扬子陆块北缘构造演化新认识：来自原花山群年代学和地球化学的制约          下载免费PDF全文

邓奇  崔晓庄  汪正江  熊国庆  任光明  宁括步 《沉积与特提斯地质》2023,43(1):212-225

原花山群分布于紧邻南秦岭的扬子陆块北缘大洪山地区,出露于重要的构造部位,是研究其形成时期扬子陆块构造演化及其与南秦岭关系的重要载体,其物质组成、形成时代和构造属性长期存在争论。本文将原花山群解体为花山构造混杂岩和正常的火山—沉积地层（本文所指花山群）两部分来讨论。笔者重新厘定了花山群的沉积时限,有针对性地对有构造背景争议的花山群进行玄武岩地球化学研究,对有时代争议的混杂岩进行锆石U-Pb年代学研究。年代学、地球化学和沉积学综合研究表明,花山群的沉积时限为ca. 830 Ma至ca. 800 Ma,形成于与Rodinia超大陆裂解有关的陆内裂谷盆地。花山构造混杂岩带可能不只是晋宁期的缝合带,而是具有多期物质组成、经历了多期构造叠加的复合型缝合带。结合他人成果,我们提出了扬子陆块与南秦岭从新元古代到早古生代的构造演化新模式。  相似文献   

Inverse modeling of lichen growth curves and implications for lichenometric dating     

《Quaternary Geochronology》2022

Lichenometric dating represents a quick and affordable surface exposure dating method that has been widely used to provide a minimum age constraint on tectonic and geomorphic landscape changes as well as buildings and anthropogenic landscape changes in various settings during the late Holocene. Despite its widespread usage, this method has several limitations. Major problems relate to the sampling of lichen population on any given rock surface and the modeling of growth curves. In order to overcome these issues, it has been suggested to subdivide the rock surface into some areas and measure the largest lichen thallus on each one. However, how to express the data in terms of a probability distribution function and link it to an age of last exposure of the rock surface are still a matter of debate. Here, we propose a novel approach to the modeling of lichen growth curves by treating lichen growth as a continuous-time Markov process with a time-varying rate and additive Brownian noise. Given the growth rates, the probability distribution of the lichen population at any time can then be obtained by solving the Fokker–Planck equation. This method is illustrated using a dataset from the Huashan area of eastern China, which consists of measurements of the largest thalli on 12 rock surfaces of known age. We first build up the probability distribution of the lichen population for each rock surface based on extreme value theory and then use these to optimize the growth curve by minimizing the Jensen–Shannon divergence. A new method is also proposed to use the growth curve to map a sample of size data from an undated rock surface to the calendar age domain so as to yield a fully probabilistic estimate of the exposure age of the undated rock surface rather than a point estimate.  相似文献   

花山岩画开裂岩体声波测试与分析     

张新鹏  ;严绍军  ;黄志义  ;董庆贺  ;喻媛  ;彭鹏程  ;朱秋平 《物探与化探》2014,(5):1085-1089

阐述了声波测试的方法和过程,通过在岩体中声波的传播速度,建立开裂岩体厚度与劣化程度的数学模型。结果表明,开裂岩体厚度小于30 mm时,强度损失较大;开裂岩体厚度大于30 mm时,强度基本保持不变,为今后花山岩画的保护提供科学可靠的理论依据。  相似文献   

辽宁省金矿成矿作用研究     

杨占兴 《国土资源》1997,(1)

辽宁省是我国重要的金矿产地之一。省内金矿可划分为岩浆热液型、陆相火山岩型、同韧性剪切变质热液型、变质—岩浆热液叠生型、砂砾岩型及河相冲积型（砂金矿）六种类型。金矿的形成与特定的地层、构造、岩浆岩密切相关。稳定同位素资料表明，金矿的成矿物质主要来源于古老的结晶基底——太古宙变质杂岩（第一矿源层）及早元古宙中浅变质岩（衍生矿源层）；含矿热液主要为岩浆水，变质水和大气水，且多为两种水的混合物；大气水在成矿作用中占有重要地位。金矿的成矿演化经历了太古代－早元古代矿源层及同韧性剪切变质热液金矿床、晚三叠纪－燕山早期岩浆热液及叠生型矿床及燕山晚期陆相火山岩型矿床三个形成阶段。  相似文献   

