Ili Basin, China 80KYr Loess Magnetic Data ----------------------------------------------------------------------- World Data Center for Paleoclimatology, Boulder and NOAA Paleoclimatology Program ----------------------------------------------------------------------- NOTE: PLEASE CITE ORIGINAL REFERENCE WHEN USING THIS DATA!!!!! NAME OF DATA SET: Ili Basin, China 80KYr Loess Magnetic Data LAST UPDATE: 10/2010 (Original receipt by WDC Paleo) CONTRIBUTORS: Song, Y.G., Z.T. Shi, X.M. Fang, J.S. Nie, N. Ishikawa, X.K. Qiang, and X.L. Wang. IGBP PAGES/WDCA CONTRIBUTION SERIES NUMBER: 2010-118 WDC PALEO CONTRIBUTION SERIES CITATION: Song, Y., et al. 2010. Ili Basin, China 80KYr Loess Magnetic Data. IGBP PAGES/World Data Center for Paleoclimatology Data Contribution Series # 2010-118. NOAA/NCDC Paleoclimatology Program, Boulder CO, USA. ORIGINAL REFERENCE: Song, Y.G., Z.T. Shi, X.M. Fang, J.S. Nie, N. Ishikawa, X.K. Qiang, and X.L. Wang. 2010. Loess magnetic properties in the Ili Basin and their correlation with the Chinese Loess Plateau. China Science: Earth Sciences, Vol. 53(3), pp. 419-431. DOI: 10.1007/s11430-010-0011-5 ABSTRACT: Over the past two decades, magnetoclimatological studies of loess-paleosol sequences in the Chinese Loess Plateau (CLP) have made outstanding achievements, which greatly promote the understanding of East Asian paleomonsoon evolution, inland aridification of Asia, and past global climate changes. Loess magnetic properties of the CLP have been well studied. In contrast, loess magnetic properties from outside the CLP in China have not been fully understood. We have little knowledge about the magnetic properties of loess in the Ili Basin, an intermontane depression of the Tianshan (or Tien Shan) Mountains. Here, we present the results of rock magnetic measurements of the Ili loess including mass magnetic susceptibility (?) and anhysteretic remanent magnetization (ARM), high/low temperature dependence of susceptibility (TDS) and hysteresis, as well as X-ray diffraction (XRD) for mineral analysis. Based on the comparison with loess-paleosol sequences in the CLP (hereafter referred to as the Chinese loess), we discuss the possible magnetic susceptibility enhancement mechanism of the Ili loess. The results show that 1) the total magnetic mineral concentration of the Ili loess is far lower than that of the Chinese loess, though they have similar magnetic mineral compositions. The ferrimagnetic minerals in the Ili loess are magnetite and maghemite, and the antiferromagnetic mineral is hematite; XRD analysis also identifies the presence of ilmenite. The ratio of maghemite is lower in the Ili loess than in the Chinese loess, but the ratios of magnetite and hematite are higher in the Ili loess than in the Chinese loess. 