/* DATA DESCRIPTION: Citation: Arkhipov, Serguei M; Sinkevich, S A; Samoylov, O Yu (2000): Physical and chemical properties of ice core AUF85. PANGAEA, https://doi.org/10.1594/PANGAEA.57273, In: Arkhipov, Serguei M; Kotlyakov, Vladimir; Punning, Ya-M K; Zogorodnov, V; Nikolayev, V I; Zagorodnov, V S; Macheret, Yu Ya; Vaikmaye, R; Barkov, Nartsiss I; Korsun, S A; Korotkevich, V; Morev, V A; Evseyev, A V; Vostokova, T A; Andreev, Andrei A; Klementyev, Oleg L; Korotkevitch, Y S; Stiévenard, Michel; Sinkevich, S A; Samoylov, O Yu; Gordienko, F G; Korsun, A V; Tiugu, K R; Arkipov, S M (2008): Deep drilling of glaciers: Russian projects in the Arctic (1975-1995). Institute of Geography, Russian Academy of Sciences, Moscow, PANGAEA, https://doi.org/10.1594/PANGAEA.707363 Related to: Arkhipov, Serguei M; Moskalevskiy, M Y; Glazovsky, Andrey; Mayewski, Paul Andrew; Witlow, S (1992): Geochemistry of unmelted snow cover of the Kongsvegen Glacier and the Amundsenisen, Spitsbergen. Data of Glaciological Studies [Materialy Glyatsiologicheskikh Issledovaniy], Moscow, in Russian, 75, 22-35 Arkhipov, Serguei M; Vaykmyae, R A; Vasilenko, E V; Zagorodnov, V S; Zinger, Y M; Martma, T A; Macheret, Yu Ya; Punning, Ya-M K; Samoylov, O Yu; Sinkevich, S A; Toots, M D; Troitskiy, L S (1987): Soviet glaciological investigation on Austfonna, Nordaustlandet, Svalbard in 1984-1985. Polar Geography and Geology, Winston & Son, Inc. Silver Spring, MD, 11(1), 25-49, https://doi.org/10.1080/10889378709377309 Punning, Ya-M K; Tiugu, K R (1991): The distribution of chemical elements in the glacier cores obtained at Nordaustlandet. Data of Glaciological Studies [Materialy Glyatsiologicheskikh Issledovaniy], Moscow, in Russian, 72, 170-176 Project(s): Quaternary Environment of the Eurasian North (QUEEN) (URI: https://cordis.europa.eu/project/id/MAS3980185) Funding: Fourth Framework Programme (FP4), grant/award no. MAS3980185: Quaternary Environment of the Eurasian North (URI: https://cordis.europa.eu/project/id/MAS3980185) Coverage: LATITUDE: 79.830000 * LONGITUDE: 24.000000 DATE/TIME START: 1985-01-01T00:00:00 * DATE/TIME END: 1985-01-01T00:00:00 MINIMUM DEPTH, ice/snow: 2.0000 m * MAXIMUM DEPTH, ice/snow: 204.0000 m Event(s): AUF85 * LATITUDE: 79.830000 * LONGITUDE: 24.000000 * DATE/TIME: 1985-01-01T00:00:00 * ELEVATION: 750.0 m * Penetration: 204 m * Recovery: 204 m * LOCATION: Nordaustlandet, Svalbard * CAMPAIGN: DDGA * BASIS: Sampling/drilling ice * METHOD/DEVICE: Drilling/drill rig (DRILL) Parameter(s): DEPTH, ice/snow [m] (Depth ice/snow) * GEOCODE Annual layer thickness [m] (Ann layer thick) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: based on optical density of non melted ice core (annual stratification by V S Zagorodnov) Infiltration-congelation ice [%] (Infiltration-congel) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: % of depth interval Density, mass density [kg/m**3] (Density) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: without differentiation of stratigraphy Crystal size [mm] (Size XX) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: of firn and/or infiltration-recrystallization ice and/or recrystallization ice Crystal size [mm] (Size XX) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: of infiltration and infiltration-congelation ice Diameter [mm] (Ø) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured * COMMENT: diameter of autogenous air inclusions in the infiltration ice δ18O, water [‰ SMOW] (δ18O H2O) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured Chloride [µg/kg] (Cl-) * PI: Arkhipov, Serguei M (arkhipov@gol.ru) * METHOD/DEVICE: Measured License: Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/) Size: 675 data points */ Depth ice/snow [m] Ann layer thick [m] (based on optical density of n...) Infiltration-congel [%] (% of depth interval) Density [kg/m**3] (without differentiation of st...) Size XX [mm] (of firn and/or infiltration-r...) Size XX [mm] (of infiltration and infiltrat...) Ø [mm] (diameter of autogenous air in...) δ18O H2O [‰ SMOW] Cl- [µg/kg] 2.0000 31.5 25.0 -13.23 4.0000 50.5 25.0 -16.08 6.0000 69.9 25.0 8.0000 82.7 25.0 0.34 10.0000 96.0 25.0 0.37 -17.30 1.57 12.0000 100.0 889 16.1 0.33 -16.78 1.49 14.0000 99.9 884 16.1 -17.57 1.32 16.0000 95.4 886 16.1 -17.00 1.14 18.0000 0.54 89.8 16.1 0.33 -15.72 1.05 20.0000 0.53 95.2 16.1 0.41 -16.90 1.11 22.0000 0.54 98.2 7.0 88.1 0.52 -16.44 1.26 24.0000 0.54 100.0 7.0 88.1 0.35 -16.60 1.26 26.0000 0.51 100.0 7.0 88.1 0.49 -16.40 1.35 28.0000 95.2 7.0 88.1 0.40 -15.90 1.43 30.0000 89.1 7.0 88.1 0.38 -16.10 1.40 32.0000 88.0 6.0 97.1 0.52 -15.80 1.28 34.0000 0.44 95.4 6.0 97.1 -16.19 1.20 36.0000 0.40 97.4 6.0 97.1 0.54 -15.10 1.26 38.0000 0.40 96.5 6.0 97.1 0.63 -16.61 1.32 40.0000 0.46 94.8 6.0 97.1 0.50 -16.70 1.20 42.0000 0.40 92.4 5.0 28.9 0.39 -15.86 1.30 44.0000 0.41 89.2 5.0 28.9 0.49 -17.04 1.30 46.0000 0.50 93.1 5.0 28.9 0.38 -18.67 1.26 48.0000 0.42 95.2 5.0 28.9 0.45 -18.39 1.06 50.0000 0.42 86.3 5.0 28.9 0.43 -18.83 1.14 52.0000 61.7 16.5 63.8 -18.24 1.02 54.0000 0.55 54.0 16.5 63.8 0.64 -17.61 1.13 56.0000 0.56 56.6 16.5 63.8 -18.70 1.13 58.0000 0.58 53.7 16.5 63.8 -17.40 1.05 60.0000 52.5 884 16.5 63.8 -17.30 0.99 62.0000 54.5 905 12.0 57.3 -18.70 0.93 64.0000 0.44 50.6 12.0 57.3 -17.80 1.01 66.0000 54.0 895 12.0 57.3 0.71 -18.79 0.96 68.0000 0.65 72.4 12.0 57.3 -18.61 1.00 70.0000 0.62 79.1 905 12.0 57.3 0.77 -18.80 0.96 72.0000 0.43 74.5 908 21.0 49.0 0.66 -17.90 0.95 74.0000 0.47 67.1 902 21.0 49.0 0.66 -19.20 0.90 76.0000 0.51 67.0 903 21.0 49.0 0.80 -17.70 0.87 78.0000 0.53 56.4 21.0 49.0 0.58 -18.18 0.86 80.0000 0.53 35.6 908 21.0 49.0 