/* DATA DESCRIPTION: Citation: Hale, Walter; Pflaumann, Uwe (1999): Sea surface temperature reconstruction from sediment core GeoB1312-2. PANGAEA, https://doi.org/10.1594/PANGAEA.140492, In supplement to: Hale, W; Pflaumann, U (1999): Sea-surface Temperature Estimations using a Modern Analog Technique with Foraminiferal Assemblages from Western Atlantic Quaternary Sediments. In: Fischer, G & Wefer, G (eds.), Use of Proxies in Paleoceanography - Examples from the South Atlantic, Springer, Berlin, Heidelberg, 69-90 Project(s): South Atlantic in Late Quaternary: Reconstruction of Budget and Currents (SFB261) Coverage: LATITUDE: -31.661667 * LONGITUDE: -29.656667 DATE/TIME START: 1991-02-01T00:00:00 * DATE/TIME END: 1991-02-01T00:00:00 MINIMUM DEPTH, sediment/rock: 0.03 m * MAXIMUM DEPTH, sediment/rock: 4.08 m Event(s): GeoB1312-2 * LATITUDE: -31.661667 * LONGITUDE: -29.656667 * DATE/TIME: 1991-02-01T00:00:00 * ELEVATION: -3436.0 m * Recovery: 4.13 m * LOCATION: Eastern Rio Grande Rise * CAMPAIGN: M15/2 (06MT15_2) (URI: https://doi.org/10.2312/cr_m15) * BASIS: Meteor (1986) (URI: https://en.wikipedia.org/wiki/RV_Meteor_(1986)) * METHOD/DEVICE: Gravity corer (Kiel type) (SL) Parameter(s): DEPTH, sediment/rock [m] (Depth sed) * GEOCODE Similarity index (Similarity) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, winter [°C] (SST win) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28, distance-weighted (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, winter [°C] (SST win) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28, non-distance-weighted (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, winter min [°C] (SST win min) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, winter max [°C] (SST win max) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, winter, standard deviation [±] (SST win std dev) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, summer [°C] (SST sum) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28, distance-weighted (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, summer [°C] (SST sum) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28, non-distance-weighted (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, summer min [°C] (SST sum min) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, summer max [°C] (SST sum max) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) Sea surface temperature, summer, standard deviation [±] (SST sum std dev) * PI: Pflaumann, Uwe (up@gpi.uni-kiel.de) * METHOD/DEVICE: Modern analog technique (MAT), SIMMAX28 (URI: https://doi.org/10.1029/95PA01743) License: Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/) Size: 902 data points */ Depth