Florida Current 27KYr Seawater Cadmium Data ----------------------------------------------------------------------- World Data Center for Paleoclimatology, Boulder and NOAA Paleoclimatology Program ----------------------------------------------------------------------- NOTE: PLEASE CITE ORIGINAL REFERENCE WHEN USING THIS DATA!!!!! NAME OF DATA SET: Florida Current 27KYr Seawater Cadmium Data LAST UPDATE: 12/2009 (Original receipt by WDC Paleo) CONTRIBUTORS: Came, R.E., D.W. Oppo, W.B. Curry, and J. Lynch-Stieglitz IGBP PAGES/WDCA CONTRIBUTION SERIES NUMBER: 2009-151 WDC PALEO CONTRIBUTION SERIES CITATION: Came, R.E., et al. 2009. Florida Current 27KYr Seawater Cadmium Data. IGBP PAGES/World Data Center for Paleoclimatology Data Contribution Series # 2009-151. NOAA/NCDC Paleoclimatology Program, Boulder CO, USA. ORIGINAL REFERENCE: Came, R.E., D.W. Oppo, W.B. Curry, and J. Lynch-Stieglitz. 2008. Deglacial variability in the surface return flow of the Atlantic meridional overturning circulation. Paleoceanography, 23, PA1217, doi:10.1029/2007PA001450 ABSTRACT: Benthic foraminiferal Cd/Ca from a Florida Current sediment core documents the history of the northward penetration of southern source waters within the surface return flow of the Atlantic meridional overturning circulation (AMOC). Cd seawater estimates (CdW) indicate that intermediate-depth southern source waters crossed the equator and contributed to the Florida Current during the Bølling-Allerød warm period of the last deglaciation, consistent with evidence of only a modest AMOC reduction compared to today. The CdW estimates also provide the first paleoceanographic evidence of a reduction in the influence of intermediate-depth southern source waters within the Florida Current during the Younger Dryas, a deglacial cold event characterized by a weak North Atlantic AMOC. Our results reveal a close correspondence between the northward penetration of intermediate-depth southern source waters and the influence of North Atlantic Deep Water, suggesting a possible link between intermediate-depth southern source waters and the strength of the Atlantic AMOC. ADDITIONAL REEFERENCE: Slowey, N.C. and W.B. Curry. 