Comparing concurrent in situ and batch-extracted trace element concentrations

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Levke Godbersen
  • Jens Utermann
  • Wilhelmus H.M. Duijnisveld
  • Sven Altfelder
  • Gerald Kuhnt
  • Jürgen Böttcher

Organisationseinheiten

Externe Organisationen

  • Bundesanstalt für Geowissenschaften und Rohstoffe (BGR)
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Details

OriginalspracheEnglisch
Seiten (von - bis)587-595
Seitenumfang9
FachzeitschriftJournal of Plant Nutrition and Soil Science
Jahrgang174
Ausgabenummer4
PublikationsstatusVeröffentlicht - 1 Aug. 2011

Abstract

Different procedures to investigate dissolved trace element concentration at the transition from unsaturated to saturated zone in soils were compared by concurrent sampling of soil solution and solid soil material in this zone. The in situ sampled soil solution from the percolated water was used to measure in situ concentrations, while solid soil material was used to measure concentrations at two liquid-solid ratios using batch experiments on 250 sample pairs. The liquid-solid ratios were 2 Lkg -1 and 5 Lkg -1. At 5 Lkg -1, the ionic strength was adjusted with Ca(NO 3) 2 to a sample-specific value similar to in situ, while at 2 Lkg -1, the ionic strength was not adjusted. The extracted concentrations of most trace elements exhibited a statistically significant but weak correlation (p value < 0.01) to the corresponding in situ concentrations. In the liquid-solid ratio of 2 Lkg -1 extracts, Pb and Cr showed very poor comparability with the in situ equivalent. A likely cause was the enhanced dissolved-organic-C release in the extract due to the lower ionic strength compared to in situ conditions in combination with effects from drying and moistening soil samples. For the other elements, correlation increased in the order As < Cu, Zn, Sb, Mo, V < Cd, Ni, Co where adjustment of the ionic strength led to slightly better results. In addition to the element-specific shortcomings, it appeared that low concentration levels of in situ concentrations were generally underestimated by batch extraction methods. The liquid-solid ratio of 2 Lkg -1 extracts could only be used as a method to predict exceedance of thresholds if a safety margin of approximately one order of magnitude higher than the thresholds was adopted. The ability of the batch-extraction methods to estimate in situ concentrations was equally limited.

ASJC Scopus Sachgebiete

Zitieren

Comparing concurrent in situ and batch-extracted trace element concentrations. / Godbersen, Levke; Utermann, Jens; Duijnisveld, Wilhelmus H.M. et al.
in: Journal of Plant Nutrition and Soil Science, Jahrgang 174, Nr. 4, 01.08.2011, S. 587-595.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Godbersen, L, Utermann, J, Duijnisveld, WHM, Altfelder, S, Kuhnt, G & Böttcher, J 2011, 'Comparing concurrent in situ and batch-extracted trace element concentrations', Journal of Plant Nutrition and Soil Science, Jg. 174, Nr. 4, S. 587-595. https://doi.org/10.1002/jpln.201000274
Godbersen, L., Utermann, J., Duijnisveld, W. H. M., Altfelder, S., Kuhnt, G., & Böttcher, J. (2011). Comparing concurrent in situ and batch-extracted trace element concentrations. Journal of Plant Nutrition and Soil Science, 174(4), 587-595. https://doi.org/10.1002/jpln.201000274
Godbersen L, Utermann J, Duijnisveld WHM, Altfelder S, Kuhnt G, Böttcher J. Comparing concurrent in situ and batch-extracted trace element concentrations. Journal of Plant Nutrition and Soil Science. 2011 Aug 1;174(4):587-595. doi: 10.1002/jpln.201000274
Godbersen, Levke ; Utermann, Jens ; Duijnisveld, Wilhelmus H.M. et al. / Comparing concurrent in situ and batch-extracted trace element concentrations. in: Journal of Plant Nutrition and Soil Science. 2011 ; Jahrgang 174, Nr. 4. S. 587-595.
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T1 - Comparing concurrent in situ and batch-extracted trace element concentrations

AU - Godbersen, Levke

AU - Utermann, Jens

AU - Duijnisveld, Wilhelmus H.M.

AU - Altfelder, Sven

AU - Kuhnt, Gerald

AU - Böttcher, Jürgen

PY - 2011/8/1

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N2 - Different procedures to investigate dissolved trace element concentration at the transition from unsaturated to saturated zone in soils were compared by concurrent sampling of soil solution and solid soil material in this zone. The in situ sampled soil solution from the percolated water was used to measure in situ concentrations, while solid soil material was used to measure concentrations at two liquid-solid ratios using batch experiments on 250 sample pairs. The liquid-solid ratios were 2 Lkg -1 and 5 Lkg -1. At 5 Lkg -1, the ionic strength was adjusted with Ca(NO 3) 2 to a sample-specific value similar to in situ, while at 2 Lkg -1, the ionic strength was not adjusted. The extracted concentrations of most trace elements exhibited a statistically significant but weak correlation (p value < 0.01) to the corresponding in situ concentrations. In the liquid-solid ratio of 2 Lkg -1 extracts, Pb and Cr showed very poor comparability with the in situ equivalent. A likely cause was the enhanced dissolved-organic-C release in the extract due to the lower ionic strength compared to in situ conditions in combination with effects from drying and moistening soil samples. For the other elements, correlation increased in the order As < Cu, Zn, Sb, Mo, V < Cd, Ni, Co where adjustment of the ionic strength led to slightly better results. In addition to the element-specific shortcomings, it appeared that low concentration levels of in situ concentrations were generally underestimated by batch extraction methods. The liquid-solid ratio of 2 Lkg -1 extracts could only be used as a method to predict exceedance of thresholds if a safety margin of approximately one order of magnitude higher than the thresholds was adopted. The ability of the batch-extraction methods to estimate in situ concentrations was equally limited.

AB - Different procedures to investigate dissolved trace element concentration at the transition from unsaturated to saturated zone in soils were compared by concurrent sampling of soil solution and solid soil material in this zone. The in situ sampled soil solution from the percolated water was used to measure in situ concentrations, while solid soil material was used to measure concentrations at two liquid-solid ratios using batch experiments on 250 sample pairs. The liquid-solid ratios were 2 Lkg -1 and 5 Lkg -1. At 5 Lkg -1, the ionic strength was adjusted with Ca(NO 3) 2 to a sample-specific value similar to in situ, while at 2 Lkg -1, the ionic strength was not adjusted. The extracted concentrations of most trace elements exhibited a statistically significant but weak correlation (p value < 0.01) to the corresponding in situ concentrations. In the liquid-solid ratio of 2 Lkg -1 extracts, Pb and Cr showed very poor comparability with the in situ equivalent. A likely cause was the enhanced dissolved-organic-C release in the extract due to the lower ionic strength compared to in situ conditions in combination with effects from drying and moistening soil samples. For the other elements, correlation increased in the order As < Cu, Zn, Sb, Mo, V < Cd, Ni, Co where adjustment of the ionic strength led to slightly better results. In addition to the element-specific shortcomings, it appeared that low concentration levels of in situ concentrations were generally underestimated by batch extraction methods. The liquid-solid ratio of 2 Lkg -1 extracts could only be used as a method to predict exceedance of thresholds if a safety margin of approximately one order of magnitude higher than the thresholds was adopted. The ability of the batch-extraction methods to estimate in situ concentrations was equally limited.

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KW - Ionic-strength adjustment

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EP - 595

JO - Journal of Plant Nutrition and Soil Science

JF - Journal of Plant Nutrition and Soil Science

SN - 1436-8730

IS - 4

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