sed [m] Similarity (Modern analog technique (MAT)...) SST win [°C] (Modern analog technique (MAT)...) SST win [°C] (Modern analog technique (MAT)...) SST win min [°C] (Modern analog technique (MAT)...) SST win max [°C] (Modern analog technique (MAT)...) SST win std dev [±] (Modern analog technique (MAT)...) SST sum [°C] (Modern analog technique (MAT)...) SST sum [°C] (Modern analog technique (MAT)...) SST sum min [°C] (Modern analog technique (MAT)...) SST sum max [°C] (Modern analog technique (MAT)...) SST sum std dev [±] (Modern analog technique (MAT)...) 0.03 0.916 17.7 18.4 17.5 19.6 0.8 21.8 23.1 21.6 26.1 1.5 0.08 0.915 17.6 18.1 16.1 19.2 0.9 21.7 23.2 19.4 26.4 2.0 0.13 0.897 17.8 19.3 16.1 20.7 1.4 21.7 23.1 19.4 25.6 1.7 0.18 0.891 17.4 17.9 16.1 20.2 1.4 21.2 21.5 19.4 23.0 1.1 0.23 0.828 17.4 18.0 16.6 20.1 1.3 21.3 21.8 20.2 23.8 1.0 0.28 0.888 17.5 17.6 16.1 18.8 0.8 21.5 22.3 19.4 25.2 1.7 0.33 0.884 17.5 18.1 16.1 20.2 1.3 21.4 22.2 19.4 24.1 1.4 0.38 0.888 17.6 18.4 16.1 20.2 1.4 21.5 22.1 19.4 24.1 1.4 0.43 0.797 17.4 18.5 16.6 20.5 1.4 21.2 22.2 20.2 25.0 1.3 0.48 0.877 17.5 18.3 16.1 20.2 1.3 21.5 22.2 19.4 24.1 1.4 0.53 0.901 17.5 17.7 16.1 18.8 0.8 21.5 22.3 19.4 24.1 1.4 0.58 0.877 17.8 18.1 16.8 20.2 0.9 22.0 23.0 21.6 25.2 1.0 0.63 0.825 17.6 18.0 17.1 19.2 0.7 21.7 22.8 20.9 24.4 1.1 0.68 0.830 17.7 18.4 17.1 19.5 0.8 21.8 23.4 20.9 25.2 1.4 0.73 0.901 17.6 18.1 16.1 20.1 1.1 21.7 22.7 19.4 25.6 1.8 0.78 0.915 17.9 19.1 17.5 20.8 1.2 22.0 23.8 21.6 26.1 1.6 0.83 0.906 18.9 19.3 17.7 20.8 1.0 23.8 23.9 21.6 26.1 1.5 0.88 0.896 18.6 19.2 17.5 20.8 1.0 23.5 24.0 22.1 26.1 1.2 0.93 0.902 17.4 18.9 16.1 20.4 1.5 21.2 22.4 19.4 24.1 1.4 0.98 0.877 17.6 19.1 16.1 20.8 1.5 21.5 23.3 19.4 26.1 2.1 1.03 0.823 17.5 18.2 16.6 20.2 1.2 21.4 21.9 20.2 24.1 1.1 1.08 0.859 17.4 18.2 16.1 20.2 1.6 21.2 21.7 19.4 23.8 1.3 1.13 0.858 17.3 18.4 16.6 20.1 1.2 21.1 21.9 20.2 23.8 0.9 1.18 0.816 17.4 18.4 16.6 20.5 1.5 21.2 22.3 20.2 25.0 1.3 1.23 0.865 17.5 18.1 16.1 20.2 1.4 21.4 22.0 19.4 24.1 1.3 1.28 0.846 17.5 17.4 14.5 19.7 1.3 21.6 22.1 20.7 24.1 1.1 1.33 0.898 17.5 17.4 16.1 19.7 0.9 21.5 21.8 19.4 23.7 1.2 1.38 0.858 17.8 18.0 17.2 19.2 0.7 22.0 22.9 21.6 24.4 0.9 1.43 0.875 19.0 19.0 16.8 21.4 1.4 24.0 24.1 22.4 26.1 1.4 1.48 0.843 17.5 17.9 16.1 19.2 0.9 21.5 22.8 19.4 25.2 1.8 1.53 0.895 17.6 18.4 16.1 20.2 1.4 21.5 22.1 19.4 24.1 1.4 1.58 0.879 17.7 19.0 16.1 20.4 1.5 21.6 22.7 19.4 25.6 1.6 1.63 0.875 17.9 18.9 17.5 20.8 1.1 22.2 23.9 21.6 26.1 1.4 1.68 0.839 17.8 19.2 16.8 20.8 1.4 21.8 23.1 21.6 26.1 1.3 1.73 0.825 17.5 18.2 16.1 20.2 1.4 21.4 22.0 19.4 24.1 1.3 1.78 0.850 17.5 18.1 16.1 20.2 1.3 21.4 21.9 19.4 24.1 1.2 1.83 0.859 