콘텐츠로 건너뛰기
Home » Environment/Asbestos » USGS

USGS


제조사 웹사이트 바로가기

 

ID # Description of Material Amount Comment
USGS24 graphite 0.8 g δ13C = —16.05 ‰
USGS25 ammonium sulfate > 0.6 g δ15N = —30.41 ‰
USGS26 ammonium sulfate > 0.8 g δ15N = +53.75 ‰
USGS32 potassium nitrate 0.3 g δ15N = +180 ‰
δ18O = ~+25.5 ‰
USGS34 potassium nitrate 0.3 g δ15N = —1.8 ‰
δ18O = ~—28 ‰
USGS35 sodium nitrate 0.3 g δ15N = +2.7 ‰
δ18O = ~+57 ‰
USGS37 potassium perchlorate 1 g δ37Cl = +0.90 ‰
δ18O = —17.00 ‰
δ17O = —8.96 ‰
USGS38 potassium perchlorate 1 g δ37Cl = —87.90 ‰
δ18O = +52.50 ‰
δ17O = +102.40 ‰
USGS39 potassium perchlorate 1 g δ37Cl = +0.05 ‰
δ18O = +122.3 ‰
δ17O = +62.6 ‰
USGS40 L-glutamic acid 2 g δ15N = —4.52 ‰
δ13C = —26.39 ‰
USGS41a L-glutamic acid enriched in 0.5 g δ15N = +47.55 ‰
13C & 15N δ13C = +36.55 ‰
USGS41 L-glutamic acid enriched in 0.5 g δ15N = +47.57 ‰
13C & 15N δ13C = +37.63 ‰
USGS42 Tibetan human hair powder 0.5 g δ2H = —72.9 ‰
(< 100 mesh) δ18O = +8.56 ‰
δ15N = +8.05 ‰
δ13C = —21.09 ‰
δ34S = +7.84 ‰
USGS43 Indian human hair powder 0.5 g δ2H = —44.4 ‰
(< 60 mesh) δ18O = +14.11 ‰
δ15N = +8.44 ‰
δ13C = —21.28 ‰
δ34S = +10.46 ‰
CBS Caribou Hoof Standard 0.5 g δ2H = —157.0 ‰
δ18O = +2.39 ‰
KHS Kudu Horn Standard 0.5 g δ2H = —35.3 ‰
δ18O = +21.21 ‰
USGS44 Merck high purity CaCO3 Intended for calibration of VPDB carbon-isotope-delta scale 0.5 g δ13C = —42.21 ‰
USGS45 Set of 16 ampoules having 4 mL of Biscayne Aquifer Drinking Water per ampoule 64 mL δ2H = —10.3 ‰
δ18O = —2.238 ‰
USGS45 Case of 144 ampoules having 4 mL of Biscayne Aquifer Drinking Water per ampoule 576 mL δ2H = —10.3 ‰
δ18O = —2.238 ‰
USGS45 Case of 144 ampoules having 5 mL of Biscayne Aquifer Drinking Water per ampoule 720 mL δ2H = —10.3 ‰
δ18O = —2.238 ‰
USGS46 Set of 16 ampoules having 4 mL of Ice Core Water per ampoule 64 mL δ2H = —235.8 ‰
δ18O = —29.80 ‰
USGS46 Case of 144 ampoules having 4 mL of Ice Core Water per ampoule 576 mL δ2H = —235.8 ‰
δ18O = —29.80 ‰
USGS46a Set of 16 ampoules having 5 mL of Ice Core Water per ampoule 80 mL
USGS46a Case of 144 ampoules having 5 mL of Ice Core Water per ampoule 720 mL
USGS47 Set of 16 ampoules having 5 mL of Lake Louise Drinking Water per ampoule 80 mL δ2H = —150.2 ‰
δ18O = —19.80 ‰
USGS47 Case of 144 ampoules having 5 mL of Lake Louise Drinking Water per ampoule 720 mL δ2H = —150.2 ‰
δ18O = —19.80 ‰
USGS48 Set of 16 ampoules having 5 mL of Puerto Rico Precipitation per ampoule 80 mL δ2H = —2.0 ‰
δ18O = —2.224 ‰
USGS48 Case of 144 ampoules having 5 mL of Puerto Rico Precipitation per ampoule 720 mL δ2H = —2.0 ‰
δ18O = —2.224 ‰
USGS49 Set of 16 ampoules having 5 mL of Antarctic Ice-core Water per ampoule 80 mL δ2H = —394.7 ‰
δ18O = —50.55 ‰
USGS49 Case of 144 ampoules having 5 mL of Antarctic Ice-core Water per ampoule 720 mL δ2H = —394.7 ‰