2) The granularity of magnetic minerals in the Ili loess, dominated by pseudo-single domain (PSD) and multi-domain (MD) grains, is generally much coarser than that of the Chinese loess. Ultrafine pedogenically-produced magnetic grains have a very limited contribution to the susceptibility enhancement. Rather, PSD and MD particles of magnetite and maghemite are the main contributors to the enhancement of susceptibility in the Ili loess. 3) The susceptibility enhancement mechanism for the Ili loess is complicated and superimposes both a wind velocity/vigor model (Alaskan or Siberian model) and the in situ ultrafine grain pedogenic model; the former might play an important role in the Ili loess. 4) Magnetic susceptibility enhancements of the Ili loess are related not only to the eolian input of the source area, but also to the local climate, landform, and geological background. Therefore, great care should be taken when reconstructing paleoclimate using magnetic susceptibility data from the Ili loess. GEOGRAPHIC REGION: Western China PERIOD OF RECORD: 80 KYrBP - present FUNDING SOURCES: Natural Science Foundation of China (Nos: 40772116, 40871018, 40972230), National Basic Research Program of China (No: 2010CB833406), MOST special fund for SKLLQG (No: 0701), and the Netherlands Organization for Scientific Research Fund. DESCRIPTION: Magnetic susceptibility data of two loess-paleosol sequences since the last interglaciation, from Central Asia and the Chinese Loess Plateau. One section from Zhaosu, Ili Basin, is located in western Zhaosu county near the boundary between China and Kazakhstan. The Zhaosu loess section (ZSP) is 6.9m thick from the top to the upper part the first paleosol (S1), and the bottom consists of fluvial gravel sediments. According to IRSL (infrared stimulated luminescence) dating of this section, the bottom is 80,000 years old. The other loess section is located at the central Chinese Loess Plateau, named Chaona section (CN). The Chaona section is about 10.4m in thickness with a 141ka tuning age. Age control for the Zhaosu section: Depth(m) Age Method 1.2 8710 +/- 34Yr AMS14C 3.0 37.2 +/- 2.7ka IRSL 4.0 44.6 +/- 2.6ka IRSL 5.0 52.7 +/- 2.6ka IRSL 6.0 67.7 +/- 3.3ka IRSL Zhaosu section, Ili Basin: 42°42'N, 80°15'E, 1875m elev. Chaona section, Chinese Loess Plateau: 35°6'N, 107°12'E, 1452m elev. DATA: 1. Song