广西佛子冲铅锌矿田矿化蚀变特征及其成矿预测

广西佛子冲铅锌矿矿田位于桂东南博白-岑溪多金属成矿带的中段。矿区围岩蚀变强烈,类型繁多,其中以矽卡岩化、硅化和帘石化与成矿关系最为密切。矿体至围岩明显有矽卡岩化-强硅化-弱硅化-石英、碳酸盐化的蚀变分带特征。作者根据赋矿岩性、矿化蚀变分布、矿体产出特征及相关物探工作,提出六塘-龙树垌和牛卫-水滴两个找矿预测区。     

湖南城步地区重力异常的初步研究

介绍了城步地区重力异常数据处理的几种方法,分析了重力异常及其位场转换后的特征,对重力异常进行了初步解释推断.根据重力异常特征,推断了10条断裂,圈定了兰蓉-谭家坳-照面山、黄坪、洞背和扛口等4处半隐伏岩体;结合地质地球化学综合信息,提出了4处找矿有利地段.通过半定量反演,认为:湖南省内苗儿山岩体与越城岭岩体以及五团岩体与苗儿山岩体在深部不相连.     

桂西地区重力场小波多重分解及地质意义

重力场包含了各种密度不均匀体的叠加效应.为了更好地划分重力异常,尝试利用具有多尺度分析功能的小波分析进行重力场的分离.通过对桂西地区重力场进行小波多重分解,分离出埋藏较浅、尺度较小的源体和埋藏较深、尺度较大的源体,反映了不同深度和尺度地质体密度的不均匀性,较好地圈定了构造盆地、深部隐伏岩体,并直观地显示了其产状变化特征.因此,利用小波分析进行重力场分解具有较好的效果,值得进一步推广使用.     

酒东盆地地温场特征及肃州城区地热开发可行性分析

酒东盆地是典型挤压造山型盆地,在以往石油勘探和水文地质普查中已发现有地下热水存在。肃州城区一带通过可控源音频大地电磁测深探测和石油普查直流电测深资料重新解释,结合以往石油勘探成果,认为酒泉凹陷具备地热资源形成的储、盖、通、源条件,属中低温盆地传导型地热资源,具有经济开发价值。     

塔河地区加里东中期古岩溶作用及分布模式

地震资料解释、地层古生物、钻井地质及地球化学等方面的证据证实塔北地区存在加里东期运动及该期岩溶作用。本文探讨了原岩性质、断裂裂缝发育程度、古地貌形态、古气候等岩溶发育的控制因素,从岩石学、锶同位素、包裹体特征等方面建立了识别加里东期大气水作用的标志,指出早期断裂及伴生裂缝发育程度是加里东中期岩溶作用的主控因素,总结了该期岩溶具有以下特征:①层控性:岩溶发育具有发育面积广,深度浅,在不整合面以下0～35m发育;②断控性:较大溶洞发育在断裂附近;③有效储层具较强非均质性。由此预测该储层发育区位于古风化壳剥蚀区和加里东期断裂发育区的叠合部位,主要位于阿克库勒凸起的轴部倾没端和塔河西南部、东南部的北东向、近南北向断裂发育区。该期岩溶的存在与发现,对塔河油田南部的油气勘探具有重要意义。     

内蒙古东部重力场特征以及寻找内生矿床的意义

依据岩石密度特征，应用布格重力异常资料，在内蒙古东部地区推断7个大型岩浆岩活动区（带）。这些岩浆岩活动区（带）控制着内蒙古自治区东部地区大部分内生矿床，也就是说每一个大型岩浆岩活动区（带）实际上是一个成矿系统。因此，应用布格重力异常资料可以推断岩浆岩活动区（带），预测内生矿床，筛选化探异常。     

磁力勘探与岩性测深理论基础的对比

首先概括了岩性测深技术的理论基础和物性基础要点,强调电偶极子场是岩性测深技术的基本理论。然后通过电偶极子场与磁偶极子场的类比,以及岩性测深与磁力勘探的对比,提出了一条研究岩性测深技术理论基础及正演计算的思路。     