1995. Glacial-interglacial differences in circulation and carbon cycling within the upper western North-Atlantic. Paleoceanography, 10, 715-732. GEOGRAPHIC REGION: Florida Current, western North Atlantic PERIOD OF RECORD: 27 KYrBP - present FUNDING SOURCES: US National Science Foundation (NSF) and the WHOI Ocean and Climate Change Institute. DESCRIPTION: Seawater Cadmium (CdW) estimates derived from benthic foraminiferal Cd/Ca from Florida Current sediment cores trace the inclusion of intermediate-depth southern source waters within the Florida Current and strength of the deglacial Atlantic Meridional Overturning Circulation (AMOC). Core locations: OCE205-2-100GGC: 26°04'N, 78°02'W, 1057 m depth KNR166-2-31JPC: 24°13'N, 83°18'W, 751 m depth DATA: 1. AMS Dates and Calendar Ages * Table 1. AMS Dates and Calendar Ages * Depth, cm Species NOSAMS# AMSDate AMSErr. 1or2Sigma YrsBP YrsBP YrsBP (lower) (upper) Core OCE205-2-100GGC 7 G. sacculifer OS-181 1,040 30 1 567 581 613 1 594 648 2 544 663 17 G. sacculifer OS-27756 2,250 40 1 1,807 1,911 1,856 2 1,737 1,964 31 G. sacculifer OS-27757 3,150 40 1 2,864 2,993 2,936 2 2,810 3,070 63 G. sacculifer OS-27758 5,150 45 1 5,472 5,566 5,515 2 5,402 5,611 73 G. sacculifer OS-27759 5,770 40 1 6,165 6,257 6,200 2 6,085 6,285 80 G. sacculifer OS-27834 6,850 45 1 7,323 7,413 7,368 2 7,268 7,450 80 G. sacculifer OS-180 6,470 55 1 6,884 7,049 6,970 2 6,824 7,140 92 G. sacculifer OS-27835 8,440 85 1 8,959 9,197 9,059 2 8,775 9,294 100 G. sacculifer OS-178 8,870 55 1 9,464 9,574 9,525 2 9,427 9,668 109 G. sacculifer OS-27836 10,400 55 1 11,294 11,433 11,468 1 11,478 11,624 2 11,243 11,707 116 G. sacculifer OS-27837 11,750 110 1 13,118 13,303 13,218 2 13,020 13,415 120 G. sacculifer OS-176 12,000 45 1 13,347 13,483 13,427 2 13,310 13,586 160 G. sacculifer OS-174 23,800 110 27,800 Core KNR166-2-31JPC 0.5 G. sacculifer OS-39424 1,640 40 1 1,166 1,254 1,204 2 1,100 1,283 28 G. sacculifer OS-50184 4,380 45 1 4,437 4,582 4,526 2 4,401 4,690 64 G. sacculifer OS-42460 7,310 50 1 7,708 7,831 7,773 2 7,663 7,899 72 G. sacculifer OS-52098 9,110 50 1 10,209 10,296 10,264 2 10,195 10,407 86 G. sacculifer OS-55948 10,400 55 1 11,294 11,433 11,468 2 11,243 11,707 96 G. sacculifer OS-50345 11,000 55 1 12,408 12,445 12,655 2 12,380 12,526 112 G. sacculifer OS-42461 12,050 75 1 13,401 13,598 13,500 2 13,322 13,684 128 G. sacculifer OS-55931 11,800 50 1 13,213 13,302 13,259 2 13,159 13,363 150 G. sacculifer OS-55949 13,750 80 1 15,626 16,032 15,842 & G. ruber 2 15,440 16,267 160 G. ruber OS-42462 16,650 160 1 19,198 19,537 19,397 2 19,048 19,612 2 19,656 19,806 * Accelerator mass spectrometer (AMS) radiocarbon dates were converted to calendar age using the online calibration program Calib 5.02 [Stuiver and Reimer, 1993], the Marine04 calibration data set [Hughen et al., 2004], and a reservoir correction of 400 years. NOSAMS is National Ocean Sciences Accelerator Mass Spectrometer Facility. 