et al. 2010 Zhaosu Magnetic Data Column 1: Age (ka) Column 2: Depth (m) Column 3: Low frequency mass magnetic susceptibility (Xlf, 10E-7 m3 kg-1) Column 4: High frequency mass magnetic susceptibility (Xhf, 10E-7 m3 kg-1) Column 5: Absolute frequency dependence of susceptibility (Xfd, 10E-7 m3 kg-1) Column 6: Normalized anhysteretic remanent magnetization (XARM, 10E-6 m3 kg-1) Column 7: Percent frequency-dependent susceptibility (Xfd Age Depth ZS_Xlf ZS_Xhf ZS_Xfd ZS_Xarm ZS_Xfd 0 0 7.55 7.14 0.41 5.05651 5.43046 0.62 0.05 7.415 6.965 0.45 5.22492 6.06878 1.24 0.1 8.235 7.79 0.445 5.31893 5.40376 1.86 0.15 7.75 7.33 0.42 5.20414 5.41935 2.48 0.2 7.315 6.95 0.365 4.69733 4.98975 3.1 0.25 7.655 7.29 0.365 4.61518 4.76813 3.72 0.3 7.795 7.44 0.355 4.67073 4.55420 4.34 0.35 8.005 7.55 0.455 4.17762 5.68395 4.96 0.4 7.635 7.28 0.355 4.76252 4.64964 5.58 0.45 7.415 7.06 0.355 4.51861 4.78759 6.2 0.5 6.925 6.565 0.36 3.84679 5.19856 6.82 0.55 7.315 7.005 0.31 3.41110 4.23787 7.44 0.6 7.6 7.32 0.28 3.24740 3.68421 8.06 0.65 8.185 7.845 0.34 3.29964 4.15394 8.68 0.7 7.21 6.99 0.22 3.47779 3.05132 9.3 0.75 7.165 6.98 0.185 3.85552 2.58200 9.92 0.8 7.43 7.15 0.28 2.94932 3.76851 10.54 0.85 7.315 6.975 0.34 3.09733 4.64798 11.16 0.9 6.925 6.69 0.235 2.90161 3.39350 11.78 0.95 6.965 6.75 0.215 2.87060 3.08686 12.4 1 6.725 6.475 0.25 3.10698 3.71747 13.02 1.05 6.065 5.84 0.225 2.88135 3.70981 13.64 1.1 6.32 6.105 0.215 2.82234 3.40190 14.26 1.15 5.845 5.59 0.255 2.68204 4.36270 14.88 1.2 5.925 5.73 0.195 2.94974 3.29114 15.5 1.25 6.02 5.805 0.215 2.90623 3.57143 16.12 1.3 5.915 5.7 0.215 2.72846 3.63483 16.74 1.35 6.33 6.095 0.235 2.60029 3.71248 17.36 1.4 6.015 5.83 0.185 3.08145 3.07564 17.98 1.45 5.87 5.69 0.18 2.66190 3.06644 18.6 1.5 5.735 5.595 0.14 2.43355 2.44115 19.22 1.55 5.595 5.43 0.165 2.30018 2.94906 19.84 1.6 5.84 5.675 0.165 2.53901 2.82534 20.46 1.65 5.655 5.465 0.19 2.73806 3.35986 21.08 1.7 5.87 5.68 0.19 2.67605 3.23680 21.7 1.75 6.435 6.24 0.195 2.64337 3.03030 22.32 1.8 6.045 5.86 0.185 2.72513 3.06038 22.94 1.85 6.845 6.665 0.18 2.48237 2.62966 23.56 1.9 5.87 5.72 0.15 2.46403 2.55537 24.18 1.95 5.91 5.74 0.17 2.12207 2.87648 24.8 2 5.785 5.605 0.18 2.33289 3.11150 25.42 2.05 4.455 4.3 0.155 2.34826 3.47924 26.04 2.1 4.765 4.635 0.13 2.71525 2.72823 26.66 2.15 4.865 4.745 0.12 2.58215 2.46660 27.28 2.2 5.165 5 0.165 2.52904 3.19458 27.9 2.25 5.125 4.925 0.2 2.32326 3.90244 28.52 2.3 5.655 5.48 0.175 2.50501 3.09461 29.14 2.35 5.44 5.245 0.195 2.11085 3.58456 29.76 2.4 5.46 5.3 0.16 2.55606 2.93040 30.38 2.45 4.495 4.39 