大同盆地孔隙地下水化学场的分带规律性研究   总被引：2，自引：0，他引：2  

苏春利  王焰新 《水文地质工程地质》2008,35(1):83-89

本文通过对大同盆地2004年孔隙地下水水化学资料的分析发现,盆地内孔隙地下水的水化学特征在水平方向上具有以盆地中部为中心,呈环状分布的特点,且与盆地水动力分区具有很好的一致性。由山前冲洪积倾斜平原到中部冲湖积平原,地下水依次经历了补给区、径流区和排泄区,相应的主要水化学类型分别为HCO3型、HCO3.SO4型和HCO3.SO4.Cl型。与中深层孔隙水相比,浅层孔隙水由于水位埋深浅,蒸发浓缩强烈,易受人类活动的影响,各组分的含量较高,变化幅度较大,水化学类型也相对复杂。浅层地下水的水质呈好转趋势,深层地下水水质基本保持稳定。  相似文献   

相山铀矿田成矿机理研究   总被引：44，自引：2，他引：44  

范洪海  凌洪飞  王德滋  刘昌实  沈渭洲  姜耀辉 《铀矿地质》2003,19(4):208-213

本文重点研究了相山铀矿田的成矿时代及成矿环境 ,并剖析了典型矿床在垂向上物质成份的变化规律。研究结果表明 :相山矿田主要经历了两期铀矿化作用 ,第一期为铀 赤铁矿化阶段 ,成矿年龄为 1 1 5± 0 6Ma ;第二期为铀 萤石 水云母化阶段 ,成矿年龄为 99± 6Ma。两期成矿作用分别形成于不同的地质环境 ,第一期成矿作用主要与大规模火山塌陷及次火山岩侵位有关 ,第二期成矿作用则主要与因太平洋板块的松弛作用而形成的区域性伸展、裂解及中基性脉岩的活动有关。相山矿田的热液蚀变类型不仅在平面上存在东碱、西酸的演化趋势 ,而且在垂向上还存在上酸、下碱的演化规律。通过对相山矿田成矿机理的深入探讨 ,认为相山矿田是成矿元素多阶段富集、成矿热液多期叠加以及多种地质因素共同作用的产物。  相似文献   

中国含金矽卡岩矿床的分布和主要地质特征   总被引：14，自引：4，他引：14  

赵一鸣  林文蔚  毕承思  张轶男 《矿床地质》1997,16(3):193-203

夕卡岩金矿床主要分布于中国东部，特别是在长江中下游地区，并常和夕卡岩铜（铁或多金属）矿床共生。它们产生的有利构造环境为地台边缘的拗陷和褶皱带以及地台内部的深大断裂附近地区，主要控矿地导炭－二叠纪和三叠纪碳酸盐岩，有关侵入岩为钙－碱性闪长岩，石英阀长岩，石英二长闪长岩，花岗闪长岩，二长花岗岩及共浅成相，大多属燕山期，含金夕卡岩以钙夕卡岩为主，镁夕卡岩次之，在夕卡岩及其邻近的围岩中叠加有较强的退化热液  相似文献   

祁连山区多年冻土空间分布模拟   总被引：1，自引：1，他引：0  

彭晨阳  盛煜  吴吉春  曹伟  何彬彬 《冰川冻土》2021,43(1):158-169

祁连山区位于青藏高原东北边缘,是亚洲水塔重要的组成部分,多年冻土的变化对生态系统和水资源平衡有着重要影响。基于青藏高原第二次综合科学考察、道路勘察钻孔点以及前人所获得的多年冻土下界资料,回归得出祁连山区多年冻土下界统计模型,借助ArcGIS平台在DEM数据的支持下,模拟出祁连山区多年冻土空间分布图。结果表明：祁连山区多年冻土分布的下界具有良好的地带性规律,表现为随经纬度增加而降低的规律;祁连山区多年冻土在空间分布上呈现出以哈拉湖为中心向四周扩散的分布格局;祁连山区总面积约为16.90×10⁴ km²,其中多年冻土面积约为8.03×10⁴ km²,占总面积约47.51%。多年冻土区与季节冻土区之间存在着有不连续多年冻土分布的过渡区,过渡区面积约1.43×10⁴ km²,占总面积约8.46%。  相似文献   

我国水平地带性土壤中有机质的空间变化特征   总被引：18，自引：4，他引：18  

王秀红 《地理科学》2001,21(1):19-23

主要根据全国第二次土壤普查的成果，对我国水平地带性土壤中有机质的含量和胡敏酸与富里酸比值的空间变化特征进行了概括，进而探讨了在不同自然和人因素影响下，土壤有机质的累积状况与稳定性特征。  相似文献   

长营岭—龙门冲原生晕异常及找矿预测     

邱瑞照 《南方国土资源》1998,(1)

通过对珊瑚矿田长营岭－龙门冲地区岩石地球化学测量,圈定了该区Ｗ、Ｓｎ、Ｃｕ、Ｚｎ、Ａｓ、Ｂ、Ｆ等元素异常,原生晕严格受ＮＥ和ＮＷ两组断裂控制。综合评价认为处于长营岭钨锡矿带南延带的南风井多元素组合异常是矿异常,该异常明显地受ＮＥ（Ｆ９）断裂和ＮＷ（Ｆ１０）断裂控制,浓集中心位于Ｆ９断裂下盘,与长营岭矿区矿体在ＮＷ断裂下盘富集的规律相同。测区内,异常形态与北区具连续性,异常强度弱于北区,组分分带显示以隐伏花岗岩为成矿中心,但沿矿带由ＮＥ到ＳＷ并无明显的组分分带和元素组合变化,矿田内不仅矿带南延并向ＳＷ方向倾伏,而且很有可能深部隐伏花岗岩体亦分枝向南延伸。  相似文献   

