/* DATA DESCRIPTION: Citation: Strobel, Paul; Henning, Theresa; Bliedtner, Marcel; Mosher, Stella G; Rahimova, Humay; Haberzettl, Torsten; Kirsten, Kelly L; Lehndorff, Eva; Power, Mitchell J; Zech, Michael; Zech, Roland (2023): Coupled isotopes in Holocene sediments from the Vankervelsvlei peatland at the southern Cape coast of South Africa [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.956464, In: Strobel, P et al. (2023): Holocene fire dynamics and their climatic controls at Vankervelsvlei, southern Cape coast, South Africa [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.956477 Keyword(s): charcoal; Paleoclimate; paleofire; Polycyclic aromatic hydrocarbons; precipitation; relative humidity; Stable isotopes Related to: Strobel, Paul; Bliedtner, Marcel; Carr, Andrew S; Struck, Julian; Du Plessis, Nadia; Glaser, Bruno; Meadows, Michael E; Quick, Lynne J; Zech, Michael; Zech, Roland; Haberzettl, Torsten (2022): Reconstructing Late Quaternary precipitation and its source on the southern Cape coast of South Africa: A multi-proxy paleoenvironmental record from Vankervelsvlei. Quaternary Science Reviews, 284, 107467, https://doi.org/10.1016/j.quascirev.2022.107467 Funding: German Research Foundation (DFG) (URI: http://www.dfg.de/en/), grant/award no. 434918595: Late Quaternary climate and environmental reconstruction based on lake and peat sediments from South Africa (URI: https://gepris.dfg.de/gepris/projekt/434918595) Coverage: LATITUDE: -34.013000 * LONGITUDE: 22.904000 MINIMUM ELEVATION: 152.0 m * MAXIMUM ELEVATION: 152.0 m Event(s): Vankervelsvlei * LATITUDE: -34.013000 * LONGITUDE: 22.904000 * ELEVATION: 152.0 m * RECOVERY: 15 m * LOCATION: South Africa * METHOD/DEVICE: Piston corer, UWITEC (PCUWI) * COMMENT: Samples were taken in 2016. Parameter(s): AGE [ka BP] (Age) * GEOCODE * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Ages model according to Strobel et al. (2022) (URI: https://doi.org/10.1016/j.quascirev.2022.107467) * COMMENT: Median age Sugar, δ18O [‰ SMOW] (Sugar δ180) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Gas Chromatograph (GC), Agilent Technologies, 7890B; measured with 18O-pyrolysis reactor, Thermo Fisher Scientific; coupled with Interface, Thermo Fisher Scientific, ConFlo IV * COMMENT: vs. VSMOW Sugar, δ18O, standard deviation [±] (Sugar δ18O std dev) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Gas Chromatograph (GC), Agilent Technologies, 7890B; measured with 18O-pyrolysis reactor, Thermo Fisher Scientific; coupled with Interface, Thermo Fisher Scientific, ConFlo IV * COMMENT: vs. VSMOW δ Deuterium, leaf water [‰ SMOW] (δD leaf water) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) * COMMENT: vs. VSMOW δ Deuterium, leaf water, standard deviation [±] (δD leaf water std dev) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) * COMMENT: