Index | Group Name | Decomposition | Technique |
---|---|---|---|
1 | Cu | - | - | ||
2 | Cu | NONE | AAS-FLAME | None | Flame |
3 | Cu | NONE | XRAY_FLUOR | None | X-ray fluorescence |
4 | Cu | NONE | ICP-MS | None | IC plasma / mass spectrometry |
5 | Cu | NONE | ELECTR PRB | None | Electron microprobe |
6 | Cu | NONE | Powder D-C | None | Powder D-C Arc |
7 | Cu | NONE | PIXE | None | PIXE |
8 | Cu | NONE | WD-XRF | None | WD-XRF |
9 | Cu | NONE | pXRF | None | pXRF |
10 | Cu | NONE | MULTIPLE | None | Multiple |
11 | Cu | ACID | ICP-ES | Acid | IC plasma – emission spectroscopy |
12 | Cu | STR ACID | ICP-ES | Strong Acid | IC plasma – emission spectroscopy |
13 | Cu | STR ACID | ICP-MS | Strong Acid | IC plasma / mass spectrometry |
14 | Cu | MOD ACID | ABSORP | Moderate Acid | Absorption |
15 | Cu | ACID+FUS | ICP-ES | Acid + Fusion | IC plasma – emission spectroscopy |
16 | Cu | AR | ROOT | Aqua Regia (sensu lato) | Technique |
17 | Cu | AR | ABSORP | Aqua Regia (sensu lato) | Absorption |
18 | Cu | AR | FLUOR | Aqua Regia (sensu lato) | Fluorescence |
19 | Cu | AR | AAS-FLAME | Aqua Regia (sensu lato) | Flame |
20 | Cu | AR | AAS-FLAME-6 | Aqua Regia (sensu lato) | C2H2/Air |
21 | Cu | AR | ICP-ES | Aqua Regia (sensu lato) | IC plasma – emission spectroscopy |
22 | Cu | AR | ICP-MS | Aqua Regia (sensu lato) | IC plasma / mass spectrometry |
23 | Cu | AR (ss) | ICP-ES | Aqua Regia (sensu stricto) | IC plasma – emission spectroscopy |
24 | Cu | LEFORT | ABSORP | Lefort | Absorption |
25 | Cu | LEFORT | AAS-FLAME-6 | Lefort | C2H2/Air |
26 | Cu | LEFORT | ICP-ES | Lefort | IC plasma – emission spectroscopy |
27 | Cu | 4-acid | AAS-FLAME-6 | 4-acid | C2H2/Air |
28 | Cu | 4-acid | ICP-ES | 4-acid | IC plasma – emission spectroscopy |
29 | Cu | 4-acid | ICP-MS | 4-acid | IC plasma / mass spectrometry |
30 | Cu | AR (Acme[1]) | ICP-MS | Aqua regia (Acme[1]) | IC plasma / mass spectrometry |
31 | Cu | AR (Acme[1]) | ICP-MS/ES | Aqua regia (Acme[1]) | ICP-MS and ICP-ES |
32 | Cu | 4-acid (Acme) | ICP-MS | Four-acid (Acme) | IC plasma / mass spectrometry |
33 | Cu | Unknown | ROOT | Unknown | Technique |
34 | Cu | Unknown | ICP-ES | Unknown | IC plasma – emission spectroscopy |
35 | Cu | Unknown | ICP-MS | Unknown | IC plasma / mass spectrometry |
36 | Cu | AR-NGR | AAS-FLAME-6 | Aqua regia (NGR) | C2H2/Air |
37 | Cu | AR-NGR-STREAM-1 | AAS-FLAME-6 | Aqua regia (NGR stream) | C2H2/Air |
38 | Cu | AR-NGR-STREAM-3 | AAS-FLAME-6 | Aqua regia (NGR stream) (alternate) | C2H2/Air |
39 | Cu | HF-HNO3-HClO4 | ABSORP | 3 acid mixture | Absorption |
40 | Cu | 3 acid-LiBO2 | ICP-ES | 3 acid mixture + LiBO2 fusion | IC plasma – emission spectroscopy |
41 | Cu | BO2/B4O7 | ICP-MS/ES | Borate and/or tetraborate | ICP-MS and ICP-ES |
42 | Cu | Borate/HNO3 | ICP-MS | Borate/tetraborate, plus HNO3 | IC plasma / mass spectrometry |
43 | Cu | Borate/HNO3 | ICP-MS/ES | Borate/tetraborate, plus HNO3 | ICP-MS and ICP-ES |
44 | Cu | K2S2O7 | Dithizone | Potassium pyrosulphate | Dithizone |
45 | Cu | Aqua regia (NASGLP) | ICP-MS/ES | Aqua regia (NASGLP) | ICP-MS and ICP-ES |
46 | Cu | Water | ICP-MS/ES | Water | ICP-MS and ICP-ES |
47 | Cu | Sodium Peroxide | ICP-ES | Sodium Peroxide | IC plasma – emission spectroscopy |
48 | Cu | HF-HCl-HClO4 | ICP-ES | 3 acid mixture | IC plasma – emission spectroscopy |
49 | Cu | AR (BVM) | ICP-MS | Aqua regia (BVM) | IC plasma / mass spectrometry |
50 | Cu | AR-NGR-STREAM-4 | AAS-FLAME-6 | AR-NGR-STREAM-4 | C2H2/Air |
51 | Cu | HF-HClO4 | AAS-FLAME | HF-HClO4 | Flame |
52 | Cu | H2O2 | AAS-FLAME | H2O2 | Flame |
53 | Cu | AR (Acme[2]) | ICP-MS | Aqua regia (Acme[2]) | IC plasma / mass spectrometry |
54 | Cu | Multiple | INA/ICP-MS | Multiple | INAA and ICP-MS |
55 | Cu | Multiple | MULTIPLE | Multiple | Multiple |
Keywords
Copper
Keyword Definition
Copper
Category: Analysed quantities
Subcategory: Element
Keywords corresponding to analysed quantities. The types of analysed quantities have been grouped into eleven different subcategories.Examples: “Au”, “pH”.Taken from the “Analytical_Quantities_SHARED” database table. The subcategories are taken from the “Analytical_Quantity_Types_SHARED” database table.
