# 2.8 million years of alkenone and TEX86 data and surface and subsurface temperature in the northern South China Sea #----------------------------------------------------------------------- # World Data Service for Paleoclimatology, Boulder # and # NOAA Paleoclimatology Program # National Centers for Environmental Information (NCEI) #----------------------------------------------------------------------- # Template Version 3.0 # Encoding: UTF-8 # NOTE: Please cite Publication, and Online_Resource and date accessed when using these data. # If there is no publication information, please cite Investigators, Title, and Online_Resource and date accessed. # # Online_Resource: https://www.ncdc.noaa.gov/paleo/study/22588 # Description: NOAA Landing Page # Online_Resource: https://www1.ncdc.noaa.gov/pub/data/paleo/paleocean/by_contributor/li2017/li2017.txt # Description: NOAA location of the template # # Original_Source_URL: # Description: # # Description/Documentation lines begin with # # Data lines have no # # # Archive: paleoceanography # # Dataset DOI: # # Parameter_Keywords: reconstruction #-------------------- # Contribution_Date # Date: 2017-08-28 #-------------------- # File_Last_Modified_Date # Date: 2017-08-28 #-------------------- # Title # Study_Name: 2.8 million years of alkenone and TEX86 data and surface and subsurface temperature in the northern South China Sea #-------------------- # Investigators # Investigators: Li, Dawei; Zhao, M.; Tian, J. #-------------------- # Description_Notes_and_Keywords # Description: Surface and subsurface temperature difference from the northern South China Sea was used to reconstruct east Asian winter monsoon.The 400 kyr cycle in east Asian winter monsoon was generated from remote forcing by super tropical Pacific ENSO. #-------------------- # Publication # Authors: Li, D., M. Zhao, and J. Tian # Published_Date_or_Year: 2017-09-15 # Published_Title: Low-high latitude interaction forcing on the evolution of the 400 kyr cycle in East Asian winter monsoon records during the last 2.8 Myr # Journal_Name: Quaternary Science Reviews # Volume: 172 # Edition: # Issue: # Pages: 72-82 # Report_Number: # DOI: 10.1016/j.quascirev.2017.08.005 # Online_Resource: http://www.sciencedirect.com/science/article/pii/S0277379117300914 # Full_Citation: # Abstract: Variability of the East Asian winter monsoon (EAWM), stronger during glacials and weaker during interglacials, has been tightly linked to the wax and wane of the Northern Hemisphere ice sheets (NHIS) via the Siberian High over the last 