vs. VSMOW δ Deuterium, source water [‰ SMOW] (δD source water) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) * COMMENT: vs. VSMOW δ Deuterium, source water, standard deviation [±] (δD source water std dev) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) * COMMENT: vs. VSMOW Humidity, relative [%] (RH) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) * COMMENT: Reconstructed Deuterium excess [‰] (d xs) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) Deuterium excess, standard deviation [±] (d xs std dev) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) * METHOD/DEVICE: Calculated after Zech et al., (2013) (URI: https://doi.org/10.1016/j.chemgeo.2013.10.023) Reference/source (Reference) * PI: Strobel, Paul (https://orcid.org/0000-0002-7860-5398, paul.strobel@uni-jena.de) License: Creative Commons Attribution 4.0 International (CC-BY-4.0) (URI: https://creativecommons.org/licenses/by/4.0/) Status: Curation Level: Enhanced curation (URI: https://wiki.pangaea.de/wiki/Curation_levels) Size: 640 data points */ Age [ka BP] Sugar δ180 [‰ SMOW] Sugar δ18O std dev [±] δD leaf water [‰ SMOW] δD leaf water std dev [±] δD source water [‰ SMOW] δD source water std dev [±] RH [%] d xs [‰] d xs std dev [±] Reference -0.053 31.55 0.47 -26.9 4.43 -68.27 -10.44 61.4 -60.99 3.72 -0.031 35.72 1.71 -24.9 8.49 -82.81 -12.33 45.9 -90.26 13.18 -0.010 31.18 0.02 -4.9 4.07 -32.21 -5.76 74.5 -36.20 2.30 0.016 30.31 0.35 -15.6 3.22 -45.31 -7.46 72.3 -40.41 2.85 0.041 32.43 0.65 -24.1 5.29 -67.54 -10.34 59.4 -64.74 5.01 0.067 31.35 0.25 -28.7 4.23 -70.22 -10.69 61.2 -61.28 2.15 0.098 28.60 0.70 -13.8 1.56 -35.26 -6.15 80.0 -25.81 5.45 Strobel et al., 2022 0.235 30.59 0.56 -22.6 3.50 -57.50 -9.04 67.5 -49.53 4.46 0.257 32.36 0.23 -30.2 5.22 -76.95 -11.57 56.4 -70.45 2.47 0.286 33.03 0.10 -36.3 5.87 -89.28 -13.17 50.6 -81.49 1.06 0.327 31.18 0.11 -24.4 4.07 -62.82 -9.73 64.2 -55.78 1.31 0.369 31.15 0.05 -30.0 4.04 -71.44 -10.85 61.3 -61.13 1.35 0.411 30.60 0.50 -30.2 3.51 -69.47 -10.59 63.4 -57.23 4.00 Strobel et al., 2022 0.581 28.40 1.10 -30.8 1.36 -61.07 -9.50 71.8 -41.33 8.62 Strobel et al., 2022 1.210 30.28 0.01 -28.3 3.19 -65.11 -10.03 65.7 -52.89 1.01 1.228 28.50 0.26 -25.4 1.46 -52.91 -8.44 74.3 -36.59 3.62 1.252 34.20 0.50 -23.0 7.01 -73.38 -11.10 53.0 -76.96 3.88 Strobel et al., 2022 1.294 28.49 0.51 -20.7 1.45 -45.59 -7.49 76.8 -31.86 4.04 1.331 28.48 0.24 -9.9 1.44 -28.58 -5.28 82.5 -20.95 2.26 1.384 29.87 0.00 -12.6 2.80 -38.80 -6.61 75.6 -34.16 0.80 1.470 28.61 0.31 -31.4 1.57 -62.89 -9.74 70.6 -43.49 3.82 1.546 29.30 0.29 -21.6 2.24 -50.35 -8.11 73.1 -38.79 2.86 1.627 29.84 0.88 -24.5 2.77 -57.32 -9.02 69.4 -45.85 6.76 1.712 30.50 0.40 -17.6 3.41 -49.29 -7.97 70.4 -43.86 3.27 Strobel et al., 2022 1.804 29.88 0.24 -11.1 2.80 -36.41 -6.30 76.4 -32.67 2.54 1.883 29.22 0.59 -16.0 2.16 -41.24 -6.93 76.4 -32.58 5.01 1.967 25.39 0.35 -19.9 -1.56 -31.16 -5.62 89.5 -7.83 4.04 2.045 29.09 0.25 -18.9 2.04 -45.37 -7.46 75.3 -34.62 2.19 2.210 32.60 0.60 -14.4 5.45 -53.17 -8.48 63.8 -56.39 4.96 Strobel et al., 2022 2.280 28.10 0.14 -25.0 1.07 -50.66 -8.15 76.1 -33.25 3.18 2.714 35.90 0.30 -19.6 8.67 -75.37 -11.36 48.0 -86.37 2.48 Strobel et al., 2022 2.858 28.01 0.18 -17.9 0.98 -39.08 -6.65 80.2 -25.39 3.30 3.382 31.15 0.06 -24.3 4.04 -62.49 -9.69 64.3 -55.41 0.83 3.515 24.71 0.41 -28.7 -2.23 -42.08 -7.04 87.5 -11.55 4.35 3.651 29.30 0.30 -32.9 2.24 -68.06 -10.41 67.2 -50.10 6.15 Strobel et al., 2022 3.760 29.37 0.06 -25.4 2.30 -56.60 -8.92 70.8 -43.10 1.57 3.872 28.63 0.13 -13.0 1.59 -34.10 -6.00 80.3 -25.22 1.16 3.982 33.50 0.60 -24.9 6.33 -73.39 -11.10 54.7 -73.62 10.65 Strobel et al., 2022 4.055 26.97 1.66 -37.5 -0.03 -65.43 -10.07 73.9 -37.25 13.13 4.130 33.73 0.32 -24.2 6.56 -73.26 -11.09 54.2 -74.65 3.82 4.195 28.92 0.41 -22.4 1.87 -50.03 -8.07 74.2 -36.75 3.26 4.310 31.60 0.00 -30.0 4.48 -73.34 -11.10 59.6 -64.49 1.10 Strobel et al., 2022 4.385 31.13 0.57 -27.1 4.03 -66.89 -10.26 62.9 -58.14 5.33 4.449 28.05 0.22 -25.5 1.03 -51.21 -8.22 76.0 -33.38 2.20 4.513 30.29 0.10 -26.4 3.20 -62.19 -9.65 66.6 -51.09 1.09 4.582 25.46 0.12 -30.8 -1.50 -48.58 -7.88 83.4 -19.26 3.61 4.647 25.64 1.51 -28.7 -1.32 -46.01 -7.55 83.8 -18.50 11.66 4.712 30.08 0.94 -44.3 3.00 -89.25 -13.16 58.0 -67.35 7.82 4.779 32.70 0.20 -29.2 5.55 -76.71 -11.53 55.6 -71.90 1.78 Strobel et al., 2022 4.832 26.91 0.61 -28.7 -0.09 -51.37 -8.24 78.8 -27.98 4.79 4.885 25.30 2.00 -32.7 -1.66 -50.90 -8.18 83.1 -19.99 15.47 Strobel et al., 2022 4.947 25.31 1.36 -23.9 -1.65 -37.14 -6.40 87.7 -11.25 10.47 5.028 30.34 0.25 -33.0 3.25 -72.66 -11.01 63.0 -58.03 3.58 5.279 30.80 0.50 -22.7 3.70 -58.58 -9.18 66.6 -51.23 3.93 Strobel et al., 2022 5.362 27.35 0.23 -23.9 0.35 -45.82 -7.52 79.6 -26.59 1.90 5.450 31.09 1.00 -15.5 3.98 -48.42 -7.86 69.3 -46.12 7.85 5.543 28.70 0.10 -23.3 1.66 -50.60 -8.14 74.6 -36.08 1.18 Strobel et al., 2022 5.621 30.18 1.30 -13.1 3.10 -40.86 -6.88 74.1 -36.95 10.43 5.714 28.70 0.60 -10.2 1.66 -30.09 -5.48 81.5 -22.98 5.12 Strobel et al., 2022 5.795 28.79 0.24 3.9 1.74 -8.29 -2.65 88.6 -9.49 2.42 5.963 27.10 0.40 -13.9 0.10 -29.08 -5.35 85.9 -14.68 3.73 Strobel et al., 2022 6.057 26.65 0.53 -24.8 -0.34 -44.13 -7.30 81.9 -22.13 4.11 6.160 28.70 0.00 12.3 1.66 5.14 -0.90 93.4 -0.48 0.60 Strobel et al., 2022 6.348 30.58 0.56 -23.3 3.49 -58.59 -9.18 67.1 -50.19 5.27 6.441 28.82 0.61 -33.9 1.77 -67.69 -10.36 68.5 -47.56 4.74 6.532 29.10 0.20 -10.4 2.04 -31.98 -5.72 79.8 -26.10 3.64 Strobel et al., 2022 6.634 27.93 0.65 -17.9 0.91 -38.76 -6.61 80.5 -24.84 6.20 6.729 28.10 0.50 -20.6 1.07 -43.77 -7.26 78.4 -28.84 4.82 Strobel et al., 2022 6.834 27.95 0.40 -41.2 0.92 -75.37 -11.36 68.1 -48.29 4.31