侵蚀红壤植被恢复后土壤呼吸日动态及日呼吸速率测定方法比较

采用密闭室红外气体分析仪法(IRGA法)观测了中亚热带红壤侵蚀裸地植被恢复后不同季节土壤呼吸速率的日动态变化,并比较了IRGA法与碱吸收法(AA法)测定的土壤呼吸速率.结果表明:侵蚀裸地植被恢复后土壤呼吸速率日动态呈单峰曲线,与土壤温度的昼夜变化基本一致,最高值一般出现在午后13∶00~17∶00,最低值出现在凌晨3∶00~7∶00;植被恢复显著提高了土壤日呼吸速率,但明显降低了土壤呼吸速率日变化幅度;马尾松林对土壤呼吸速率日变化幅度降低程度高于板栗园和百喜草地,且对夏季的降低程度影响最大.而IRGA法和AA法测定的土壤呼吸速率具有显著的幂函数关系,AA法测定的土壤呼吸速率为IRGA法的27.5%~218%,平均为76.2%.当土壤呼吸速率较低时,AA法比IRGA法高估了土壤呼吸速率;反之,AA法则低估了土壤呼吸速率.     

金矿样品的几种溶样方法

通过王水、封闭和烧杯敞口及聚乙烯溶样瓶封闭溶样等方法，对含Au矿样的试样分解、溶样体系及各种溶样方法的对比表明，利用聚乙烯溶样瓶，采用HNO3 NaCl KMnO4 NH4HF2溶样体系，在水浴锅中封闭溶样40min，矿样中的Au即可完全分解。经国家标准物质分析验证，结果与标准值相符。封闭溶样可以避免样品外溢、进溅，使分析结果更准确可靠，降低成本，减少环境污染，适用于大批量样品分析。     

五酸溶样-电感耦合等离子体质谱法同时测定地质样品中的稀土等28种金属元素

电感耦合等离子体质谱法(ICP-MS)测定大批量地质样品中的稀土和钴铪铟锰铌钽铊铬镉镓锗钒锡等金属元素,主要采用三酸或四酸溶解样品.由于地质样品组分复杂,稀土等金属元素含量低,各元素性质差异大,三酸或四酸溶样经常出现易挥发元素如钒铬镉镓锡的测定结果不稳定、镧铈镨钕等稀土元素溶解不完全的问题.本文在盐酸-硝酸-氢氟酸-高...     

国家地质实验测试中心屈文俊研究员论文“高温密闭溶样电感耦合等离子体质谱准确测定辉钼矿铼-锇地质年龄”入选2007年度“中国百篇最具影响优秀国内学术论文”

2008年12月9日,中国科学技术信息研究所在北京国际会议中心举行“2007年度中国科技论文统计结果发布会”,公布了“中国百篇最具影响优秀国际学术论文”和“中国百篇最具影响优秀国内学术论文”的评选结果。由科技部直属的中国科学技术信息研究所公布的这一结果,代表了我国科技论文的最高水平。国家地质实验测试中心屈文俊研究员论文“高温密闭溶样电感耦合等离子体质谱准确测定辉钼矿铼-锇地质年龄”在此次评比中荣获“中国百篇最具影响国内学术论文”。这篇论文发表于《岩矿测试》2003年第23卷第4期,为国家自然科学基金(49973017)支持项目成果。为促进我国高影响、高质量科技论文的发表,引导我国的论文增长模式     

磷矿中P2O5的快速测定

本文用自行设计的一种简易,安全的聚四氟乙烯溶样罐,与新型,高效的微波溶样技术相结合,进行磷矿的分解,溶样时间仅需２ｍｉｎ,并首次将该技术与流动注射一分光光度法联用,测定其中Ｐ２Ｏ２质量分数,结果准确,可靠,实现了从溶样到测定的一套快速分析方法。     

