Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry

M. Greaves; N. Caillon; H. Rebaubier; G. Bartoli; S. Bohaty; I. Cacho; L. Clarke; M. Cooper; C. Daunt; M. Delaney; P. DeMenocal; A. Dutton; S. Eggins; H. Elderfield; D. Garbe-Schoenberg; E. Goddard; D. Green; J. Groeneveld; D. Hastings; E. Hathorne; K. Kimoto; G. Klinkhammer; L. Labeyrie; D. W. Lea; T. Marchitto; M. A. Martínez-Botí; P. G. Mortyn; Y. Ni; D. Nuernberg; L. Pena; T. Quinn; Y. Rosenthal; A. Russel; T. Sagawa; S. Sosdian; L. Stott; K. Tachikawa; E. Tappa; R. Thunell; P. A. Wilson

doi:10.1029/2008GC001974

Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry

M. Greaves^*, N. Caillon, H. Rebaubier, G. Bartoli, S. Bohaty, I. Cacho, L. Clarke, M. Cooper, C. Daunt, M. Delaney, P. DeMenocal, A. Dutton, S. Eggins, H. Elderfield, D. Garbe-Schoenberg, E. Goddard, D. Green, J. Groeneveld, D. Hastings, E. HathorneK. Kimoto, G. Klinkhammer, L. Labeyrie, D. W. Lea, T. Marchitto, M. A. Martínez-Botí, P. G. Mortyn, Y. Ni, D. Nuernberg, L. Pena, T. Quinn, Y. Rosenthal, A. Russel, T. Sagawa, S. Sosdian, L. Stott, K. Tachikawa, E. Tappa, R. Thunell, P. A. Wilson

^*Corresponding author for this work

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Abstract

An interlaboratory study of Mg/Ca and Sr/Ca ratios in three commercially available carbonate reference materials (BAM RS3, CMSI 1767, and ECRM 752-1) was performed with the participation of 25 laboratories that determine foraminiferal Mg/Ca ratios worldwide. These reference materials containing Mg/Ca in the range of foraminiferal calcite (0.8 mmol/mol to 6 mmol/mol) were circulated with dissolution protocol for analysis. Participants were asked to make replicate dissolutions of the powdered samples and to analyze them using the instruments and calibration standards routinely used in their laboratories. Statistical analysis was performed in accordance with the International Standardization Organization standard 5725, which is based on the analysis of variance (ANOVA) technique. Repeatability (RSDr%), an indicator of intralaboratory precision, for Mg/Ca determinations in solutions after centrifuging increased with decreasing Mg/Ca, ranging from 0.78% at Mg/Ca = 5.56 mmol/mol to 1.15% at Mg/Ca = 0.79 mmol/mol. Reproducibility (RSD_R;%), an indicator of the interlaboratory method precision, for Mg/Ca determinations in centrifuged solutions was noticeably worse than repeatability, ranging from 4.5% at Mg/Ca = 5.56 mmol/mol to 8.7% at Mg/Ca = 0.79 mmol/mol. Results of this study show that interlaboratory variability is dominated by inconsistencies among instrument calibrations and highlight the need to improve interlaboratory compatibility. Additionally, the study confirmed the suitability of these solid standards as reference materials for foraminiferal Mg/Ca (and Sr/Ca) determinations, provided that appropriate procedures are adopted to minimize and to monitor possible contamination from silicate mineral phases.

Original language	English
Article number	Q08O10
Journal	Geochemistry, Geophysics, Geosystems
Volume	9
Issue number	8
DOIs	https://doi.org/10.1029/2008GC001974
Publication status	Published - Aug 2008

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Greaves, M., Caillon, N., Rebaubier, H., Bartoli, G., Bohaty, S., Cacho, I., Clarke, L., Cooper, M., Daunt, C., Delaney, M., DeMenocal, P., Dutton, A., Eggins, S., Elderfield, H., Garbe-Schoenberg, D., Goddard, E., Green, D., Groeneveld, J., Hastings, D., ... Wilson, P. A. (2008). Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry. Geochemistry, Geophysics, Geosystems, 9(8), Article Q08O10. https://doi.org/10.1029/2008GC001974