2. Came et al. 2008 KNR166-2-31JPC benthic Cd data Calendar ages are based on radiocarbon dates converted to calendar age using Calib 5.02 and a reservoir correction of 400 years. KNR166-2-31JPC H. elegans Cd data. Depth CalendarAge CdW Mean CdW Excluded data (cm) (yrs BP) nmol/kg nmol/kg 0.5 1,204 0.39 0.39 4 1,627 0.34 0.34 8 2,110 0.45 0.45 12 2,593 0.47 0.47 16 3,076 0.45 0.45 20 3,560 0.45 0.45 24 4,043 0.37 0.37 28 4,526 0.48 0.48 32 4,887 0.40 0.40 36 5,248 0.43 0.40 36 5,248 0.38 40 5,608 0.50 0.50 44 5,969 0.43 0.43 48 6,330 0.41 0.38 48 6,330 0.35 52 6,691 0.46 0.46 56 7,051 0.61 0.61 60 7,412 0.51 0.51 64 7,773 0.40 0.40 68 9,019 0.40 0.40 72 10,264 0.59 0.59 76 10,608 0.45 0.45 80 10,952 0.37 0.37 84 11,296 0.35 0.33 84 11,296 0.32 92 12,180 0.29 0.33 92 12,180 0.36 96 12,655 0.29 0.31 96 12,655 0.33 100 12,866 0.26 0.29 100 12,866 0.33 104 13,078 0.36 0.62 104 13,078 0.44 104 13,078 0.29 108 13,289 0.43 0.47 108 13,289 0.48 108 13,289 0.49 112 13,500 0.43 0.41 112 13,500 0.39 116 13,747 0.51 0.48 116 13,747 0.44 120 13,993 0.40 0.44 120 13,993 0.48 124 14,240 0.41 0.41 124 14,240 0.42 124 14,240 0.39 128 14,486 0.47 0.37 128 14,486 0.32 128 14,486 0.32 132 14,733 0.48 0.48 140 15,226 0.44 0.44 144 15,472 0.30 0.34 144 15,472 0.39 148 15,719 0.30 0.30 152 16,553 0.26 0.25 152 16,553 0.25 168 22,241 0.35 0.35 3. Came et al. 2008 KNR166-2-31JPC d13C data Calendar ages are based on radiocarbon dates converted to calendar age using Calib 5.02 and a reservoir correction of 400 years. KNR166-2-31JPC Cibicidoides spp. d13C data. Depth Calendar Number of d13C Mean d13C (cm) (yrs BP) Individuals Species (permil) (permil) 0.50 1,204 3 C. pachyderma 0.87 0.87 2.25 1,415 1 C. wuellerstorfi 0.80 0.87 2.25 1 C. wuellerstorfi 0.94 4.25 1,657 3 C. pachyderma 0.88 0.88 6.25 1,899 1 C. pachyderma 0.90 0.96 6.25 1 C. wuellerstorfi 1.01 8.00 2,110 3 C. pachyderma 0.95 0.95 10.25 2,382 1 C. pachyderma 1.01 0.89 10.25 1 C. wuellerstorfi 0.89 10.25 1 C. wuellerstorfi 0.75 12.25 2,623 3 C. pachyderma 0.91 0.91 14.25 2,865 1 C. pachyderma 0.84 0.88 14.25 1 C. wuellerstorfi 0.84 14.25 1 C. wuellerstorfi 0.97 16.00 3,076 3 C. pachyderma 0.97 0.97 18.25 3,348 1 C. pachyderma 0.85 0.73 18.25 1 C. pachyderma 0.54 18.25 1 C. pachyderma 0.81 20.25 3,590 3 C. pachyderma 0.85 0.85 22.00 3,801 1 C. pachyderma 0.52 0.68 22.25 1 C. wuellerstorfi 0.84 24.00 4,043 4 C. pachyderma 0.95 0.95 26.00 4,284 1 C. pachyderma 0.99 0.80 26.00 