0.36 -18.64 0.78 82.0000 0.55 24.2 909 28.8 135.8 -20.20 0.77 84.0000 0.53 28.0 891 28.8 135.8 0.34 -19.36 0.96 86.0000 0.48 42.2 898 28.8 135.8 -20.10 0.96 88.0000 0.44 59.7 904 28.8 135.8 0.23 -17.51 0.96 90.0000 0.44 77.0 28.8 135.8 0.50 -17.30 1.04 92.0000 0.48 87.2 896 18.3 45.2 -19.30 0.91 94.0000 0.42 95.1 903 18.3 45.2 0.23 -20.00 0.80 96.0000 0.39 86.3 908 18.3 45.2 0.44 -19.51 0.90 98.0000 0.46 80.8 904 18.3 45.2 0.32 -19.70 0.81 100.0000 0.51 71.9 899 18.3 45.2 -18.70 0.80 102.0000 0.55 67.6 903 13.3 81.5 -19.45 0.86 104.0000 0.50 63.3 13.3 81.5 -20.64 0.86 106.0000 0.43 71.0 905 13.3 81.5 0.37 -19.50 0.78 108.0000 0.48 73.1 903 13.3 81.5 -19.70 0.68 110.0000 0.49 63.1 13.3 81.5 0.23 -20.80 0.65 112.0000 0.65 45.8 904 17.7 33.2 0.21 -20.30 0.73 114.0000 41.3 17.7 33.2 0.50 -19.18 0.67 116.0000 45.0 911 17.7 33.2 0.22 -18.70 0.74 118.0000 0.44 47.5 17.7 33.2 0.37 -17.30 0.81 120.0000 47.1 907 17.7 33.2 0.81 -19.20 0.91 122.0000 47.9 80.5 117.2 0.22 -20.23 0.98 124.0000 41.2 907 80.5 117.2 0.83 -17.01 0.98 126.0000 41.9 895 80.5 117.2 0.59 -17.10 0.98 128.0000 0.49 40.1 80.5 117.2 0.55 -18.30 1.16 130.0000 0.46 62.6 80.5 117.2 -18.10 1.15 132.0000 0.64 74.2 17.0 70.4 -17.10 1.26 134.0000 0.65 77.4 17.0 70.4 -18.10 1.27 136.0000 0.42 65.0 17.0 70.4 0.24 -18.28 1.25 138.0000 0.51 53.9 17.0 70.4 0.23 -17.85 1.32 140.0000 0.57 58.6 17.0 70.4 0.42 -18.80 1.32 142.0000 0.61 63.0 906 46.2 95.1 -19.28 1.33 144.0000 64.8 902 46.2 95.1 0.60 -16.78 1.43 146.0000 0.54 64.2 902 46.2 95.1 0.41 -18.33 1.31 148.0000 0.47 64.0 46.2 95.1 -18.49 1.19 150.0000 0.43 48.1 46.2 95.1 -17.05 1.11 152.0000 0.35 37.3 39.0 103.0 -18.00 1.02 154.0000 34.8 39.0 103.0 0.21 -18.80 0.99 156.0000 0.49 51.1 906 39.0 103.0 0.25 -18.62 1.07 158.0000 0.42 70.7 39.0 103.0 0.27 -17.50 1.17 160.0000 0.38 76.5 906 39.0 103.0 0.41 -16.56 1.28 162.0000 0.48 68.1 20.3 131.0 -16.83 1.39 164.0000 0.47 47.7 20.3 131.0 0.61 -17.20 1.48 166.0000 0.39 38.8 910 20.3 131.0 0.56 -18.10 1.54 168.0000 0.43 32.3 20.3 131.0 0.42 -18.75 1.55 170.0000 0.43 43.0 905 20.3 131.0 -17.80 1.46 172.0000 0.44 46.6 79.0 104.4 -17.45 1.34 174.0000 40.3 79.0 104.4 0.43 -18.60 1.24 176.0000 0.41 36.6 79.0 104.4 -19.49 1.25 178.0000 0.41 47.3 79.0 104.4 0.23 -17.70 1.39 180.0000 0.36 43.8 904 79.0 104.4 0.49 -19.72 1.54 182.0000 0.38 45.9 906 72.4 130.3 0.42 -19.18 1.73 184.0000 0.43 39.4 72.4 130.3 0.21 -17.85 1.68 186.0000 0.52 32.5 908 72.4 130.3 0.24 -19.19 1.63 188.0000 0.46 35.1 72.4 130.3 0.19 -18.90 1.58 190.0000 0.45 51.3 905 72.4 130.3 0.46 -18.40 1.52 192.0000 0.46 48.0 58.0 98.6 -17.56 1.46 194.0000 0.47 52.0 908 58.0 98.6 -17.10 1.47 196.0000 43.0 904 58.0 98.6 0.58 -17.96 1.41 198.0000 0.39 44.0 58.0 98.6 -18.00 1.37 200.0000 0.38 58.0 98.6 -16.78 1.36 202.0000 0.38 903 65.0 200.0 -18.44 1.29 204.0000 0.35 65.0 200.0 -17.44 1.21