湘江岳阳段沉积物重金属污染特征及其初步生态风险评估

分析了湘江岳阳段表层沉积物样品中10种典型重金属元素(Cd、Cu、Pb、Zn、Cr、Tl、V、Mn、Co和Ni)的含量水平和分布规律,并采用地累积指数法和潜在生态风险指数法,初步评价了沉积物中重金属污染状况和潜在生态风险。研究结果表明:(1)湘江岳阳段沉积物中重金属Cd、Zn、Mn和Cu等污染较为严重,其含量范围分别为8.56～19.4 mg/kg、250～367 mg/kg、1489～2258 mg/kg和40.5～64.7 mg/kg;(2)研究区域中多种重金属潜在生态风险指数(RI)为369～698,表明研究区域沉积物重金属污染导致的潜在生态风险高,且主要风险污染物为Cd和Tl;(3)湘江岳阳段沉积物呈现出以Cd为主的多种重金属复合污染特征。     

铁（氢）氧化物悬液中磷酸盐的吸附-解吸特性研究

铁（氢）氧化物对P的吸持和释放在一定程度上决定着P的生物有效性和水体富营养化。以两种环境中常见晶质铁氧化物（针铁矿和赤铁矿）为对照,采用X射线衍射（XRD）、透射电镜（TEM）、热重分析（TGA）和孔径分析以及动力学和吸附-解吸热力学平衡等技术方法,研究了弱晶质水铁矿对P吸附-解吸特性,并探讨了相关机制。实验表明,三种矿物对P的吸附分为起始的快速反应和随后的慢速反应,它们均符合准一级动力学过程,反应中OH释放明显滞后于P吸附,P吸附经历了从外围到内囤配位、单齿到多齿配位过渡的过程,与晶质氧化铁比,水铁矿吸附容量和OH释放量更大、慢速吸附反应更快、存在缓慢扩散反应阶段,吸附容量依次是：水铁矿（436μmol／m^2）〉针铁矿（262μmol／m^2）〉赤铁矿（228μmol／m^2）,针铁矿和赤铁矿吸附P符合L（Langmuir）模型,而水铁矿更符合F（Fremldlictl）模型。中性盐介质（KCl）中在最大吸附量时P的解吸率依次为：水铁矿（85％）〈针铁矿（10％）〈赤铁矿（125％）,柠檬酸通过配体解吸和诱导溶解两种机制促进P的解吸,最大吸附量时解吸率依次是：针铁矿（25％）〈水铁矿（32％）〈赤铁矿（50％）。     

Solid-solution partitioning of arsenic （As） in the paddy soil profiles in Chengdu Plain, Southwest China

To predict the long-term behavior of arsenic(As) in soil profiles,the solid-solution partitioning of As was studied in four paddy soil profiles obtained from agricultural areas in Chengdu Plain,Southwest China.Paddy soil profile samples were collected and soil solution samples were extracted.Total As contents in soil solution and soil solid were analyzed,along with the soil solid phase properties.The As in soil solution was significantly higher in the upper layer(0—20 cm) and had a definite tendency to decrease towards 40 cm regardless of the sampling locations.When the concentration of arsenic in soil solution decreased,its content in solid phase increased.Field-based partition coefficient(K_d) for As was determined by calculating the ratio of the amount of As in the soil solid phase to the As concentration in the soil solution.K_d values varied widely in vertical samples and correlated well with soil pH,total organic carbon(TOC) and total As. The results of this study would be useful for evaluating the accumulation trends of arsenic in soil profiles and in improving the management of the agricultural soils.     