华山花岗岩的包体特征及指示意义   总被引：2，自引：0，他引：2  

陈陇刚  王北颖  陈丽荣  张飚  代新宇 《陕西地质》2003,21(1):61-66

通过对华山花岗岩中包体的形态、大小、成分和分布等特征分析，论证了华山花岗岩成因的多源性和多源岩浆的混合作用。  相似文献   

华山新生代隆升-剥蚀历史的裂变径迹热年代学分析   总被引：10，自引：0，他引：10  

吴中海  吴珍汉  万景林  周春景 《地质科技情报》2003,22(3):27-32

综合分析前人的热年代学数据发现华山地区自晚白垩世以来至少经历了三次快速隆升阶段，在120—57Ma间华山经历了缓慢隆升过程，约57Ma以来华山开始相对渭河地堑的快速隆升。其中，57—42Ma间、32—22Ma间和约8Ma以来均为相对快速隆升阶段，视隆升速度约为0．18～0．23mm／a；而42—32Ma问和22～8Ma间则为相对缓慢隆升过程，视隆升速度约为0．01mm／a。约57Ma以来华山的隆升—剥蚀量约为8．5km，平均隆升速度约为0．15mm／a；约32Ma以来的总隆升幅度约为4．5～5．1km，平均视隆升速度约为0．14～0．16mm／a。晚中生代以来华山的隆升过程实际上反映的是东秦岭的隆升过程，与区域地貌结构和周缘断陷盆地的演化过程有密切的成因联系，它表明东秦岭地区的三级等高峰顶面是120—57Ma、42—32Ma和22～8Ma间山脉缓慢隆升—剥蚀的结果，同时反映57—55Ma是渭河盆地开始快速裂陷和秦岭北麓正断层开始强烈活动的时间。  相似文献   

通化地区老岭群花山组与珍珠门组平行不整合的发现及意义     

乔国华  王福山  路孝平  苑凤华 《吉林地质》2004,23(3):6-8

通化地区珍珠门组并非老岭群的顶部层位，其上确实存在花山(大栗子)组、临江组．并且与珍珠门组呈平行不整合接触。这一发现，为重新厘定集安岩群、老岭群的地层层序以及区域地层对比．提供了直接的地质依据，也为老岭群的古地理再造以及地质构造演化研究提供了新资料；同时也为在这一地区寻找古岩溶型矿产提供了重要线索。  相似文献   

扬子板块北缘花山群沉积时代及其对Rodinia超大陆裂解的制约   总被引：3，自引：0，他引：3  

田辉  李怀坤  周红英  张健  张阔  耿建珍  相振群  瞿乐生 《地质学报》2017,91(11):2387-2408

出露于扬子板块北缘大洪山地区的花山群自下而上由一套以砾岩为主的粗碎屑沉积和一套以砂质板岩为主的细碎屑沉积组成,伴随有拉斑玄武质岩浆活动。花山群整体变质程度不高,形成构造环境复杂,对其构造属性及其与区内所谓的花山"蛇绿混杂岩"的时空关系一直存有争议,它们对新元古代Rodinia超大陆在扬子板块北缘的汇聚-裂解响应具有重要的制约意义。笔者在花山群六房咀组下部细砂岩中采集玄武质熔结凝灰岩夹层样品1件,碎屑岩样品2件,在上覆地层南华系莲沱组采集碎屑岩样品1件;对玄武质熔结凝灰岩进行了SHRIMP锆石U-Pb同位素测年,对碎屑岩样品进行了LA-MC-ICPMS锆石U-Pb同位素测年。获得玄武质熔结凝灰岩锆石U-Pb年龄814.7±7.3 Ma;花山群的碎屑锆石U-Pb年龄谱存在三个明显的峰值:~900 Ma、~2050Ma和~2650 Ma,最显著峰值为~2650 Ma,上覆莲沱组碎屑岩年龄谱的三个峰值为:~900 Ma、~2050 Ma和~2500 Ma,最显著峰值为~2050Ma,三件碎屑岩样品均与扬子板块的碎屑锆石U-Pb年龄统计峰值一致。花山群的碎屑源区可能包括下伏中元古代打鼓石群、太古宙鱼洞子杂岩以及崆岭杂岩。结合前人年代学研究资料和区域构造成果分析,花山群沉积时代应为820~815Ma,形成于伸展构造背景,与花山"蛇绿混杂岩"不是同期同构造背景的产物;花山"蛇绿混杂岩"与花山群沉积建造依次反映了扬子板块北缘由挤压构造背景向伸展构造背景的转换过程。花山群中的碎屑沉积物与基性火山岩、火山碎屑岩属于裂解背景下形成的同时代沉积-火山建造;结合前人在扬子板块周缘发现的大量约820 Ma酸性—基性岩浆活动记录以及同时代(820~800 Ma)的沉积地层,推测花山群形成于Rodinia超大陆裂解背景之下,与超级地幔柱活动有关。  相似文献   

