Lake Titicaca Late Quaternary Diatom Abundance Data ----------------------------------------------------------------------- World Data Center for Paleoclimatology, Boulder and NOAA Paleoclimatology Program ----------------------------------------------------------------------- NOTE: PLEASE CITE CONTRIBUTORS WHEN USING THIS DATA!!!!! NAME OF DATA SET: Lake Titicaca Late Quaternary Diatom Abundance Data LAST UPDATE: 7/2004 (Original receipt by WDC Paleo) CONTRIBUTORS: S.C. Fritz, P.A. Baker, G.O. Seltzer IGBP PAGES/WDCA CONTRIBUTION SERIES NUMBER: 2004-043 SUGGESTED DATA CITATION: Fritz, S.C., et al. 2004. Lake Titicaca Late Quaternary Diatom Abundance Data. IGBP PAGES/World Data Center for Paleoclimatology Data Contribution Series # 2004-043. NOAA/NGDC Paleoclimatology Program, Boulder CO, USA. ORIGINAL REFERENCES: Tapia, P.M., S.C. Fritz, P.A. Baker, G.O. Seltzer, and R.B. Dunbar. 2003. A Late Quaternary diatom record of tropical climatic history from Lake Titicaca (Peru and Bolivia). Palaeogeography, Palaeoclimatology, Palaeoecology Volume 194, Issues 1-3, 15 May 2003, Pages 139-164. Baker, P.A., G.O. Seltzer, S.C. Fritz, R.B. Dunbar, M. Grove, P. Tapia, S. Cross, H. Rowe, and J. Broda. 2001. The history of South American tropical climate for the past 25,000 years. Science 291: 640-643. ABSTRACT (Tapia et al. 2003): A composite high-resolution diatom stratigraphy from three piston cores and one box-core in the deep sub-basin of Lake Titicaca reveals large moisture variations during the past 30 kyr in the Altiplano region. Diatom sequences indicate orbital and millennial-scale variability in water level and salinity. The pelagic freshwater diatom species Cyclotella andina and Cyclotella stelligera dominate Glacial-age sediments, suggesting that the lake was above its present outlet. Generally, wet conditions continued until 11000 cal yr BP, as indicated by high percentages of freshwater planktonic diatoms. Large pulses of benthic diatom species between about 11000 and 10000 cal yr BP suggest brief intervals of large-amplitude declines in lake level. During the early Holocene (10000–8500 cal yr BP), a freshwater diatom assemblage suggests overflowing conditions. Pelagic freshwater diatoms are replaced ca. 8500 cal yr BP by the salinity-indifferent species Cyclotella meneghiniana and by benthic taxa, indicating the beginning of lake regression. During the mid-Holocene (6000–3500 cal yr BP), the abundance of the saline taxon Chaetoceros muelleri, coupled with high abundances of epiphytic and epipelic diatoms, indicates maximum salinity and lowest lake levels in the entire 30000 year record. Lake transgression began ca. 4000 cal yr BP, and the lake achieved modern levels by about 1500 cal yr BP. These water-level changes imply changes in effective moisture, most likely resulting from large precipitation changes. Precipitation was high throughout the Last Glacial Maximum (21000–18000 cal yr BP), likely due to an enhanced South American Summer Monsoon during peak summer insolation in the Southern Hemisphere. In contrast, the mid-Holocene transition was dryer than today in association with an austral summer insolation minimum and the subsequent weakening of the summer monsoon. ABSTRACT (Baker et al. 2001): Long sediment cores recovered from the deep portions of Lake Titicaca