0.105 2.29204 2.33593 31 2.5 4.85 4.675 0.175 2.44065 3.60825 31.62 2.55 4.85 4.68 0.17 2.47792 3.50515 32.24 2.6 4.68 4.565 0.115 2.50263 2.45726 32.86 2.65 4.575 4.47 0.105 2.47531 2.29508 33.48 2.7 4.625 4.405 0.22 2.40052 4.75676 34.1 2.75 4.585 4.45 0.135 2.23475 2.94438 34.72 2.8 4.64 4.525 0.115 2.16990 2.47845 35.34 2.85 4.57 4.45 0.12 2.37839 2.62582 35.96 2.9 4.355 4.205 0.15 2.57207 3.44432 36.58 2.95 4.11 3.99 0.12 2.51441 2.91971 37.2 3 4.86 4.715 0.145 2.20246 2.98354 37.57 3.05 4.405 4.275 0.13 2.21073 2.95119 37.94 3.1 4.07 3.98 0.09 1.93290 2.21130 38.31 3.15 4.255 4.12 0.135 2.17644 3.17274 38.68 3.2 4.39 4.265 0.125 2.28999 2.84738 39.05 3.25 4.345 4.22 0.125 2.32607 2.87687 39.42 3.3 4.335 4.195 0.14 2.10164 3.22953 39.79 3.35 3.825 3.68 0.145 2.02015 3.79085 40.16 3.4 4.215 4.095 0.12 2.05475 2.84698 40.53 3.45 4.34 4.25 0.09 2.30151 2.07373 40.9 3.5 4.485 4.345 0.14 2.23993 3.12152 41.27 3.55 4.485 4.35 0.135 1.95530 3.01003 41.64 3.6 4.395 4.29 0.105 2.38984 2.38908 42.01 3.65 4.35 4.235 0.115 2.02769 2.64368 42.38 3.7 4.64 4.54 0.1 2.32187 2.15517 42.75 3.75 4.705 4.605 0.1 2.11382 2.12540 43.12 3.8 4.73 4.605 0.125 2.28747 2.64271 43.49 3.85 4.83 4.735 0.095 2.16768 1.96687 43.86 3.9 4.83 4.74 0.09 2.32651 1.86335 44.23 3.95 4.915 4.82 0.095 2.01456 1.93286 44.6 4 5.115 5 0.115 2.42583 2.24829 45.005 4.05 4.99 4.88 0.11 2.38676 2.20441 45.41 4.1 5.005 4.9 0.105 2.29438 2.09790 45.815 4.15 5.125 5.02 0.105 2.49690 2.04878 46.22 4.2 5.2 5.06 0.14 2.25323 2.69231 46.625 4.25 4.955 4.845 0.11 2.00728 2.21998 47.03 4.3 5.025 4.88 0.145 2.34627 2.88557 47.435 4.35 5.11 5 0.11 2.24686 2.15264 47.84 4.4 5 4.885 0.115 2.48042 2.30000 48.245 4.45 5.015 4.87 0.145 2.23441 2.89133 48.65 4.5 5.105 5.005 0.1 2.32033 1.95886 49.055 4.55 4.98 4.86 0.12 2.35633 2.40964 49.46 4.6 4.805 4.7 0.105 2.20848 2.18522 49.865 4.65 4.81 4.7 0.11 2.17634 2.28690 50.27 4.7 4.64 4.555 0.085 1.99585 1.83190 50.675 4.75 4.845 4.76 0.085 1.89772 1.75439 51.08 4.8 4.875 4.81 0.065 2.18735 1.33333 51.485 4.85 4.545 4.44 0.105 2.04109 2.31023 51.89 4.9 4.345 4.26 0.085 1.97833 1.95627 52.295 4.95 3.935 3.865 0.07 1.82291 1.77891 52.7 5 3.93 3.86 0.07 2.06334 1.78117 53.45 5.05 4.015 3.905 0.11 2.20872 2.73973 54.2 5.1 3.67 3.57 0.1 1.89032 2.72480 54.95 5.15 3.825 3.75 0.075 1.90872 1.96078 55.7 5.2 4.415 4.305 0.11 2.46649 2.49151 56.45 5.25 4.135 4.04 0.095 2.00775 2.29746 57.2 5.3 4.4 4.34 0.06 1.97986 1.36364 57.95 5.35 3.6 3.535 0.065 2.33948 1.80556 58.7 5.4 4.1 4.005 0.095 1.90129 2.31707 59.45 5.45 3.875 3.8 0.075 2.44332 1.93548 