2.8 million years (Myr). However, the long eccentricity cycle (ca. 400 kyr) in the EAWM record from the late Pliocene to early-Pleistocene (2.8¨C1.2 Ma) could not be linked to NHIS changes, which lacked the long eccentricity cycle in the Pleistocene. Here, we present the first low latitude EAWM record of the last 2.8 Myr using surface and subsurface temperature difference from the northern South China Sea to evaluate interactions between tropical ocean and EAWM changes. The results show that the EAWM variability displayed significant 400 kyr cycle between 2.8 Ma and 1.2 Ma, with weak (strong) EAWM during high (low) earth orbital eccentricity state. A super El Ni?o¨CSouthern Oscillation (ENSO) proxy record, calculated using west-east equatorial Pacific sea surface temperature differences, revealed 400 kyr cycles throughout the last 2.8 Myr with warm phase during high eccentricity state. Thus, we propose that super ENSO mean state strongly modulated the EAWM strength through remote forcing to generate the 400 kyr cycle between 2.8 Ma and 1.2 Ma, while low NHIS volume was not sufficient to dominate the EAWM variation as it did over the last 0.9 Myr with 100 kyr cycles in dominance. #------------------ # Funding_Agency # Funding_Agency_Name: # Grant: #------------------ # Site_Information # Site_Name: ODP 1148 # Location: South China Sea # Country: # Northernmost_Latitude: 18.836 # Southernmost_Latitude: 18.836 # Easternmost_Longitude: 116.566 # Westernmost_Longitude: 116.566 # Elevation: -3296 #------------------ # Data_Collection # Collection_Name: ODP1148 SST Li2017 # Earliest_Year: 2785481 # Most_Recent_Year: 257 # Time_Unit: cal yr BP # Core_Length: 151.03 # Notes: #------------------ # Chronology_Information # Chronology: # #---------------- # Variables # # Data variables follow are preceded by "##" in columns one and two. # *** MORE DETAILED INSTRUCTIONS are available at www1.ncdc.noaa.gov/pub/data/paleo/templates/Variable_naming_guide.pdf # Data line variables format: one per line, shortname-tab-variable components (what, material, error, units, seasonality, data type,detail, method, C or N for Character or Numeric data, additional information) # ## label core name, , , , , , , ,C, ## depth_m depth, , , m, , , , ,N,mcd ## age_ka age, , , calendar ka BP, , , , ,N, ## Uk37 alkenone unsaturation index, C37Alkenones, , , , paleoceanography, , calculated after Prahl and Wakeham (1987),N, ## Uk37_SST sea surface temperature, C37Alkenones, , degrees Celsius, ,reconstruction, ,,N,calculated after Mueller et al.