# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
1 | Event label | Event | | | | |
2 | Sample code/label | Sample label | | Kodolányi, János | DSDP/ODP/IODP sample designation | |
3 | Piece | Piece | | Kodolányi, János | | |
4 | Sample code/label 2 | Sample label 2 | | Kodolányi, János | | |
5 | DEPTH, sediment/rock | Depth sed | m | | | Geocode |
6 | Depth, top/min | Depth top | m | Kodolányi, János | | |
7 | Depth, bottom/max | Depth bot | m | Kodolányi, János | | |
8 | Area/locality | Area | | Kodolányi, János | | |
9 | Code | Code | | Kodolányi, János | | grain code (contains a capital letter) identifies the grain for which average composition is presented below the code (except exsolution lamellae); in case of exsolution lamellae the code of the analyses (no letters in the code) is presented instead of a grain code |
10 | Texture | Texture | | Kodolányi, János | | isometric sub to euhedral crystals, if nothing else is indicated |
11 | Sample amount | N | # | Kodolányi, János | | number of individual analyses per grain |
12 | Titanium dioxide | TiO2 | % | Kodolányi, János | Electron microprobe (EMP) | |
13 | Titanium dioxide, standard deviation | TiO2 std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
14 | Aluminium oxide | Al2O3 | % | Kodolányi, János | Electron microprobe (EMP) | |
15 | Aluminium oxide, standard deviation | Al2O3 std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
16 | Chromium(III) oxide | Cr2O3 | % | Kodolányi, János | Electron microprobe (EMP) | |
17 | Chromium(III) oxide, standard deviation | Cr2O3 std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
18 | Vanadium oxide | V2O5 | % | Kodolányi, János | Electron microprobe (EMP) | |
19 | Vanadium oxide, standard deviation | V2O5 std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
20 | Iron oxide, FeO | FeO | % | Kodolányi, János | Electron microprobe (EMP) | |
21 | Iron oxide, FeO, standard deviation | FeO std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
22 | Manganese oxide | MnO | % | Kodolányi, János | Electron microprobe (EMP) | |
23 | Manganese oxide, standard deviation | MnO std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
24 | Nickel oxide | NiO | % | Kodolányi, János | Electron microprobe (EMP) | |
25 | Nickel oxide, standard deviation | NiO std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
26 | Magnesium oxide | MgO | % | Kodolányi, János | Electron microprobe (EMP) | |
27 | Magnesium oxide, standard deviation | MgO std dev | ± | Kodolányi, János | Electron microprobe (EMP) | |
28 | Elements, total | Total | % | Kodolányi, János | Electron microprobe (EMP) | |
29 | Standard deviation | Std dev | ± | Kodolányi, János | Electron microprobe (EMP) | elements, total |
30 | Elements, total | Total | % | Kodolányi, János | Calculated | with FeO and Fe2O3 |
31 | Standard deviation | Std dev | ± | Kodolányi, János | Calculated | elements, total, with FeO and Fe2O3 |
32 | Iron oxide, FeO | FeO | % | Kodolányi, János | Calculated | estimated assuming that the sum of cations is 3 |
33 | Iron oxide, FeO, standard deviation | FeO std dev | ± | Kodolányi, János | Calculated | estimated assuming that the sum of cations is 3 |
34 | Iron oxide, Fe2O3 | Fe2O3 | % | Kodolányi, János | Calculated | estimated assuming that the sum of cations is 3 |
35 | Iron oxide, Fe2O3, standard deviation | Fe2O3 std dev | ± | Kodolányi, János | Calculated | estimated assuming that the sum of cations is 3 |
36 | Titanium | Ti | # of ions | Kodolányi, János | Calculated based on oxygen number | |
37 | Titanium, standard deviation | Ti std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
38 | Aluminium | Al | # of ions | Kodolányi, János | Calculated based on oxygen number | |
39 | Aluminium, standard deviation | Al std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
40 | Chromium | Cr | # of ions | Kodolányi, János | Calculated based on oxygen number | |
41 | Chromium, standard deviation | Cr std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
42 | Vanadium | V | # of ions | Kodolányi, János | Calculated based on oxygen number | |
43 | Vanadium, standard deviation | V std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
44 | Iron 3+ | Fe3+ | # of ions | Kodolányi, János | Calculated based on oxygen number | |
45 | Iron, standard deviation | Fe std dev | ± | Kodolányi, János | Calculated based on oxygen number | Fe3+, estimated assuming that the sum of cations is 3 |
46 | Iron 2+ | Fe2+ | # of ions | Kodolányi, János | Calculated based on oxygen number | |
47 | Iron, standard deviation | Fe std dev | ± | Kodolányi, János | Calculated based on oxygen number | Fe2+, estimated assuming that the sum of cations is 3 |
48 | Manganese | Mn | # of ions | Kodolányi, János | Calculated based on oxygen number | |
49 | Manganese, standard deviation | Mn std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
50 | Nickel | Ni | # of ions | Kodolányi, János | Calculated based on oxygen number | |
51 | Nickel, standard deviation | Ni std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
52 | Magnesium | Mg | # of ions | Kodolányi, János | Calculated based on oxygen number | |
53 | Magnesium, standard deviation | Mg std dev | ± | Kodolányi, János | Calculated based on oxygen number | |
54 | Sum | Sum | # | Kodolányi, János | Calculated based on oxygen number | |
55 | Iron 2+/Iron 3+ ratio | Fe2+/Fe3+ | | Kodolányi, János | | |
56 | Standard deviation | Std dev | ± | Kodolányi, János | | Fe2+/Fe3+ |
57 | Magnesium number | Mg# | | Kodolányi, János | | Mg# = 100 * [Mg/(Mg+Fetotal)]molar |
58 | Magnesium number, standard deviation | Mg# std dev | ± | Kodolányi, János | | Mg# = 100 * [Mg/(Mg+Fetotal)]molar |
59 | Chromium number | Cr# | | Kodolányi, János | | |
60 | Chromium number, standard deviation | Cr/(Cr+Al) std dev | ± | Kodolányi, János | | |
61 | Degree of melting | Deg melting | % | Kodolányi, János | Calculated | using the equotion of Hellebrand et al. (2001; doi:10.1038/35070546) |