Aqua regia extractable selenium concentrations of some Scottish topsoils measured by ICP-MS and the relationship with mineral and organic soil components

BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationsh...

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Published inJournal of the science of food and agriculture Vol. 90; no. 6; pp. 972 - 980
Main Authors Shand, Charles A, Balsam, Matthias, Hillier, Stephen J, Hudson, Gordon, Newman, Gareth, Arthur, John R, Nicol, Fergus
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 30.04.2010
Wiley
John Wiley and Sons, Limited
Subjects
acid treatment
Aluminum Silicates
Aluminum Silicates - analysis
analysis
aqua regia
aqua regia extraction
Arable land
arable soils
Biological and medical sciences
Carbon
Carbon - analysis
chemical concentration
chemistry
classification
Dietary minerals
Diffraction
extraction
Extraction processes
Food engineering
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
geographical variation
Geologic Sediments
Geologic Sediments - chemistry
Geologic Sediments - classification
Hydrochloric Acid
inductively coupled plasma mass spectrometry
Least-Squares Analysis
Mass Spectrometry
mineral content
Minerals
Minerals - analysis
Nitric Acid
organic compounds
Parents
Potassium
Potassium - analysis
Potassium Compounds
Potassium Compounds - analysis
Rock
Scotland
Selenium
Selenium - analysis
Soil
Soil (material)
Soil - analysis
soil carbon
soil chemistry
soil mineralogy
soil minerals
Soils
Topsoil
X-Ray Diffraction
Scotland
soil carbon
aqua regia extraction
inductively coupled plasma mass spectrometry
soil
Concentration
soil minerals
Inductive coupling plasma spectrometry
Carbon
Inorganic element
Soils
Chemical composition
Extraction
Selenium
Mass spectrometry
Online AccessGet full text

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Abstract BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction.RESULTS: The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg⁻¹. No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important.CONCLUSION: The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.
AbstractList To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction. The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg(-1). No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important. The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.
BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction.RESULTS: The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg⁻¹. No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important.CONCLUSION: The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.
BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X‐ray diffraction. RESULTS: The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg−1. No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K‐feldspar concentration, with other minerals being less important. CONCLUSION: The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important. Copyright © 2010 Society of Chemical Industry
To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction. The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg... No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important. The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important. (ProQuest: ... denotes formulae/symbols omitted.)
To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction.BACKGROUNDTo provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction.The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg(-1). No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important.RESULTSThe aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg(-1). No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important.The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.CONCLUSIONThe Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.
BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X-ray diffraction. RESULTS: The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg-1. No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K-feldspar concentration, with other minerals being less important. CONCLUSION: The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important.
BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of their parent rock, which were expected to have relatively high, low or unclassified Se concentrations. To investigate relationships between the actual minerals in the soils and the aqua regia extractable Se concentration of the soil, soil minerals were quantified by X‐ray diffraction. RESULTS: The aqua regia extractable Se concentrations of the soils were between 0.19 and 1.46 mg kg −1 . No simple correlation between the aqua regia extractable Se concentrations of the soil and the parent rock classification estimated by soil survey was evident. Partial least squares analysis revealed that the aqua regia extractable Se concentration of the soils was positively related to loss on ignition (LOI) or C concentration and negatively related to the K‐feldspar concentration, with other minerals being less important. CONCLUSION: The Se concentration of arable topsoils from Scotland is more related to LOI or carbon concentration, with parent material being less important. Copyright © 2010 Society of Chemical Industry
Author Shand, Charles A
Hudson, Gordon
Hillier, Stephen J
Balsam, Matthias
Nicol, Fergus
Arthur, John R
Newman, Gareth
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Issue 6
Keywords soil carbon
aqua regia extraction
inductively coupled plasma mass spectrometry
soil
Concentration
soil minerals
Inductive coupling plasma spectrometry
Carbon
Inorganic element
Soils
Chemical composition
Extraction
Selenium
Mass spectrometry
Language English
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Wiley
John Wiley and Sons, Limited
Publisher_xml – name: John Wiley & Sons, Ltd
– name: Wiley
– name: John Wiley and Sons, Limited
References Rayman MP, Selenium in cancer prevention: a review of the evidence and mechanism of action. Proc Nutr Soc 64: 527-542 (2005).
Fan M-S, Zhao F-J, Poulton PR and McGrath SP, Historical changes in the concentrations of selenium in soil and wheat grain from the Broadbalk experiment over the last 160 years. Sci Total Environ 389: 532-538 (2008).
MacLeod F, McGaw BA and Shand CA, Stable isotope dilution-mass spectrometry for determining total selenium levels in plants, soils and sewage sludges. Talanta 43: 1091-1098 (1996).