(1998) ## TEX86 TEX86, GDGT, , , ,paleoceanography, ,calculated after Schouten et al. (2002),N, ## TEX86_T TEX86_temperature, GDGT, , degrees Celsius, ,reconstruction, ,calculated after Jia et al. (2012),N, ## BIT Branched and Isoprenoid Tetraether index, branched GDGT, , , ,paleoceanography, ,,N,calculated after Hopmans et al. (2004) # #---------------- # Data: # Data lines follow (have no #) # Data line format - tab-delimited text, variable short name as header # Missing Values: (Value used to flag missing data in the table below) # Label Depth_m age_ka Uk37 Uk37_SST TEX86 TEX86_T BIT L47B 0.04 0.257 0.920 26.6 0.656 20.7 0.040 L47B 0.55 3.537 0.901 26.0 0.661 20.9 0.072 L47B 1.01 6.495 0.832 23.9 0.621 19.4 0.054 L47B 1.51 9.711 0.799 22.9 0.560 17.0 0.051 L47B 2.01 12.926 0.784 22.4 0.548 16.5 0.050 L47B 2.51 16.141 0.787 22.5 0.553 16.7 0.064 L47B 3.51 22.000 0.797 22.8 0.556 16.8 0.049 L47B 4.01 24.500 0.791 22.6 0.560 17.0 0.049 L47B 4.51 27.000 0.784 22.4 0.564 17.1 0.052 L47B 5.04 29.650 0.802 23.0 0.560 17.0 0.057 L47B 5.51 32.000 0.812 23.3 0.563 17.1 0.046 L47B 6.01 34.500 0.804 23.0 0.563 17.1 0.048 L47C 6.21 35.500 0.820 23.5 0.532 15.8 0.053 L47B 6.51 37.500 0.818 23.5 0.564 17.2 0.041 L47C 6.71 39.000 0.808 23.2 0.550 16.5 0.070 L47B 7.01 41.250 0.812 23.3 0.561 17.0 0.037 L47C 7.21 42.750 0.811 23.2 0.547 16.4 0.047 L47B 7.51 45.000 0.808 23.1 0.555 16.8 0.043 L47C 7.71 46.500 0.827 23.7 0.566 17.2 0.065 L47B 8.01 48.750 0.802 23.0 0.559 16.9 0.035 L47C 8.19 50.100 0.804 23.0 0.545 16.3 0.041 L47B 8.51 52.500 0.830 23.8 0.585 18.0 0.048 L47C 8.71 54.000 0.840 24.1 0.566 17.2 0.034 L47C 9.21 57.750 0.819 23.5 0.555 16.7 0.061 L47C 9.71 61.500 0.817 23.4 0.541 16.2 0.072 L47C 10.21 65.652 0.803 23.0 0.545 16.3 0.063 L47C 10.71 71.413 0.811 23.2 0.551 16.6 0.071 L47C 11.21 77.174 0.822 23.6 0.577 17.7 0.161 L47B 11.51 80.630 0.881 25.4 0.606 18.9 0.048 L47C 11.71 82.935 0.826 23.7 0.560 17.0 0.070 L47B 12.01 86.391 0.837 24.0 0.571 17.4 0.053 L47B 12.51 91.955 0.885 25.5 0.613 19.1 0.072 L47B 13.01 96.727 0.901 26.0 0.608 18.9 0.061 L47B 13.51 101.500 0.931 26.9 0.613 19.1 0.037 L47B 14.01 106.273 0.891 25.7 0.594 18.4 0.078 L47B 14.51 111.045 0.864 24.9 0.589 18.2 0.082 L47B 14.99 115.040 0.924 26.7 0.606 18.8 0.056 L47B 15.51 119.200 0.970 28.1 0.669 21.2 0.058 L47B 16.01 123.200 0.955 27.6 0.643 20.2 0.059 L47B 16.51 128.465 0.874 25.2 0.594 18.4 0.052 L47B 17.01 134.047 0.824 23.6 0.570 17.4 0.073 L47B 17.51 139.628 0.842 24.2 0.571 17.4 0.078 L47B 18.01 145.209 0.832 23.9 0.582 17.9 0.096 L47A 