are used to reconstruct the precipitation history of tropical South America for the past 25,000 years. Lake Titicaca was a deep, fresh, and continuously overflowing lake during the last glacial stage, from before 25,000 to 15,000 calibrated years before the present (cal yr B.P.), signifying that during the last glacial maximum (LGM), the Altiplano of Bolivia and Peru and much of the Amazon basin were wetter than today. The LGM in this part of the Andes is dated at 21,000 cal yr B.P., approximately coincident with the global LGM. Maximum aridity and lowest lake level occurred in the early and middle Holocene (8000 to 5500 cal yr B.P.) during a time of low summer insolation. Today, rising levels of Lake Titicaca and wet conditions in Amazonia are correlated with anomalously cold sea-surface temperatures in the northern equatorial Atlantic. Likewise, during the deglacial and Holocene periods, there were several millennial-scale wet phases on the Altiplano and in Amazonia that coincided with anomalously cold periods in the equatorial and high-latitude North Atlantic, such as the Younger Dryas. FUNDING SOURCE: National Science Foundation (USA) (ATM) GEOGRAPHIC REGION: South America PERIOD OF RECORD: 31 kyr BP - present DESCRIPTION: Lake Titicaca Late Quaternary Diatom Abundance Data Lake Titicaca piston cores NE-98-PC1, NE97-PC5, and NE97-PC7, and box core NE-98-4BX. Latitude: 16 08' S Longitude: 69 09' W Altitude: 3810 m Maximum Water Depth: 285 m Length of Record: 31,000 years Average Time Step: 200 yr Data Type: Diatom Relative Abundance (%)/Used as a Proxy for Lake Level Note: Species composition data are available via the Diatom Paleolimnology Data Base Cooperative DATA: 1. Radiocarbon ages Note 1: In column B for NE98-PC1, depth values in parentheses represent a continuous depth sequence generated from joining this core with the overlying NE98-4BX. Note 2: Four samples were excluded from age-depth model (NE97-7PC carbonate at 3m., NE97-7PC at 6.355 m., NE98-4BX Humin extract at 0.83 m., and NE98-1PC at 3.745 m.) Core Name Depth Sample Type 14C Age Error-1s NE97-5PC 3.25 Bulk Organic Matter 7840 130 3.75 Bulk Organic Matter 9820 80 4.15 Bulk Organic Matter 11270 55 4.34 Bulk Organic Matter 11980 55 4.74 Bulk Organic Matter 14110 70 4.84 Bulk Organic Matter 16400 95 5.14 Bulk Organic Matter 16570 120 5.54 Bulk Organic Matter 20220 110 5.86 Bulk Organic Matter 20830 190 6.86 Bulk Organic Matter 21900 170 9.04 Bulk Organic Matter 24430 190 10.74 Bulk Organic Matter 25300 200 NE97-7PC 0.52 Bulk Organic Matter 2630 25 2.39 Bulk Organic Matter 5300 50 3 Bulk Organic Matter 5630 60 3 Carbonate 5400 40 4.205 Bulk Organic Matter 8450 50 4.615 Bulk Organic Matter 10080 85 5.015 Bulk Organic Matter 10640 70 5.505 Bulk Organic Matter 11760 60 5.705 Bulk Organic Matter 12610 60 6.005 Bulk Organic Matter 13300 85 6.205 Bulk Organic Matter 14150 95 6.355 Bulk Organic Matter 12950 155 8 Bulk Organic Matter 17200 95 NE98-4BX 0 Bulk Organic Matter 0 0 0.3 Bulk Organic Matter 1490 45 0.6 Bulk Organic Matter 2370 40 0.83 Bulk Organic Matter 3490 40 0.83 Humin extract 3850 40 NE98-1PC 0.745 (1.428) Bulk Organic Matter 5550 55 1 (1.683) Bulk Organic Matter 5820 50 1.345 (2.028) Bulk Organic Matter 7240 75 1.71 (2.393) Bulk Organic Matter 8830 45 1.88 (2.563) Bulk Organic Matter 9340 50 