皖南花山锑金矿床硫化物电子探针分析及其指示意义   总被引：1，自引：0，他引：1       下载免费PDF全文

肖庆玲  周涛发张达玉钱  祥陈雪锋  陈杨 《地质科学》2017,(4):1312-1326

花山锑金矿床位于皖南东至县境内, 是皖南地区代表性金-多金属矿床之一。 本次工作对花山锑金矿床开展了野外地质、岩相学特征观察以及金属硫化物电子探针分析, 得到以下结论：1） 花山锑金矿床主要成矿阶段可分为毒砂-黄铁矿（PyⅠ）阶段、黄铜矿-黄铁矿 （PyⅡ）阶段和方解石-辉锑矿阶段。 2） 金在不同阶段硫化物中均有赋存, 其矿化伴随整个热液成矿过程, 且以毒砂-PyⅠ阶段和黄铜矿-PyⅡ阶段为主。 毒砂-PyⅠ阶段和黄铜矿-PyⅡ阶段发育金矿化, 无锑矿化, 方解石-辉锑矿阶段发育锑、金共生矿化。 3） 早阶段即毒砂 -PyⅠ阶段和黄铜矿-PyⅡ阶段载金矿物为黄铁矿、毒砂及黄铜矿, 成矿物质来源以地层为 主;晚阶段即方解石-辉锑矿阶段载金矿物为辉锑矿, 成矿物质来源以燕山期岩浆岩为主。 本次工作对东至及皖南地区金矿床的寻找勘探具有重要的指示意义。  相似文献   

RIVER GEOMORPHIC PARAMETERS OF THE HUASHAN PIEDMONT AND THEIR TECTONIC IMPLICATIONS          下载免费PDF全文

XU Wei  LIU Zhi-cheng  YUAN Zhao-de  GAO Zhan-wu  YANG Yuan-yuan 《地震地质》2017,39(6):1316-1335

Based on DEM data and ArcGIS software, we extract the geomorphic parameters of drainage basins and rivers that flow through the Huashan piedmont, which include stream length-gradient index (SL), stream-power incision model normalized channel steepness index (k_sn), hypsometric integral (HI), valley floor width to valley height ratio (Vf)and mountain front sinuosity (Smf). Study shows that all parameter indexes have obviously different distributions roughly bounded by Huaxian and Huayin. In the Huaxian to Huayin section, the stream length-gradient index has extremely high abnormal values near the fault, the values of river mean SL, mean k_sn, HI, Vf and Smf are concentrated in 500~700, 120~140, 0.5~0.6, 0~0.1 and 1.0~1.1, respectively. Between Lantian and Huaxian and between Huayin and Lingbao, the parameter indexes distributional characteristics are largely the same, with the values in 300~500, 100~120, 0.4~0.5, 0.2~0.6 and 1.2~1.5, respectively. Comprehensive analysis suggests that tectonic activity is the primary factor responsible for these differences. We divide each geomorphic parameter into three classes (strong, medium, and low)and calculate the relative active tectonics (Iat)of the Huashan piedmont. The results show that the Iat values in Huaxian to Huayin section are in 1.0~1.5, those at other places are in 1.5~3.0, indicating that the tectonic activity from Huaxian to Huayin is most intense, while that of other places are relatively weak. Field geological investigations show that the Huashan piedmont fault can be divided into Lantian to Huaxian section, Huaxian to Huayin section and Huayin to Lingbao section. In Huaxian to Huayin section the fault has been active several times since Holocene indicative of strongest activity, while in Lantian to Huaxian section and Huayin to Lingbao section the fault was active only in the late Pleistocene and its activity was weaker as a whole. Tectonic activity of the Huashan piedmont derived from river geomorphic parameters is consistent with field geological investigations, indicating that geomorphic parameters of rivers can be used to characterize activity of faults on a regional scale.  相似文献