18.16 146.884 0.834 23.9 0.575 17.6 0.075 L47B 18.51 150.667 0.837 24.0 0.587 18.1 0.100 L47A 18.66 152.267 0.826 23.7 0.582 17.9 0.065 L47A 19.16 157.600 NA NA 0.576 17.6 0.045 L47A 19.66 162.933 0.816 23.4 0.567 17.3 0.075 L47A 20.16 168.267 0.812 23.3 0.561 17.0 0.090 L47A 20.66 173.600 0.816 23.4 0.584 18.0 0.063 L47A 21.16 178.933 0.827 23.7 0.584 18.0 0.049 L47A 21.64 190.893 0.827 23.7 0.585 18.0 0.074 L47A 22.16 205.800 0.825 23.7 0.590 18.2 0.090 L47A 22.66 220.133 0.838 24.1 0.597 18.5 0.073 L47A 23.16 234.467 0.851 24.4 0.595 18.4 0.052 L47A 23.66 248.800 0.837 24.0 0.578 17.7 0.056 L47A 24.16 263.133 0.869 25.0 0.595 18.4 0.048 L47A 24.66 276.500 0.869 25.0 0.597 18.5 0.059 L47C 25.16 288.633 0.858 24.7 0.582 17.9 0.077 L47C 25.66 296.796 0.891 25.7 0.571 17.4 0.060 L47C 26.16 304.959 0.925 26.7 0.619 19.3 0.065 L47C 26.66 313.122 0.883 25.4 0.588 18.1 0.051 L47C 27.16 321.286 0.924 26.7 0.621 19.4 0.065 L47C 27.66 329.449 0.897 25.8 0.623 19.5 0.061 L47C 28.16 340.299 0.827 23.7 0.577 17.7 0.045 L47C 28.64 356.196 0.827 23.7 0.586 18.0 0.089 L47C 29.16 373.418 0.855 24.6 0.613 19.1 0.105 L47C 29.66 389.977 0.895 25.8 0.601 18.7 0.059 L47C 30.16 406.537 0.917 26.5 0.652 20.6 0.071 L47B 30.21 408.193 0.926 26.7 0.645 20.3 0.054 L47B 30.69 424.090 0.849 24.4 0.596 18.5 0.057 L47B 31.21 439.100 0.804 23.0 0.569 17.4 0.096 L47B 31.71 444.600 0.818 23.4 0.588 18.1 0.110 L47B 32.21 450.100 0.840 24.1 0.587 18.1 0.113 L47B 32.71 455.600 0.829 23.8 0.585 18.0 0.072 L47B 33.21 461.100 0.835 24.0 0.591 18.3 0.098 L47B 33.71 466.600 0.807 23.1 0.578 17.7 0.086 L47B 34.21 473.714 0.806 23.1 0.564 17.1 0.091 L47B 34.71 487.286 0.875 25.2 0.603 18.7 0.061 L47B 35.21 497.200 0.914 26.4 0.614 19.2 0.073 L47B 35.71 506.200 0.894 25.8 0.599 18.6 0.095 L47B 36.21 515.200 0.832 23.9 0.582 17.9 0.065 L47C 36.31 517.000 0.829 23.8 0.599 18.6 0.125 L47B 36.71 531.222 0.861 24.7 0.601 18.7 0.113 L47C 36.81 534.778 0.868 25.0 0.589 18.2 0.081 L47B 37.21 549.000 0.850 24.4 0.587 18.1 0.208 L47C 37.31 550.700 0.881 25.4 0.603 18.7 0.088 L47C 37.81 559.200 0.868 25.0 0.606 18.8 0.172 L47C 38.31 567.700 0.907 26.2 0.624 19.5 0.102 L47C 38.81 576.200 0.921 26.6 0.631 19.8 0.158 L47C 39.31 584.700 0.908 26.2 0.656 20.7 0.134 L47C 39.81 593.200 0.869 25.0 0.616 19.2 0.148 L47C 40.31 601.277 0.913 26.3 0.622 19.5 0.068 L47C 40.81 607.662 0.868 25.0 0.602 18.7 0.082 L47C 41.31 614.046 0.918 26.5 0.623 19.5 0.140 L47B 41.41 615.323 0.937 27.1 0.633 19.9 0.198 L47C 41.79 620.035 0.923 26.6 0.645 20.3 0.094 L47B 41.91 621.507 0.904 26.1 