1 C. pachyderma 0.61 28.25 4,549 2 C. pachyderma 1.07 1.07 30.00 4,706 1 C. pachyderma 0.85 0.81 30.00 1 C. pachyderma 0.78 30.00 1 C. pachyderma 0.79 32.00 4,887 4 C. pachyderma 0.81 0.81 34.00 5,067 1 C. pachyderma 0.56 0.59 34.00 1 C. pachyderma 0.61 36.25 5,270 3 C. pachyderma 0.87 0.87 38.25 1 C. wuellerstorfi 0.74 0.74 40.00 5,608 4 C. pachyderma 0.77 0.77 42.00 5,789 1 C. pachyderma 0.53 0.78 42.00 1 C. pachyderma 0.95 42.00 1 C. pachyderma 0.88 44.25 5,992 3 C. pachyderma 0.53 0.53 46.00 6,150 1 C. pachyderma 1.04 1.08 46.00 1 C. pachyderma 1.10 46.25 1 C. wuellerstorfi 1.10 48.00 6,330 4 C. pachyderma 0.81 0.81 50.00 6,510 1 C. pachyderma 0.57 0.76 50.00 1 C. pachyderma 0.81 50.00 1 C. pachyderma 0.88 52.25 6,713 3 C. pachyderma 0.81 0.81 54.00 6,871 1 C. pachyderma 0.53 0.66 54.00 1 C. pachyderma 0.92 54.00 1 C. pachyderma 0.54 56.00 7,051 4 C. pachyderma 0.89 0.89 58.00 7,232 1 C. pachyderma 0.75 0.62 58.00 1 C. pachyderma 0.54 58.00 1 C. pachyderma 0.57 60.25 7,435 3 C. pachyderma 0.61 0.61 62.00 7,593 1 C. pachyderma 0.25 0.62 62.00 1 C. pachyderma 0.90 62.00 1 C. pachyderma 0.72 64.00 7,773 4 C. pachyderma 1.09 1.09 66.00 8,396 1 C. pachyderma 0.55 0.45 66.00 1 C. pachyderma 0.27 66.00 1 C. pachyderma 0.54 70.00 9,641 1 C. pachyderma 0.26 0.29 70.00 1 C. pachyderma 0.12 70.00 1 C. pachyderma 0.47 72.00 10,264 4 C. pachyderma 0.73 0.73 74.00 10,436 1 C. pachyderma 0.94 0.70 74.00 1 C. pachyderma 0.47 78.00 10,780 1 C. pachyderma 0.36 0.53 78.00 1 C. pachyderma 0.34 78.00 1 C. pachyderma 0.90 80.00 10,952 4 C. pachyderma 0.63 0.63 82.00 11,124 1 C. pachyderma 0.46 0.56 82.25 1 C. pachyderma 0.65 82.25 1 C. pachyderma 0.58 86.25 11,498 1 C. pachyderma 0.58 0.57 86.25 1 C. pachyderma 0.56 88.00 11,705 4 C. pachyderma 0.63 0.63 90.25 11,972 1 C. pachyderma 0.46 0.56 90.25 1 C. pachyderma 0.79 90.25 1 C. wuellerstorfi 0.44 94.25 12,447 1 C. pachyderma 0.92 0.76 94.25 1 C. sp. 0.70 94.25 1 C. wuellerstorfi 0.65 96.00 12,655 4 C. pachyderma 0.94 0.94 98.25 12,774 1 C. sp. 0.80 0.75 98.40 1 C. pachyderma 0.69 102.25 12,985 1 C. pachyderma 0.86 0.77 102.25 1 C. pachyderma 0.68 104.00 13,078 4 C. pachyderma 1.02 1.02 106.25 13,196 1 C. pachyderma 0.82 0.81 106.25 1 C. pachyderma 0.93 106.25 1 C. pachyderma 0.68 110.25 13,408 1 C. pachyderma 0.66 0.76 110.25 1 C. pachyderma 0.84 110.25 1 C. pachyderma 0.78 112.00 13,500 4 C. pachyderma 0.98 0.98 114.25 13,639 1 C. pachyderma 0.75 0.77 114.25 1 C. pachyderma 0.78 118.25 13,885 1 C. pachyderma 0.70 0.74 118.40 1 C. pachyderma 0.77 