ID | Units | Det. Limit | Technique | Decomposition |
---|---|---|---|---|
1 | ppm | 2 | C2H2/Air | 4-acid |
2 | ppb | 0.1 | IC plasma / mass spectrometry | None |
3 | ppb | IC plasma / mass spectrometry | None | |
4 | ppm | 1 | Absorption | Lefort |
5 | ppm | 1 | Absorption | Lefort |
6 | ppm | 1 | Fluorescence | Aqua Regia (sensu lato) |
7 | ppm | 1 | Technique | Aqua Regia (sensu lato) |
8 | ppm | 0.2 | Technique | Aqua Regia (sensu lato) |
9 | ppm | 1 | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) |
10 | ppm | Absorption | Aqua Regia (sensu lato) | |
11 | ppm | 1 | Absorption | Lefort |
12 | ppm | IC plasma – emission spectroscopy | Unknown | |
13 | ppm | 2 | Absorption | 3 acid mixture |
14 | ppm | 1 | IC plasma – emission spectroscopy | Aqua Regia (sensu stricto) |
15 | ppm | Absorption | Moderate Acid | |
16 | ppm | 1 | INAA and ICP-MS | Multiple |
17 | ppm | 2 | C2H2/Air | Aqua regia (NGR) |
18 | ppm | 2 | C2H2/Air | Aqua regia (NGR) |
19 | ppm | 2 | C2H2/Air | Aqua regia (NGR stream) |
20 | ppm | 2 | C2H2/Air | Aqua regia (NGR stream) (alternate) |
21 | ppm | 2 | C2H2/Air | Aqua regia (NGR) |
22 | ppm | 2 | C2H2/Air | Aqua Regia (sensu lato) |
23 | ppm | 2 | C2H2/Air | Aqua regia (NGR) |
24 | ppm | 1 | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) |
25 | ppm | 0.01 | ICP-MS and ICP-ES | Aqua regia (Acme[1]) |
26 | ppm | 0.01 | ICP-MS and ICP-ES | Aqua regia (NASGLP) |
27 | ppb | 0.5 | Flame | None |
28 | ppm | 4 | Dithizone | Potassium pyrosulphate |
29 | ppm | 0.01 | IC plasma / mass spectrometry | Aqua Regia (sensu lato) |
30 | ppm | IC plasma – emission spectroscopy | 4-acid | |
31 | ppm | IC plasma – emission spectroscopy | Aqua Regia (sensu stricto) | |
32 | ppm | Absorption | 3 acid mixture | |
33 | ppb | 8 | ICP-MS and ICP-ES | Water |
34 | ppm | 1.4 | IC plasma / mass spectrometry | Strong Acid |
35 | ppm | 10 | IC plasma – emission spectroscopy | 3 acid mixture + LiBO2 fusion |
36 | ppm | 1 | Absorption | Lefort |
37 | ppm | 1 | IC plasma – emission spectroscopy | Lefort |
38 | ppm | 4 | X-ray fluorescence | None |
39 | ppm | 4 | X-ray fluorescence | None |
40 | ppm | 1 | Absorption | Moderate Acid |
41 | ppm | IC plasma – emission spectroscopy | Acid | |
42 | ppm | 1 | Technique | Unknown |
43 | ppm | 1 | Absorption | Moderate Acid |
44 | ppm | 1 | IC plasma – emission spectroscopy | Strong Acid |
45 | ppm | 1 | IC plasma – emission spectroscopy | Strong Acid |
46 | ppm | 1 | IC plasma – emission spectroscopy | Strong Acid |
47 | ppm | 1 | Absorption | Moderate Acid |
48 | ppm | 4 | X-ray fluorescence | None |
49 | ppm | 1 | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) |
50 | ppm | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) | |
51 | ppm | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) | |
52 | ppm | 10 | IC plasma – emission spectroscopy | Acid + Fusion |
53 | ppm | 0.01 | IC plasma / mass spectrometry | Aqua regia (Acme[1]) |
54 | ppm | 1 | IC plasma – emission spectroscopy | 4-acid |
55 | ppm | 1 | IC plasma – emission spectroscopy | 4-acid |
56 | ppm | Technique | Unknown | |
57 | ppm | Technique | Unknown | |
58 | ppm | Technique | Unknown | |
59 | ppm | Technique | Unknown | |
60 | ppm | Technique | Unknown | |
61 | ppm | Technique | Unknown | |
62 | ppm | Technique | Unknown | |
63 | ppm | Technique | Unknown | |
64 | ppm | Technique | Unknown | |
65 | ppm | 2 | WD-XRF | None |
66 | ppm | 2 | IC plasma / mass spectrometry | Unknown |
67 | ppm | 5 | IC plasma – emission spectroscopy | Unknown |
68 | ppm | Multiple | Multiple | |
69 | ppm | Multiple | Multiple | |
70 | ppm | Multiple | Multiple | |
71 | ppm | Multiple | Multiple | |
72 | ppm | Multiple | Multiple | |
73 | ppm | Multiple | Multiple | |
74 | ppm | Multiple | Multiple | |
75 | ppm | Multiple | Multiple | |
76 | ppm | Multiple | Multiple | |
77 | ppm | Multiple | Multiple | |
78 | ppm | Multiple | Multiple | |
79 | ppm | 1 | IC plasma – emission spectroscopy | 4-acid |
80 | ppm | 0.1 | IC plasma / mass spectrometry | Aqua regia (Acme[1]) |
81 | ppm | 0.02 | IC plasma / mass spectrometry | Four-acid (Acme) |
82 | ppm | Multiple | Multiple | |
83 | ppm | 1 | PIXE | None |
84 | ppm | 10 | ICP-MS and ICP-ES | Borate and/or tetraborate |
85 | ppm | 0.5 | IC plasma / mass spectrometry | 4-acid |
86 | ppm | pXRF | None | |
87 | ppm | 1 | pXRF | None |