时域激电数据进行频谱参数的反演方法及应用

Cole-Cole模型的频谱参数可以用于区分引起激电异常的极化体和寻找深部矿(化)体,因野外工作效率低,在勘探中没有得到广泛应用。当前的时域激电仪器可以观测反映二次极化电位衰减的多个时段的视充电率数据,根据频谱激电和时间域激电可以相互转换的理论,提出一种由时域激电数据提取出Cole-Cole模型参数方法,可得到4个频谱参数:视充电率Ms、视频率相关系数cs、视时间常数τs和视电阻率ρs。在江西某矿区激电中梯测量中,运用该方法推测地下地质体的性质并经钻探验证,取得了良好的找矿效果。     

Chemical and Isotopic Characteristics of the Water and Suspended Particulate Materials in the Yangtze River and Their Geological and Environmental Implications

The chemical and isotopic characteristics of the water and suspended particulate materials（SPM） in the Yangtze River were investigated on the samples collected from 25 hydrological monitoring stations in the mainsteam and 13 hydrological monitoring stations in the major tributaries during 2003 to 2007. The water samples show a large variation in both δD（ 30‰ to 112‰） and δ18O（ 3.8‰ to 15.4‰） values. Both δD and δ18O values show a decrease from the river head to the Jinsha Jiang section and then increase downstream to the river mouth. It is found that the oxygen and hydrogen isotopic compositions of the Yangtze water are controlled by meteoric precipitation, evaporation, ice（and snow） melting and dam building. The Yangtze SPM concentrations show a large variation and are well corresponded to the spatial and temporal changes of flow speed, runoff and SPM supply, which are affected by the slope of the river bed, local precipitation rate, weathering intensity, erosion condition and anthropogenic activity. The Yangtze SPM consists of clay minerals, clastic silicate and carbonate minerals, heavy minerals, iron hydroxide and organic compounds. From the upper to lower reaches, the clay and clastic silicate components in SPM increase gradually, but the carbonate components decrease gradually, which may reflect changes of climate and weathering intensity in the drainage area. Compared to those of the upper crust rocks, the Yangtze SPM has lower contents of SiO2, CaO, K2 O and Na2 O and higher contents of TFe2 O3 and trace metals of Co, Ni, Cu, Zn, Pb and Cd. The ΣREE in the Yangtze SPM is also slightly higher than that of the upper crust. From the upper to lower reaches, the CaO and MgO contents in SPM decrease gradually, but the SiO2 content increases gradually, corresponding to the increase of clay minerals and decrease of the carbonates. The δ30SiSPM values（ 1.1‰ to 0.3‰） of the Yangtze SPM are similar to those of the average shale, but lower than those of the granite rocks（ 0.3‰ to 0.3‰）, reflecting the effect of silicon isotope fractionation in silicate weathering process. The δ30SiSPM values of the Yangtze SPM show a decreasing trend from the upper to the middle and lower reaches, responding to the variation of the clay content. The major anions of the river water are HCO 3, SO 4 2, Cl, NO 3, SiO 4 4 and F and the major cations include Ca2＋, Na＋, Mg2＋, K＋ and Sr2＋. The good correlation between HCO3-content and the content of Ca2＋may suggest that carbonate dissolution is the dominate contributor to the total dissolved solid（TDS） of the Yangtze River. Very good correlations are also found among contents of Cl, SO4 2, Na＋, Mg2＋, K＋and Sr2＋, indicating the important contribution of evaporite dissolution to the TDS of the Yangtze River. High TDS contents are generally found in the head water, reflecting a strong effect of evaporation in the Qinghai-Tibet Plateau. A small increase of the TDS is generally observed in the river mouth, indicating the influence of tidal intrusion. The F and NO3 contents show a clear increase trend from the upstream to downstream, reflecting the contribution of pesticides and fertilizers in the Chuan Jiang section and the middle and lower reaches. The DSi shows a decrease trend from the upstream to downstream, reflecting the effect of rice and grass growth along the Chuan Jiang section and the middle and lower reaches. The dissolved Cu, Zn and Cd in the Yangtze water are all higher than those in world large rivers, reflecting the effect of intensive mining activity along the Yangtze drainage area. The Yangtze water generally shows similar REE distribution pattern to the global shale. The δ30SiDiss values of the dissolved silicon vary from 0.5‰ to 3.7‰, which is the highest among those of the rivers studied. The δ30SiDiss values of the water in the Yangtze mainsteam show an increase trend from the upper stream to downstream. Its DSi and δ30SiDiss are influenced by multiple processes, such as weathering process, phytolith growth in plants, evaporation, phytolith dissolution, growth of fresh water diatom, adsorption and desorption of aqueous monosilicic acid on iron oxide, precipitation of silcretes and formation of clays coatings in aquifers, and human activity. The δ34SSO4 values of the Yangtze water range from 1.7‰ to 9.0‰. The SO4 in the Yangtze water are mainly from the SO4 in meteoric water, the dissolved sulfate from evaporite, and oxidation of sulfide in rocks, coal and ore deposits. The sulfate reduction and precipitation process can also affect the sulfur isotope composition of the Yangtze water. The87Sr/86Sr ratios of the Yangtze water range from 0.70823 to 0.71590, with an average value of 0.71084. The87Sr/86Sr ratio and Sr concentration are primary controlled by mixing of various sources with different87Sr/86Sr ratios and Sr contents, including the limestone, evaporite and the silicate rocks. The atmospheric precipitation and anthropogenic inputs can also contribute some Sr to the river. The δ11B values of the dissolved B in the Yangtze water range from 2.0‰ to 18.3‰, which is affected by multifactors, such as silicate weathering, carbonate weathering, evaporite dissolution, atmospheric deposition, and anthropogenic inputs.     