0.632 19.8 0.089 L47B 42.41 627.640 0.878 25.3 0.586 18.0 0.113 L47B 42.91 633.773 0.858 24.7 0.570 17.4 0.180 L47B 43.41 640.021 0.863 24.8 0.578 17.7 0.133 L47B 43.91 646.298 0.858 24.7 0.593 18.4 0.147 L47B 44.41 652.574 0.857 24.6 0.587 18.1 0.196 L47B 44.91 658.851 0.839 24.1 0.561 17.0 0.111 L47B 45.41 665.128 0.860 24.7 0.581 17.8 0.124 L47B 45.91 671.404 0.855 24.6 0.588 18.1 0.122 L47B 46.41 677.681 0.862 24.8 0.588 18.1 0.146 L47B 46.91 683.957 0.877 25.2 0.597 18.5 0.121 L48A 47.61 692.745 0.946 27.3 0.652 20.6 0.072 L48A 48.11 697.913 0.923 26.6 0.644 20.3 0.121 L48A 48.61 702.804 0.945 27.3 0.570 17.4 0.081 L48A 49.11 707.696 0.904 26.1 0.591 18.2 0.119 L48A 49.61 712.587 0.834 23.9 0.609 18.9 0.038 L48A 50.11 717.800 0.845 24.3 0.632 19.8 0.082 L48A 50.61 724.300 0.849 24.4 0.598 18.5 0.104 L48A 51.11 730.800 0.892 25.7 0.623 19.5 0.075 L48A 51.61 737.188 0.887 25.5 0.617 19.3 0.079 L48A 52.11 743.129 0.887 25.5 0.614 19.2 0.057 L48A 52.61 749.069 0.821 23.6 0.577 17.7 0.113 L48A 53.11 755.010 0.849 24.4 0.595 18.4 0.091 L48A 53.61 760.950 0.855 24.6 0.602 18.7 0.092 L48A 54.11 766.891 0.887 25.5 0.619 19.3 0.057 L48A 55.21 779.960 0.850 24.4 0.603 18.7 0.100 L48A 55.71 785.901 0.786 22.5 0.600 18.6 0.061 L48A 56.21 791.842 0.814 23.3 0.592 18.3 0.103 L48A 56.71 798.526 0.810 23.2 0.603 18.7 0.129 L48A 57.21 806.947 0.878 25.3 0.621 19.4 0.062 L48A 57.71 815.368 0.899 25.9 0.632 19.9 0.062 L48A 58.21 823.789 0.891 25.7 0.614 19.2 0.050 L48A 58.71 832.211 0.891 25.7 0.632 19.8 0.136 L48A 59.21 840.632 0.873 25.1 0.628 19.7 0.086 L48A 59.71 849.053 0.910 26.3 0.676 21.4 0.142 L48A 60.21 857.474 0.813 23.3 0.596 18.4 0.082 L48A 60.71 865.895 0.814 23.3 0.587 18.1 0.083 L48A 61.21 874.316 0.826 23.7 0.594 18.4 0.111 L48A 61.71 880.457 0.779 22.3 0.584 18.0 0.129 L48A 62.21 886.029 0.786 22.5 0.581 17.9 0.132 L48A 62.71 891.600 0.797 22.8 0.584 18.0 0.232 L48A 63.21 897.171 0.867 24.9 0.628 19.7 0.105 L48A 63.71 902.743 0.873 25.1 0.611 19.1 0.073 L48A 64.21 908.314 0.826 23.7 0.619 19.3 0.099 L48A 65.18 923.241 0.800 22.9 0.583 17.9 0.141 L48A 65.68 934.377 0.838 24.1 0.606 18.8 0.091 L48A 66.18 945.514 0.885 25.5 0.639 20.1 0.106 L48A 66.68 956.650 0.937 27.0 0.661 20.9 0.149 L48A 67.18 966.550 0.872 25.1 0.645 20.3 0.153 L48A 67.68 974.050 0.880 25.3 0.649 20.5 0.138 L48A 68.18 982.010 0.907 26.1 0.645 20.3 0.146 L48A 68.68 990.132 0.861 24.8 0.604 18.8 0.151 L48A 69.18 998.254 0.921 26.6 0.665 21.0 0.115 L48A 69.68 1006.376 0.863 24.8 0.616 19.2 0.144 L48A 70.18 1017.000 0.893 25.7 0.628 19.7 0.180 