/* DATA DESCRIPTION: Citation: Imbrie, John D; McIntyre, Andrew; Mix, Alan C; SPECMAP (1997): Sea surface temperature estimates for sediment core V22-174 (specmap.043). PANGAEA, https://doi.org/10.1594/PANGAEA.52228 Related to: Imbrie, John D; McIntyre, Andrew; Mix, Alan C (1989): Oceanic response to orbital forcing in the late Quaternary: observational and experimental strategies. In: Berger, A; Schneider, S H & Duplessy, J C (eds.), Climate and Geosciences, A Challenge for Science and Society in the 21th Century. Boston (Kluwer Academic), 121-164, https://doi.org/10.1007/978-94-009-2446-8_7 McIntyre, Andrew; Ruddiman, William F; Karlin, K; Mix, Alan C (1989): Surface water response of the Equatorial Atlantic Ocean to orbital forcing. Paleoceanography, 4(1), 19-55, https://doi.org/10.1029/PA004i001p00019 Mix, Alan C; Morey, Ann E; Pisias, Nicklas G; Hostetler, Steven W (1999): Foraminiferal faunal estimates of paleotemperature: Circumventing the no-analog problem yields cool ice age tropics. Paleoceanography, 14(3), 350-359, https://doi.org/10.1029/1999PA900012 Further details: Duffy, A; Imbrie, John D (1989): Summary of Specmap archive No. 1. Spectral Mapping Project (Mapping Species Variability in Global Climate) (SPECMAP), hdl:10013/epic.32169.d001 Project(s): Spectral Mapping Project (Mapping Species Variability in Global Climate) (SPECMAP) Coverage: LATITUDE: -10.070000 * LONGITUDE: -12.820000 DATE/TIME START: 1966-05-13T00:00:00 * DATE/TIME END: 1966-05-13T00:00:00 MINIMUM DEPTH, sediment/rock: 0.00 m * MAXIMUM DEPTH, sediment/rock: 15.55 m Event(s): V22-174 * LATITUDE: -10.070000 * LONGITUDE: -12.820000 * DATE/TIME: 1966-05-13T00:00:00 * ELEVATION: -2630.0 m * Recovery: 15.66 m * CAMPAIGN: V22 * BASIS: Vema (URI: https://en.wikipedia.org/wiki/SV_Mandalay) * METHOD/DEVICE: Piston corer (PC) Parameter(s): DEPTH, sediment/rock [m] (Depth sed) * GEOCODE Sea surface temperature, winter [°C] (SST win) * PI: SPECMAP * METHOD/DEVICE: Transfer function (Imbrie & Kipp, 1971, in Turekian, Yale Univ Press) Sea surface temperature, summer [°C] (SST sum) * PI: SPECMAP * METHOD/DEVICE: Transfer function (Imbrie & Kipp, 1971, in Turekian, Yale Univ Press) License: Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/) Size: 384 data points */ Depth sed [m] SST win [°C] SST sum [°C] 0.00 24.38 26.59 0.10 24.83 26.72 0.15 23.51 25.79 0.20 23.73 26.20 0.30 23.67 26.51 0.40 24.07 26.24 0.45 22.86 26.37 0.50 21.38 25.06 0.57 20.07 24.45 0.60 19.74 24.21 0.70 20.35 23.99 0.80 20.94 24.70 0.90 20.88 25.47 1.00 21.65 25.92 1.10 20.76 26.62 1.20 21.98 25.55 1.25 20.43 25.39 1.30 20.71 25.87 1.40 20.87 25.79 1.50 22.32 26.19 1.60 21.93 26.54 1.70 23.25 25.91 1.80 22.31 25.19 1.90 21.97 25.62 2.00 22.07 24.21 2.05 22.81 26.20 2.10 23.69 25.95 2.15 23.99 26.36 2.20 22.73 25.27 2.25 22.92 