60.2 5.5 4.135 4.05 0.085 2.11491 2.05562 60.95 5.55 4.57 4.45 0.12 2.17608 2.62582 61.7 5.6 4.64 4.545 0.095 2.24138 2.04741 62.45 5.65 4.625 4.52 0.105 2.44053 2.27027 63.2 5.7 4.575 4.455 0.12 2.52626 2.62295 63.95 5.75 4.77 4.635 0.135 2.29741 2.83019 64.7 5.8 4.71 4.595 0.115 2.58751 2.44161 65.45 5.85 4.77 4.635 0.135 2.21263 2.83019 66.2 5.9 4.71 4.575 0.135 2.28934 2.86624 66.95 5.95 4.875 4.74 0.135 2.28059 2.76923 67.7 6 4.56 4.425 0.135 2.41267 2.96053 68.45 6.05 4.765 4.635 0.13 2.36205 2.72823 69.2 6.1 4.905 4.72 0.185 2.54612 3.77166 69.95 6.15 5.765 5.545 0.22 2.27223 3.81613 70.7 6.2 4.96 4.765 0.195 2.46905 3.93145 71.45 6.25 4.85 4.685 0.165 2.29877 3.40206 72.2 6.3 4.96 4.78 0.18 2.24764 3.62903 72.95 6.35 5.13 4.91 0.22 2.29919 4.28850 73.7 6.4 5.265 5.055 0.21 2.98554 3.98860 74.45 6.45 5.42 5.24 0.18 2.73025 3.32103 75.2 6.5 5.775 5.635 0.14 2.55138 2.42424 75.95 6.55 6.05 5.86 0.19 3.17048 3.14050 76.7 6.6 7.225 6.99 0.235 2.70924 3.25260 77.45 6.65 8.865 8.605 0.26 2.54320 2.93288 78.2 6.7 7.665 7.48 0.185 2.70014 2.41357 78.95 6.75 7.085 6.88 0.205 2.42697 2.89344 79.7 6.8 9.04 8.755 0.285 2.80922 3.15265 80.45 6.85 6.225 6.02 0.205 2.49092 3.29317 2. Song et al. 2010 Chaona Magnetic Data Column 1: Age (ka) Column 2: Depth (m) Column 3: Low frequency mass magnetic susceptibility (Xlf, 10E-7 m3 kg-1) Column 4: High frequency mass magnetic susceptibility (Xhf, 10E-7 m3 kg-1) Column 5: Absolute frequency dependence of susceptibility (Xfd, 10E-7 m3 kg-1) Column 6: Normalized anhysteretic remanent magnetization (XARM, 10E-6 m3 kg-1) Column 7: Percent frequency-dependent susceptibility (Xfd Age Depth CN_Xlf CN_Xhf CN_Xfd CN_Xarm CN_Xfd 0 0 11.825 10.665 1.16 7.8 9.80973 2.59 0.05 11.605 10.395 1.21 6.81 10.42654 3.48 0.1 12.01 10.765 1.245 6.36 10.36636 4.35 0.15 12.785 11.395 1.39 7.32 10.87212 5.22 0.2 13.34 11.855 1.485 8.39 11.13193 6.01 0.25 13.35 11.855 1.495 6.36 11.19850 6.79 0.3 12.885 11.685 1.2 6.63 9.31315 7.67 0.35 11.975 10.645 1.33 7.9 11.10647 8.55 0.4 13.65 12.125 1.525 8.4 11.17216 9.49 0.45 13.6 12.15 1.45 8.27 10.66176 10.44 0.5 12.76 11.44 1.32 7.32 10.34483 11.43 0.55 12.565 11.31 1.255 7.26 9.98806 12.42 0.6 12.55 11.255 1.295 7.18 10.31873 13.23 0.65 12.475 11.215 1.26 7.91 10.10020 14.04 0.7 12.045 10.805 1.24 6.98 10.29473 14.53 0.75 11.74 10.54 1.2 6.94 10.22147 15.02 0.8 10.815 9.655 1.16 6.63 10.72584 15.52 0.85 8.635 7.795 0.84 5.03 9.72785 16.02 0.9 7.675 7.01 0.665 4.45 8.66450 16.51 0.95 7.855 7.135 0.72 4.66 9.16614 17 1 7.755 7.025 0.73 4.45 9.41328 17.32 1.05 7.435 6.75 0.685 