δ18O = —50.55 ‰
USGS50 Set of 16 ampoules having 5 mL of Lake Kyoga Water per ampoule 80 mL δ2H = +32.8 ‰
δ18O = +4.95 ‰
USGS50 Case of 144 ampoules having 5 mL of Lake Kyoga Water per ampoule 720 mL δ2H = +32.8 ‰
δ18O = +4.95 ‰
USGS51 Nitrous oxide in 6-mm glass tube ~200 μmol δ15N = +1.32 ‰
δ18O = +41.23 ‰
USGS52 Nitrous oxide in 6-mm glass tube ~200 μmol δ15N = +0.44 ‰
δ18O = +40.64 ‰
USGS53 Case of 32 ampoules having 5 mL of Lake Shala Distilled Water per ampoule 160 mL δ2H = +40.2 ‰
δ18O = +5.47 ‰
USGS54 Canadian lodgepole pine wood powder 0.5 g δ2H = —150.4 ‰
δ18O = +17.79 ‰
δ13C = —24.43 ‰
δ15N = —2.42 ‰
USGS54a Canadian lodgepole pine wood powder 0.5 g
USGS55 Mexican ziricote wood powder 0.5 g δ2H = —28.2 ‰
δ18O = +19.12 ‰
δ13C = —27.13 ‰
δ15N = —0.3 ‰
USGS55a Mexican ziricote wood powder 0.5 g
USGS56 South African red ivorywood powder 0.5 g δ2H = —44.0 ‰
δ18O = +27.23 ‰
δ13C = —24.34 ‰
δ15N = +1.8 ‰
USGS56a South African red ivorywood powder 0.5 g
USGS57 biotite 0.5 g δ2H = —91.5 ‰
USGS58 muscovite 0.5 g δ2H = —28.4 ‰
USGS61 caffeine 0.5 g δ2H = +96.9 ‰
δ13C = —35.05 ‰
δ15N = —2.87 ‰
USGS62 caffeine 0.5 g δ2H = —156.1 ‰
δ13C = —14.79 ‰
δ15N = +20.17 ‰
USGS63 caffeine 0.5 g δ2H = +174.5 ‰
δ13C = —1.17 ‰
δ15N = +37.83 ‰
USGS64 glycine 0.5 g δ13C = —40.81 ‰
δ15N = +1.76 ‰
USGS65 glycine 0.5 g δ13C = —20.29 ‰
δ15N = +20.68 ‰
USGS66 glycine 0.5 g δ13C = —0.67 ‰
δ15N = +40.83 ‰
USGS67 n-hexadecane 50 μL δ2H = —166.2 ‰
δ13C = —34.50 ‰
USGS68 n-hexadecane 50 μL δ2H = —10.2 ‰
δ13C = —10.55 ‰
USGS69 n-hexadecane 50 μL δ2H = +381.4 ‰
δ13C = —0.57 ‰
USGS70 icosanoic acid methyl ester (C20 FAME) 100 mg δ2H = —183.9 ‰
δ13C = —30.53 ‰
USGS71 icosanoic acid methyl ester (C20 FAME) 100 mg δ2H = —4.9 ‰
δ13C = —10.5 ‰
USGS72 icosanoic acid methyl ester (C20 FAME) 100 mg δ2H = +348.3 ‰
δ13C = —1.54 ‰
USGS73 L-valine 0.5 g δ13C = —24.03 ‰
δ15N = —5.21 ‰
USGS74 L-valine 100 mg δ13C = —9.30 ‰
δ15N = +30.19 ‰
USGS75 L-valine 100 mg δ13C = +0.49 ‰
δ15N = +61.53 ‰
USGS76 methylheptadecanoate 50 μL δ2H = —210.8 ‰
δ13C = —31.36 ‰
USGS77 polyethylene powder 1 g δ2H = —75.9 ‰
δ13C = —30.71 ‰
NBS 22a vacuum oil, regular 1 mL δ2H = —120.4 ‰
δ13C = —29.72 ‰
USGS78 vacuum oil, 2H-enriched 1 mL δ2H = +397.0 ‰
δ13C = —29.72 ‰
USGS80 silver phosphate 0.5 g δ18O = ~ +13.1 ‰
USGS81 silver phosphate 0.5 g δ18O = ~ +35.4 ‰
USGS82 honey from tropical Vietnam 1 mL δ2H = —43.1 ‰
δ18O = +19.44 ‰
δ13C = —24.31 ‰
USGS83 honey from prairie in Canada 1 mL δ2H = —110.5 ‰
δ18O = +18.20 ‰
δ13C = —26.20 ‰
USGS84 olive oil from Sicily, Italy 1 mL δ2H = —140.4 ‰
δ18O = +26.36 ‰
δ13C = —28.80 ‰
USGS85 olive oil from coastal desert, Peru 1 mL δ2H = —158.6 ‰
δ18O = +22.00 ‰
δ13C = —29.74 ‰