25.96 2.30 22.03 25.25 2.35 23.07 25.15 2.40 23.54 26.61 2.45 23.83 26.23 2.50 23.86 25.57 2.52 24.38 26.07 2.54 24.24 26.15 2.56 24.07 26.26 2.58 24.46 26.07 2.60 23.72 25.39 2.62 23.59 26.98 2.64 23.24 25.97 2.66 23.88 26.49 2.68 23.38 25.45 2.70 23.24 25.64 2.72 22.86 26.59 2.74 22.82 25.87 2.76 23.22 26.37 2.78 23.74 26.15 2.80 23.51 26.00 2.82 23.89 25.82 2.84 24.26 26.01 2.86 24.46 26.77 2.88 23.91 26.18 2.90 25.10 26.76 2.92 24.21 26.60 2.94 24.43 26.71 2.96 24.58 26.31 2.98 23.95 26.30 3.00 23.89 25.58 3.02 23.80 26.49 3.04 23.25 25.41 3.06 22.19 24.77 3.08 21.81 25.51 3.10 20.78 24.64 3.15 20.52 25.34 3.20 21.09 25.14 3.25 20.91 26.12 3.30 22.66 25.89 3.35 22.82 26.00 3.45 21.39 25.37 3.55 22.10 26.80 3.65 21.36 26.56 3.75 23.36 25.96 3.85 23.38 26.79 3.95 22.70 25.71 4.05 22.92 25.24 4.15 23.60 26.02 4.25 23.95 26.34 4.35 23.09 25.79 4.45 23.55 26.54 4.55 24.18 26.36 4.65 23.55 25.97 4.75 23.37 25.50 4.85 24.09 26.71 4.95 23.59 26.86 5.05 23.32 27.01 5.15 22.68 27.55 5.25 22.90 27.18 5.35 22.41 26.18 5.45 23.79 26.56 5.55 23.68 27.11 5.65 23.47 26.25 5.75 23.57 26.35 5.85 23.39 26.46 5.95 22.76 27.03 6.05 22.90 26.22 6.15 23.16 25.97 6.25 23.36 26.48 6.35 23.60 28.59 6.45 20.68 29.78 6.55 22.13 28.66 6.65 21.85 29.58 6.75 22.33 29.85 6.85 24.23 28.35 6.95 23.80 27.23 7.05 23.67 26.84 7.15 23.73 27.17 7.25 23.28 26.56 7.35 22.73 27.54 7.45 22.83 26.86 7.55 21.38 26.94 7.65 22.71 25.60 7.75 22.39 25.81 7.85 22.89 25.81 7.95 22.95 26.94 8.05 22.42 26.89 8.15 23.20 27.06 8.25 23.29 26.61 8.35 23.69 28.29 8.45 22.70 27.52 8.55 22.77 26.46 8.65 22.94 26.49 8.75 22.93 26.30 8.85 22.65 25.64 8.95 22.27 26.14 9.05 23.70 27.45 9.15 23.75 26.64 9.25 22.64 26.15 9.35 22.66 25.90 9.45 22.40 26.06 9.55 23.46 26.27 9.65 21.82 27.70 9.75 20.53 26.71 9.85 21.82 25.74 9.95 21.61 25.18 10.05 20.82 25.16 10.15 22.76 25.81 10.25 23.55 25.88 10.35 22.19 25.85 10.45 22.00 25.99 10.55 23.81 26.24 10.65 22.36 26.38 10.75 22.64 26.58 10.85 23.10 26.24 10.95 23.11 26.62 11.05 23.33 26.40 11.15 21.78 27.05 11.25 22.45 26.16 11.35 21.89 28.29 11.45 23.11 26.21 11.55 21.93 26.92 11.65 22.48 25.87 11.75 22.32 25.01 11.85 22.73 27.05 11.95 24.40 27.72 12.05 23.61 26.57 12.15 24.87 28.07 12.25 24.88 28.13 12.35 25.93 28.94 12.45 23.77 26.60 12.55 24.76 27.26 12.65 23.29 26.26 12.75 23.93 27.18 12.85 23.09 25.25 12.95 23.49 26.73 13.05 24.31 27.24 13.15 24.15 26.99 13.25 23.81 27.68 13.35 24.70 26.95 13.45 25.04 27.29 13.55 25.12 27.56 13.65 25.34 27.23 13.75 25.53 27.87 13.85 24.49 27.09 13.95 24.85 26.76 14.05 24.93 27.81 14.15 24.33 26.52 14.25 24.82 27.32 14.35 23.94 27.46 14.45 24.87 28.16 14.55 23.79 26.65 14.65 23.71 26.63 14.75 25.53 27.88 14.85 24.83 27.12 14.95 25.21 27.48 15.05 24.04 26.11 15.15 23.57 28.17 15.25 23.47 26.32 15.35 24.60 27.13 15.45 24.43 26.58 15.55 23.61 26.92