88 | ppm | 1 | pXRF | None |
89 | ppm | 1 | IC plasma – emission spectroscopy | 3 acid mixture |
90 | ppm | 0.01 | IC plasma / mass spectrometry | Aqua regia (BVM) |
91 | ppm | 5 | ICP-MS and ICP-ES | Borate and/or tetraborate |
92 | ppm | 2 | C2H2/Air | AR-NGR-STREAM-4 |
93 | ppm | 10 | IC plasma – emission spectroscopy | Sodium Peroxide |
94 | ppm | 1 | IC plasma – emission spectroscopy | Aqua Regia (sensu lato) |
95 | ppm | 0.2 | IC plasma / mass spectrometry | Aqua Regia (sensu lato) |
96 | ppm | 1 | IC plasma – emission spectroscopy | 4-acid |
97 | ppm | 1 | Flame | Aqua Regia (sensu lato) |
98 | ppm | 10 | IC plasma / mass spectrometry | Borate/tetraborate, plus HNO3 |
99 | ppm | 1 | Powder D-C Arc | None |
100 | ppm | 0.001 | Multiple | None |
101 | ppm | 5 | Powder D-C Arc | None |
102 | ppm | Flame | HF-HClO4 | |
103 | ppm | Flame | HF-HClO4 | |
104 | ppm | Flame | H2O2 | |
105 | ppm | 0.01 | IC plasma / mass spectrometry | Aqua regia (Acme[1]) |
106 | ppm | 5 | ICP-MS and ICP-ES | Borate/tetraborate, plus HNO3 |
107 | ppm | 0.01 | IC plasma / mass spectrometry | Aqua regia (Acme[2]) |
108 | percent | 0.001 | Electron microprobe | None |
Index | Suite ID | Suite Name |
---|---|---|
1 | 1 | Bondar-Clegg/TSD 2 micron 10 element AAS (with Ag) |
2 | 9 | Chemex/TSD 2 micron 12 element ICP/AES |
3 | 19 | Geoscience Labs, (OGS) Lithogeochemical Database: miscellaneous analytical methods |
4 | 20 | Geoscience Labs, (OGS) Lithogeochemical Database: ICP-MS, ICP-AES methods |
5 | 22 | INRS XRF (1) |
6 | 23 | INRS XRF (2) |
7 | 28 | NBDNRE AAS |
8 | 41 | ActLabs ICP-AES (7 elements) |
9 | 42 | Bondar-Clegg/TSD 2 micron 9 element AAS |
10 | 44 | Chemex/TSD 2 micron 9 elements unknown methods |
11 | 49 | Chemex/TSD 63 micron 5 elements AAS |
12 | 50 | Bondar-Clegg/TSD 2 micron 10 element AAS (with Cd) |
13 | 51 | Chemex/TSD 2 micron 11 element ICP/AES |
14 | 61 | ActLabs ICP-AES (19 elements; 1999; 4-acid) |
15 | 62 | ActLabs ICP-AES (19 elements; 2001; 4-acid) |
16 | 63 | ActLabs ICP-AES (19 elements; 2002; 4-acid) |
17 | 65 | ActLabs ICP-AES (19 elements; 4-acid) |
18 | 68 | Bondar-Clegg AAS |
19 | 84 | Bondar-Clegg AAS (11 elements) |
20 | 87 | Chemex AAS (11 elements) |
21 | 91 | Bondar-Clegg AAS (10 elements) |
22 | 92 | Bondar-Clegg AAS (8 elements) |
23 | 94 | Chemex ICP-AES (Hg ppm) (32 elements) |
24 | 95 | Chemex/TSD ICP-AES/MS ? (38 elements) |
25 | 96 | Chemex/TSD ICP-AES/MS ? (24 elements) |
26 | 99 | Chemex ICP-AES (Hg ppb, Cd:0.05, La:0.5) (32 elements) |
27 | 102 | Geoscience Labs, (OGS) MRD143 Lithogeochemical Database: miscellaneous analytical methods |
28 | 103 | Geoscience Labs, (OGS) MRD 155, Teck-Gauthier A1-A2, miscellaneous analytical methods |
29 | 104 | Geoscience Labs, (OGS) MRD 155, Teck-Gauthier A3, miscellaneous analytical methods |
30 | 105 | Geoscience Labs, (OGS) MRD 155, Teck-Gauthier A4, miscellaneous analytical methods |
31 | 107 | Geoscience Labs, (OGS) MRD 155, Carscallen-Thornburn, miscellaneous analytical methods |
32 | 108 | Geoscience Labs, (OGS) MRD 155, Munroe-Currie, miscellaneous analytical methods |
33 | 109 | Geoscience Labs, (OGS) MRD 155, Timmins-intrusions, miscellaneous analytical methods |
34 | 110 | Geoscience Labs, (OGS) MRD 155, Clifford-intrusions, miscellaneous analytical methods |
35 | 111 | Geoscience Labs, (OGS) MRD 155, Ben Nevis-Katrine, miscellaneous analytical methods |
36 | 112 | Geoscience Labs, (OGS) MRD 155, Ben Nevis-Clifford, miscellaneous analytical methods |
37 | 113 | Geoscience Labs, (OGS) MRD 155, Tisdale, miscellaneous analytical methods |
38 | 114 | Bondar-Clegg Cu, Pb, Zn AAS |
39 | 117 | Bondar-Clegg AAS (8), LeForte digestion |
40 | 125 | Chemex ICP-AES (10) |
41 | 126 | Quebec Geoscience Centre (QGC): X-Ray Fluorescence (XRF) (12 elements) |
42 | 134 | Barringer AAS (11 elements) |
43 | 135 | Chemex ICP-AES (Hg ppm) (33 elements) |
44 | 140 | Chemex ICP-AES (Hg ppb, Cd:0.5, La:10) (32 elements) |
45 | 141 | Bondar Clegg ICP-AES (38 elements) |
46 | 142 | Bondar Clegg ICP-AES (31 elements) |
47 | 148 | CanTech AAS (unknown acid digestion) |
48 | 153 | GSC ICP-AES (110 trace elements) |
49 | 156 | ACME ICP-MS (Group 1F-MS Basic Suite v1, including weight; B dl=1 ppm, Ga dl=0.1 ppm, S dl=0.01%, W dl=0.1 ppm) |
50 | 159 | ActLabs ICP-AES (19 elements; 4-acid; inc Bi, ex S; Pb:5) |
51 | 160 | ActLabs ICP-AES (20 elements; 4-acid; inc Bi, S; Pb:5) |