港湾广场（一期）深基坑变形监测与分析

深基坑施工变形监测是信息化施工的重要内容,以广州港湾广场(一期)深基坑工程为例,通过对开挖过程中土体水平位移、支护结构侧向位移、支护结构内应力、沉降等监测,结合围护结构的强度检测,采用反演分析对基坑变形进行数值模拟,预测不同开挖深度时基坑的位移变形量,实际监测结果与预测值基本一致,为基坑的设计和施工提供可靠的依据。     

Pleistocene tectonics inferred from fluvial terraces of the northern Upper Rhine Graben, Germany

This study of fluvial terraces of the River Rhine and tributaries aims to search for indications of Pleistocene tectonic activity. The study area includes the northern Upper Rhine Graben (URG), the Mainz Basin and the adjacent Rhenish Massif with the Middle Rhine Valley. High rates of Quaternary surface processes, large amount of human modifications, relatively slow tectonic deformation and presently low intra-plate seismic activity characterize this area. Therefore, the records of relatively slow tectonic deformation are less well preserved and thus difficult to detect. This study uses the relative position of fluvial terraces to determine the more local effects of fault movements on the terraces and to evaluate their displacement rates and patterns. The research is based on a review of previous terrace studies and new terrace mapping from the eastern Mainz Basin and the bordering URG using topographic map interpretations and field observations. This newly mapped sequence of terrace surfaces can be correlated to other terraces in the vicinity on the basis of relative height levels. Terrace correlation between the western Mainz Basin and Middle Rhine Valley relies on a single chronostratigraphic unit (Mosbach sands) and additional relative height correlations. This is the first study to present a continuous correlation of terraces from the western margin of the URG to the Rhenish Massif and enables the study of the transition from the subsiding graben to the uplifted Rhenish Massif. By means of a longitudinal profile, which ranges from the URG to the Rhenish Massif, the influence of individual fault movements on the terrace levels and the large-scale regional uplift is demonstrated. It is evident from the profile that the uplift of Early to Middle Pleistocene terraces increases northwards, towards the Rhenish Massif. The uplift was diachronic, with a significant pulse occurring first in the northern URG (Lower Pleistocene) and later in the Rhenish Massif (Middle Pleistocene). The largest vertical displacements are recorded for the boundary fault separating the Mainz Basin and the Rhenish Massif (Hunsrück–Taunus Boundary Fault) and for faults bounding the northeastern Mainz Basin. The motions and displacement rates calculated for individual faults indicate deformation rates in the order of 0.01–0.08 mm/year. At this stage, the calculation of displacement rates depends mostly on a single dated stratigraphic unit. Additional dating of terrace deposits is urgently needed to better constrain the temporal development of the terrace sequence and the impact of tectonic movements.     

Geological analysis and FT dating of the large-scale right-lateral strike-slip movement of the Red River fault zone

Tectonically, the large-scale right-lateral strike-slip movement along the Red River fault zone is char-acterized at its late phase with the southeastward extension and deformation of the Northwestern Yunnan normal fault depression on its northern segment, and the dextral shear displacement on its central-southern segment. Research of the relations between stratum deformation and fault movement on the typical fault segments, such as Jianchuan, southeast Midu, Yuanjiang River, Yuanyang, etc. since the Miocene Epoch shows that there are two times dextral faulting dominated by normal shearing occurring along the Red River fault zone since the Miocene Epoch. The fission track dating (abbrevi-ated to FT dating, the same below) is conducted on apatite samples collected from the above fault segments and relating to these movements. Based on the measured single grain’s age and the con-fined track length, we choose the Laslet annealing model to retrieve the thermal history of the samples, and the results show that the fault zone experienced two times obvious shear displacement, one in 5.5 ± 1.5 MaBP and the other in 2.1± 0.8 MaBP. The central-southern segment sees two intensive uplifts of mountain mass in the Yuanjiang River-Yuanyang region at 3.6―3.8 MaBP and 1.6―2.3 MaBP, which correspond to the above-mentioned two dextral normal displacement events since the late Miocene Epoch.