂组中下段硅质岩具有典型的沉积构造，岩石富集∑Fe和As 、Sb、Bi、Ga等微量元素（相对于地壳克拉克值），而相对贫AI2O3；稀土元素以总量（∑REE）低，负铈异常为特征，与热水沉积的硅质岩特征相似。在判别硅质岩形成与作用的一系列主量和微量元素图解上，本区的硅质岩位于热水沉积作用范围，但四十八两山段硅质岩有趋近于正常化学沉积作用。利用硅质岩的氧同位素计算出它的形成温度为128－146℃。地质、地球化学特征表明本区硅质岩的形成与热水沉积作用有关，但四十八两山段硅质岩受到正常化学沉积作用的影响。、     

滇西上芒岗金矿床地质地球化学特征

上芒岗金矿由下部原生卡林型和上部 红色粘土型金矿体所组成，赋矿地层为侏罗系勐戛组砂泥质岩、白云质灰岩和二叠系沙子坡组泥硅质灰岩、白云岩。北东向上芒岗断裂构造与不整合面和岩溶的复合控制了矿床和矿体。围岩蚀变以硅化（似碧玉岩化）、黄铁矿化、碳酸盐化和粘土化为主，并具有水平与垂向分带性。地球化学研究表明，蚀变与矿化岩石的稀土含量与未蚀变泥质灰岩基本一致，成矿溶液为富CI^－型和富SO4^2-型，爆裂温度为183－378℃，δ^34S=6.471‰-21.965‰，δ^18O=9.3‰-11.6‰，δD=-70‰--77‰，^206Pb/^204Pb=19.551-20.05,^207Pb/^204Pb=15.690-16.240,^208Pb/^204Pb=38.710=40.137。红色粘土型矿石的红土化作用只达到粘土阶段。     

北衙红色粘土型金矿地质特征和成矿条件

本文系统研究了北衙红色粘土型金矿的地质特征和矿床类型，并从金矿产出的地质背景入手，分析其形成条件，认为是本区很有代表性的一种新的金矿类型，对矿区增储和区域找矿具有重大意义。     

浅成热液金矿研究综述

厘定了浅成热液金矿的概念，阐述了其成矿地球动力学环境，矿床本质特征及矿床的分类，指出了浅成熟液金矿研究中存问题及今后的研究取向。     

石油对金的活化迁移作用的研究初探

在测定原油中金浓度和对相关岩心样品中金分析的基础上，初步研究了原油对岩石中金的活化迁移作用。结果表明，原油中的金浓度与对应的岩心样品中含金量呈正相关性，原油对岩石中金具有较强的活化迁移作用，为原油对金的相互作用的研究提供了重要的实验基础。     

地震勘探在山东蓬家夼金矿深部预测中的应用

在分析了石油地震与金属矿地震不同点的基础上，简介了地震勘探方法的基本原理，并通过在山东蓬家夼金矿的实际应用，得到了理想的效果，为隐伏矿床的精确定位预测提供了十分重要的地球物理资料。     

小秦岭西段驾鹿金矿田矿物地球化学特征及找矿标志

本文在总结驾鹿金矿田有关石英脉主要金属矿物地质产状、物性特征的基础上，系统对比性研究了蚀变岩和石英脉两类金矿床中产状、粒级、晶形、破碎程度不同的各世代黄铁矿中微量元素的含量、组合、比值特征及演化和不同世代撤离铅矿、地表褐铁矿、软锰矿的含金性，建立了两类金矿的找矿矿物学标志。     

Physical structure features of the crust at southeast region of Tibetan Plateau

Chemical reactions of plagioclase, biotite and their single minerals, as well as a mineral mixture of (plagioclase+biotite+quartz), with KCl and (KCl+KHCO₃) solutions were carried out at 150–400°C and 50–80 MPa. Experiments show that alkaline fluid promotes plagioclase’s changing into potash feldspar, while acid fluid helps plagioclase, potash feldspar and biotite alteration form chlorite and sericite. After chemical reaction the acidity-alkalinity of solutions often changes reversely. It was observed that gold dissolved from the tube wall and recrystallized on the surfaces of biotite and pyrite. Therefore the transportation and enrichment of gold are related to the elementary effect of the fluid-mineral interfaces. Fe³⁺-Fe²⁺, as an oxidition-reduction agent, and volatile components Cl^- and CO₂ play important roles in the reaction process     

Characterization of Geochemical Distributions Using Multifractal Models

The use of multifractals in the applied sciences has proven useful in the characterization and modeling of complex phenomena. Multifractal theory has also been recently applied to the study and characterization of geochemical distributions, and its relation to spatial statistics clearly stated. The present paper proposes a two-dimensional multifractal model based on a trinomial multiplicative cascade as a proxy to some geochemical distribution. The equations for the generalized dimensions, mass exponent, coarse Lipschitz–Hölder exponent, and multifractal spectrum are derived. This model was tested with an example data set used for geochemical exploration of gold deposits in Northwest Portugal. The element used was arsenic because a large number of sample assays were below detection limit for gold. Arsenic, however, has a positive correlation with gold, and the two generations of arsenopyrite identified in the gold quartz veins are consistent with different mineralizing events, which gave rise to different gold grades. Performing the multifractal analysis has shown problems arising in the subdivision of the area with boxes of constant side length and in the uncertainty the edge effects produce in the experimental estimation of the mass exponent. However, it was possible to closely fit a multifractal spectrum to the data with enrichment factors in the range 2.4–2.6 and constant K₁ = 1.3. Such parameters may give some information on the magnitude of the concentration efficiency and heterogeneity of the distribution of arsenic in the mineralized structures. In a simple test with estimated points using ordinary lognormal kriging, the fitted multifractal model showed the magnitude of smoothing in estimated data. Therefore, it is concluded that multifractal models may be useful in the stochastic simulation of geochemical distributions.