Improvements in the determination of attogram-sized 231Pa in dissolved and particulate fractions of seawater via multi-collector inductively coupled plasma mass spectrometry
A technique is developed to quantify the ultra-trace 231 Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). The method is a modification of the process developed by Shen et al. (Anal Chem 75(5):1075–1079, 2003. https://doi.org/10...
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| Published in | Progress in earth and planetary science Vol. 10; no. 1; pp. 65 - 11 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
21.11.2023
Springer Nature B.V SpringerOpen |
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| Online Access | Get full text |
| ISSN | 2197-4284 2197-4284 |
| DOI | 10.1186/s40645-023-00600-z |
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| Abstract | A technique is developed to quantify the ultra-trace
231
Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). The method is a modification of the process developed by Shen et al. (Anal Chem 75(5):1075–1079, 2003.
https://doi.org/10.1021/ac026247r
) and extends it to the application of very low levels of actinides, and the 35 ag
231
Pa can be measured with a precision of 15%. The total process blank for the water column was 0.02 ag/g, while the values of the large and small particles were ~ 30 ag/g. The ionization efficiency (ions generated/atom loaded) varies from 0.7 to 2.4%. The measurement time is 2–5 min. The amount of
231
Pa needed to produce
231
Pa data with an uncertainty of ± 0.8–15% is 35–3904 ag (~ 0.9 × 10
5
to 10 × 10
6
atoms). Replicate measurements of known standards and seawater samples demonstrate that the analytical precision approximates that expected from counting statistics, and that based on detection limits of 52 ag, 55 ag, and 28 ag, protactinium can be detected in a minimum seawater sample size of ~ 2.6 L for small suspended particulate matter (> 0.8 μm and < 51 μm), ~ 3.0 L for large suspended particulate matter (> 51 μm), and ~ 56 mL for filtered (< 0.45 μm) seawater. The concentration of
231
Pa (several attograms per liter) can be determined with an uncertainty of ± 2–8% (2
σ
) for suspended particulate matter filtered from ~ 60 L of seawater. For the dissolved fraction, ~ 1 L of seawater yields
231
Pa measurements with a precision of 0.8–10%. The sample size requirements are several orders of magnitude less than traditional decay-counting techniques, and the precision is better than that previously reported for ICP-MS techniques. Our technique can also be applied to other environmental samples, including river, lake, and cave water samples. |
|---|---|
| AbstractList | Abstract A technique is developed to quantify the ultra-trace 231Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). The method is a modification of the process developed by Shen et al. (Anal Chem 75(5):1075–1079, 2003. https://doi.org/10.1021/ac026247r ) and extends it to the application of very low levels of actinides, and the 35 ag 231Pa can be measured with a precision of 15%. The total process blank for the water column was 0.02 ag/g, while the values of the large and small particles were ~ 30 ag/g. The ionization efficiency (ions generated/atom loaded) varies from 0.7 to 2.4%. The measurement time is 2–5 min. The amount of 231Pa needed to produce 231Pa data with an uncertainty of ± 0.8–15% is 35–3904 ag (~ 0.9 × 105 to 10 × 106 atoms). Replicate measurements of known standards and seawater samples demonstrate that the analytical precision approximates that expected from counting statistics, and that based on detection limits of 52 ag, 55 ag, and 28 ag, protactinium can be detected in a minimum seawater sample size of ~ 2.6 L for small suspended particulate matter (> 0.8 μm and < 51 μm), ~ 3.0 L for large suspended particulate matter (> 51 μm), and ~ 56 mL for filtered (< 0.45 μm) seawater. The concentration of 231Pa (several attograms per liter) can be determined with an uncertainty of ± 2–8% (2σ) for suspended particulate matter filtered from ~ 60 L of seawater. For the dissolved fraction, ~ 1 L of seawater yields 231Pa measurements with a precision of 0.8–10%. The sample size requirements are several orders of magnitude less than traditional decay-counting techniques, and the precision is better than that previously reported for ICP-MS techniques. Our technique can also be applied to other environmental samples, including river, lake, and cave water samples. A technique is developed to quantify the ultra-trace 231 Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). The method is a modification of the process developed by Shen et al. (Anal Chem 75(5):1075–1079, 2003. https://doi.org/10.1021/ac026247r ) and extends it to the application of very low levels of actinides, and the 35 ag 231 Pa can be measured with a precision of 15%. The total process blank for the water column was 0.02 ag/g, while the values of the large and small particles were ~ 30 ag/g. The ionization efficiency (ions generated/atom loaded) varies from 0.7 to 2.4%. The measurement time is 2–5 min. The amount of 231 Pa needed to produce 231 Pa data with an uncertainty of ± 0.8–15% is 35–3904 ag (~ 0.9 × 10 5 to 10 × 10 6 atoms). Replicate measurements of known standards and seawater samples demonstrate that the analytical precision approximates that expected from counting statistics, and that based on detection limits of 52 ag, 55 ag, and 28 ag, protactinium can be detected in a minimum seawater sample size of ~ 2.6 L for small suspended particulate matter (> 0.8 μm and < 51 μm), ~ 3.0 L for large suspended particulate matter (> 51 μm), and ~ 56 mL for filtered (< 0.45 μm) seawater. The concentration of 231 Pa (several attograms per liter) can be