52 | 162 | ActLabs ICP-AES (19 elements; 4-acid; inc S, ex Bi) |
53 | 174 | Barringer (lake sediments) AAS (8 elements; air-acetylene) (vague) |
54 | 178 | Chemex (lake sediments) AAS (8 elements; air-acetylene) (vague) |
55 | 185 | Chemex (stream sediments) AAS (8 elements; air-acetylene) (vague) |
56 | 190 | Acme Group 1F-MS Basic Suite (15 grams; 37 elements; B dl=1 ppm, Ga dl=0.1ppm, S dl=0.02%, W dl=0.1 ppm) (v2) |
57 | 192 | Acme Group 1T-MS (55 elements) |
58 | 203 | Chemex (lake and stream sediments) AAS (8 elements; air-acetylene) (NGR aqua regia #8) |
59 | 219 | Chemex (lake and stream sediments) AAS (8 elements; air-acetylene) (NGR aqua regia #4) |
60 | 225 | Acme 1F-MS (B dl = 1 ppm; Ga dl = 0.1 ppm; S dl=0.01 %, W dl=0.1 ppm) |
61 | 230 | GSC/AMD (surface water) ICP-MS (51 elements) |
62 | 232 | GSC/ACL ICP-MS |
63 | 320 | GSC/ACL ICP-ES (2008) suite ICPES-110 |
64 | 323 | OGS Geoscience Laboratories, suite IMC-100; ICP-MS, multi-acid closed vessel digestion |
65 | 328 | Acme Group 1DX subset: 0.5 g sample weight, aqua regia digestion, ICP-MS |
66 | 334 | ActLabs Au+48 1H ( INAA + ICP-ES) |
67 | 357 | Bondar Clegg (stream sediments) AAS (8 + V; air-acetylene - using multi-acid total digestion) |
68 | 388 | Chemex (lake sediment) AAS (Zn, Cu, Pb, Ni, Co, Ag, Mn, Fe, Cd; air acetylene flame) – 6 ml, held for 2 hrs |
69 | 400 | Barringer (lake sediment) AAS (8 + Cd; air-acetylene) |
70 | 411 | Barringer (stream sediment) AAS (8 elements + Cd; air acetylene) |
71 | 416 | Barringer (lake sediment) AAS (8 + Cd; air acetylene) - decomp: 4HNO3 1HCL |
72 | 423 | Bondar Clegg (stream sediment) AAS (8 + Cd; air acetylene) ( Mn upper dl = 20,000 ppm) |
73 | 444 | Chemex (lake sediment) AAS (8 + Cd; air acetylene) - decomp: 4HNO3 1HCl |
74 | 445 | Chemex (stream sediment) AAS (8 + Cd; air acetylene) |
75 | 455 | Bondar Clegg (lake sediment) AAS (8 + Cd; air acetylene) 6 ml decomp: 4HNO3 1HCl ( Mn upper dl = 20,000 ppm) |
76 | 495 | Cantech (lake sediment) AAS (8 + Cd; air acetylene) - decomp: 4HNO3 1HCL |
77 | 501 | Cantech (stream sediment) AAS (8 elements + Cd; air acetylene) |
78 | 506 | ActLabs (stream sediment) ICP-ES (8 elements) |
79 | 511 | ACME (stream sediment) ICP-MS / ICP-ES (35 elements, W, d.l. = 0.2 ppm) |
80 | 519 | ACME (stream sediment) ICP-MS (35 elements + Au) – details unknown |
81 | 520 | GSC (surface water) ICP-MS (31 elements) |
82 | 525 | ACME (stream sediment) ICP-MS / ICP-ES (35 elements, (Ga, d.l.=0.1 ppm, S, d.l.=0.01%, W, d.l.=0.1 ppm )) |
83 | 528 | ACME Analytical Labs (stream sediment) ICP-MS / ICP-ES (35 elements+ Au; Ga, d.l.=0.2ppm, W, d.l.=0.2 ppm) |
84 | 533 | ACME (stream sediment) ICP-MS / ICP-ES (35 elements, (Ga, d.l.=0.2 ppm, S, d.l.=0.01%, W, d.l.=0.1 ppm )) |
85 | 534 | ACME (stream sediment) ICP-MS / ICP-ES (36 elements, (Ga, d.l.=0.2 ppm, S, d.l.=0.01%, W, d.l.=0.1 ppm )) |
86 | 535 | GSC/ACL (surface water) ICP-MS (25 elements) (NGR, NT, 2004) |
87 | 536 | GSC/ACL (surface water) ICP-MS (25 elements) (NGR, BC, 2004) |
88 | 540 | ACME (stream sediment) ICP-MS / ICP-ES (35 elements, (Ga dl=0.1ppm, S dl=0.02%, W dl=0.1ppm)) |
89 | 542 | ACME (stream sediment) ICP-MS / ICP-ES (36 elements + Au; B dl=1 ppm, Ga dl=0.2ppm, S dl=0.01 %; W dl=0.2 ppm) |
90 | 548 | ActLabs ICP-MS 59 elements (part of the Ultratrace aqua regia package) (Au dl = 0.2 ppb) |
91 | 549 | ActLabs ICP-ES 34 elements |
92 | 556 | GSC OF 5117 compilation of volcanic rock analyses |
93 | 557 | GSC OF 5117 compilation of granitoid rock analyses |
94 | 559 | GSC NASGLP modified EPA 3050B digestion / ICP-MS/ES |
95 | 561 | GSC NASGLP water leach ICP-MS/ES for 64 elements |
96 | 573 | GSC (surface water) AAS direct flame (Zn, Cu, Pb, Cd) |
97 | 579 | GSC colorimetry: Cu, Pb, Zn |
98 | 584 | GSC (surface water) AAS direct flame (Cu) |
99 | 588 | ActLabs ICP-MS 59 elements (part of the Ultratrace 2 aqua regia package) (Au dl = 0.5 ppb) |
100 | 590 | ACME 1F-MS ICP-MS, aqua regia digestion (53 elements, (B dl=20 ppm, Ga dl=0.2 ppm, S dl=0.01%, W dl=0.1 ppm)) |
101 | 595 | Acme Laboratories ICP-AES, 34 elements, near-total 4-acid digestion |
102 | 596 | Acme Laboratories ICP-AES, 29 elements; aqua regia digestion |
103 | 598 | CanTech AAS (strong acid digestion) |
104 | 602 | Chemex ICP-AES (Hg: 1 ppm, Cd:0.5, La:10) (32 elements) |
105 | 610 | Guelph proton microprobe |