120.00 13,993 4 C. pachyderma 0.91 0.91 122.25 14,132 1 C. pachyderma 0.51 0.68 122.25 1 C. pachyderma 0.86 126.25 14,378 1 C. pachyderma 0.60 0.66 126.25 1 C. pachyderma 0.69 126.25 1 C. pachyderma 0.70 128.00 14,486 4 C. pachyderma 0.81 0.81 130.25 14,625 1 C. pachyderma 0.74 0.79 130.25 1 C. pachyderma 0.77 130.25 1 C. pachyderma 0.85 134.25 14,871 1 C. pachyderma 0.78 0.81 134.25 1 C. wuellerstorfi 0.73 134.25 1 C. wuellerstorfi 0.92 136.00 14,979 1 C. pachyderma 0.95 0.95 138.25 15,118 1 C. pachyderma 0.75 0.69 138.25 1 C. sp. 0.36 138.25 1 C. sp. 0.95 142.25 15,364 1 C. wuellerstorfi 0.94 1.10 142.25 1 C. wuellerstorfi 1.26 146.25 15,648 1 C. pachyderma 1.18 1.18 150.25 15,931 1 C. pachyderma 0.57 0.71 150.25 1 C. pachyderma 0.82 150.25 1 C. pachyderma 0.75 154.25 17,353 1 C. wuellerstorfi 1.31 1.24 154.25 1 C. wuellerstorfi 1.15 154.25 1 C. wuellerstorfi 1.26 158.25 18,775 1 C. pachyderma 1.06 1.15 158.25 1 C. wuellerstorfi 1.06 158.25 1 C. wuellerstorfi 1.32 160.00 19,397 1 C. pachyderma 1.14 1.14 162.25 20,197 1 C. pachyderma 1.22 1.14 162.25 1 C. wuellerstorfi 1.05 162.25 1 C. wuellerstorfi 1.15 166.25 21,619 1 C. wuellerstorfi 1.18 1.21 166.25 1 C. wuellerstorfi 1.32 166.25 1 C. wuellerstorfi 1.13 170.25 23,041 1 C. wuellerstorfi 1.33 1.31 170.25 1 C. wuellerstorfi 1.24 170.25 1 C. wuellerstorfi 1.36 4. Came et al. 2008 OCE205-2-100GGC d13C data Calendar ages are based on radiocarbon dates converted to calendar age using Calib 5.02 and a reservoir correction of 400 years. OCE205-2-100GGC H. elegans Cd data. Depth CalendarAge CdW Mean CdW (cm) (yrsBP) nmol/kg nmol/kg 8 737 0.30 0.30 13 1,359 0.28 0.26 13 1,359 0.24 16 1,732 0.33 0.33 18 1,933 0.43 0.43 19 2,010 0.36 0.36 21 2,165 0.37 0.37 22 2,242 0.30 0.30 24 2,396 0.32 0.32 25 2,473 0.34 0.34 26 2,550 0.29 0.29 27 2,627 0.28 0.26 27 2,627 0.25 28 2,705 0.31 0.31 29 2,782 0.31 0.28 29 2,782 0.24 30 2,859 0.35 0.29 30 2,859 0.24 32 3,017 0.31 0.31 33 3,097 0.35 0.35 35 3,258 0.33 0.33 36 3,339 0.27 0.27 37 3,420 0.36 0.36 38 3,500 0.31 0.31 39 3,581 0.32 0.32 40 3,661 0.32 0.32 42 3,823 0.29 0.29 43 3,903 0.39 0.39 44 3,984 0.34 0.34 45 4,064 0.34 0.34 46 4,145 0.37 0.37 47 4,226 0.29 0.29 48 4,306 0.31 0.31 49 4,387 0.27 0.27 51 4,548 0.27 0.27 52 4,629 0.30 0.30 53 4,709 0.30 0.30 54 4,790 0.24 0.24 55 4,870 0.29 0.29 56 4,951 0.48 0.44 56 4,951 0.41 57 5,031 0.23 0.23 58 5,112 0.29 0.27 58 5,112 0.25 59 5,193 0.30 0.30 60 5,273 0.30 0.30 61 5,354 0.28 0.28 62 5,434 0.31 0.31 63 5,515 0.32 0.32 64 5,584 0.29 0.29 66 5,721 0.26 