USGS86 peanut oil from tropical Vietnam 1 mL δ2H = —207.4 ‰
δ18O = +18.76 ‰
δ13C = —30.63 ‰
USGS87 corn oil from USA 1 mL δ2H = —168.1 ‰
δ18O = +20.11 ‰
δ13C = —15.51 ‰
USGS88 marine collagen from wild-caught fish 0.5 g δ2H = +20.1 ‰
δ18O = +15.91 ‰
δ13C = —16.06 ‰
δ15N = +14.96 ‰
δ34S = +17.10 ‰
USGS89 porcine collagen 0.5 g δ2H = —43.7 ‰
δ18O = +8.37 ‰
δ13C = —18.13 ‰
δ15N = +6.25 ‰
δ34S = +3.86 ‰
USGS90 millet flour from Tuscany, Italy 0.5 g δ2H = —13.9 ‰
δ18O = +35.90 ‰
δ13C = —13.75 ‰
δ15N = +8.84 ‰
δ34S = —15.14 ‰
USGS91 rice flour from tropical Vietnam 0.5 g δ2H = —45.7 ‰
δ18O = +21.13 ‰
δ13C = —28.28 ‰
δ15N = +1.78 ‰
δ34S = —20.85 ‰
GFLES-1 water enriched in 2H 5 mL δ2H = +80.1 ‰
δ18O = —6.25 ‰
δ17O = —3.32 ‰
GFLES-2 water enriched in 2H 5 mL δ2H = +159.9 ‰
δ18O = —6.21 ‰
δ17O = —3.3 ‰
GFLES-3 water enriched in 2H 5 mL δ2H = +280.2 ‰
δ18O = —6.14 ‰
δ17O = —3.28 ‰
GFLES-4 water enriched in 2H 5 mL δ2H = +399.8 ‰
δ18O = —6.08 ‰
δ17O = —3.25 ‰
GFLES-Set Set of 4 ampoules; 1 each of GFLES-1 through GFLES-4 20 mL See above values
NBS 22a vacuum oil, regular 1 mL δ2H = —120.4 ‰
δ13C = —29.72 ‰
VSMOW Water, 5 mL in glass ampoule 5 mL δ2H = 0 exactly
(original reference water) δ18O = 0 exactly
NBS 22-0.15 μL oil in silver tube, batch of 50 0.15 μL δ2H = —117.2 ‰
each δ13C = —30.02 ‰
NBS 22-0.25 μL oil in silver tube, batch of 50 0.25 μL δ2H = —117.2 ‰
each δ13C = —30.02 ‰
NBS 22a-0.15 μL oil in silver tube, batch of 50 0.15 μL δ2H = —120.4 ‰
each δ13C = —29.72 ‰
NBS 22a-0.25 μL oil in silver tube, batch of 50 0.25 μL δ2H = —120.4 ‰
each δ13C = —29.72 ‰
USGS78-0.15 μL oil in silver tube, batch of 50 0.15 μL δ2H = +397.0 ‰
each δ13C = —29.72 ‰
USGS78-0.25 μL oil in silver tube, batch of 50 0.25 μL δ2H = +397.0 ‰
each δ13C = —29.72 ‰
VSMOW-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = 0 exactly
each δ18O = 0 exactly
VSMOW-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = 0 exactly
each δ18O = 0 exactly
VSMOW2-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = 0.0 ‰
each δ18O = 0.00 ‰
VSMOW2-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = 0.0 ‰
each δ18O = 0.00 ‰
SLAP-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = —428.0 ‰
each δ18O = —55.50 ‰
SLAP-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = —428.0 ‰
each δ18O = —55.50 ‰
SLAP2-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = —427.5 ‰
each δ18O = —55.50 ‰
SLAP2-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = —427.5 ‰
each δ18O = —55.50 ‰
GISP-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = —189.7 ‰
each δ18O = —24.78 ‰
GISP-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = —189.7 ‰
each δ18O = —24.78 ‰
UC03-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = +68.5 ‰
each δ18O = +29.79 ‰