Rigol A, Camps M, de Juan A, Rauret G and Vidal M, Multivariate soft-modeling to predict radiocesium soil-to-plant transfer. Environ Sci Technol 42: 4029-4036 (2008).
Forbes S, Bound GP and West TS, Determination of selenium in soils and plants by differential pulse cathodic-stripping voltammetry. Talanta 26: 473-477 (1979).
Pinho J, Canário J, Cesário R and Vale C, A rapid acid digestion method with ICP-MS detection for the determination of selenium in dry sediments. Anal Chim Acta 551: 207-212 (2005).
Ysart G, Miller P, Crews H, Robb P, Baxter M, de L'Argy C, et al, Dietary exposure estimates of 30 elements from the UK Total Diet Study. Food Addit Contam 16: 391-403 (1999).
Beckett GJ and Arthur JR, Selenium and endocrine systems. J Endocrinol 184: 455-465 (2005).
Hillier S, Use of an air brush to spray dry samples for X-ray powder diffraction. Clay Miner 34: 127-135 (1999).
Barclay MNI, MacPherson A and Dixon J, Selenium content of a range of UK foods. J Food Comp Anal 8: 307-318 (1995).
Zhu X and Alexandratos SD, Determination of trace levels of mercury in aqueous solutions by inductively coupled plasma atomic emission spectrometry: elimination of the 'memory effect'. Microchem J 86: 37-41 (2007).
Rotruck JT, Pope AL, Ganther HE, Swanson AB, Hafeman DG and Hoekstra WG, Selenium: biochemical role as a component of glutathione peroxidase. Science 179: 588-590 (1973).
Shortt CT, Duthie GG, Robertson JD, Morrice PC, Nicol F and Arthur JR, Selenium status of a group of Scottish adults. Eur J Clin Nutr 51: 400-404 (1997).
Wu X and Låg J, Selenium in Norwegian farmland soils, Acta Agric Scand 38: 271-276 (1988).
Christensen BT, Bertelsen F and Gissel-Nielsen G, Selenite fixation by soil particle-size separates. J Soil Sci 40: 641-647 (1989).
Adams ML, Lombi E, Zhao F-J and McGrath SP, Evidence of low selenium concentrations in UK bread-making wheat grain. J Sci Food Agric 82: 1160-1165 (2002).
Adriano DC, Trace Elements in Terrestrial Environments: Biogeochemistry, Bioavailability, and Risks of Metals (2nd edn). Springer, New York, pp. 707-758 (2001).
MacLeod F, McGaw BA and Shand CA, Sequential extraction of selenium from four Scottish soils and a sewage sludge. Commun Soil Sci Plant Anal 29: 523-534 (1998).
Broadley MR, White PJ, Bryson RJ, Meacham MC, Bowen HC, Johnson SE, et al, Biofortification of UK food crops with selenium. Proc Nutr Soc 65: 169-181 (2006).
Darrouzès J, Bueno M, Lespès G, Holeman M and Potin-Gautier M, Optimisation of ICPMS collision/reaction cell conditions for the simultaneous removal of argon based interferences of arsenic and selenium in water samples. Talanta 71: 2080-2084 (2007).
González-Nieto J, López-Sanchez JF and Rubio R, Comparison of chemical modifiers for selenium determination in soil aqua regia extracts by ZETAAS. Talanta 69: 1118-1122 (2006).
Omotoso O, McCarty DK, Hillier S and Kleeberg R, Some successful approaches to quantitative mineral analysis as revealed by the 3rd Reynolds Cup contest. Clays Clay Miner 54: 748-760 (2006).
Foster LH and Sumar S, Selenium in health and disease: a review. Crit Rev Food Sci Nutr 37: 211-228 (1997).
Olson OE, Fluorometric analysis of selenium in plants. J Assoc Official Anal Chem 52: 627-634 (1969).
Coppin F, Chabroullet C and Martin-Garin A, Selenite interactions with some particulate organic and mineral fractions isolated from a natural grassland soil. Eur J Soil Sci 60: 369-376 (2009).
Macaulay Institute for Soil Research, Organization and Methods of the 1:250000 Soil Survey of Scotland. Macaulay Institute for Soil Research, Aberdeen, pp. 1-81 (1984).
Berrow ML and Stein WM, Extraction of metals from soils and sewage sludges by refluxing with aqua regia. Analyst 108: 277-285 (1983).
Thornton I, Kinniburgh DG, Abrahams P, Gaye C, Rundle S, Pullen G, et al, The influence of parent material on the selenium content of British soils. J Sci Food Agric 34: 50-51 (1983).