0.26 67 5,789 0.27 0.27 68 5,858 0.30 0.26 68 5,858 0.22 70 5,995 0.23 0.23 71 6,063 0.32 0.32 72 6,132 0.34 0.34 73 6,200 0.28 0.28 74 6,310 0.27 0.27 75 6,420 0.22 0.22 76 6,530 0.41 0.34 76 6,530 0.26 77 6,640 0.25 0.24 77 6,640 0.23 78 6,750 0.36 0.36 79 6,860 0.26 0.26 80 6,970 0.30 0.30 81 7,144 0.29 0.29 82 7,318 0.28 0.28 83 7,492 0.25 0.25 85 7,840 0.35 0.35 86 8,015 0.30 0.30 87 8,189 0.30 0.30 88 8,363 0.24 0.24 89 8,537 0.26 0.26 90 8,711 0.29 0.29 91 8,885 0.28 0.28 91 8,885 0.29 92 9,059 0.29 0.29 93 9,117 0.27 0.27 94 9,176 0.36 0.36 95 9,234 0.27 0.27 96 9,292 0.28 0.28 98 9,409 0.25 0.25 99 9,467 0.25 0.25 100 9,525 0.25 0.25 101 9,741 0.26 0.26 102 9,957 0.24 0.24 103 10,173 0.25 0.25 104 10,389 0.28 0.28 105 10,604 0.24 0.25 105 10,604 0.25 106 10,820 0.27 0.27 108 11,252 0.21 0.21 109 11,468 0.31 0.31 110 11,718 0.29 0.30 110 11,718 0.34 110 11,718 0.27 112 12,218 0.23 0.23 113 12,468 0.21 0.21 117 13,270 0.23 0.23 120 13,427 0.25 0.25 123 14,452 0.21 0.21 124 14,794 0.30 0.30 126 15,478 0.27 0.27 128 16,162 0.26 0.26 132 17,529 0.18 0.18 136 18,896 0.18 0.18 138 19,580 0.19 0.19 142 20,947 0.20 0.20 148 22,998 0.19 0.19 152 24,365 0.22 0.22 156 25,733 0.29 0.29 158 26,416 0.20 0.20 162 27,784 0.16 0.16 5. Came et al. 2008, Slowey and Curry 1995 OCE205-2-100GGC d13C data The d13C data set from OCE205-2-100GGC contains both newly acquired data and previously published data. Use of this d13C data set requires the following two citations: Came, R.E., D.W. Oppo, W.B. Curry, and J. Lynch-Stieglitz. 2008. Deglacial variability in the surface return flow of the Atlantic meridional overturning circulation. Paleoceanography, 23, PA1217, doi:10.1029/2007PA001450 Slowey, N.C. and W.B. Curry. 1995. Glacial-interglacial differences in circulation and carbon cycling within the upper western North-Atlantic. Paleoceanography, 10, 715-732. Calendar ages are based on radiocarbon dates converted to calendar age using Calib 5.02 and a reservoir correction of 400 years. OCE205-2-100GGC Cibicidoides spp. d13C data. Depth CalendarAge d13C Mean d13C (cm) (yrs BP) (permil) (permil) 7 613 1.46 1.46 8 737 1.26 1.40 8 737 1.30 8 737 1.50 8 737 1.54 10 986 1.69 1.69 13 1,359 1.38 1.41 13 1,359 1.41 13 1,359 1.44 14 1,483 1.21 1.40 14 1,483 1.30 14 1,483 1.47 14 1,483 1.61 15 1,607 1.47 1.63 15 1,607 1.79 16 1,732 1.44 1.49 16 1,732 1.54 17 1,856 1.36 1.40 17 1,856 1.43 19 2,010 1.56 1.61 19 2,010 1.65 20 2,087 1.30 1.37 20 2,087 1.44 22 2,242 1.32 1.34 22 2,242 1.32 22 2,242 1.37 23 2,319 1.16 