L48A 70.68 1028.000 0.912 26.3 0.657 20.8 0.083 L48A 71.18 1038.000 0.880 25.3 0.621 19.4 0.083 L48A 71.68 1047.467 0.889 25.6 0.636 20.0 0.125 L48A 72.18 1056.800 0.820 23.5 0.599 18.6 0.166 L48A 72.68 1066.133 0.949 27.4 0.671 21.2 0.127 L48A 73.18 1076.205 0.921 26.6 0.671 21.2 0.136 L48A 73.68 1086.462 0.906 26.1 0.642 20.2 0.094 L48A 74.18 1096.718 0.824 23.6 0.606 18.8 0.133 L48A 74.68 1106.974 0.907 26.2 0.629 19.7 0.100 L48A 74.98 1115.857 0.921 26.6 0.643 20.2 0.051 L48A 75.48 1130.988 0.867 24.9 0.617 19.3 0.077 L48A 75.98 1140.867 0.843 24.2 0.603 18.7 0.081 L48A 76.48 1150.747 0.864 24.8 0.620 19.4 0.123 L48A 76.98 1160.627 0.865 24.9 0.617 19.3 0.171 L48A 77.48 1170.506 0.912 26.3 0.647 20.4 0.074 L48A 77.98 1180.386 0.942 27.2 0.676 21.4 0.155 L48A 78.48 1190.265 0.925 26.7 0.651 20.5 0.119 L48A 78.98 1200.145 0.939 27.1 0.650 20.5 0.102 L48A 79.48 1210.024 0.870 25.0 0.622 19.5 0.073 L48A 80 1216.654 0.855 24.6 0.622 19.5 0.080 L48A 80.48 1221.973 0.825 23.7 0.597 18.5 0.156 L48A 80.98 1227.514 0.873 25.1 0.628 19.7 0.123 L48A 81.48 1233.054 0.943 27.2 0.667 21.1 0.091 L48A 81.98 1238.595 0.905 26.1 0.682 21.6 0.216 L48A 82.28 1241.919 0.843 24.2 0.619 19.3 0.084 L48A 82.78 1247.459 0.849 24.4 0.612 19.1 0.130 L48A 83.28 1253.000 0.850 24.4 0.592 18.3 0.162 L48A 83.78 1265.967 0.913 26.3 0.640 20.1 0.140 L48A 84.28 1278.933 0.900 26.0 0.643 20.2 0.085 L48A 84.48 1284.120 0.863 24.8 0.622 19.5 0.119 L48A 84.98 1294.880 0.880 25.3 0.638 20.1 0.166 L48A 85.48 1302.330 0.877 25.2 0.620 19.4 0.238 L48A 85.98 1309.780 0.928 26.8 0.643 20.2 0.149 L48A 86.48 1317.230 0.937 27.1 0.658 20.8 0.073 L48A 86.98 1324.680 0.925 26.7 0.621 19.4 0.125 L48A 87.48 1332.130 0.855 24.6 0.616 19.2 0.196 L48A 87.98 1339.771 0.892 25.7 0.621 19.4 0.184 L48A 88.48 1347.700 0.941 27.2 0.650 20.5 0.157 L48A 88.98 1355.629 0.941 27.2 0.679 21.5 0.091 L48A 89.5 1363.874 0.958 27.7 0.653 20.6 0.072 L48A 89.98 1371.859 0.952 27.5 0.661 20.9 0.096 L48A 90.48 1381.655 0.884 25.4 0.635 20.0 0.157 L48A 90.98 1391.450 0.904 26.1 0.633 19.9 0.100 L48A 91.48 1401.245 0.933 26.9 0.674 21.4 0.118 L48A 91.98 1411.041 0.919 26.5 0.648 20.4 0.087 L48A 92.48 1419.915 0.910 26.2 0.630 19.8 0.097 L48A 92.98 1428.559 0.933 26.9 0.624 19.5 0.110 L48A 93.48 1437.203 0.945 27.3 0.681 21.6 0.115 L48A 93.98 1445.847 0.964 27.9 0.679 21.5 0.139 L48A 95.03 1464.000 0.904 26.1 0.634 19.9 0.105 L48A 95.53 1471.826 0.904 26.1 0.643 20.3 0.145 L48A 96.03 1479.652 0.940 27.2 0.667 21.1 0.131 L48A 96.53 1487.478 0.961 27.8 0.666 21.1 0.089 L48A 97.03 1495.304 