Kabata-Pendias A and Pendias H, Trace Elements in Soils and Plants. CRC Press, Boca Raton, FL, pp. 185-208 (1984).
Combs GF Jr, Selenium in global food systems. Br J Nutr 85: 517-547 (2001).
Reyes LH, Gayón JMM, Alonso JIG and Sanz-Medel A, Determination of selenium in biological materials by isotope dilution analysis with an octapole reaction system ICP-MS. J Anal Atmos Spectrom 18: 11-16 (2003).
Ure AM, Bacon JR, Berrow ML and Watt JJ, The total trace element content of some Scottish soils by spark source mass spectrometry. Geoderma 22: 1-23 (1979).
Chen M and Ma LQ, Comparison of three aqua regia digestion methods for twenty Florida soils. Soil Sci Soc Am J 65: 491-499 (2001).
Rosman KJR and Taylor PDP, Isotopic composition of the elements 1997. Pure Appl Chem 70: 217-235 (1998).
Schwarz K and Foltz CM, Selenium as an integral part of Factor 3 against dietary necrotic liver degeneration. J Am Chem Soc 79: 3292-3293 (1957).
May TW and Wiedmeyer RH, A table of polyatomic interferences in ICP-MS. Atmos Spectrosc 19: 150-155 (1998).
1989; 40
1998; 29
2005; 551
2006; 54
2009; 60
1969; 52
1988; 38
1997
2005; 64
1996
1995
2007; 71
1994
2002; 82
2003; 18
2008; 389
1992
2002
2001; 85
1957; 79
1995; 8
1983; 34
2001; 65
1973; 179
1997; 51
2005; 184
1998; 19
1979; 26
2001
2006; 65
1997; 37
1999; 16
2006; 69
1999; 34
1984
1998; 70
1982
2008; 42
1980
2007; 86
1979; 22
1996; 43
1983; 108
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References_xml – reference: Rosman KJR and Taylor PDP, Isotopic composition of the elements 1997. Pure Appl Chem 70: 217-235 (1998).
– reference: Rigol A, Camps M, de Juan A, Rauret G and Vidal M, Multivariate soft-modeling to predict radiocesium soil-to-plant transfer. Environ Sci Technol 42: 4029-4036 (2008).
– reference: Chen M and Ma LQ, Comparison of three aqua regia digestion methods for twenty Florida soils. Soil Sci Soc Am J 65: 491-499 (2001).
– reference: Ure AM, Bacon JR, Berrow ML and Watt JJ, The total trace element content of some Scottish soils by spark source mass spectrometry. Geoderma 22: 1-23 (1979).
– reference: Coppin F, Chabroullet C and Martin-Garin A, Selenite interactions with some particulate organic and mineral fractions isolated from a natural grassland soil. Eur J Soil Sci 60: 369-376 (2009).
– reference: Rayman MP, Selenium in cancer prevention: a review of the evidence and mechanism of action. Proc Nutr Soc 64: 527-542 (2005).
– reference: Thornton I, Kinniburgh DG, Abrahams P, Gaye C, Rundle S, Pullen G, et al, The influence of parent material on the selenium content of British soils. J Sci Food Agric 34: 50-51 (1983).
– reference: Macaulay Institute for Soil Research, Organization and Methods of the 1:250000 Soil Survey of Scotland. Macaulay Institute for Soil Research, Aberdeen, pp. 1-81 (1984).
– reference: Wu X and Låg J, Selenium in Norwegian farmland soils, Acta Agric Scand 38: 271-276 (1988).
– reference: Fan M-S, Zhao F-J, Poulton PR and McGrath SP, Historical changes in the concentrations of selenium in soil and wheat grain from the Broadbalk experiment over the last 160 years. Sci Total Environ 389: 532-538 (2008).
– reference: Forbes S, Bound GP and West TS, Determination of selenium in soils and plants by differential pulse cathodic-stripping voltammetry. Talanta 26: 473-477 (1979).
– reference: Schwarz K and Foltz CM, Selenium as an integral part of Factor 3 against dietary necrotic liver degeneration. J Am Chem Soc 79: 3292-3293 (1957).
– reference: MacLeod F, McGaw BA and Shand CA, Stable isotope dilution-mass spectrometry for determining total selenium levels in plants, soils and sewage sludges. Talanta 43: 1091-1098 (1996).
– reference: Christensen BT, Bertelsen F and Gissel-Nielsen G, Selenite fixation by soil particle-size separates. J Soil Sci 40: 641-647 (1989).