Stable isotope geochemical characteristics of dissolved inorganic carbon in the Jiulong River Estuary,Fujian Province,China

The isotopic composition of dissolved inorganic carbon （DIC） in estuarine environments has been studied for its significant role in determining the isotopic composition of inorganic/organic matter and its applications to the study of various natural processes. In this paper, based on the stable isotope geochemical characteristics of dis- solved inorganic carbon in the Jiulong River Estuary, the following conclusions are drawn： （1） δ13CDIC values are mainly controlled by the mixing ratio of fresh water and sea water; （2）δ13Cphytoplankton values are linearly related to the δ13CDIC values; （3） δ13CpoM values for the Jiulong River Estuary are affected by anthropogenic pollution signifi- cantly; and （4） the comprehensive analysis of δ13Cphytoplankton, δ13CpoM and δ13CDIc shows that along with increasing salinity, the proportion of POM derived from the degradation of phytoplanktons gradually increases.     

资源储量估算垂直纵投影图上是否要画坐标线探讨

根据数学推导:当矿体(层)为非直立、非正东正西、正南正北倾向时,在垂直纵投影图上X、Y轴坐标投影线均是倾斜线。因此,在矿体(层)纵投影图上强调画坐标线,且将纵投影图上的坐标投影线均表示为铅直线值得商榷。     

广南洒拉冲金矿矿床地质特征及成因分析

洒拉冲金矿处于我国卡林型金矿重要成矿区——滇黔桂“金三角”区东南隅的广南与广西毗邻地区.控矿因素主要为沿洒拉冲复式背斜核部及翼部发育的NWW—SEE向断裂破碎带,为脆性剪切带热液蚀变型金矿.文中从区域地质背景入手,系统介绍矿金矿矿床地质特征,分析矿床成因及找矿标志.     

锦丰（烂泥沟）金矿地质特征及找矿方向浅析

锦丰（烂泥沟）金矿由磺厂沟复式向斜控制了矿体的空间分布,发育于磺厂沟复式向斜中的一系列断裂控制了矿床的产出位置,不同的岩性组合控制了矿体的具体产出层位.在矿床的形成过程中F3断裂不仅是矿区的主要导矿构造也是矿区的主要容矿构造,在矿床的形成过程中由于不同断块的差异运动导致了磺厂沟向斜不同的变形部位出露在同一水平的现象,为今后的矿床预测指明了方向.     

安徽省沿江和皖南地区铜（金）矿不同成矿背景对比分析

通过对安徽省几个重点铜(金)成矿区(带)矿床分布特点的搜集,以及对不同成矿背景下成矿机理的剖析,认为在这些地区铜(金)矿形成除受控于不同的地层、构造和岩浆岩条件外,还受板内挤压、碰撞所产生的特定岩石、蚀变影响;通过测年数据显示安徽省沿江地区铜(金)矿成矿主要集中在137.4~139Ma和133+2.3Ma两个时间段;同时认为不同成矿类型在同熔型岩石系列的地区,其上下垂直空间可能存在重叠性,为在这些地区寻找铜(金)第二成矿空间提供一些理论借鉴意义。