106 | 616 | Geoscience Labs, (OGS) MRD123 Lithogeochemical Database: ICP-AES; decomposition method unstated |
107 | 619 | Geoscience Labs, (OGS) MRD123 Lithogeochemical Database: ICP-MS; decomposition method unstated |
108 | 620 | Geoscience Labs, (OGS) MRD123 Lithogeochemical Database: wavelength-dispersive XRF of pressed powder pellets |
109 | 631 | ActLabs 4Lithores (Zr by ICP-MS) (Cr reported as Cr and Cr2O3) |
110 | 633 | ActLabs TD-MS (12 elements) |
111 | 641 | pXRF (Soil Mode) |
112 | 642 | ActLabs 4Lithores (Zr by ICP-AES) |
113 | 643 | pXRF (Mining Mode), 40 elements reported |
114 | 644 | pXRF (Soil Mode), 33 elements reported |
115 | 645 | NL Geochemical Laboratory ICP-ES |
116 | 646 | Bondar Clegg (stream sediment) AAS (8 + Cd; air acetylene) (Mn upper dl unbounded) |
117 | 647 | BVM AQ250-EXT ICP-MS, aqua regia digestion (53 elements) |
118 | 653 | BVM AQ250 ICP-MS, aqua regia digestion (37 elements) |
119 | 654 | BVM LF100 ICP-MS + LF300-EXT ICP-ES, lithium borate fusion |
120 | 665 | NGR BC AAS stream sediments and moss mats (9 elements) |
121 | 666 | NGR BC AAS stream sediments and moss mats (8 elements, no Ag) |
122 | 681 | ActLabs Cu Na2O2 fusion, ICP-ES |
123 | 683 | ActLabs 4Lithores (Zr by ICP-MS) (Cr reported as Cr, not Cr2O3) |
124 | 685 | Bondar Clegg (stream sediment) AAS (8 + Cd; air acetylene) (Mn – no upper dl) |
125 | 686 | Bondar Clegg (lake sediment) AAS (8 + Cd; air acetylene) 6ml decomp: 4HNO3 1HCl ( Mn – no upper dl ) |
126 | 691 | Acme Group 1F-MS Basic Suite (37 elements; B dl=1 ppm, Ga dl=0.2 ppm, S dl=0.01%, W dl=0.1 ppm) (v3) |
127 | 693 | ActLabs ICP-MS 59 elements (circa 2005) (Au dl = 2 ppb) |
128 | 698 | ActLabs 4B2 – Research (FUS-MS); 43 elements |
129 | 701 | ActLabs 4B1 – Base Metals (TD-ICP); 7 elements (inc S) |
130 | 713 | Analysis of 7 elements (Cu, Pb, Zn, Mo, Ni, Mn, Ag) by AAS following an aqua regia digestion |
131 | 719 | GSC: direct-reading emission spectrophotometry (20 elements) |
132 | 733 | EMR: Mines Branch, Industrial Waters Section – water analysis (15 quantities) (no details given) |
133 | 734 | GSC: emission spectrography (26 elements) |
134 | 738 | GSC: AAS (5 elements), HF-HClO4 dissolution |
135 | 741 | GSC: AAS (7 elements), HF-HClO4 dissolution |
136 | 742 | GSC: AAS (Cu, Zn) H2O2 dissolution |
137 | 743 | ACME ICP-MS (Group 1F-MS Basic Suite v4, including weight; B dl=20 ppm, Ga dl=0.1 ppm, S dl=0.02%, W dl=0.1 ppm) |
138 | 745 | ACME 1F-MS ICP-MS, aqua regia digestion (53 elements, (B dl=20 ppm, Ga dl=0.1 ppm, S dl=0.02%, W dl=0.1 ppm)) |
139 | 750 | Acme/BVM VG101-EXT + REE |
140 | 756 | Acme Group 4A-4B (2011-2013), ICP-MS/ES |
141 | 757 | Acme Group 1F30 (2011-2013; 65 elements), ICP-MS |
142 | 758 | Acme Group 1T-MS (60 elements) |
143 | 765 | OGS electron microprobe |
144 | 766 | BVM AQ250 ICP-MS, aqua regia digestion (65 elements, V dl=1 ppm) |
Index | Package ID | Package Name |
---|---|---|
1 | 3 | Acme 1F-MS + LOI, Sn, F |
2 | 5 | GSC/AMD ICP-MS |
3 | 7 | Bondar Clegg / TSD 2 micron (1) |
4 | 9 | Chemex / TSD 2 micron (1) |
5 | 11 | INRS XRF + INAA (low detection limits) |
6 | 12 | INRS XRF + INAA (high detection limits) |
7 | 14 | NBDNRE AAS + COL (Mo, Sb) |
8 | 18 | NBDNRE AAS + COL (Mo) |
9 | 20 | NBDNRE AAS + COL (Mo, W) |
10 | 22 | NBDNRE AAS + COL (Sb, V) |
11 | 24 | ActLabs INAA + ICP-AES + Hg CV-AAS |
12 | 25 | Bondar Clegg / TSD 2 micron (2) |
13 | 27 | Chemex / TSD 2 micron (2) |
14 | 28 | Chemex / TSD 2 micron (3) |
15 | 29 | Bondar Clegg / TSD 2 micron (3) |
16 | 31 | Chemex / TSD 2 micron (4) |
17 | 32 | Chemex / TSD 2 micron (5) |
18 | 33 | Chemex / TSD 2 micron (6) |
19 | 34 | Chemex / TSD 63 micron (2) |
20 | 35 | NBDNRE AAS |
21 | 39 | ActLabs ICP-AES |
22 | 41 | ActLabs INAA + ICP-AES (7 elem) + Hg CV-AAS + Sn (1991-3) |
23 | 42 | ActLabs INAA + ICP-AES (7 elem) + Hg CV-AAS + Sn (1994) |
24 | 43 | ActLabs INAA + ICP-AES (19 elem) + Hg CV-AAS + Sn |
25 | 44 | ActLabs INAA, ICP-AES, Hg CV-AAS, ICP-MS (2001) |
26 | 45 | ActLabs INAA, ICP-AES, Hg CV-AAS, ICP-MS (2002) |
27 | 46 | ActLabs INAA + ICP-AES |
28 | 48 | ActLabs INAA + ICP-AES + Hg ICP-AES + FIMS |
29 | 49 | Bondar Clegg INAA + AAS + HY-AAS + F ISE + Hg-CVAAS + U NADNC + LOI |
30 | 56 | Bondar Clegg AAS (10), U fluor, As (COL) |
31 | 57 | Bondar Clegg AAS, U NADNC, As (COL) |
32 | 58 | Chemex AAS, U NADNC, As (COL) |