苔藓生物结皮层腐殖质组成变化特征研究          下载免费PDF全文

闫德仁  张胜男  吴振廷 《干旱区地理》2019,42(6):1354-1358

腐殖质组成是表征土壤化学性质的主要指标之一，在某种程度对评价风沙土的发育过程具有意义。采集了不同气候区沙地沙漠苔藓生物结皮层样品，采用重铬酸钾容量法和光密度法测定了苔藓结皮层腐殖质组成含量和胡敏酸吸光特性。结果表明：随着干燥指数的增加，苔藓结皮层有机质含量由14.93 g·kg^-1降低到9.89 g·kg^-1，腐殖酸总量由5.1 g·kg^-1降低到2.0 g·kg^-1，胡敏酸含量由2.9 g·kg^-1降低到 0.7 g·kg^-1，富里酸含量由2.2 g·kg^-1降低到1.3 g·kg^-1，胡敏酸与富里酸比值（HA/FA）由1.32降低到0.54，E₄/E₆比值则由4.28增加到5.83。苔藓结皮层腐殖质组成含量及胡敏酸吸光特性具有地带性变化趋势，并影响着生物结皮层及流动风沙土的发育演变过程。  相似文献   

The characteristic target-pattern regional ore zonality of the Nanling region, China (Ⅲ)     

Chongwen Yu 《地学前缘(英文版)》2011,2(4)

By applying the ‘theory of synchronization' from the science of complexity to studying the regional regularity of ore formation within the Nanling region of South China,a characteristic target-pattern regional ore zonality has been discovered.During the early and late Yanshanian epoch (corresponding respectively to the Jurassic and Cretaceous periods),two centers of ore formation emerged successively in the Narding region; the former is mainly for rare metals (W,Sn,Mo,Bi,Nb) and one rare earth element (La) and was generated in the Jurassic period; whereas the latter is mainly for base metals (Cu,Pb,Zn,Sb,Hg),noble metals (Au,Ag),and one radioactive element (U) and was generated in the Cretaceous period.Centers of ore formation were brought about by interface dynamics respectively at the Qitianling and Jiuyishan districts in southern Hunan Province.The characteristic giant nonlinear target pattern regional ore zonality was generated respectively from the two centers of ore formation by the spatio-temporal synchronization process of the Nanling complex metallogenic system.It induced the collective dynamics and cooperative behavior of the system and displayed the configuration of the regional ore zonality.Then dynamical clustering transformed the configuration into rudimentary ordered coherent structures.Phase dynamics eventually defined the spatio-temporal structures of the target-pattern regional ore zonality and determined their localization and distribution.The integral successive processes of synchronization-dynamical clustering-phase dynamics accomplished the regional ore zonality by way of "multiple field dynamics" of spatio-temporal superposition of multiple coupled pulsatory solitary wave trains of the zonal sequences of different ores.A new methodology for revealing regional ore zonality is developed,which will encourage further investigation of the formation of deep-seated ore resources and the onset of large-scale mineralization.  相似文献   

Variation in the vertical zonality of erodibility and critical shear stress of rill erosion in China's Hengduan Mountains     

Zhengan Su  Donghong Xiong  Jianhui Zhang  Tao Zhou  Hongkun Yang  Yifan Dong  Haidong Fang  Liangtao Shi 《地球表面变化过程与地形》2019,44(1):88-97

Soil erodibility is an essential parameter used in soil erosion prediction. This study selected the Liangshan town watershed to quantify variation in the vertical zonality of rill erodibility (k_r) in China's ecologically fragile Hengduan Mountains. Soil types comprised of yellow–brown (soil A), purple (soil B), and dry-red (soil C) in a descending order of occurrence from the summit to the valley, which roughly corresponds to the vertical climate zone (i.e. cool-high mountain, warm-low mountain, and dry-hot valley sections) of the study area. With elevation, vertical soil zonality varied in both soil organic matter (SOM) content and soil particle-size fractions. A series of rill erosion-based scour experiments were conducted, using water discharge rates of 100, 200, 300, 400, 500, and 600 mL min^-1. Additionally, detachment rates (Dr) were measured under three hydrological conditions (the drainage, saturation, and seepage treatments). Results show that both Dr and flow shear stress (Ʈ) values increased as discharge increased. As elevation increased, the k_r values decreased, while the vertical zonality of critical shear stress (Ʈ_c) values showed no obvious variation. The highest k_r values were observed during the seepage treatment, followed by the saturation treatment then drainage treatment, indicating that variation in vertical hydraulic gradients could significantly alter k_r values. This study also found that land-use types could also alter k_r and Ʈ_c values. Further research, however, is necessary to better quantify the effects of subsurface hydrological conditions and land-use types on k_r under different soil zonalities in China's Hengduan Mountains. © 2018 John Wiley & Sons, Ltd.  相似文献   

焦家金矿深部原生晕地球化学特征   总被引：1，自引：0，他引：1       下载免费PDF全文

康恺  钮涛  周晓萍 《山东国土资源》2019,35(7)

焦家金矿是胶西北地区典型的金矿床,该区成矿具有多期、多阶段叠加共同作用的特点。通过对典型剖面上钻孔不同部位岩性样品的微量元素测试分析,运用数学地质分析方法,对焦家金矿床深部地球化学特征进行了研究,得出深部成矿微量元素特征组合为Au,Ag,Cu,Pb,Zn,As,Sb,Bi,Hg,W,Mo,Sn;原生晕轴向分带序列为:Hg,As,Sb(矿头晕)→Au,Ag,Cu,Pb,Zn,Bi,Sn(矿中晕)→W,Mo(矿尾晕)。由此建立了地球化学原生晕异常模型,并总结了地球化学找矿标志,为深部找矿提供依据。  相似文献