0.902 26.0 0.649 20.5 0.099 L48A 97.53 1503.130 0.894 25.8 0.618 19.3 0.152 L48A 98.03 1510.957 0.915 26.4 0.638 20.1 0.147 L48A 98.53 1518.783 0.941 27.2 0.676 21.4 0.091 L48A 99.03 1526.609 0.905 26.1 0.644 20.3 0.060 L48A 99.53 1534.435 0.852 24.5 0.617 19.3 0.116 L48A 100.03 1544.157 0.906 26.1 0.632 19.8 0.111 L48A 100.53 1554.352 0.902 26.0 0.638 20.1 0.110 L48A 101.03 1564.548 0.918 26.5 0.673 21.3 0.067 L48A 101.53 1574.743 0.893 25.7 0.633 19.9 0.083 L48A 102.03 1585.110 0.908 26.2 0.633 19.9 0.100 L48A 102.53 1596.157 0.910 26.2 0.645 20.3 0.070 L48A 103.03 1607.205 0.904 26.1 0.684 21.7 0.122 L48A 103.3 1613.170 0.890 25.6 0.686 21.8 0.099 L48A 103.8 1624.218 0.905 26.1 0.640 20.2 0.094 L48A 104.3 1633.458 0.893 25.7 0.653 20.6 0.116 L48A 105.48 1651.630 0.876 25.2 0.633 19.9 0.078 L48A 105.98 1661.713 0.862 24.8 0.631 19.8 0.085 L48A 106.48 1672.061 0.912 26.3 0.655 20.7 0.071 L48A 106.98 1682.409 0.928 26.8 0.659 20.8 0.105 L48A 107.48 1692.757 0.896 25.8 0.659 20.8 0.098 L48A 107.98 1702.887 0.847 24.3 0.615 19.2 0.119 L48A 108.48 1712.509 0.910 26.3 0.658 20.8 0.124 L48A 108.98 1722.131 0.897 25.8 0.644 20.3 0.099 L48A 109.48 1731.753 0.911 26.3 0.669 21.2 0.134 L48A 109.98 1741.376 0.916 26.4 0.636 20.0 0.117 L48A 110.48 1751.213 0.885 25.5 0.637 20.0 0.165 L48A 110.98 1761.105 0.941 27.2 0.674 21.4 0.106 L48A 111.49 1771.195 0.949 27.4 0.673 21.3 0.117 L48A 111.99 1781.087 0.929 26.8 0.653 20.6 0.076 L48A 112.49 1792.472 0.910 26.2 0.628 19.7 0.162 L48A 113.01 1810.528 0.941 27.2 0.671 21.2 0.130 L48A 113.51 1827.000 0.951 27.5 0.655 20.7 0.106 L48A 114.01 1841.441 0.923 26.6 0.672 21.3 0.077 L48A 114.22 1844.466 0.921 26.6 0.647 20.4 0.134 L48A 114.56 1849.364 0.936 27.0 0.660 20.9 0.064 L48A 115.06 1856.568 0.925 26.7 0.654 20.7 0.155 L48A 116.41 1894.880 0.904 26.1 0.657 20.7 0.118 L48A 116.91 1906.880 0.945 27.3 0.670 21.2 0.096 L48A 117.41 1918.000 NA NA 0.642 20.2 0.105 L48A 117.91 1926.333 0.922 26.6 0.644 20.3 0.133 L48A 118.41 1934.667 0.938 27.1 0.660 20.9 0.128 L48A 118.91 1943.000 0.951 27.5 0.687 21.8 0.097 L48A 119.41 1951.333 0.925 26.7 0.651 20.5 0.171 L48A 119.91 1965.000 0.924 26.7 0.649 20.5 0.055 L48A 120.41 1978.575 0.952 27.5 0.682 21.7 0.152 L48A 120.91 1990.013 0.905 26.1 0.635 19.9 0.135 L48A 121.41 2002.444 0.918 26.5 0.670 21.2 0.119 L48A 121.91 2015.124 0.949 27.4 0.699 22.2 0.089 L48A 122.16 2021.464 0.937 27.1 0.693 22.0 0.270 L48A 122.66 2034.500 0.949 27.4 0.679 21.5 0.137 L48A 123.16 2047.993 0.955 27.6 0.695 22.1 0.127 L48A 123.66 2062.956 0.884 25.5 0.636 