1.28 23 2,319 1.29 23 2,319 1.38 24 2,396 1.17 1.31 24 2,396 1.20 24 2,396 1.41 24 2,396 1.46 25 2,473 1.37 1.37 27 2,627 1.27 1.33 27 2,627 1.38 29 2,782 1.21 1.42 29 2,782 1.38 29 2,782 1.68 30 2,859 1.22 1.45 30 2,859 1.41 30 2,859 1.44 30 2,859 1.57 30 2,859 1.61 31 2,936 1.42 1.49 31 2,936 1.56 32 3,017 1.20 1.25 32 3,017 1.29 32 3,017 1.30 33 3,097 1.17 1.26 33 3,097 1.35 34 3,178 1.27 1.30 34 3,178 1.33 35 3,258 1.35 1.46 35 3,258 1.42 35 3,258 1.60 36 3,339 1.40 1.50 36 3,339 1.44 36 3,339 1.52 36 3,339 1.63 40 3,661 1.31 1.39 40 3,661 1.47 45 4,064 1.37 1.46 45 4,064 1.42 45 4,064 1.58 46 4,145 1.20 1.33 46 4,145 1.36 46 4,145 1.44 48 4,306 1.34 1.39 48 4,306 1.44 49 4,387 1.27 1.38 49 4,387 1.49 50 4,467 1.27 1.39 50 4,467 1.35 50 4,467 1.56 51 4,548 1.31 1.33 51 4,548 1.35 52 4,629 1.24 1.41 52 4,629 1.44 52 4,629 1.56 53 4,709 1.19 1.35 53 4,709 1.31 53 4,709 1.40 53 4,709 1.50 54 4,790 1.41 1.53 54 4,790 1.54 54 4,790 1.58 54 4,790 1.60 55 4,870 1.44 1.45 55 4,870 1.45 55 4,870 1.47 56 4,951 1.27 1.39 56 4,951 1.41 56 4,951 1.48 57 5,031 1.33 1.37 57 5,031 1.41 58 5,112 1.32 1.33 58 5,112 1.33 60 5,273 1.09 1.36 60 5,273 1.28 60 5,273 1.35 60 5,273 1.38 60 5,273 1.45 60 5,273 1.47 60 5,273 1.53 61 5,354 1.33 1.47 61 5,354 1.36 61 5,354 1.57 61 5,354 1.60 62 5,434 1.29 1.47 62 5,434 1.50 62 5,434 1.55 62 5,434 1.55 63 5,515 1.33 1.43 63 5,515 1.53 64 5,584 1.40 1.42 64 5,584 1.40 64 5,584 1.41 64 5,584 1.48 65 5,652 1.35 1.38 65 5,652 1.35 65 5,652 1.44 66 5,721 1.35 1.42 66 5,721 1.49 67 5,789 0.76 1.15 67 5,789 1.32 67 5,789 1.36 69 5,926 1.26 1.37 69 5,926 1.48 70 5,995 1.38 1.39 70 5,995 1.40 70 5,995 1.40 71 6,063 1.37 1.40 71 6,063 1.42 71 6,063 1.42 72 6,132 1.40 1.41 72 6,132 1.41 73 6,200 1.33 1.44 73 6,200 1.44 73 6,200 1.54 74 6,310 1.31 1.44 74 6,310 1.56 75 6,420 1.31 1.45 75 6,420 1.58 76 6,530 1.27 1.34 76 6,530 1.32 76 6,530 1.42 77 6,640 1.34 1.41 77 6,640 1.38 77 6,640 1.41 77 6,640 1.51 78 6,750 1.32 1.40 78 6,750 1.38 78 6,750 1.49 79 6,860 1.34 1.45 79 6,860 1.49 79 6,860 1.52 80 6,970 1.33 1.39 80 6,970 1.45 81 7,144 1.22 1.55 81 7,144 1.45 81 7,144 1.97 82 7,318 1.29 1.43 82 7,318 1.37 82 7,318 1.50 82 7,318 1.54 83 7,492 1.34 1.39 83 7,492 1.35 83 7,492 1.48 84 7,666 1.21 1.29 84 7,666 1.36 85 7,840 1.35 1.43 85 7,840 1.38 85 7,840 1.43 85 7,840 1.55 86 8,015 1.25 1.40 86 8,015 1.40 86 8,015 1.42 86 8,015 1.52 87 8,189 1.23 1.32 87 8,189 1.30 87 8,189 1.35 87 8,189 1.38 88 8,363 1.31 1.42 88 8,363 1.33 88 8,363 1.63 89 8,537 1.20 1.35 89 8,537 1.30 89 