17.4 18.5 16.6 20.5 1.4 21.2 22.2 20.2 25.0 1.3 1.88 0.898 16.4 15.8 11.5 20.1 2.9 20.2 20.7 18.3 23.8 1.8 1.93 0.888 17.4 18.6 16.6 20.5 1.4 21.2 22.3 20.2 25.0 1.3 1.98 0.837 17.3 17.9 11.6 20.5 2.6 21.1 21.9 18.4 25.0 1.8 2.03 0.894 16.0 16.8 13.8 20.1 2.2 19.5 20.6 16.4 23.8 2.2 2.08 0.801 17.4 17.9 16.1 20.2 1.3 21.2 21.7 19.4 24.1 1.4 2.13 0.849 16.6 17.5 13.8 20.1 2.1 20.2 21.0 16.4 23.8 2.2 2.18 0.844 17.4 17.9 16.1 20.2 1.5 21.2 21.6 19.4 23.0 1.1 2.23 0.847 16.9 17.6 13.8 20.1 1.8 20.7 21.6 16.4 23.8 2.1 2.28 0.874 17.3 18.1 14.4 20.5 1.9 21.1 22.0 19.9 25.0 1.5 2.33 0.865 17.3 17.9 11.6 20.5 2.6 21.1 22.0 18.4 25.0 1.8 2.38 0.890 16.9 17.7 14.4 20.5 2.2 20.7 21.6 17.9 25.0 2.0 2.43 0.886 17.2 17.7 16.6 19.7 1.0 21.2 22.1 20.2 23.7 0.9 2.48 0.857 17.5 17.7 16.1 19.7 1.0 21.4 22.0 19.4 24.1 1.3 2.53 0.896 17.4 17.6 16.1 18.8 0.8 21.4 22.2 19.4 24.1 1.3 2.58 0.902 17.6 18.2 16.1 20.1 1.2 21.6 22.7 19.4 25.6 1.7 2.63 0.890 17.9 18.7 17.7 20.1 0.8 22.1 23.7 21.6 25.6 1.1 2.68 0.917 17.9 18.7 17.5 20.8 1.1 22.1 23.7 21.6 26.1 1.5 2.73 0.921 17.9 18.6 17.5 20.8 1.1 22.1 23.6 21.6 26.1 1.5 2.78 0.914 17.6 18.6 16.1 20.2 1.3 21.5 22.4 19.4 24.4 1.5 2.83 0.851 17.6 17.8 16.0 20.1 1.3 21.6 22.4 19.4 25.6 1.8 2.88 0.847 17.4 17.5 16.6 19.7 0.8 21.3 21.6 20.2 22.5 0.7 2.93 0.886 17.6 17.3 14.5 19.0 1.3 21.6 21.7 20.7 24.1 1.0 2.98 0.890 17.2 17.5 14.5 19.7 1.5 21.0 21.4 20.0 22.5 0.9 3.03 0.845 17.6 17.5 16.0 18.8 0.8 21.7 22.2 20.9 24.1 1.0 3.08 0.844 16.4 16.8 13.8 17.5 1.1 20.3 21.4 16.4 23.7 2.0 3.13 0.892 17.6 17.6 16.9 19.7 0.9 21.7 22.4 21.6 23.7 0.8 3.18 0.865 16.6 17.4 13.8 19.7 1.7 20.1 21.1 16.4 22.5 1.9 3.23 0.914 16.4 17.0 13.8 19.7 1.7 20.0 21.1 16.4 23.7 2.0 3.28 0.904 17.4 18.2 16.6 20.1 1.3 21.1 21.8 20.0 23.8 1.1 3.33 0.899 17.4 17.8 16.1 19.7 1.2 21.3 21.5 19.4 22.5 1.0 3.38 0.901 17.5 17.6 16.6 19.7 1.0 21.4 21.9 20.2 23.7 0.9 3.43 0.920 17.4 17.1 13.4 19.7 1.6 21.3 21.9 19.4 23.7 1.3 3.48 0.907 17.5 18.0 16.1 19.9 1.2 21.5 22.3 19.4 24.1 1.3 3.53 0.844 19.0 19.1 17.7 20.8 1.0 24.1 24.3 22.4 26.1 1.2 3.58 0.920 18.6 18.8 17.7 20.8 1.0 23.6 24.1 22.4 26.1 1.3 3.63 0.897 17.4 17.5 16.0 18.9 0.9 22.1 22.4 19.2 26.4 1.8 3.68 0.937 17.9 18.8 16.8 21.4 1.5 22.1 23.9 21.6 26.1 1.6 3.73 0.908 19.1 19.7 18.0 21.4 1.1 23.7 23.9 22.4 26.1 1.4 3.78 0.924 17.9 19.0 17.5 20.8 1.2 22.0 23.5 21.6 26.1 1.5 3.83 0.870 17.3 18.9 16.1 20.4 1.5 21.0 22.2 19.4 23.5 1.3 3.88 0.930 17.6 18.4 16.1 20.1 1.2 21.5 22.8 19.4 25.6 1.9 3.93 0.898 17.5 17.9 16.1 19.7 1.1 21.5 22.6 19.4 26.4 1.9 3.98 0.897 17.9 18.7 17.7 20.1 0.8 22.1 23.9 21.6 26.4 1.4 4.03 0.818 17.6 18.2 16.1 21.0 1.4 21.6 22.7 19.4 26.4 1.8 4.08 0.858 17.6 17.7 17.0 19.7 0.8 21.6 22.1 20.9 24.1 0.9