汞型活性炭纸富集-XRFA法测定水样中的痕量SCN^-

SCN^-的测定大都采用分光光度法[1，2]。用波长色散X-射线荧光光谱测定痕量SCN^-的方法，至今尚未见报道。     

PSP0控制和处理软件

本文介绍为分光光度仪PSP0的使用而开发的控制和处理专用软件,PSP0RUN。此项工作是PSP0研制中必不可少的一部分。文章首先对PSP0RUN的集成环境和任务进行了较详细的说明,然后对PSP0的控制和采样程序以及软件的文件和数据结构做进一步的介绍。实际应用表明,该软件设计合理,运行可靠,并在很大程度上提高了PSP0的研制效率。     

荧光分光光度法测定海洋生物中的谷胱甘肽

对应用荧光分光光度法测定海洋生物中还原型谷胱甘肽（GSH）含量的方法进行了研究，并测定了分属于鱼、虾、贝、藻的10种海洋生物中谷胱甘肽的含量。利用邻苯二甲醛与GSH反应构成的荧光体系，在激发波长为365nm，发射波长为425nm的条件下，方法的回收率为99．22％-99．69％，变异系数为2．16％。应用此方法测得10种海洋生物中谷胱甘肽的含量为：红笛鲷（Lutjanus sanguineus）0．399mg／g，银鲳（Pampus argenteus）0．352mg／g，大海鲢（Megalops cyrinoides）0．561mg/g，尖紫蛤（Sanguinolaria acuta）0．289mg/g，菲律宾蛤仔（Ruditapes philippinarun）0．287mg／g，墨吉对虾（Penaeus merguiensis）0．892mg／g，凡纳滨对虾（Litopenaeus vannamei）1．434mg／g，囊藻（Colpomenia sinuose）0．221mg／g，石莼（Ulva lactucal）0．727mg／g，马尾藻（Sargassum muticum）0．137mg／g。     

铋——对乙酰基偶氮氯磷显色反应及应用研究

对乙酰基偶氮氯磷与铋在０．１６ｍｏｌ／Ｌ ＨＣｌＯ４介质中形成蓝色配合物，最大吸收波长为６８５ｎｍ，Ｂｉ在０－２μｇ／ｍｌ的范围内符合比尔定律。ε为５．０×１０＾４ｍｏｌ／Ｌ，络合比为１：２。已用于镍基及铜合金中微量Ｂｉ的判定。     

Silicon limitation on primary production and its destiny in Jiaozhou Bay, China——Ⅳ：Study on cross-bay transect from estuary to ocean

The authors analyzed the data collected in the Ecological Station Jiaozhou Bay from May 1991 to November 1994, including 12 seasonal investigations, to determine the characteristics, dynamic cycles and variation trends of the silicate in the bay. The results indicated that the rivers around Jiaozhou Bay provided abundant supply of silicate to the bay. The silicate concentration there depended on river flow variation. The horizontal variation of silicate concentration on the transect showed that the silicate concentration decreased with distance from shorelines. The vertical variation of it showed that silicate sank and deposited on the sea bottom by phytoplankton uptake and death, and zooplankton excretion. In this way, silicon would endlessly be transferred from terrestrial sources to the sea bottom. The silicon took up by phytoplankton and by other biogeochemical processes led to insufficient silicon supply for phytoplankton growth. In this paper, a 2D dynamic model of river flow versus silicate concentration was established by which silicate concentrations of 0.028–0.062 μmol/L in seawater was yielded by inputting certain seasonal unit river flows (m³/s), or in other words, the silicate supply rate; and when the unit river flow was set to zero, meaning no river input, the silicate concentrations were between 0.05–0.69 μmol/L in the bay. In terms of the silicate supply rate, Jiaozhou Bay was divided into three parts. The division shows a given river flow could generate several different silicon levels in corresponding regions, so as to the silicon-limitation levels to the phytoplankton in these regions. Another dynamic model of river flow versus primary production was set up by which the phytoplankton primary production of 5.21–15.55 (mgC/m²·d)/(m³/s) were obtained in our case at unit river flow values via silicate concentration or primary production conversion rate. Similarly, the values of primary production of 121.98–195.33 (mgC/m²·d) were achieved at zero unit river flow condition. A primary production conversion rate reflects the sensitivity to silicon depletion so as to different phytoplankton primary production and silicon requirements by different phytoplankton assemblages in different marine areas. In addition, the authors differentiated two equations (Eqs. 1 and 2) in the models to obtain the river flow variation that determines the silicate concentration variation, and in turn, the variation of primary production. These results proved further that nutrient silicon is a limiting factor for phytoplankton growth. This study was funded by NSFC (No. 40036010), and the Director's Fund of the Beihai Sea Monitoring Center, the State Oceanic Administration.     

激电偶极—偶极装置在撒岱沟门的找矿效果

本介绍撒岱沟相矿区应用激电偶极－偶极装置的找矿效果。通过对其成果分析和钻探证实：利用该装置所获资料，不仅能从断面上直观地推测出极化体的分布及产状变化，还能从不同深度的ηｓ平面成果中分析出极化体在地下空间赋存状态的基本轮廓。