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Preliminary investigation of mercury in bone tissues of skua and penguin in Antarctica using AFS and Synchrotron Radiation X-ray Fluorescence(SR-XRF) 
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下载免费PDF全文 <正> Mercury(Hg)was investigated in bone tissues of skua(Catharacta mac-cormick)and penguin(Pygoscelis adeliae)collected in the maritime Antarctic usingatomic fluorescence spectrometry(AFS)and synchrotron radiation X-ray fluorescence(SR-XRF)method.The total levels of mercury in bone tissues of penguin and skuaare much lower than those in other organs(e.g.,kidney,liver).The toxic effects ofmercury in bone tissues of seabirds in polar region are not known.We have used SR-XRF method to map the distribution of trace levels of mercury in bones.The levels ofmercury are found to be enriched somewhere near the periosteal surface and/or endos-teal surface.The distribution of mercury shows strongly correlation with that of someessential elements and probably poses negative effect on the bone metabolism inferringfrom the relationship of mercury with the other elements.These studies represent afirst step toward understanding the toxic effects of mercury on bone of polar animals bysuggesting the possible microscopic investigation. 相似文献
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Penguin and skua in the maritime Antarctic have high salt loadings in the body due to almost exclusive diet consumption of marine invertebrates. However, the storage and turnover of sodium and potassium in these animals are poorly investigated. Here we determined the concentration and microscopic distribution of the two elements in the bones of penguin and skua. The average concentrations of sodium and potassium in penguin bone were comparable with that in skua bone (0.18% and 0.82% for penguin bone; 0.19% and 0.76% for skua bone in dry weight). The ratios of sodium to calcium and potassium to calcium (0.0330 and 0.0075 for penguin, 0.0335 and 0.0082 for skua in average by weight) were somewhat higher than the reported ratios for terrestrial animals, indicating these marine animals' bone enrichment of salt. The ratios of sodium to potassium in average by weight were 6.75 and 4.65 for penguin and skua, respectively. This value is much lower compared with the bulk sea water ratio of about 27.0, implying that potassium is favorable to reside in the bone rather than sodium. Both sodium and potassium were found to significant correlation with the content of organic materials in bone based upon the intensity of native signal determined by electron paramagnetic resonance (EPR). It was estimated that almost all of potassium is kept within the organic phases, while about 30% of sodium is stored in organic phases and the other 70% within mineral phase. The microscopic distributions of potassium in the cross-section and/or surface were revealed by synchrotron radiation X-ray fluorescence (SR-XRF) technique. The ratio of potassium to calcium based upon the SR-XRF intensity counter varied considerably from the surface to the interior, and on the surface the highest concentration of potassium was observed in the middle section with decreasing amounts toward the edge. This indirectly documented that exchange of potassium between fluid and bone organic phase maybe occur. 相似文献
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本文应用同步辐射加速器X荧光(SR-XRF)分析技术并结合电感耦合等离子体质谱(ICP-MS)方法对中国首次北极考察采集的气溶胶样品进行了定量分析。SR-XRF方法对6种元素的分辨率分别为1.1ng/cm2(Ca)、39.7ng/cm2(V)、17.6ng/cm2(Fe)、2.3ng/cm2(Ni)、1.8ng/cm2(Zn)、6.4ng/cm2(Pb)。6种元素的浓度分别为117.3(ng/m3,Ca)、16.5(ng/m3,V)、19.3(ng/m3,Fe)、3.4(ng/m3,Ni)、4.5(ng/m3,Zn)、1.4(ng/m3,Pb)。该结果与文献报道的相应海区夏季气溶胶化学成分含量具有可比性。由于SR-XRF方法灵敏度高,属于无损分析,在极地气溶胶研究中具有广泛的应用前景。 相似文献