– reference: Zhu X and Alexandratos SD, Determination of trace levels of mercury in aqueous solutions by inductively coupled plasma atomic emission spectrometry: elimination of the 'memory effect'. Microchem J 86: 37-41 (2007).
– reference: Beckett GJ and Arthur JR, Selenium and endocrine systems. J Endocrinol 184: 455-465 (2005).
– reference: Broadley MR, White PJ, Bryson RJ, Meacham MC, Bowen HC, Johnson SE, et al, Biofortification of UK food crops with selenium. Proc Nutr Soc 65: 169-181 (2006).
– reference: MacLeod F, McGaw BA and Shand CA, Sequential extraction of selenium from four Scottish soils and a sewage sludge. Commun Soil Sci Plant Anal 29: 523-534 (1998).
– reference: Kabata-Pendias A and Pendias H, Trace Elements in Soils and Plants. CRC Press, Boca Raton, FL, pp. 185-208 (1984).
– reference: Reyes LH, Gayón JMM, Alonso JIG and Sanz-Medel A, Determination of selenium in biological materials by isotope dilution analysis with an octapole reaction system ICP-MS. J Anal Atmos Spectrom 18: 11-16 (2003).
– reference: Ysart G, Miller P, Crews H, Robb P, Baxter M, de L'Argy C, et al, Dietary exposure estimates of 30 elements from the UK Total Diet Study. Food Addit Contam 16: 391-403 (1999).
– reference: Darrouzès J, Bueno M, Lespès G, Holeman M and Potin-Gautier M, Optimisation of ICPMS collision/reaction cell conditions for the simultaneous removal of argon based interferences of arsenic and selenium in water samples. Talanta 71: 2080-2084 (2007).
– reference: Foster LH and Sumar S, Selenium in health and disease: a review. Crit Rev Food Sci Nutr 37: 211-228 (1997).
– reference: Shortt CT, Duthie GG, Robertson JD, Morrice PC, Nicol F and Arthur JR, Selenium status of a group of Scottish adults. Eur J Clin Nutr 51: 400-404 (1997).
– reference: Pinho J, Canário J, Cesário R and Vale C, A rapid acid digestion method with ICP-MS detection for the determination of selenium in dry sediments. Anal Chim Acta 551: 207-212 (2005).
– reference: Omotoso O, McCarty DK, Hillier S and Kleeberg R, Some successful approaches to quantitative mineral analysis as revealed by the 3rd Reynolds Cup contest. Clays Clay Miner 54: 748-760 (2006).
– reference: González-Nieto J, López-Sanchez JF and Rubio R, Comparison of chemical modifiers for selenium determination in soil aqua regia extracts by ZETAAS. Talanta 69: 1118-1122 (2006).
– reference: Hillier S, Use of an air brush to spray dry samples for X-ray powder diffraction. Clay Miner 34: 127-135 (1999).
– reference: Barclay MNI, MacPherson A and Dixon J, Selenium content of a range of UK foods. J Food Comp Anal 8: 307-318 (1995).
– reference: Rotruck JT, Pope AL, Ganther HE, Swanson AB, Hafeman DG and Hoekstra WG, Selenium: biochemical role as a component of glutathione peroxidase. Science 179: 588-590 (1973).
– reference: Adams ML, Lombi E, Zhao F-J and McGrath SP, Evidence of low selenium concentrations in UK bread-making wheat grain. J Sci Food Agric 82: 1160-1165 (2002).
– reference: Olson OE, Fluorometric analysis of selenium in plants. J Assoc Official Anal Chem 52: 627-634 (1969).
– reference: May TW and Wiedmeyer RH, A table of polyatomic interferences in ICP-MS. Atmos Spectrosc 19: 150-155 (1998).
– reference: Adriano DC, Trace Elements in Terrestrial Environments: Biogeochemistry, Bioavailability, and Risks of Metals (2nd edn). Springer, New York, pp. 707-758 (2001).
– reference: Combs GF Jr, Selenium in global food systems. Br J Nutr 85: 517-547 (2001).
– reference: Berrow ML and Stein WM, Extraction of metals from soils and sewage sludges by refluxing with aqua regia. Analyst 108: 277-285 (1983).