20.0 0.121 L48A 124.16 2077.919 0.883 25.4 0.650 20.5 0.114 L48A 124.66 2095.576 0.910 26.2 0.657 20.8 0.105 L48A 125.16 2115.929 0.892 25.7 0.653 20.6 0.122 L48A 125.59 2123.432 0.937 27.1 0.689 21.9 0.125 L48A 126.36 2131.440 0.933 27.0 0.668 21.2 0.160 L48A 126.86 2140.000 0.927 26.8 0.685 21.7 0.220 L48A 127.36 2150.000 0.895 25.8 0.630 19.8 0.127 L48A 127.86 2162.700 0.875 25.2 0.621 19.4 0.276 L48A 128.36 2176.208 0.926 26.7 0.645 20.3 0.088 L48A 128.86 2188.292 0.945 27.3 0.684 21.7 0.219 L48A 129.36 2200.375 0.944 27.3 0.656 20.7 0.214 L48A 129.86 2210.067 0.941 27.2 0.683 21.7 0.106 L48A 130.36 2220.333 0.966 27.9 0.653 20.6 0.124 L48A 130.86 2237.000 0.953 27.5 0.668 21.1 0.236 L48A 131.36 2252.333 0.941 27.2 0.640 20.1 0.137 L48A 131.86 2265.667 0.962 27.8 0.697 22.2 0.140 L48A 132.36 2274.714 0.969 28.0 0.669 21.2 0.192 L48A 132.86 2283.286 0.931 26.9 0.641 20.2 0.302 L48A 133.36 2295.000 0.958 27.7 0.703 22.4 0.131 L48A 133.86 2306.575 0.964 27.9 0.679 21.5 0.087 L48A 134.36 2320.375 0.957 27.7 0.675 21.4 0.106 L48A 134.86 2340.000 0.954 27.6 0.651 20.5 0.098 L48A 135.06 2343.200 0.962 27.8 0.669 21.2 0.114 L48A 136.36 2361.333 0.956 27.6 0.644 20.3 0.136 L48A 136.81 2375.250 0.969 28.0 0.677 21.5 0.107 L48A 137.31 2396.500 0.959 27.7 0.664 21.0 0.145 L48A 137.81 2414.000 0.956 27.6 0.662 20.9 0.103 L48A 138.31 2424.000 0.958 27.7 0.687 21.8 0.124 L48A 138.81 2436.045 0.935 27.0 0.648 20.4 0.104 L48A 139.31 2448.318 0.910 26.2 0.662 21.0 0.217 L48A 139.81 2459.933 0.931 26.9 0.660 20.9 0.161 L48A 140.31 2470.917 0.943 27.3 0.691 21.9 0.155 L48A 140.81 2480.500 0.960 27.8 0.676 21.4 0.191 L48A 141.31 2490.083 0.946 27.3 0.640 20.1 0.187 L48A 141.81 2500.267 0.956 27.6 0.656 20.7 0.140 L48A 142.31 2510.600 0.953 27.5 0.667 21.1 0.110 L48A 142.81 2520.933 0.917 26.5 0.630 19.8 0.157 L48A 143.31 2543.848 0.921 26.6 0.617 19.3 0.222 L48A 143.81 2569.909 0.962 27.8 0.659 20.8 0.197 L48A 144.31 2595.970 0.961 27.8 0.702 22.3 0.117 L48A 144.81 2616.833 0.971 28.1 0.688 21.8 0.154 L48A 145.11 2626.233 0.953 27.5 0.685 21.7 0.164 L48A 146.03 2655.060 0.954 27.6 0.643 20.2 0.154 L48A 146.53 2663.315 0.961 27.8 0.677 21.5 0.153 L48A 147.03 2671.097 0.940 27.1 0.678 21.5 0.080 L48A 147.53 2678.879 0.965 27.9 0.661 20.9 0.111 L48A 148.03 2686.661 0.964 27.9 0.678 21.5 0.250 L48A 148.53 2694.444 0.947 27.4 0.664 21.0 0.138 L48A 149.53 2717.333 0.956 27.6 0.634 19.9 0.184 L48A 150.03 2739.111 0.915 26.4 0.669 21.2 0.106 L48A 150.53 2760.000 0.972 28.1 0.706 22.5 0.224 L48A 151.03 2785.481 0.973 28.2 0.674 21.4 0.259