Que Dinh Hoang et al. (2019) Determination of abundances of fifty-two elements in natural waters by ICP-MS with freeze-drying pre-concentration, Geostandards and Geoanalytical Research, 43, 147-161, doi: 10.1111/ggr.12245. < 20181022104218-354705 > pub
Table 3. Abundances of 52 elements of drinking waters from five geological sources determined by FDC-ID-IS < 20181022105644-663408 > pub
measured unit Nishiki Yamaguchi Volvic France Suntory Alps Suntory Okudaisen Kirin Mt. Fuji
[Li] a ng/g 2.05 9.57 5.17 3.64 0.0675
[Be] a pg/g 2.54 0.543 0.261 6.4 -
[B] a ng/g 2.24 4.7 30.4 0.8 2.21
[Na] a µg/g 7.75 13.3 9.17 7.31 10.9
[Mg] a µg/g 1.22 9.26 2.27 2.29 6.81
[Al] a ng/g 1.23 0.54 7.34 4.97 6.37
[P] a ng/g 36.6 195.0 71.4 79.2 248.0
[K] a µg/g 1.7 7.12 2.38 3.77 1.63
[Ca] a µg/g 19.6 13.5 10.2 5.5 14.3
[Sc] a pg/g 0.637 0.706 - 0.826 -
[Ti] a pg/g - 18.2 49.9 88.2 -
[V] a ng/g 0.51 6.16 3.13 2.09 103.0
[Mn] a pg/g 73.8 26.2 48.3 33.4 -
[Fe] a pg/g 115.0 44.6 1230.0 1470.0 120.0
[Co] a pg/g 10.7 10.4 7.93 2.92 6.22
[Ni] a pg/g 58.0 56.1 56.2 30.1 15.5
[Cu] a pg/g 435.0 125.0 - 38.8 208.0
[Zn] a pg/g 426.0 - 1350.0 177.0 84.5
[Ga] a pg/g 12.7 4.91 - 1.8 43.8
[Rb] a ng/g 3.04 6.11 0.12 15.4 2.19
[Sr] a µg/g 0.129 0.0677 0.0387 0.0809 0.0373
[Y] a pg/g 37.8 2.93 18.6 8.52 3.32
[Zr] a pg/g 5.01 1.97 9.84 11.5 1.64
[Nb] a pg/g 0.107 0.791 0.075 1.51 0.0724
[Mo] a ng/g 1.84 0.45 1.43 0.123 0.415
[Cd] a pg/g 1.51 0.362 2.01 0.646 0.35
[In] a pg/g 0.0305 0.0341 0.0507 0.0129 0.00898
[Sn] a pg/g - 0.529 19.4 16.5 36.3
[Sb] a pg/g 0.325 1.29 0.181 0.299 0.0971
[Cs] a pg/g 934.0 52.1 0.917 341.0 29.2
[Ba] a ng/g 1.67 0.37 2.59 7.31 1.08
[La] a pg/g 1.72 0.719 0.0862 5.28 0.0929
[Ce] a pg/g 0.0866 0.121 0.0585 2.98 0.0167
[Pr] a pg/g 0.435 0.226 0.0184 0.926 0.0136
[Nd] a pg/g 2.68 1.0 0.178 4.26 0.224
[Sm] a pg/g 0.824 0.338 0.152 0.75 0.0989
[Eu] a pg/g 0.362 0.0713 0.0142 0.106 0.0416
[Gd] a pg/g 1.8 0.347 0.371 0.924 0.196
[Tb] a pg/g 0.334 0.045 0.117 0.124 0.0348
[Dy] a pg/g 3.06 0.277 1.78 0.786 0.204
[Ho] a pg/g 0.998 0.068 0.964 0.194 0.0836
[Er] a pg/g 3.99 0.235 6.66 0.593 0.414
[Tm] a pg/g 0.663 0.0412 1.85 0.0874 0.0865
[Yb] a pg/g 5.0 0.316 22.6 0.605 0.795
[Lu] a pg/g 0.935 0.083 6.28 0.116 0.253
[Hf] a pg/g - - - 0.257 -
[Ta] a pg/g - 0.021 - 0.0651 -
[Tl] a pg/g 20.9 0.444 0.204 2.52 0.579
[Pb] a pg/g 3.49 0.501 0.153 1.07 0.024
[Bi] a pg/g 0.0118 0.0288 0.0226 0.037 0.0347
[Th] a pg/g 0.0745 0.0451 0.0299 0.934 0.0151
[U] a pg/g 27.6 241.0 102.0 59.1 61.5
(a) determined by FDC-ID-IS method for water samples on ICPMS
name physical-form quantity unit global-id
Nishiki Yamaguchi pub solution 2.0 kg 20170830171741-760650
Volvic France pub solution 1.5 kg 20170830171522-637226
Suntory Alps pub solution 2.0 kg 20170901194719-979497
Suntory Okudaisen pub solution 2.0 kg 20170831173741-336740
Kirin Mt. Fuji pub solution 2.0 kg 20170830163142-771007

The table is created from analysis shown below. The assembly trace (Que et al., 2018) filters out analysis. Upper analysis has priority.To list more analysis, add a stone in stone sub-tab.

  • name
    technique
    device
Nishiki Yamaguchi
  • Nishiki Yamaguchi pub on Nishiki Yamaguchi pub
    FDC-ID-IS method for water samples
    ICPMS
Volvic France
  • Volvic France pub on Volvic France pub
    FDC-ID-IS method for water samples
    ICPMS
Suntory Alps
  • Suntory Alps pub on Suntory Alps pub
    FDC-ID-IS method for water samples
    ICPMS
Suntory Okudaisen
  • Suntory Okudaisen pub on Suntory Okudaisen pub
    FDC-ID-IS method for water samples
    ICPMS
Kirin Mt. Fuji
  • Kirin Mt. Fuji pub on Kirin Mt. Fuji pub
    FDC-ID-IS method for water samples
    ICPMS