3.88 9.21318 17.64 1.1 7.515 6.84 0.675 3.6 8.98204 17.99 1.15 7.6 6.89 0.71 4.45 9.34211 18.34 1.2 7.71 7.01 0.7 4.2 9.07912 18.66 1.25 7.845 7.12 0.725 4.39 9.24156 18.98 1.3 7.805 7.11 0.695 4.79 8.90455 19.31 1.35 7.965 7.25 0.715 4.3 8.97677 19.64 1.4 7.875 7.135 0.74 3.74 9.39683 19.99 1.45 7.72 7 0.72 4.2 9.32642 20.35 1.5 7.825 7.125 0.7 4.39 8.94569 20.69 1.55 7.95 7.19 0.76 4.68 9.55975 21.02 1.6 8.525 7.695 0.83 4.54 9.73607 21.42 1.65 8.03 7.285 0.745 4.12 9.27771 21.81 1.7 8.06 7.32 0.74 4.18 9.18114 22.26 1.75 7.98 7.265 0.715 4.3 8.95990 22.71 1.8 8.03 7.27 0.76 4.12 9.46451 23.18 1.85 8.435 7.63 0.805 4.88 9.54357 23.65 1.9 9.625 8.705 0.92 5.66 9.55844 24.09 1.95 10.46 9.41 1.05 5.64 10.03824 24.53 2 11.265 10.225 1.04 6.58 9.23213 25.02 2.05 11.175 10.115 1.06 6.31 9.48546 25.51 2.1 11.335 10.18 1.155 6.73 10.18968 26.01 2.15 11.265 10.125 1.14 6.73 10.11984 26.51 2.2 11.53 10.31 1.22 6.83 10.58109 27.02 2.25 11.845 10.625 1.22 7 10.29970 27.53 2.3 11.71 10.51 1.2 6.81 10.24765 28.03 2.35 11.725 10.53 1.195 6.48 10.19190 28.53 2.4 12.08 10.885 1.195 7.04 9.89238 29.02 2.45 11.57 10.39 1.18 6.56 10.19879 29.51 2.5 11.13 9.975 1.155 6.22 10.37736 30.01 2.55 11.05 9.905 1.145 6.42 10.36199 30.52 2.6 10.875 9.765 1.11 6.1 10.20690 31 2.65 10.83 9.715 1.115 6.9 10.29548 31.48 2.7 10.705 9.595 1.11 5.72 10.36899 31.94 2.75 10.965 9.84 1.125 5.79 10.25992 32.4 2.8 11.095 9.98 1.115 6.23 10.04957 32.81 2.85 11.24 10.115 1.125 6.91 10.00890 33.23 2.9 11.585 10.45 1.135 6.56 9.79715 33.69 2.95 11.745 10.56 1.185 6.94 10.08940 34.15 3 11.99 10.75 1.24 7.09 10.34195 34.63 3.05 11.39 10.265 1.125 6.74 9.87709 35.12 3.1 11.6 10.42 1.18 6.18 10.17241 35.6 3.15 11.725 10.515 1.21 6.93 10.31983 36.09 3.2 11.9 10.595 1.305 7.04 10.96639 36.56 3.25 11.76 10.565 1.195 6.73 10.16156 37.04 3.3 11.9 10.645 1.255 7.66 10.54622 37.52 3.35 11.805 10.635 1.17 6.98 9.91105 38 3.4 12.855 11.555 1.3 7.2 10.11280 38.48 3.45 13.42 12.05 1.37 8.65 10.20864 38.96 3.5 12.95 11.565 1.385 7.3 10.69498 39.48 3.55 13.365 12.02 1.345 7.84 10.06360 40 3.6 13.145 11.81 1.335 7.92 10.15595 40.53 3.65 13.3 11.95 1.35 7.45 10.15038 41.06 3.7 12.4 11.105 1.295 7.22 10.44355 41.59 3.75 11.945 10.775 1.17 7.06 9.79489 42.12 3.8 11.345 10.21 1.135 6.91 10.00441 42.61 3.85 11.395 10.31 1.085 6.74 9.52172 43.09 3.9 11.235 10.14 1.095 6.31 9.74633 43.59 3.95 10.845 9.82 1.025 6.48 9.45136 44.08 4 10.805 9.765 1.04 6.68 9.62517 44.59 4.05 10.71 9.71 1 5.64 9.33707 45.09 4.1 10.365 9.445 0.92 5.64 8.87603 45.55 4.15 9.87 8.945 0.925 5.91 9.37183 46.02 4.2 9.085 