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  year: 1998
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  year: 2001
  end-page: 547
  article-title: Selenium in global food systems
  publication-title: Br J Nutr
– start-page: 184
  year: 1980
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– volume: 16
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  year: 1999
  end-page: 403
  article-title: Dietary exposure estimates of 30 elements from the UK Total Diet Study
  publication-title: Food Addit Contam
– volume: 389
  start-page: 532
  year: 2008
  end-page: 538
  article-title: Historical changes in the concentrations of selenium in soil and wheat grain from the Broadbalk experiment over the last 160 years
  publication-title: Sci Total Environ
– volume: 64
  start-page: 527
  year: 2005
  end-page: 542
  article-title: Selenium in cancer prevention: a review of the evidence and mechanism of action
  publication-title: Proc Nutr Soc
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  year: 2008
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  article-title: Multivariate soft‐modeling to predict radiocesium soil‐to‐plant transfer
  publication-title: Environ Sci Technol
– volume: 8
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  year: 1995
  end-page: 318
  article-title: Selenium content of a range of UK foods
  publication-title: J Food Comp Anal
– volume: 86
  start-page: 37
  year: 2007
  end-page: 41
  article-title: Determination of trace levels of mercury in aqueous solutions by inductively coupled plasma atomic emission spectrometry: elimination of the ‘memory effect’
  publication-title: Microchem J
– volume: 179
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  year: 1973
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  article-title: Selenium: biochemical role as a component of glutathione peroxidase
  publication-title: Science
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  year: 1969
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  article-title: Fluorometric analysis of selenium in plants
  publication-title: J Assoc Official Anal Chem
– volume: 65
  start-page: 169
  year: 2006
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  article-title: Biofortification of UK food crops with selenium
  publication-title: Proc Nutr Soc
– volume: 38
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  publication-title: Acta Agric Scand
– start-page: 69
  year: 1996
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– volume: 22
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  year: 1983
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  article-title: The influence of parent material on the selenium content of British soils
  publication-title: J Sci Food Agric
– year: 1992
– volume: 37
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  year: 1997
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  article-title: Selenium in health and disease: a review
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– volume: 19
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  year: 1998
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  article-title: A table of polyatomic interferences in ICP‐MS
  publication-title: Atmos Spectrosc
– volume: 18
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  year: 2003
  end-page: 16
  article-title: Determination of selenium in biological materials by isotope dilution analysis with an octapole reaction system ICP‐MS
  publication-title: J Anal Atmos Spectrom
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  year: 1957
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  year: 1999
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  publication-title: Clay Miner
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  year: 1997
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  article-title: Comparison of three aqua regia digestion methods for twenty Florida soils
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  article-title: Optimisation of ICPMS collision/reaction cell conditions for the simultaneous removal of argon based interferences of arsenic and selenium in water samples
  publication-title: Talanta
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  article-title: Selenite fixation by soil particle‐size separates
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  publication-title: Talanta
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  doi: 10.1111/j.1365-2389.2009.01127.x
– ident: e_1_2_6_26_2
  doi: 10.1016/j.aca.2005.07.002
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  doi: 10.1002/jsfa.1167
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  doi: 10.1351/pac199870010217
– ident: e_1_2_6_12_2
  doi: 10.1016/j.scitotenv.2007.08.024
– volume: 52
  start-page: 627
  year: 1969
  ident: e_1_2_6_32_2
  article-title: Fluorometric analysis of selenium in plants
  publication-title: J Assoc Official Anal Chem
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Snippet BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on...
BACKGROUND: To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on...
To provide information concerning the geographical distribution of selenium (Se) in the soils of Scotland, we analysed 47 arable soils selected on the basis of...
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SubjectTerms acid treatment
Aluminum Silicates
Aluminum Silicates - analysis
analysis
aqua regia
aqua regia extraction
Arable land
arable soils
Biological and medical sciences
Carbon
Carbon - analysis
chemical concentration
chemistry
classification
Dietary minerals
Diffraction
extraction
Extraction processes
Food engineering
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
geographical variation
Geologic Sediments
Geologic Sediments - chemistry
Geologic Sediments - classification
Hydrochloric Acid
inductively coupled plasma mass spectrometry
Least-Squares Analysis
Mass Spectrometry
mineral content
Minerals
Minerals - analysis
Nitric Acid
organic compounds
Parents
Potassium
Potassium - analysis
Potassium Compounds
Potassium Compounds - analysis
Rock
Scotland
Selenium
Selenium - analysis
Soil
Soil (material)
Soil - analysis
soil carbon
soil chemistry
soil mineralogy
soil minerals
Soils
Topsoil
X-Ray Diffraction
Title Aqua regia extractable selenium concentrations of some Scottish topsoils measured by ICP-MS and the relationship with mineral and organic soil components
URI https://api.istex.fr/ark:/67375/WNG-53R2KR1G-B/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjsfa.3905
https://www.ncbi.nlm.nih.gov/pubmed/20355137
https://www.proquest.com/docview/222679024
https://www.proquest.com/docview/733839754
https://www.proquest.com/docview/742715130
https://www.proquest.com/docview/787063980
Volume 90
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