33 | 60 | Bondar Clegg AAS (8), U fluor, As (COL) |
34 | 61 | Chemex ICP-AES (Hg ppm) |
35 | 63 | Chemex ICP ? (1999-2000) |
36 | 64 | Chemex ICP ? (2001) |
37 | 67 | Chemex ICP-AES (Hg ppb) |
38 | 69 | Bondar Clegg Cu, Pb, Zn, Mn, Fe, U_fl |
39 | 70 | Bondar Clegg Cu, Pb, Zn, U_fl |
40 | 72 | Bondar Clegg AAS |
41 | 81 | Chemex ICP-AES (10) |
42 | 82 | Quebec Geoscience Centre XRF + Hg AFS (2 digestions) |
43 | 86 | Barringer AAS (11 elements) |
44 | 87 | Chemex ICP-AES (Hg ppm) (33 elements) |
45 | 93 | Chemex ICP-AES (Hg ppb) (31 elements) |
46 | 94 | Bondar Clegg ICP-AES (38 elements) |
47 | 95 | Bondar Clegg ICP-AES (31 elements) |
48 | 96 | Chemex ICP-AES + Hg CV-AAS |
49 | 98 | Bondar Clegg ICP-AES (38 elements) + Hg CV-AAS |
50 | 99 | Bondar Clegg ICP-AES (31 elements) + Hg CV-AAS |
51 | 101 | OGS miscellaneous methods |
52 | 102 | OGS ICP-AES and ICP-MS methods |
53 | 104 | OGS / MRD123 miscellaneous methods |
54 | 105 | OGS / MRD143 miscellaneous methods |
55 | 106 | OGS / MRD155/Teck-Gauthier A1-A2 miscellaneous methods |
56 | 107 | OGS / MRD155/Teck-Gauthier A3 miscellaneous methods |
57 | 108 | OGS / MRD155/Teck-Gauthier A4 miscellaneous methods |
58 | 110 | OGS / MRD155/Carscallen-Thornburn miscellaneous methods |
59 | 111 | OGS / MRD155/Munroe-Currie miscellaneous methods |
60 | 112 | OGS / MRD155/Intr-Timmins miscellaneous methods |
61 | 113 | OGS / MRD155/Intr-Clifford miscellaneous methods |
62 | 114 | OGS / MRD155/Ben Nevis-Katrine miscellaneous methods |
63 | 115 | OGS / MRD155/Ben Nevis-Cliford miscellaneous methods |
64 | 116 | OGS / MRD155/Tisdale miscellaneous methods |
65 | 117 | CanTech AAS + Hg-CVAAS |
66 | 118 | CanTech AAS + Hg-CVAAS + LOI |
67 | 119 | GSC ICP-AES + ICP-MS |
68 | 120 | Acme ICP-MS (1F-MS Basic Suite, with weight) |
69 | 121 | ActLabs INAA + ICP-AES + Hg CV-AAS + ICP-AES Sn fusion |
70 | 122 | ActLabs INAA + ICP-AES(20) + Hg CV-AAS + ICP-AES Sn fusion |
71 | 124 | ActLabs INAA + ICP-AES(20) + Hg CV-AAS + ICP-MS |
72 | 125 | ActLabs ICP-AES + Hg CV-AAS |
73 | 126 | ActLabs ICP-AES (19 elements) [UNUSED] |
74 | 127 | ActLabs INA, ICP-AES [UNUSED] |
75 | 129 | ActLabs (1H2 + 1G2) (v2) INAA + ICP-AES + ICP-MS + Hg CV-AAS FIMS |
76 | 130 | ActLabs (1H2) (v2) INAA + ICP-AES + ICP-MS |
77 | 132 | Barringer (URP lake sediment) AAS (8+Mo), FLUOR (U), COL (As) |
78 | 134 | Chemex (URP lake sediment) AAS (8+ Mo), CVAAS (Hg), COL(As), LOI (vague description) |
79 | 137 | Chemex (URP stream sediment) AAS (8+Mo), COL (W, dl=2 ppm) |
80 | 139 | Acme 1F-MS Basic Suite (37 elements) 15g + REE |
81 | 140 | Acme 1T-MS (41 elements + 14 REEs) |
82 | 142 | Chemex (URP stream sediment) AAS (8+Mo+Ba), COL (W, dl=4 ppm) (vague) |
83 | 147 | Chemex (URP lake sediment) AAS (8+Mo), CVAAS (Hg), COL (As), ISE (F), LOI |
84 | 150 | Chemex (URP lake sediment) AAS (8+Mo), CVAAS (Hg), COL(As), LOI (detailed description) |
85 | 152 | Chemex (URP stream sediment) AAS (8+Mo), CVAAS (Hg) |
86 | 157 | Acme 1F-MS + Sn, F |
87 | 158 | Chemex (URP stream sediment) AAS (8+Mo+Ba), CVAAS (Hg), COL (W) |
88 | 163 | GSC ion chromatography, plus ICP-MS |
89 | 244 | GSC/ACL XRF, LOI, Leco, ICP-ES, ICP-MS |
90 | 245 | OGS XRF + ICP-MS + H2O, CO2, S |
91 | 246 | Acme 4B (inc 1DX), 2A Leco, 8 FeO, lattice water (1500°C) |
92 | 256 | GSC OF 5117 volcanic rocks lithogeochemical compilation |
93 | 257 | GSC OF 5117 granitoid rocks lithogeochemical compilation |
94 | 259 | GSC EPA3050B (modif) ICP-MS/ES |
95 | 261 | GSC water leach ICP-MS/ES + pH |
96 | 268 | GSC (URP surface water) AAS (Zn, Cu, Pb, Cd) |
97 | 272 | GSC spectrography (including B) and colorimetry |
98 | 273 | GSC (URP surface water) AAS (Cu) |
99 | 274 | Chemex (URP stream sediment) AAS (8+As+Mo), CVAAS (Hg), COL (W dl=2 ppm) |
100 | 275 | ActLabs Ultratrace 2 – aqua regia (2010) (S dl = 0.001 %) |
101 | 276 | Acme 1F-MS (53 elements) (B dl=20 ppm, Ga dl=0.2 ppm, S dl=0.01%, W dl=0.1 ppm) |
102 | 278 | Acme ICPES near-total digestion, 34 elements |
103 | 279 | Acme ICPES aqua regia, 29 elements + 6 by hydride evolution |
104 | 281 | Cantech AAS, 11 elements, total digestion |
105 | 284 | Chemex ICP-AES (Hg 1 ppm) (32 elements) |
106 | 293 | Univ. Guelph proton microprobe |
107 | 294 | Chemex (NGR lake sed 1983 samples) AAS (8+4), CVAAS (Hg), LOI500, U, ISE (F) |
108 | 296 | ActLabs GSC TGI4 whole rock analysis (variant #1) |
