合浦珠母贝铁的穆斯堡尔谱学研究

应用^57Fe穆斯堡尔谱学的方法研究了四个不同生长期合浦珠母贝铁的化学状态和Fe^2 /Fe^3 的值，它们的Fe^2 和Fe^3 的相对含量分别为4.1%～29.4%和76.6%～95.9%,Fe^2 /Fe^3 值的变化为0.043～0.42。3个月龄的Fe^2 /Fe^3 值大于10个月龄，从10个月龄到22个月龄的Fe^2 /Fe^3 值呈增加的趋势，这可能反映了不同生长期合浦珠母贝对不同价态的铁的需求。     

Nitrous oxide production and denitrification rates in estuarine intertidal saltmarsh and managed realignment zones

Increasing concerns over habitat loss and rising costs of sea defence maintenance due to rising sea levels, has seen increases in the practice of managed realignment and reflooding of former reclaimed areas of intertidal saltmarsh and mudflat around the world. These practices are taking place with little knowledge of their impact on soil biogeochemical processes. Rates of denitrification (using the acetylene inhibition technique) and nitrous oxide (N₂O) production were measured from a long-established saltmarsh (SM) and an adjacent, recently re-flooded managed realignment (MR) site comprising former arable land in the estuary of the River Torridge, Devon, UK. Incubations were carried out in closed chambers in which patterns of tidal flooding were simulated automatically. Measurements were made during periods of flood and non-flood over a total of four tidal inundations with estuarine water. During the latter two flooding episodes floodwater was amended with nitrate (NO₃⁻). Nitrous oxide production in the SM soil generally was lower than in the MR soil, with mean values and standard errors over the whole incubation of 0.27 ± 0.16 mg N₂O-N m⁻² h⁻¹ and 0.65 ± 0.15 mg N₂O-N m⁻² h⁻¹ respectively. Denitrification rates demonstrated a similar trend although generally were an order of magnitude higher than N₂O production, with mean rates and standard errors of 2.88 ± 1.12 mg N₂O-N m⁻² h⁻¹ in the SM soil and 3.39 ± 1.16 mg N₂O-N m⁻² h⁻¹ in the MR soil. The data suggest that both soils are net sinks for NO₃⁻ and net sources for N₂O. Both patterns of tidal inundation and floodwater chemistry affect the process rates in each soil differently. The impact of flooding with NO₃⁻ – amended water was greater on the SM soil than the MR soil, and it is likely that decomposing vegetation buried in the accreting sediments following reflooding at the MR site were supplying a source of N in the soil, and so process rates were less dependent upon external supplies. The act of managed realignment in intertidal zones could therefore result in an increase in mean production of N₂O in intertidal zones, at least in the short term.     

由MgMn_2O_4制备新型离子筛吸附剂及其对锂的吸附性质

从Mg、Mn混合溶液制备了镁锰氧化物MgMn_2O_4,并由此制得新型离子筛氧化锰HMnO(Mg)。它在碱金属及碱土金属离子中对Li~+显示了很高的选择性,pH8时分配系数Kd值顺序为Li>>Ca>Mg>K>Na,可以从实际卤水中将Li~+选择性吸附,吸附容量达20.4mg/g,用稀HCI溶液易于将吸附的Lj~+洗脱并使吸附剂再生。经用卤水和HCI五次吸附——洗脱循环,Li~+吸附容量没有降低,洗脱率总是大于90％。     

湿地土壤和沉积物异化铁还原过程研究进展

异化铁还原是湿地土壤和沉积物中重要的生物地球化学过程,也是有机质矿化的主要途径之一。湿地干湿交替等过程会使土壤的氧化还原状态发生改变,影响铁元素及与其相关的元素的迁移和转化。总结了湿地土壤和沉积物中异化铁还原过程及其与碳、磷、硫等元素在生物地球化学循环关键过程中的相互作用,阐述了湿地土壤和沉积物中异化铁还原过程对微量金属元素迁移和转化的影响,分析了影响湿地土壤和沉积物异化铁还原过程的主要环境因子。未来相关研究应集中于湿地土壤和沉积物中异化铁还原微生物分析和纯化、不同有机质形式对异化铁还原过程的影响以及异化铁还原对土壤有机质矿化的贡献。     

沂水县杏山官庄铁矿地质特征

在汞丹山凸起中分布的基性—超基性岩体,其磁铁矿含量高者可构成矿体。利用高精度磁测、钻探等方法开展了沂水县杏山官庄铁矿的普查工作,大致查明了该矿体的规模、形态和产状,认为该矿床具有低品位、工程地质条件简单的特点,综合分析矿床成因属岩浆分异型磁铁矿矿床。     

山东苍山王埝沟铁矿床地质特征及找矿方法探讨

王埝沟铁矿床为隐伏矿床,产于泰山岩群山草峪组地层中,发育2条主矿带,总体走向为280°-290°,平行展布,相向而倾,具不对称向斜构造特征。该铁矿床2条主矿带发育5个矿体,北翼矿带发育3个矿体,南翼矿带发育2个矿体,矿体呈层状、似层状产出,产状与地层产状一致。综合分析研究成矿地质条件及区域成矿理论,并充分利用地面高精度磁法剖面测量成果,二者有机结合的综合式找矿方法,是目前寻找深部沉积变质型“鞍山式”铁矿盲矿体行之有效的方法。     

CP-MS测定饮用水中Fe的方法

通过实验确定了ICP-MS检测饮用水中Fe的质量质量浓度方法。检测方法的检出限(DL)和精密度(RSD)分别达到3.29ng/mL和4.49%(n=12)。     

贵州某地玄武岩型氧化铜矿选矿试验研究

对贵州某地的玄武岩型氧化铜矿进行了可选性试验研究.对氧化矿采用的硫化浮选方法经试验不适合本矿,故采用离析浮选.采用离析、一次粗选的试验指标为:铜精矿品位26.70%,铜回收率84.36%.     

氧分压对Ni-Cr-Fe合金氧化成膜特性影响的研究

以铸态Ni-Cr-Fe合金为试样,于1 050℃湿氢气氛下恒温氧化20 h。通过氧化增重、SEM/EDS以及薄膜X-射线衍射等方法研究了氧分压对该合金在弱氧化性气氛下氧化成膜特性的影响。结果表明:表面氧化膜从外到内氧化物组成依次为:MnCr2O4、Cr2O3以及SiO2。氧化膜的厚度、组成及形貌与体系的氧分压密切相关,中等氧分压(15.9×10-18atm)有利于表面尖晶石的形成;较低氧分压有利于形成厚而多孔的氧化膜,而高氧分压则趋向于形成薄而致密的氧化膜。     

Variable and broad iron lines around black holes

“Variable and Broad Iron Lines around Black Holes” was the topic of the first scientific workshop organized by the XMMNewton Science Operations Centre. This foreword gives a brief introduction to the history of black hole research, which motivated the workshop's scientific topic. The organizing committees are listed and the meeting is shortly outlined. (© 2006 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)