GIS在农业生态地质调查中的应用

GIS凭借其所具有的科学可视化功能,区域性、多层次、易操作等特点,能够将各种空间、 数字数据分类存储并进行分析,以上优点使GIS能够在农业地质调查项目中起到存储信息、分析态 势、辅助决策等重要作用,并能够在此基础上建立数据库辅助管理决策系统,在农业生态地质调查 中发挥了巨大作用。     

阵列式探地雷达信号极化场特征

阵列式观测是探地雷达系统研制和新型探测方法的一个重要发展趋势,而同形多源并发地下目标响应特征分析成为系统研制和数据处理研究的基础和前提。阵列式天线的多源并发信号及目标反射信号存在复杂的极化特性,但同时也包含更多目标特征的响应信息。本文针对基于似平面波探地雷达系统,分析了目标体在极化平面波照射下的响应特征,从多极化信号角度分析典型地下目标体形态特征;并采用时域有限差分正演分析方法,通过对阵列天线接收到的数据沿时间轴进行积分来获得目标在地表投影的分布情况,分析了一维及二维分布的收发天线阵列对目标的检测。研究成果表明,多极化综合特征分析能够有效改善目标检测的稳定性,提高目标响应信号的信噪比,减弱天线方向图和目标散射截面闪烁对数据剖面的影响,降低数据处理和解释的难度。     

内蒙古二连浩特北部阿仁绍布地区晚石炭世花岗岩Sr-Yb分类及其成因

对分布在内蒙古二连浩特北部阿仁绍布地区的晚石炭世花岗岩类,依据Sr、Yb含量,划分为低Sr高Yb型、极低Sr高Yb型和低Sr低Yb型花岗岩3种类型。低Sr高Yb型花岗岩类相对低Si、富Al,Na2O〉K2O,稀土元素分馏中等,有或无负Eu异常,Sr含量低,平均为183×10-6,Ba含量较高,平均585×10-6,Y含量高,平均30.06×10-6,Rb/Sr比值较低,平均0.97;极低Sr高Yb型花岗岩富Si、REE,低Al、Sr、Ba,高的Rb/Sr比值（平均为7.47）,具明显的负Eu异常等;低Sr低Yb型花岗岩富Si,贫Al、Ca、Mg,重稀土元素（Y、Yb）含量低,Y含量在（7.26～10.6）×10-6之间,平均9.76×10-6,Yb含量在（1.04～1.89）×10-6之间,平均1.44×10-6,δEu=0.64～0.94,具弱负Eu异常,微量元素Ba含量高,Rb/Sr比值低。3种类型的花岗岩类过铝指数（A/CNK）多小于1.0,说明它们均源自变质火成岩的部分熔融。由于源区的深度不同（pT条件不同）和残留的主要矿物相不同,它们的岩石地球化学特征存在差异。极低Sr高Yb型花岗岩形成深度最浅（中上地壳）,熔融残留相以斜长石为主;低Sr高Yb型花岗岩类形成于中下地壳,熔融残留相为斜长石和辉石;低Sr低Yb型花岗岩形成深度最深,推测可能形成于加厚下地壳（〉40km）底部,熔融残留相为石榴子石、斜长石和角闪石。     

北山矿区岩溶系统的划分及岩溶发育期的厘定

矿区内存在着中更新世岩溶与现代岩溶二个发育期。现代岩溶发育期详分为三个岩溶子系统。现代矿区溶蚀量为603m~3/a,近期地壳上升速度为0.57mm/a。      

陕西榆林侏罗纪层序地层分析及其意义

陕西榆林侏罗系可划分4个层序。通过大断面写真、钻孔断面分析发现，层序－2（延安组）是3种类型小层序的重复叠覆，可归并为9个体系域，与海相地层有较大差异。系统分析其层序地层学特征，对于恢复古盆地水动力循环系统、沉积过程及矿产预测有重要意义。     

Fluid evolution of the Chalukou giant Mo deposit in the northern Great Xing'an Range,NE China