8.275 0.81 5.26 8.91580 46.42 4.25 8.58 7.875 0.705 4.65 8.21678 46.82 4.3 8.625 7.835 0.79 4.5 9.15942 47.22 4.35 10.6 9.54 1.06 6.38 10.00000 47.62 4.4 10.28 9.275 1.005 6.14 9.77626 47.99 4.45 10.4 9.385 1.015 5.69 9.75962 48.36 4.5 10.64 9.605 1.035 5.72 9.72744 48.64 4.55 9.835 8.905 0.93 5.57 9.45602 48.93 4.6 8.31 7.575 0.735 4.55 8.84477 49.48 4.65 7.865 7.175 0.69 4.66 8.77305 50.03 4.7 7.73 7.085 0.645 4.66 8.34411 50.56 4.75 7.56 6.905 0.655 3.76 8.66402 51.1 4.8 7.765 7.18 0.585 4.94 7.53381 51.61 4.85 8 7.3 0.7 4.83 8.75000 52.12 4.9 7.215 6.62 0.595 4.16 8.24671 52.58 4.95 7.265 6.62 0.645 4.01 8.87818 53.05 5 7.275 6.675 0.6 3.65 8.24742 53.5 5.05 7.295 6.7 0.595 4.11 8.15627 53.95 5.1 7.305 6.705 0.6 3.53 8.21355 54.34 5.15 7.275 6.69 0.585 3.65 8.04124 54.74 5.2 8.19 7.475 0.715 4.16 8.73016 55.13 5.25 7.4 6.78 0.62 4.23 8.37838 55.53 5.3 7.58 6.9 0.68 4.46 8.97098 55.9 5.35 7.765 7.095 0.67 4.94 8.62846 56.27 5.4 8.05 7.36 0.69 4.16 8.57143 56.66 5.45 8.155 7.47 0.685 4.44 8.39975 57.04 5.5 8.145 7.45 0.695 4.38 8.53284 57.42 5.55 8.645 7.85 0.795 4.54 9.19607 57.8 5.6 8.955 8.125 0.83 4.98 9.26857 58.11 5.65 9.33 8.485 0.845 5.03 9.05681 58.43 5.7 8.83 8.035 0.795 5.31 9.00340 58.73 5.75 8.865 8.06 0.805 5.53 9.08065 59.04 5.8 9.01 8.205 0.805 4.99 8.93452 59.33 5.85 9.42 8.57 0.85 5.53 9.02335 59.62 5.9 9.11 8.28 0.83 5.31 9.11087 59.91 5.95 9.28 8.395 0.885 5.14 9.53664 60.2 6 9.19 8.355 0.835 5.41 9.08596 60.48 6.05 8.13 7.41 0.72 4.18 8.85609 60.76 6.1 7.785 7.105 0.68 4.79 8.73475 61.04 6.15 7.29 6.66 0.63 3.81 8.64198 61.33 6.2 6.91 6.37 0.54 3.88 7.81476 61.62 6.25 6.4 5.88 0.52 3.36 8.12500 61.92 6.3 6.455 5.915 0.54 3.89 8.36561 62.24 6.35 6.69 6.13 0.56 4 8.37070 62.57 6.4 7.395 6.73 0.665 4.67 8.99256 62.87 6.45 9.23 8.38 0.85 5.56 9.20910 63.17 6.5 12.965 11.54 1.425 7.63 10.99113 63.5 6.55 13.3 11.845 1.455 7.45 10.93985 63.83 6.6 13.68 12.215 1.465 7.59 10.70906 64.17 6.65 14.74 13.1 1.64 8.31 11.12619 64.51 6.7 15.47 13.84 1.63 8.81 10.53652 64.85 6.75 15.53 13.84 1.69 8.69 10.88216 65.19 6.8 16.01 14.265 1.745 9.87 10.89944 65.52 6.85 16.365 14.54 1.825 9.75 11.15185 65.86 6.9 15.705 13.95 1.755 8.9 11.17479 66.22 6.95 16.26 14.435 1.825 9.77 11.22386 66.58 7 17.625 15.615 2.01 10.51 11.40426 66.88 7.05 18.21 16.15 2.06 10.89 11.31247 67.19 7.1 18.965 16.745 2.22 11.33 11.70577 67.49 7.15 20.23 17.935 2.295 12.1 11.34454 67.78 7.2 19.5 17.22 2.28 11.65 11.69231 68.3 7.25 19.445 17.15 2.295 11.62 11.80252 68.82 7.3 20.005 17.66 2.345 12.14 11.72207 69.41 7.35 20.085 17.675 2.41 12.01 11.99900 70 