@article{0c4e5684b6c849d9a87ed0603beb2d93,

title = "Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry",

abstract = "An interlaboratory study of Mg/Ca and Sr/Ca ratios in three commercially available carbonate reference materials (BAM RS3, CMSI 1767, and ECRM 752-1) was performed with the participation of 25 laboratories that determine foraminiferal Mg/Ca ratios worldwide. These reference materials containing Mg/Ca in the range of foraminiferal calcite (0.8 mmol/mol to 6 mmol/mol) were circulated with dissolution protocol for analysis. Participants were asked to make replicate dissolutions of the powdered samples and to analyze them using the instruments and calibration standards routinely used in their laboratories. Statistical analysis was performed in accordance with the International Standardization Organization standard 5725, which is based on the analysis of variance (ANOVA) technique. Repeatability (RSDr%), an indicator of intralaboratory precision, for Mg/Ca determinations in solutions after centrifuging increased with decreasing Mg/Ca, ranging from 0.78% at Mg/Ca = 5.56 mmol/mol to 1.15% at Mg/Ca = 0.79 mmol/mol. Reproducibility (RSDR;%), an indicator of the interlaboratory method precision, for Mg/Ca determinations in centrifuged solutions was noticeably worse than repeatability, ranging from 4.5% at Mg/Ca = 5.56 mmol/mol to 8.7% at Mg/Ca = 0.79 mmol/mol. Results of this study show that interlaboratory variability is dominated by inconsistencies among instrument calibrations and highlight the need to improve interlaboratory compatibility. Additionally, the study confirmed the suitability of these solid standards as reference materials for foraminiferal Mg/Ca (and Sr/Ca) determinations, provided that appropriate procedures are adopted to minimize and to monitor possible contamination from silicate mineral phases.",

keywords = "Carbonates, Intercalibration, Mg/Ca thermometry, Paleoceanography, Reference materials",

author = "M. Greaves and N. Caillon and H. Rebaubier and G. Bartoli and S. Bohaty and I. Cacho and L. Clarke and M. Cooper and C. Daunt and M. Delaney and P. DeMenocal and A. Dutton and S. Eggins and H. Elderfield and D. Garbe-Schoenberg and E. Goddard and D. Green and J. Groeneveld and D. Hastings and E. Hathorne and K. Kimoto and G. Klinkhammer and L. Labeyrie and Lea, {D. W.} and T. Marchitto and Mart{\'i}nez-Bot{\'i}, {M. A.} and Mortyn, {P. G.} and Y. Ni and D. Nuernberg and L. Pena and T. Quinn and Y. Rosenthal and A. Russel and T. Sagawa and S. Sosdian and L. Stott and K. Tachikawa and E. Tappa and R. Thunell and Wilson, {P. A.}",

year = "2008",

month = aug,

doi = "10.1029/2008GC001974",

language = "English",

volume = "9",

journal = "Geochemistry, Geophysics, Geosystems",

issn = "1525-2027",

publisher = "John Wiley & Sons Inc.",

number = "8",

}

Greaves, M, Caillon, N, Rebaubier, H, Bartoli, G, Bohaty, S, Cacho, I, Clarke, L, Cooper, M, Daunt, C, Delaney, M, DeMenocal, P, Dutton, A, Eggins, S, Elderfield, H, Garbe-Schoenberg, D, Goddard, E, Green, D, Groeneveld, J, Hastings, D, Hathorne, E, Kimoto, K, Klinkhammer, G, Labeyrie, L, Lea, DW, Marchitto, T, Martínez-Botí, MA, Mortyn, PG, Ni, Y, Nuernberg, D, Pena, L, Quinn, T, Rosenthal, Y, Russel, A, Sagawa, T, Sosdian, S, Stott, L, Tachikawa, K, Tappa, E, Thunell, R & Wilson, PA 2008, 'Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry', Geochemistry, Geophysics, Geosystems, vol. 9, no. 8, Q08O10. https://doi.org/10.1029/2008GC001974

TY - JOUR

T1 - Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry

AU - Greaves, M.

AU - Caillon, N.

AU - Rebaubier, H.

AU - Bartoli, G.

AU - Bohaty, S.

AU - Cacho, I.

AU - Clarke, L.

AU - Cooper, M.

AU - Daunt, C.

AU - Delaney, M.

AU - DeMenocal, P.

AU - Dutton, A.

AU - Eggins, S.

AU - Elderfield, H.

AU - Garbe-Schoenberg, D.

AU - Goddard, E.

AU - Green, D.

AU - Groeneveld, J.

AU - Hastings, D.

AU - Hathorne, E.

AU - Kimoto, K.

AU - Klinkhammer, G.

AU - Labeyrie, L.

AU - Lea, D. W.

AU - Marchitto, T.