109 | 297 | ActLabs GSC TGI4 whole rock analysis (variant #2) |
110 | 298 | ActLabs GSC TGI-4 whole rock analysis (variant #3) |
111 | 300 | pXRF “Mining” and “Soil” modes |
112 | 302 | pXRF “Mining” and “Soil” modes; full suites |
113 | 303 | NL Geochemical Laboratory ICP-ES analysis |
114 | 304 | BVM AQ250-EXT + REE (65 elements) |
115 | 308 | BVM combined aqua regia and borate fusion suites |
116 | 309 | Bondar Clegg (NGR BC stream sediment) AAS (8+6), Ba (XRF), CVAAS (Hg), W, LOI, F, U (10**12) |
117 | 310 | Chemex (NGR BC stream sediment and moss mat samples, 1988) |
118 | 311 | Barringer Magenta (NGR BC stream sediment and moss mat samples, 1989) |
119 | 313 | ActLabs GSC TGI4 whole rock analysis (variant #4) |
120 | 314 | ActLabs GSC TGI4 whole rock analysis (variant #5) |
121 | 316 | Cantech (NGR stream sediment) AAS (8+Cd,Mo,V,Sn), CV (Hg), LOI, F, Bi, Se |
122 | 318 | BVM combined aqua regia and borate fusion suites + FA-ICPES |
123 | 320 | ActLabs ICP-MS Ultratrace – aqua regia (2004) (Au dl = 0.2 ppb) |
124 | 321 | ActLabs ICP-MS Ultratrace – aqua regia (2006) (Au dl = 0.5 ppb) |
125 | 322 | ActLabs aqua regia ICP-ES (2003) |
126 | 326 | Acme ICP-MS (1F-MS Basic Suite) |
127 | 328 | ActLabs aqua regia ICP-MS (59 elements, 2004) |
128 | 330 | ActLabs Fusion-XRF (major + trace) + ICP-MS (aqua regia digestion) |
129 | 331 | ActLabs Fusion-XRF (major elements only) + ICP-MS (aqua regia digestion) |
130 | 333 | ActLabs ICP-ES, total digestion (7 elements, including S); FeO by titration |
131 | 334 | Chemex (URP lake sediment) AAS (8+Mo), COL (As), LOI (detailed description) |
132 | 343 | Bondar Clegg AAS (7 elements), plus As by colorimetry |
133 | 344 | GSC Resource Geochemistry lake sediment analysis, Bear-Slave Operation |
134 | 349 | GSC spectrography (including Ba) and colorimetry |
135 | 350 | EMR surface water analysis |
136 | 351 | Atomic emission spectrography of heavy mineral concentrates |
137 | 352 | GSC lithogeochemical analysis of 22 elements |
138 | 353 | GSC AAS (7 elements by near-total acid attack; 2 by sulphide-selective cold leach) |
139 | 354 | Acme ICP-MS (1F-MS Basic Suite + 4B (Sn)) |
140 | 355 | Acme ICP-MS (1F 53 elements) + F (ISE) + LOI |
141 | 357 | Acme 1F-MS |
142 | 359 | Acme VG101-EXT + REE (65 elements) |
143 | 362 | Acme 4A-4B, 2A Leco, 1F30 (117 parameters) |
144 | 363 | Acme 1T-MS (46 elements + 14 REEs) |
145 | 364 | Chemex (URP lake sediment) AAS (8+Mo+As), LOI |
146 | 365 | Chemex (URP lake sediment) AAS (8+Mo+V+As), LOI |
147 | 366 | Chemex (URP lake sediment) AAS (8+Mo+As), ISE (F), LOI |
148 | 369 | Chemex (URP stream and lake sediment) AAS (8+Mo), COL (W, dl=4 ppm) |
149 | 370 | Chemex (URP stream sediment) AAS (8+Mo), COL (W) |
150 | 374 | Chemex (URP stream sediment) AAS (8+As+Mo), CVAAS (Hg), COL (W, dl=4 ppm) |
151 | 378 | Chemex (URP stream sediment) AAS (8+As+Mo+Sb), CVAAS (Hg), COL (W) |
152 | 379 | Bondar Clegg (stream sediments) AAS (8+Mo+V), COL (W), ISE (F)+ XRF (Ba), LOI |
153 | 386 | Chemex (NGR lake sediment) AAS (8+4), CVAAS (Hg), LOI500, U |
154 | 387 | Chemex (NGR lake sediment, 1982 samples) AAS (8+4), CVAAS (Hg), LOI500, U, ISE (F) |
155 | 390 | Chemex (NGR stream sediment) AAS (8+3), cold vapour (Hg), COL (W), NADNC(U) |
156 | 391 | Barringer (NGR lake sediment) AAS (8+5), CV (Hg), COL (W), LOI500, ISE (F), NADNC (U) |
157 | 393 | Barringer (NGR lake sediment) AAS (8+5), CV (Hg), LOI500, NADNC (U) |
158 | 394 | Barringer (NGR stream sediment) AAS (8+6), CVAAS (Hg), COL (W), LOI500, NADNC (U) |
159 | 396 | Barringer (NGR lake sediment) AAS (8+5), CVAAS (Hg), COL (W), LOI500, ISE (F), NADNC (U) |
160 | 398 | Barringer (NGR stream sediment, NB, 1985) AAS (8+7), CVAAS (Hg), COL (W), LOI500, ISE (F), U |
161 | 400 | Barringer (NGR lake sediment) AAS (8+Cd+As+Mo+V+Sb), CVAAS (Hg), LOI500, ISE (F), NADNC(U) |
162 | 401 | Barringer (NGR lake sediment) AAS (8+5), CVAAS (Hg), LOI500, NADNC(U) |
163 | 403 | Bondar Clegg (NGR stream sediment) AAS (8+5), CVAAS (Hg), COL (W), U |
164 | 405 | Barringer (NGR stream sediment, BC, 1985) AAS (8+7), CVAAS (Hg), COL (W), LOI500, ISE (F), U |
165 | 406 | Barringer (NGR stream sediment) AAS (8+7, CVAAS (Hg), COL (W), LOI500, ISE (F), U |
166 | 409 | Barringer (NGR stream sediment) AAS (Cd+As+Sn+Sb+Mo+V), CVAAS (Hg), LOI, ISE (F), U |
167 | 412 | Bondar Clegg (NGR stream sediment) AAS (8+7), CVAAS (Hg), W, LOI, F, U |