7.4 19.425 17.25 2.175 11.65 11.19691 71.21 7.45 19.165 16.95 2.215 11.47 11.55753 72.41 7.5 18.275 16.135 2.14 10.95 11.70999 73.7 7.55 19.33 17.185 2.145 11.55 11.09674 74.98 7.6 19.075 16.91 2.165 11.39 11.34993 76.15 7.65 18.12 16.07 2.05 10.81 11.31347 77.32 7.7 17.905 15.8 2.105 10.92 11.75649 78.52 7.75 17.38 15.365 2.015 10 11.59379 79.73 7.8 17.415 15.42 1.995 10.4 11.45564 80.96 7.85 18.015 15.905 2.11 10.77 11.71246 82.19 7.9 19.375 17.1 2.275 11.6 11.74194 83.57 7.95 20.865 18.405 2.46 12.48 11.79008 84.95 8 21.465 18.95 2.515 12.85 11.71675 86.4 8.05 20.36 17.98 2.38 12.18 11.68959 87.84 8.1 21.715 19.145 2.57 13 11.83514 89.24 8.15 21.78 19.175 2.605 13.04 11.96051 90.64 8.2 22.21 19.585 2.625 14.46 11.81900 92 8.25 22.27 19.61 2.66 13.34 11.94432 93.37 8.3 21.655 19.05 2.605 14.44 12.02955 94.65 8.35 21.385 18.915 2.47 12.8 11.55015 95.93 8.4 20.28 17.87 2.41 12.13 11.88363 97.17 8.45 19.05 16.795 2.255 11.4 11.83727 98.41 8.5 18.15 15.985 2.165 10.85 11.92837 99.78 8.55 17.565 15.45 2.115 10.48 12.04099 101.16 8.6 17.565 15.46 2.105 10.5 11.98406 102.8 8.65 16.71 14.8 1.91 9.64 11.43028 104.45 8.7 16.44 14.55 1.89 9.49 11.49635 106.23 8.75 15.96 14.11 1.85 9.5 11.59148 108.02 8.8 15.15 13.31 1.84 9.38 12.14521 109.7 8.85 15.645 13.785 1.86 9.3 11.88878 111.37 8.9 13.995 12.325 1.67 8.18 11.93283 113.08 8.95 14.635 12.915 1.72 8.25 11.75265 114.79 9 11.725 10.335 1.39 6.81 11.85501 116.4 9.05 11.795 10.44 1.355 6.48 11.48792 118.01 9.1 12.09 10.675 1.415 7.05 11.70389 119.51 9.15 12.32 10.86 1.46 7.1 11.85065 121.01 9.2 7.99 7.165 0.825 4.62 10.32541 122.32 9.25 8.33 7.5 0.83 4.84 9.96399 123.64 9.3 10.2 9.065 1.135 5.83 11.12745 124.8 9.35 6.915 6.245 0.67 3.88 9.68908 125.96 9.4 7.245 6.53 0.715 4.01 9.86888 127.07 9.45 7.145 6.455 0.69 4.25 9.65710 128.19 9.5 7.14 6.485 0.655 3.78 9.17367 129.09 9.55 7.035 6.405 0.63 4.27 8.95522 130 9.6 6.925 6.31 0.615 4.06 8.88087 130.92 9.65 6.865 6.245 0.62 3.75 9.03132 131.84 9.7 7.02 6.4 0.62 4.13 8.83191 132.58 9.75 7.16 6.525 0.635 3.89 8.86872 133.31 9.8 7.58 6.91 0.67 3.76 8.83905 134.01 9.85 7.42 6.725 0.695 3.88 9.36658 134.71 9.9 7.52 6.865 0.655 3.6 8.71011 135.42 9.95 7.74 6.99 0.75 4.66 9.68992 136.13 10 7.83 7.11 0.72 4.39 9.19540 136.85 10.05 8.495 7.68 0.815 4.94 9.59388 137.57 10.1 8.635 7.78 0.855 5.31 9.90156 138.25 10.15 8.875 7.965 0.91 4.95 10.25352 138.93 10.2 8.585 7.81 0.775 4.65 9.02737 139.41 10.25 8.59 7.77 0.82 4.65 9.54598 139.9 10.3 8.19 7.345 0.845 4.26 10.31746 140.57 10.35 8.47 7.64 0.83 4.94 9.79929 141.25 10.4 8.105 7.36 0.745 4.18 9.19186