UC03-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = +68.5 ‰
each δ18O = +29.79 ‰
UC04-0.15 μL water in silver tube, batch of 50 0.15 μL δ2H = +113.6 ‰
each δ18O = +38.95 ‰
UC04-0.25 μL water in silver tube, batch of 50 0.25 μL δ2H = +113.6 ‰
each δ18O = +38.95 ‰
USGS46-0.15 μL Ice Core Water in silver tube, batch of 50 0.15 μL δ2H = —235.8 ‰
each δ18O = —29.80 ‰
USGS46-0.25 μL Ice Core Water in silver tube, batch of 50 0.25 μL δ2H = —235.8 ‰
each δ18O = —29.80 ‰
USGS47-0.15 μL Lake Louise Drinking Water in silver tube, batch of 50 0.15 μL δ2H = —150.2 ‰
each δ18O = —19.80 ‰
USGS47-0.25 μL Lake Louise Drinking Water in silver tube, batch of 50 0.25 μL δ2H = —150.2 ‰
each δ18O = —19.80 ‰
USGS48-0.15 μL Puerto Rico Precipitation in silver tube, batch of 50 0.15 μL δ2H = —2.0 ‰
each δ18O = —2.224 ‰
USGS48-0.25 μL Puerto Rico Precipitation in silver tube, batch of 50 0.25 μL δ2H = —2.0 ‰
each δ18O = —2.224 ‰
USGS49-0.15 μL Antarctic Ice-core Water in silver tube, batch of 50 0.15 μL δ2H = —394.7 ‰
each δ18O = —50.55 ‰
USGS49-0.25 μL Antarctic Ice-core Water in silver tube, batch of 50 0.25 μL δ2H = —394.7 ‰
each δ18O = —50.55 ‰
USGS50-0.15 μL Lake Kyoga Water in silver tube, batch of 50 0.15 μL δ2H = +32.8 ‰
each δ18O = +4.95 ‰
USGS50-0.25 μL Lake Kyoga Water in silver tube, batch of 50 0.25 μL δ2H = +32.8 ‰
each δ18O = +4.95 ‰
USGS53-0.15 μL Lake Shala Distilled Water in silver tube, batch of 50 0.15 μL δ2H = +40.2 ‰
each δ18O = +5.47 ‰
USGS53-0.25 μL Lake Shala Distilled Water in silver tube, batch of 50 0.25 μL δ2H = +40.2 ‰
each δ18O = +5.47 ‰
USGS82-0.15 μL honey from tropical Vietnam in silver tube, batch of 50 0.15 μL δ2H = —43.1 ‰
δ18O = +19.44 ‰
δ13C = —24.31 ‰
USGS82-0.25 μL honey from tropical Vietnam in silver tube, batch of 50 0.25 μL δ2H = —43.1 ‰
δ18O = +19.44 ‰
δ13C = —24.31 ‰
USGS83-0.15 μL honey from prairie in Canada in silver tube, batch of 50 0.15 μL δ2H = —110.5 ‰
δ18O = +18.20 ‰
δ13C = —26.20 ‰
USGS83-0.25 μL honey from prairie in Canada in silver tube, batch of 50 0.25 μL δ2H = —110.5 ‰
δ18O = +18.20 ‰
δ13C = —26.20 ‰
USGS84-0.15 μL olive oil from Sicily, Italy in silver tube, batch of 50 0.15 μL δ2H = —140.4 ‰
δ18O = +26.36 ‰
δ13C = —28.80 ‰
USGS84-0.25 μL olive oil from Sicily, Italy in silver tube, batch of 50 0.25 μL δ2H = —140.4 ‰
δ18O = +26.36 ‰
δ13C = —28.80 ‰
USGS85-0.15 μL olive oil from coastal desert, Peru in silver tube, batch of 50 0.15 μL δ2H = —158.6 ‰
δ18O = +22.00 ‰
δ13C = —29.74 ‰
USGS85-0.25 μL olive oil from coastal desert, Peru in silver tube, batch of 50 0.25 μL δ2H = —158.6 ‰
δ18O = +22.00 ‰
δ13C = —29.74 ‰
USGS86-0.15 μL peanut oil from tropical Vietnam in silver tube, batch of 50 0.15 μL δ2H = —207.4 ‰
δ18O = +18.76 ‰
δ13C = —30.63 ‰