168 | 413 | Barringer (NGR lake sediment) AAS (8+5), CVAAS (Hg), LOI, F, U(5**10) |
169 | 415 | Barringer (NGR lake sediment) AAS (8+5), CVAAS (Hg), LOI, U(5**10) |
170 | 416 | Chemex (NGR lake sediment) AAS (8+5), CVAAS (Hg), COL (W), LOI, NADNC (U-5**10) |
171 | 417 | Chemex (NGR stream sediment) AAS (8+5), CVAAS (Hg), COL (W), LOI, NADNC (U-5**10) |
172 | 419 | Bondar Clegg (NGR lake sediment) AAS (8+5), CVAAS (Hg), LOI, F, U(5**10, He detector, 20s, d.l.=0.5) |
173 | 421 | Bondar Clegg (NGR lake sediment) AAS 8+6+Ba (HCLO4 only)), CVAAS (Hg),W, LOI, F, U(10**12) |
174 | 422 | Bondar Clegg (NGR stream sediment) AAS (8+6), Ba (HClO4 only), CVAAS (Hg), W, LOI, F, U(10**12) |
175 | 423 | Bondar Clegg (NGR lake sediment) AAS (8+5), CVAAS (Hg), LOI, F, U(10**12) |
176 | 426 | Bondar Clegg (NGR stream sediment) AAS (8+6), DCP (Ba), CVAAS (Hg), W, LOI, F, U |
177 | 427 | Bondar Clegg (NGR stream sediment) AAS (8+6), DCP (Ba), CV (Hg), COL (W), LOI at 500°C, F, U |
178 | 429 | Bondar Clegg (NGR lake sediment) AAS (8+5), CV (Hg), LOI at 500°C, F, U - 10**12 flux |
179 | 430 | Barringer (NGR lake sediment) AAS (8+6), DCP (Ba), CV (Hg), LOI, W, F, U |
180 | 432 | Bondar Clegg (NGR lake sediment) AAS (8+7), CV (Hg), LOI, W, F, U |
181 | 435 | Bondar Clegg (NGR lake sediment) AAS (8+7), CV (Hg), LOI, W, F, |
182 | 439 | Bondar Clegg (NGR stream sediment) AAS (8+6), CV (Hg), LOI, F, U |
183 | 440 | Bondar Clegg (NGR lake sediment) AAS (8+3+(Mo+V: 2.5 ml conc)), CVAAS (Hg), LOI, F, U(10**12) |
184 | 446 | Bondar Clegg (NGR stream sediment, YT, 1990) AAS (8+4), CV (Hg), LOI, F |
185 | 447 | Barringer (NGR stream sediment) AAS (8+4), CV (Hg), LOI, F, Sn |
186 | 449 | Barringer (NGR lake sediment) AAS (8+3), CV (Hg), LOI, F |
187 | 451 | Cantech (NGR lake sediment) AAS (8+3), CV (Hg - d.l.=5 ppb), LOI, F [UNUSED] |
188 | 452 | Cantech (NGR lake sediment) AAS (8+3), CV (Hg), LOI, F [UNUSED] |
189 | 453 | Cantech (NGR stream sediment) AAS (8 + Cd, Mo (dl=2 ppm), V, Sn), CV (Hg), LOI, F |
190 | 455 | ActLabs (NGR stream sediment) ICP-ES - HMC (8 elements) |
191 | 456 | Cantech (NGR stream sediment) AAS (8+4), CV(Hg), LOI, F |
192 | 459 | Cantech (NGR stream sediment) AAS (8+4), CV (Hg), LOI |
193 | 460 | Cantech (NGR lake sediment) AAS(8+Cd,Mo,V), CV(Hg - d.l. 5ppb), LOI, F [UNUSED] |
194 | 461 | Cantech (NGR stream sediment) AAS (8+4), CV (Hg – d.l. 5 ppb), LOI, F [UNUSED] |
195 | 463 | Acme (NGR stream sediment) ICP-MS / ICP-ES (35 elements, W, d.l.=0.2 ppm), Sn, LOI |
196 | 466 | Acme 1F-MS Basic Suite (37 elements) 1g |
197 | 467 | Bondar Clegg (NGR lake sediment) AAS (8+3), CV (Hg), LOI, F |
198 | 468 | Bondar Clegg (NGR stream sediment, NU, 1995) AAS (8+4), CV (Hg), LOI, F |
199 | 469 | Bondar Clegg (NGR lake sediment) AAS (8+Cd, Mo, V), CV (Hg - d.l.=5 ppb), LOI, F |
200 | 470 | Bondar Clegg (NGR stream sediment) AAS (8+4), CV(Hg – d.l.=5 ppb), LOI, F |
201 | 471 | Acme (NGR stream sediment) ICP-MS (35+Au), LOI |
202 | 472 | GSC (NGR surface water) ICP-MS (31 elements), ICP-ES (7 elements) |
203 | 476 | Acme (NGR stream sediment) ICP-MS / ICP-ES (35 elements, W, d.l.=0.1 ppm), Sn, LOI |
204 | 478 | Acme (NGR stream sediment) ICP-MS/ICP-ES (35+Au), LOI |
205 | 482 | Acme (NGR stream sediment) ICP-MS / ICP-ES (35 elements), LOI, Sn, F |
206 | 483 | Acme (NGR stream sediment) ICP-MS / ICP-ES- HMC (36 elements), Sn, F |
207 | 484 | GSC/ACL (NGR surface water) ICP-MS (25) |
208 | 485 | Acme (NGR stream sediment) ICP-MS / ICP-ES (35 elements, W, d.l.=0.1 ppm), LOI |
209 | 486 | GSC/ACL (NGR surface water) Ion Chromatography (6 ions), ICP-MS (25) |
210 | 489 | Acme (NGR stream sediment) ICP-MS / ICP-ES (35 elements), LOI, Sn (LiBO2 fusion), F |
211 | 491 | Acme (NGR stream and lake sediments) ICP-MS / ICP-ES (35 elements, Ga, d.l.=0.1; S, d.l.=0.02;W, d.l.=0.1 ppm) |
212 | 493 | Acme (NGR stream sediment) ICP-MS / ICP-ES (36 elements + Au, Ga, d.l.=0.2; S, d.l.=0.01;W, d.l.=0.2 ppm) |
213 | 496 | Cantech (NGR stream sediment) AAS (8 + Cd, Mo (dl=1ppm), V, Sn), CV (Hg), LOI, F |
214 | 497 | Acme 4A-4B, 2A Leco, 1F30, 1T-MS (177 parameters) |
215 | 498 | Acme 4A-4B, 2A Leco, 1F30, 1T-MS (172 parameters) |
216 | 500 | ActLabs 1H (Au+48) and 1C-EXP2 (Au, Pt, Pd) |
217 | 505 | OGS microprobe |
218 | 507 | BVM AQ250 (65 elements) |
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