低压密闭消解-电感耦合等离子体发射光谱法测定地质样品中的硼

采用酸溶-电感耦合等离子体发射光谱法(ICP-OES)测定地质样品中的全硼量,关键环节在于如何防止样品消解过程中硼元素的损失,降低测量过程中的基体干扰、光谱干扰和记忆效应。基于以上问题,本文采用氢氟酸-硝酸-高氯酸-磷酸在低压密闭溶样罐中消解样品,溶出的硼元素与少量磷酸充分络合,防止硼的挥发损失;以基体及主成分浓度与样品相类似的地质类固体标准物质绘制标准曲线做线性校准,有效匹配和降低样品的基体干扰;采用仪器自带的操作软件,观察分析谱线附近是否存在其他元素的干扰,来确定背景扣除最佳的位置及宽度,降低ICP-OES测量中的光谱干扰;以10%的王水作为进样系统的冲洗液,有效消减测量过程中的记忆效应。当稀释因子为200时,方法的检出限(3SD)为1.2μg/g,定量限(10SD)为4.0μg/g;用岩石、土壤及水系沉积物国家一级标准物质对精密度及准确度进行分析验证,11次测定相对标准偏差为1.8%～7.9%,相对误差为-3.6%～6.3%;以外检分析结果为参考,对硼含量在定量限以上的样品测定,相对误差为-9.3%～12.5%。     

高压密闭消解-电感耦合等离子体光谱和质谱联合测定海洋地质样品中52种元素

An improved analytical method to determine the content of 52 major, minor and trace elements in marine geological samples, using a HF-HCl-HNO_3 acid system with a high-pressure closed digestion method(HPCD), is studied by an inductively coupled plasma optical emission spectrometry(ICP-OES) and an inductively coupled plasma mass spectrometry(ICP-MS). The operating parameters of the instruments are optimized, and the optimal analytical parameters are determined. The influences of optical spectrum and mass spectrum interferences, digestion methods and acid systems on the analytical results are investigated. The optimal spectral lines and isotopes are chosen, and internal standard element of rhodium is selected to compensate for matrix effects and analytical signals drifting. Compared with the methods of an electric heating plate digestion and a microwave digestion, a high-pressure closed digestion method is optimized with less acid, complete digestion,less damage for digestion process. The marine geological samples are dissolved completely by a HF-HCl-HNO_3 system, the relative error(RE) for the analytical results are all less than 6.0%. The method detection limits are 2–40μg/g by the ICP-OES, and 6–80 ng/g by ICP-MS. The methods are used to determine the marine sediment reference materials(GBW07309, GBW07311, GBW07313), rock reference materials(GBW07103, GBW07104,GBW07105), and cobalt-rich crust reference materials(GBW07337, GBW07338, GBW07339), the obtained analytical results are in agreement with the certified values, and both of the relative standard deviation(RSD) and the relative error(RE) are less than 6.0%. The analytical method meets the requirements for determining 52 elements contents of bulk marine geological samples.     

静态密闭状态下大甸子井孔隙度与体积压缩系数时序特征分析

以内蒙古大甸子观测井为数据收集对象,利用原始水位观测数据得到该井静态密闭下气压系数、水位与气压的关系以及孔隙度与气压系数的关系,从而分析该井静态密闭状态下孔隙度与体积压缩系数时序特征。结果表明,孔隙度与固体骨架的体积压缩系数和含水层内水的体积压缩系数间存在幂函数关系;在第一象限内,各井含水层介质固体骨架的体积压缩系数随着孔隙度的增大而增大;含水层内水的体积压缩系数随着孔隙度的增大而减小。     

3D Modeling of sediment movement by ships-generated wakes in confined shipping channel

Ship-generated waves and return currents are capable of re-suspending significant quantities of bottom and bank sediments.However,most of the previous studies done on the subject do not show how and where sediment is re-suspended by the wakes and the directions of net transport.In this paper,a 3D numerical model based on hydro-sedimentary coupling is presented to search the relationship between the sediment movement,and the pattern of ship-generated waves around and far away from the vessel and the return currents around the ships.The hydrodynamic model is based on 3D Navier-Stokes equations including the standard k-ε model for turbulence processes,and the sediment transport model is based on a 3D equation for the re-suspended sediment transport.The computation results show that the areas of sediment concentration and transport(whether by resuspension or by the bedload) depend mainly on the position,the speed of the ship in the waterways,the kinematics of ship-generated waves and on the return flows.Thus,a map of sediment distribution and the modes of sediment transport generated by the passage of the ship are presented.