G. Pashkova, A. Nikonova, S. D. Dylgerova, E. Chuparina, A. Maltsev, A. N. Zhilicheva, O. Belozerova, L. P. Paradina, O. Glyzina, I. Khanaev
{"title":"全反射x射线荧光在贝加尔湖海绵重金属分析中的适用性","authors":"G. Pashkova, A. Nikonova, S. D. Dylgerova, E. Chuparina, A. Maltsev, A. N. Zhilicheva, O. Belozerova, L. P. Paradina, O. Glyzina, I. Khanaev","doi":"10.1002/xrs.3396","DOIUrl":null,"url":null,"abstract":"Oxidative stress of Lake Baikal organisms can be caused by pollution of nearshore with anionic surfactants or heavy metals. Some specific heavy metals are essential for aquatic organisms. At present, there are no data concerning heavy metal content caused by anthropogenic pollution or chemotaxonomic features of Baikal sponges. Here, we consider the applicability of total reflection x‐ray fluorescence (TXRF) to analyze heavy metals in Lubomirskia baikalensis to fill this gap. It was shown that TXRF method can be successfully applied to the fast and reliable quantification of Cu, Zn, Fe, and Mn in this object. Evaluation of different sample treatment procedures showed that the acid digestion by HNO3/H2O2 mixture is an optimal procedure for the preparation of sponges compared with suspension preparation. It helps to improve sensitivity, eliminate the effects of particle size and specimen heterogeneity. The total uncertainty of the TXRF results associated with the sample preparation, taking, depositing, and measuring of the specimen was 6%–18% for Mn, 3%–5% for Cu, 5%–12% for Fe, and 4%–5% for Zn. To validate the developed method, the TXRF results were compared with the data obtained by wavelength dispersive x‐ray fluorescence spectrometry. A good agreement of results was achieved. TXRF data show the dominance of essential heavy metals in L. baikalensis (n = 14) among other heavy metals. Correlations between Cu/Zn contents (R2 = 0.515) as well as between Fe/Mn contents (R2 = 0.972) can be explained by the contribution of them to L. baikalensis antioxidant system.","PeriodicalId":23867,"journal":{"name":"X-Ray Spectrometry","volume":null,"pages":null},"PeriodicalIF":1.5000,"publicationDate":"2023-08-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Applicability of total reflection x‐ray fluorescence for heavy metal analysis in Lake Baikal sponges\",\"authors\":\"G. Pashkova, A. Nikonova, S. D. Dylgerova, E. Chuparina, A. Maltsev, A. N. Zhilicheva, O. Belozerova, L. P. Paradina, O. Glyzina, I. Khanaev\",\"doi\":\"10.1002/xrs.3396\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Oxidative stress of Lake Baikal organisms can be caused by pollution of nearshore with anionic surfactants or heavy metals. Some specific heavy metals are essential for aquatic organisms. At present, there are no data concerning heavy metal content caused by anthropogenic pollution or chemotaxonomic features of Baikal sponges. Here, we consider the applicability of total reflection x‐ray fluorescence (TXRF) to analyze heavy metals in Lubomirskia baikalensis to fill this gap. It was shown that TXRF method can be successfully applied to the fast and reliable quantification of Cu, Zn, Fe, and Mn in this object. Evaluation of different sample treatment procedures showed that the acid digestion by HNO3/H2O2 mixture is an optimal procedure for the preparation of sponges compared with suspension preparation. It helps to improve sensitivity, eliminate the effects of particle size and specimen heterogeneity. The total uncertainty of the TXRF results associated with the sample preparation, taking, depositing, and measuring of the specimen was 6%–18% for Mn, 3%–5% for Cu, 5%–12% for Fe, and 4%–5% for Zn. To validate the developed method, the TXRF results were compared with the data obtained by wavelength dispersive x‐ray fluorescence spectrometry. A good agreement of results was achieved. TXRF data show the dominance of essential heavy metals in L. baikalensis (n = 14) among other heavy metals. 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Applicability of total reflection x‐ray fluorescence for heavy metal analysis in Lake Baikal sponges
Oxidative stress of Lake Baikal organisms can be caused by pollution of nearshore with anionic surfactants or heavy metals. Some specific heavy metals are essential for aquatic organisms. At present, there are no data concerning heavy metal content caused by anthropogenic pollution or chemotaxonomic features of Baikal sponges. Here, we consider the applicability of total reflection x‐ray fluorescence (TXRF) to analyze heavy metals in Lubomirskia baikalensis to fill this gap. It was shown that TXRF method can be successfully applied to the fast and reliable quantification of Cu, Zn, Fe, and Mn in this object. Evaluation of different sample treatment procedures showed that the acid digestion by HNO3/H2O2 mixture is an optimal procedure for the preparation of sponges compared with suspension preparation. It helps to improve sensitivity, eliminate the effects of particle size and specimen heterogeneity. The total uncertainty of the TXRF results associated with the sample preparation, taking, depositing, and measuring of the specimen was 6%–18% for Mn, 3%–5% for Cu, 5%–12% for Fe, and 4%–5% for Zn. To validate the developed method, the TXRF results were compared with the data obtained by wavelength dispersive x‐ray fluorescence spectrometry. A good agreement of results was achieved. TXRF data show the dominance of essential heavy metals in L. baikalensis (n = 14) among other heavy metals. Correlations between Cu/Zn contents (R2 = 0.515) as well as between Fe/Mn contents (R2 = 0.972) can be explained by the contribution of them to L. baikalensis antioxidant system.
期刊介绍:
X-Ray Spectrometry is devoted to the rapid publication of papers dealing with the theory and application of x-ray spectrometry using electron, x-ray photon, proton, γ and γ-x sources.
Covering advances in techniques, methods and equipment, this established journal provides the ideal platform for the discussion of more sophisticated X-ray analytical methods.
Both wavelength and energy dispersion systems are covered together with a range of data handling methods, from the most simple to very sophisticated software programs. Papers dealing with the application of x-ray spectrometric methods for structural analysis are also featured as well as applications papers covering a wide range of areas such as environmental analysis and monitoring, art and archaelogical studies, mineralogy, forensics, geology, surface science and materials analysis, biomedical and pharmaceutical applications.
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