determined with an uncertainty of ± 2–8% (2 σ ) for suspended particulate matter filtered from ~ 60 L of seawater. For the dissolved fraction, ~ 1 L of seawater yields 231 Pa measurements with a precision of 0.8–10%. The sample size requirements are several orders of magnitude less than traditional decay-counting techniques, and the precision is better than that previously reported for ICP-MS techniques. Our technique can also be applied to other environmental samples, including river, lake, and cave water samples. A technique is developed to quantify the ultra-trace 231Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). The method is a modification of the process developed by Shen et al. (Anal Chem 75(5):1075–1079, 2003. https://doi.org/10.1021/ac026247r) and extends it to the application of very low levels of actinides, and the 35 ag 231Pa can be measured with a precision of 15%. The total process blank for the water column was 0.02 ag/g, while the values of the large and small particles were ~ 30 ag/g. The ionization efficiency (ions generated/atom loaded) varies from 0.7 to 2.4%. The measurement time is 2–5 min. The amount of 231Pa needed to produce 231Pa data with an uncertainty of ± 0.8–15% is 35–3904 ag (~ 0.9 × 105 to 10 × 106 atoms). Replicate measurements of known standards and seawater samples demonstrate that the analytical precision approximates that expected from counting statistics, and that based on detection limits of 52 ag, 55 ag, and 28 ag, protactinium can be detected in a minimum seawater sample size of ~ 2.6 L for small suspended particulate matter (> 0.8 μm and < 51 μm), ~ 3.0 L for large suspended particulate matter (> 51 μm), and ~ 56 mL for filtered (< 0.45 μm) seawater. The concentration of 231Pa (several attograms per liter) can be determined with an uncertainty of ± 2–8% (2σ) for suspended particulate matter filtered from ~ 60 L of seawater. For the dissolved fraction, ~ 1 L of seawater yields 231Pa measurements with a precision of 0.8–10%. The sample size requirements are several orders of magnitude less than traditional decay-counting techniques, and the precision is better than that previously reported for ICP-MS techniques. Our technique can also be applied to other environmental samples, including river, lake, and cave water samples. |
| ArticleNumber | 65 |
| Author | Edwards, Richard Lawrence Zhang, Zhe Anderson, Robert Lam, Phoebe Lu, Yanbin Zhang, Pu |
| Author_xml | – sequence: 1 givenname: Pu surname: Zhang fullname: Zhang, Pu email: zhangpu035@cdut.edu.cn organization: College of Earth Sciences, Chengdu University of Technology, Department of Earth and Environmental Sciences, University of Minnesota, College of Urban and Environmental Sciences, Northwest University – sequence: 2 givenname: Yanbin surname: Lu fullname: Lu, Yanbin organization: Department of Earth and Environmental Sciences, University of Minnesota – sequence: 3 givenname: Zhe surname: Zhang fullname: Zhang, Zhe organization: College of Environmental Science and Engineering, Nankai University – sequence: 4 givenname: Richard Lawrence surname: Edwards fullname: Edwards, Richard Lawrence organization: Department of Earth and Environmental Sciences, University of Minnesota – sequence: 5 givenname: Robert surname: Anderson fullname: Anderson, Robert organization: Lamont-Doherty Earth Observatory of Columbia University, Department of Earth and Environmental Sciences, Columbia University – sequence: 6 givenname: Phoebe surname: Lam fullname: Lam, Phoebe organization: Department of Ocean Sciences, University of California |
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| Cites_doi | 10.1029/2001gl013339 10.1016/j.epsl.2005.11.031 10.1021/ac00244a030 10.1524/ract.1969.11.2.104 10.1038/35018550 10.1016/s0012-821x(97)00068-x 10.1016/j.chemgeo.2018.05.040 10.1038/nature12145 10.1016/S0009-2541(99)00157-6 10.1029/2007pa001415 10.1016/s0012-821x(97)00037-x 10.1016/s0967-0637(00)00046-7 10.1038/ncomms6817 10.1016/j.gca.2011.09.012 10.1016/s0012-821x(02)00928-7 10.1021/ac00079a020 10.1130/0016-7606(1990)102<0961:zu 10.1021/ac026247r 10.1016/s0012-821x(99)00035-7 10.1126/science.280.5362.405 10.1016/0016-7037(93)90479-g 10.1016/0198-0149(85)90004-4 10.1016/s0304-4203(01)00050-0 10.1016/j.dsr2.2014.07.007 10.1016/s0012-821x(97)00081-2 10.1016/0012-821x(83)90067-5 10.1016/s0012-821x(04)00027-5 10.1016/j.epsl.2005.05.031 10.1016/s0967-0645(02)00593-3 10.1016/j.epsl.2013.12.038 10.1126/science.276.5313.782 10.1016/j.marchem.2015.01.006 10.13182/NSE86-A17666 |
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| Snippet | A technique is developed to quantify the ultra-trace
231
Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass... A technique is developed to quantify the ultra-trace 231Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma mass... Abstract A technique is developed to quantify the ultra-trace 231Pa (35–3904 ag) concentration in seawater using multi-collector inductively coupled plasma... |
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| SubjectTerms | 2. Atmospheric and hydrospheric sciences 231Pa Actinides Atmospheric Sciences Biogeosciences Chemical analysis Detection limits Earth and Environmental Science Earth Sciences Geophysics/Geodesy Hydrogeology Ionization Mass spectrometry MC-ICP-MS Methodology Particulate matter Planetology Precision Protactinium Reproducibility Scientific imaging Seawater Suspended particulate matter Water analysis Water column Water sampling |
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| Title | Improvements in the determination of attogram-sized 231Pa in dissolved and particulate fractions of seawater via multi-collector inductively coupled plasma mass spectrometry |
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