USGS86-0.25 μL peanut oil from tropical Vietnam in silver tube, batch of 50 0.25 μL δ2H = —207.4 ‰
δ18O = +18.76 ‰
δ13C = —30.63 ‰
USGS87-0.15 μL corn oil from USA in silver tube, batch of 50 0.15 μL δ2H = —168.1 ‰
δ18O = +20.11 ‰
δ13C = —15.51 ‰
USGS87-0.25 μL corn oil from USA in silver tube, batch of 50 0.25 μL δ2H = —168.1 ‰
δ18O = +20.11 ‰
δ13C = —15.51 ‰
W-62001-0.15 μL RSIL DI water in silver tube, batch of 50 0.15 μL δ2H = —41.1 ‰
each δ18O = —6.25 ‰
W-62001-0.25 μL RSIL DI water in silver tube, batch of 50 0.25 μL δ2H = —41.1 ‰
each δ18O = —6.25 ‰
GFLES-1-0.15 μL water enriched in 2H in silver tube, batch of 50 0.15 μL δ2H = +80.1 ‰
each δ18O = —6.25 ‰
δ17O = —3.32 ‰
GFLES-1-0.25 μL water enriched in 2H in silver tube, batch of 50 0.25 μL δ2H = +80.1 ‰
each δ18O = —6.25 ‰
δ17O = —3.32 ‰
GFLES-2-0.15 μL water enriched in 2H in silver tube, batch of 50 0.15 μL δ2H = +159.9 ‰
each δ18O = —6.21 ‰
δ17O = —3.3 ‰
GFLES-2-0.25 μL water enriched in 2H in silver tube, batch of 50 0.25 μL δ2H = +159.9 ‰
each δ18O = —6.21 ‰
δ17O = —3.3 ‰
GFLES-3-0.15 μL water enriched in 2H in silver tube, batch of 50 0.15 μL δ2H = +280.2 ‰
each δ18O = —6.14 ‰
δ17O = —3.28 ‰
GFLES-3-0.25 μL water enriched in 2H in silver tube, batch of 50 0.25 μL δ2H = +280.2 ‰
each δ18O = —6.14 ‰
δ17O = —3.28 ‰
GFLES-4-0.15 μL water enriched in 2H in silver tube, batch of 50 0.15 μL δ2H = +399.8 ‰
each δ18O = —6.08 ‰
δ17O = —3.25 ‰
GFLES-4-0.25 μL water enriched in 2H in silver tube, batch of 50 0.25 μL δ2H = +399.8 ‰
each δ18O = —6.08 ‰
δ17O = —3.25 ‰
IAEA-604-0.15 μL water enriched in 2H in silver tube, batch of 50 0.15 μL δ2H = +799.9 ‰
each δ18O = —5.86 ‰
δ17O = —3.2 ‰
IAEA-604-0.25 μL water enriched in 2H in silver tube, batch of 50 0.25 μL δ2H = +799.9 ‰
each δ18O = —5.86 ‰
δ17O = —3.2 ‰
NBS 1 glass ampoule of steam condensate from Potomac River water 50 mL δ2H = —47.1 ‰
δ18O = —7.91 ‰
NBS 1a glass ampoule of snow meltwater from Yellowstone, Wyoming 50 mL δ2H = —183.2 ‰
δ18O = —24.36 ‰
W-64444-S Set of 8 ampoules having 7 mL of water per ampoule 56 mL δ2H = —399.1 ‰
δ18O = —51.14 ‰
W-67400-S Set of 8 ampoules having 7 mL of water per ampoule 56 mL δ2H = +1.2 ‰
δ18O = —1.97 ‰
W-43156 Water, 40 mL in glass ampoule 40 mL δ2H = —112.8 ‰
δ18O = —14.42 ‰
W-32633 Water, 40 mL in glass ampoule 40 mL δ2H = —58.0 ‰
δ18O = —8.95 ‰
W-115143A Water, 40 mL in glass ampoule 40 mL δ2H = —4.8 ‰
δ18O = —1.19 ‰
W-133887 Water, D2O with relatively low δ18O 10 mL D2O = 99.8 %
δ18O = +62 ‰
ID # Description of Service Amount Comment
Cal-δ2H calibration of user provided water for δ2H relative to VSMOW-SLAP
Cal-δ18O calibration of user provided water for δ18O relative to VSMOW-SLAP
Cal-solid On request
LIMS LIMS database modification requests
Other On request

 

to List Home Home