The Chalukou giant Mo deposit in the Heilongjiang Province, northeastern China, is a porphyry deposit hosted in an intermediate‐felsic complex surrounded by Mesozoic volcano–sedimentary rocks. The mineralization process is composed of four stages, including quartz + K‐feldspar (Stage I), quartz + molybdenite (Stage II), pyrite + chalcopyrite + quartz ± other sulphides (Stage III) and carbonate ± fluorite ± quartz (Stage IV). The mineralization is generally associated with intense K‐feldspar‐, fluorite‐, phyllic‐ and propylitic alteration. Primary fluid inclusions (FIs) in quartz include four compositional types, i.e. pure carbonic (PC‐type), aqueous‐carbonic (C‐type), daughter mineral‐bearing (S‐type) and aqueous (W‐type) inclusions. Halite, sylvite and hematite are recognized as the daughter minerals in Stage I S‐type FIs, whereas molybdenite and chalcopyrite occur as daughter minerals in Stage II S‐type FIs. High‐salinity and high pressure (>220 MPa) FIs exist in Stage I quartz veins, characterized by homogenization through halite dissolution at temperatures of 324 to 517 °C. The paucity of coexisting vapour‐rich FIs with similar homogenization temperatures at this stage indicates that the initial S‐type inclusions have directly exsolved from the magma rather than boiling off of a low‐salinity vapour. Stage I quartz has captured the C‐ and W‐type FIs, which have totally homogenized at 270–530 °C with salinities of 1.6–17.0 wt.% NaCl equiv. At Stage II, the coexistence of all FI types were only observed at pressures of 150–218 MPa and temperatures of 352–375 °C, with two salinity clusters of 0.9–16.6 wt.% NaCl equiv. and 37–56 wt.% NaCl equiv. Stage III quartz contains W‐type FIs with homogenization temperatures of 158–365 °C, salinities of 0.5–9.0 wt.% NaCl equiv., and minimum pressures of 12–116 MPa; whilst Stage IV fluorite or calcite only contains W‐type FIs with homogenization temperatures of 121–287 °C, salinities of 0.5–5.3 wt.% NaCl equiv., and minimum pressures of 10–98 MPa. The estimated trapping pressure from Stages II to III suggests an alternating lithostatic–hydrostatic fluid‐system caused by fluid boiling. Ore fluids at the Chalukou Mo deposit may have been evolved from a CO₂‐rich, high‐salinity, and high‐oxygen fugacity (fO₂) magma system, to a CO₂‐poor, low‐salinity, and low‐fO₂ epithermal system. Two key points may have contributed to the formation of the Chalukou giant Mo deposit: The magmatic origin and fluid boiling that has resulted in decompression and rapid precipitation of metals. Copyright © 2014 John Wiley & Sons, Ltd.     

动荷载作用下碎石渣路基动力响应的有限元分析

针对土资源缺乏地区利用施工造成的碎石弃渣作填料的高速公路碎石渣路基,采用有限元软件PLAXIS动力分析模块,计算碎石渣路基在车辆动荷载作用下的动位移、加速度等动力响应特性,并与传统的填土路基进行对比分析,验证了碎石渣路基具有较高强度和较强变形恢复能力等优点[1-9]。     

中国不同时代主要类型铜矿床硫同位素特征及其成因意义

硫同位素是示踪矿床成矿物质来源的重要手段,对于揭示硫的物质循环也具有参考意义。笔者等选择我国不同类型、不同时间、不同空间的8个大型、超大型铜矿床,系统搜集和整理了1415个硫同位素数据资料,结果发现：①空间上,矽卡岩型、斑岩型和海相火山沉积型三类铜矿硫同位素组成显示“上重下轻”、“中轻边重”的规律。②时间上,矿床尺度从成矿早期到成矿晚期,不同类型矿石的δ34S值逐渐增大;全国尺度不同类型铜矿中黄铜矿的硫同位素组成,从老到新,δ34S值由正变负,与矿床尺度的变化规律相反。③对找矿的指示,甲玛和大宝山矿床中富矿体中硫化δ34S值偏高,在阿舍勒矿床靠近矿化中心的黄铁矿δ34S值偏低,胡篦型铜矿早期富钴黄铁矿δ34S值高于晚期贫钴黄铁矿δ34S值。总体上,除新太古代红透山铜矿之外,其他时代不同类型铜矿中黄铜矿δ34S值从元古宙到古生代到中生代再到新生代,明显降低,与地球演化有关。