8,537 1.33 89 8,537 1.40 89 8,537 1.52 90 8,711 1.18 1.27 90 8,711 1.23 90 8,711 1.41 91 8,885 1.20 1.28 91 8,885 1.26 91 8,885 1.39 92 9,059 1.30 1.37 92 9,059 1.32 92 9,059 1.34 92 9,059 1.35 92 9,059 1.38 92 9,059 1.39 92 9,059 1.51 93 9,117 1.06 1.35 93 9,117 1.41 93 9,117 1.59 94 9,176 1.27 1.38 94 9,176 1.31 94 9,176 1.44 94 9,176 1.50 95 9,234 1.34 1.37 95 9,234 1.34 95 9,234 1.37 95 9,234 1.43 96 9,292 1.27 1.32 96 9,292 1.27 96 9,292 1.36 96 9,292 1.36 97 9,350 1.33 1.40 97 9,350 1.39 97 9,350 1.40 97 9,350 1.48 98 9,409 1.28 1.35 98 9,409 1.36 98 9,409 1.36 98 9,409 1.39 99 9,467 1.13 1.27 99 9,467 1.22 99 9,467 1.22 99 9,467 1.49 100 9,525 1.19 1.33 100 9,525 1.27 100 9,525 1.32 100 9,525 1.36 100 9,525 1.39 100 9,525 1.42 101 9,741 1.36 1.39 101 9,741 1.37 101 9,741 1.40 101 9,741 1.43 102 9,957 1.29 1.30 102 9,957 1.31 103 10,173 1.13 1.15 103 10,173 1.14 103 10,173 1.19 104 10,389 1.23 1.25 104 10,389 1.26 105 10,604 1.04 1.15 105 10,604 1.19 105 10,604 1.21 106 10,820 1.17 1.27 106 10,820 1.30 106 10,820 1.30 106 10,820 1.31 107 11,036 1.20 1.24 107 11,036 1.28 108 11,252 1.12 1.23 108 11,252 1.23 108 11,252 1.24 108 11,252 1.31 109 11,468 1.04 1.16 109 11,468 1.17 109 11,468 1.26 110 11,718 1.00 1.15 110 11,718 1.08 110 11,718 1.09 110 11,718 1.11 110 11,718 1.18 110 11,718 1.22 110 11,718 1.23 110 11,718 1.29 111 11,968 0.93 1.09 111 11,968 1.08 111 11,968 1.10 111 11,968 1.25 112 12,218 1.07 1.22 112 12,218 1.23 112 12,218 1.36 113 12,468 1.05 1.19 113 12,468 1.19 113 12,468 1.32 116 13,218 1.01 1.28 116 13,218 1.24 116 13,218 1.25 116 13,218 1.27 116 13,218 1.37 116 13,218 1.38 116 13,218 1.41 117 13,270 1.05 1.27 117 13,270 1.17 117 13,270 1.19 117 13,270 1.26 117 13,270 1.26 117 13,270 1.37 117 13,270 1.59 118 13,322 0.99 1.21 118 13,322 1.25 118 13,322 1.29 118 13,322 1.30 119 13,375 0.94 1.03 119 13,375 1.12 120 13,427 1.07 1.14 120 13,427 1.17 120 13,427 1.19 120 13,427 1.24 123 14,548 1.16 1.21 123 14,548 1.20 123 14,548 1.27 127 15,905 0.88 0.99 127 15,905 1.09 130 16,923 1.44 1.48 130 16,923 1.51 133 17,940 1.31 1.35 133 17,940 1.38 137 19,297 1.43 1.52 137 19,297 1.54 137 19,297 1.59 140 20,315 1.48 1.55 140 20,315 1.56 140 20,315 1.61 150 23,708 1.52 1.58 150 23,708 1.64 153 24,725 1.20 1.41 153 24,725 1.51 153 24,725 1.53 157 26,082 1.46 1.51 157 26,082 1.47 157 26,082 1.50 157 26,082 1.62 160 27,100 1.53 1.56 160 27,100 1.53 160 27,100 1.57 160 27,100 1.62 163 1.21 1.40 163 1.59 167 1.55 1.62 167 1.69 170 1.10 1.47 170 1.61 170 1.69 173 1.29 1.37 173 1.45