Masahiro Maruo, Eiichiro Nakayama, Hajime Obata, Kokichi Kamiyama, Takashi Kimoto
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引用次数: 7
Abstract
A flow-through analyzer that can determine trace amounts of chemical components in ice cores was examined. To obtain the vertical profiles of ammonia and calcium in the ice core, which can be a measure of the climate change, sensitive fluorescence signals were examined. For the determination of ammonia, a reaction with o-phthalaldehyde and sulfite salt was performed. This system had the potential to measure down to 2 nM, with a 1-mm ice-core resolution, equivalent to the thickness of the monthly ammonia profiles during the last interglacial maximum. A trace calcium analyzer was simultaneously examined, with the use of the fluorescent enhancement of Fura2 with a detection limit of 15 nM. Ammonia and calcium in the Antarctic ice core showed similar variation patterns, different from that of the Greenland ice core. The ammonia analyzer was also applied to the analysis of lake water. © 2001 John Wiley & Sons, Inc. Field Analyt Chem Technol 5: 29–36, 2001
荧光检测法在冰芯及淡水中氨、钙流动分析中的应用
一种可以测定冰芯中微量化学成分的流动分析仪进行了测试。为了获得冰芯中氨和钙的垂直分布,可以作为气候变化的衡量标准,研究人员检测了敏感的荧光信号。用邻苯二醛和亚硫酸盐反应测定氨。该系统有可能测量到2纳米,1毫米的冰芯分辨率,相当于在最后一次间冰期高峰期间每月氨剖面的厚度。同时检测微量钙分析仪,使用Fura2荧光增强,检测限为15 nM。南极冰芯中氨和钙表现出与格陵兰冰芯相似的变化模式,但与格陵兰冰芯不同。氨分析仪也应用于湖泊水质的分析。©2001 John Wiley &儿子,Inc。化学工程学报(英文版),2001
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