AU - Martínez-Botí, M. A.

AU - Mortyn, P. G.

AU - Ni, Y.

AU - Nuernberg, D.

AU - Pena, L.

AU - Quinn, T.

AU - Rosenthal, Y.

AU - Russel, A.

AU - Sagawa, T.

AU - Sosdian, S.

AU - Stott, L.

AU - Tachikawa, K.

AU - Tappa, E.

AU - Thunell, R.

AU - Wilson, P. A.

PY - 2008/8

Y1 - 2008/8

N2 - An interlaboratory study of Mg/Ca and Sr/Ca ratios in three commercially available carbonate reference materials (BAM RS3, CMSI 1767, and ECRM 752-1) was performed with the participation of 25 laboratories that determine foraminiferal Mg/Ca ratios worldwide. These reference materials containing Mg/Ca in the range of foraminiferal calcite (0.8 mmol/mol to 6 mmol/mol) were circulated with dissolution protocol for analysis. Participants were asked to make replicate dissolutions of the powdered samples and to analyze them using the instruments and calibration standards routinely used in their laboratories. Statistical analysis was performed in accordance with the International Standardization Organization standard 5725, which is based on the analysis of variance (ANOVA) technique. Repeatability (RSDr%), an indicator of intralaboratory precision, for Mg/Ca determinations in solutions after centrifuging increased with decreasing Mg/Ca, ranging from 0.78% at Mg/Ca = 5.56 mmol/mol to 1.15% at Mg/Ca = 0.79 mmol/mol. Reproducibility (RSDR;%), an indicator of the interlaboratory method precision, for Mg/Ca determinations in centrifuged solutions was noticeably worse than repeatability, ranging from 4.5% at Mg/Ca = 5.56 mmol/mol to 8.7% at Mg/Ca = 0.79 mmol/mol. Results of this study show that interlaboratory variability is dominated by inconsistencies among instrument calibrations and highlight the need to improve interlaboratory compatibility. Additionally, the study confirmed the suitability of these solid standards as reference materials for foraminiferal Mg/Ca (and Sr/Ca) determinations, provided that appropriate procedures are adopted to minimize and to monitor possible contamination from silicate mineral phases.

AB - An interlaboratory study of Mg/Ca and Sr/Ca ratios in three commercially available carbonate reference materials (BAM RS3, CMSI 1767, and ECRM 752-1) was performed with the participation of 25 laboratories that determine foraminiferal Mg/Ca ratios worldwide. These reference materials containing Mg/Ca in the range of foraminiferal calcite (0.8 mmol/mol to 6 mmol/mol) were circulated with dissolution protocol for analysis. Participants were asked to make replicate dissolutions of the powdered samples and to analyze them using the instruments and calibration standards routinely used in their laboratories. Statistical analysis was performed in accordance with the International Standardization Organization standard 5725, which is based on the analysis of variance (ANOVA) technique. Repeatability (RSDr%), an indicator of intralaboratory precision, for Mg/Ca determinations in solutions after centrifuging increased with decreasing Mg/Ca, ranging from 0.78% at Mg/Ca = 5.56 mmol/mol to 1.15% at Mg/Ca = 0.79 mmol/mol. Reproducibility (RSDR;%), an indicator of the interlaboratory method precision, for Mg/Ca determinations in centrifuged solutions was noticeably worse than repeatability, ranging from 4.5% at Mg/Ca = 5.56 mmol/mol to 8.7% at Mg/Ca = 0.79 mmol/mol. Results of this study show that interlaboratory variability is dominated by inconsistencies among instrument calibrations and highlight the need to improve interlaboratory compatibility. Additionally, the study confirmed the suitability of these solid standards as reference materials for foraminiferal Mg/Ca (and Sr/Ca) determinations, provided that appropriate procedures are adopted to minimize and to monitor possible contamination from silicate mineral phases.

KW - Carbonates

KW - Intercalibration

KW - Mg/Ca thermometry

KW - Paleoceanography

KW - Reference materials

UR - http://www.scopus.com/inward/record.url?scp=84922482462&partnerID=8YFLogxK

U2 - 10.1029/2008GC001974

DO - 10.1029/2008GC001974

M3 - Article

SN - 1525-2027

VL - 9

JO - Geochemistry, Geophysics, Geosystems

JF - Geochemistry, Geophysics, Geosystems

IS - 8

M1 - Q08O10

ER -

Interlaboratory comparison study of calibration standards for foraminiferal Mg/Ca thermometry

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