1.945 (2.628) Bulk Organic Matter 10050 85 2.16 (2.843) Bulk Organic Matter 10400 70 2.41 (3.093) Bulk Organic Matter 10970 55 2.51 (3.193) Bulk Organic Matter 11250 55 2.715 (3.398) Bulk Organic Matter 12810 60 2.855 (3.538) Bulk Organic Matter 13350 90 3.04 (3.723) Bulk Organic Matter 14350 65 3.055 (3.738) Bulk Organic Matter 14700 85 3.545 (4.228) Bulk Organic Matter 15850 90 3.745 Bulk Organic Matter 17200 170 3.945 (4.628) Bulk Organic Matter 16700 100 4.545 (5.228) Bulk Organic Matter 18900 170 6.185 (6.868) Bulk Organic Matter 20900 190 8.045 (8.728) Bulk Organic Matter 23400 250 2. Diatom Percentages, core NE-98-4BX Column 1: Core Name Column 2: Core Depth (cm.) Column 3: Age (calendar yrs BP) Column 4: % Freshwater Planktonic Column 5: % Salinity Indifferent Planktonic Column 6: % Saline Planktonic Column 7: % Benthic Core Name depth Age %Fresh %Indif. %Saline %Benthic NE-98-4BX 1 72 50.65 43.46 0.00 5.88 NE-98-4BX 5 251 58.69 33.77 0.00 7.54 NE-98-4BX 9 429 87.12 7.36 0.00 5.52 NE-98-4BX 13 608 93.10 3.13 0.00 3.76 NE-98-4BX 17 786 60.48 32.93 0.00 6.59 NE-98-4BX 21 965 84.53 12.00 0.00 3.47 NE-98-4BX 25 1143 62.65 33.95 0.00 3.40 NE-98-4BX 29 1321 37.62 54.98 0.00 7.40 NE-98-4BX 33 1465 13.89 79.44 0.00 6.67 NE-98-4BX 37 1597 2.42 88.52 0.00 9.06 NE-98-4BX 53 2126 0.00 89.17 1.27 9.55 NE-98-4BX 57 2258 0.65 83.39 0.00 15.96 NE-98-4BX 61 2417 0.00 93.33 0.00 6.67 NE-98-4BX 65 2656 0.00 79.08 0.00 20.92 NE-98-4BX 69 2896 0.00 94.46 0.00 5.54 3. Diatom Percentages, core NE-98-PC1 Column 1: Core Name Column 2: Core Depth (cm.) Column 3: Age (calendar yrs BP) Column 4: % Freshwater Planktonic Column 5: % Salinity Indifferent Planktonic Column 6: % Saline Planktonic Column 7: % Benthic Core Name depth Age %Fresh %Indif. %Saline %Benthic NE-98-PC1 1 2914 9.57 82.18 0.00 8.25 NE-98-PC1 4 3031 3.22 94.21 0.00 2.57 NE-98-PC1 73 3135 0.00 92.83 0.62 6.54 NE-98-PC1 8 3186 0.62 76.92 5.54 16.92 NE-98-PC1 12 3342 0.29 86.26 3.51 9.94 NE-98-PC1 77 3375 0.26 72.16 7.99 19.59 NE-98-PC1 16 3497 0.62 71.43 20.50 7.45 NE-98-PC1 81 3614 0.00 78.40 13.61 7.99 NE-98-PC1 20 3662 0.61 68.69 24.62 6.08 NE-98-PC1 24 3853 0.60 80.54 9.28 9.58 NE-98-PC1 28 4044 0.97 31.07 59.22 8.74 NE-98-PC1 32 4234 0.00 85.99 9.45 4.56 NE-98-PC1 36 4425 1.92 5.45 31.09 61.54 NE-98-PC1 40 4616 3.12 36.76 18.38 41.74 NE-98-PC1 44 4807 1.54 69.54 0.00 28.92 NE-98-PC1 45.5 4879 0.00 80.75 6.52 12.73 NE-98-PC1 56.5 5404 1.19 31.34 4.78 62.69 NE-98-PC1 60.5 5595 4.38 1.25 0.00 94.38 NE-98-PC1 76.5 6354 15.12 62.04 0.00 22.84 NE-98-PC1 80.5 6525 8.33 78.09 0.62 12.96 NE-98-PC1 84.5 6696 2.14 83.79 0.00 14.07 NE-98-PC1 88.5 6868 26.35 43.11 0.00 30.54 NE-98-PC1 92.5 6983 9.03 65.73 0.00 25.23 NE-98-PC1 96.5 7089 9.51 73.62 0.00 16.87 NE-98-PC1 100.5 7196 19.06 29.69 0.00 51.25 NE-98-PC1 104.5 7303 23.68 26.48 0.00 49.84 NE-98-PC1 108.5 7410 58.49 22.01 0.00 19.50 NE-98-PC1 112.5 7517 65.52 11.29 0.00 23.20 NE-98-PC1 116.5 7624 36.94 5.71 0.00 57.36 NE-98-PC1 120.5 7731 52.66 4.39 0.00 42.95 NE-98-PC1 124.5 7838 46.71 1.50 0.00 51.80 NE-98-PC1 128.5 7945 75.31 0.31 0.00 24.38 NE-98-PC1 132.5 8052 84.69 0.00 0.00 15.31 NE-98-PC1 134.5 8105 93.17 0.00 0.00 6.83 NE-98-PC1 140.5 8275 94.15 0.00 0.00 5.85 NE-98-PC1 144.5 8565 93.14 0.00 0.00 6.86 NE-98-PC1 148.5 8856 92.82 0.00 0.00 7.18 NE-98-PC1 152.5 9146 95.31 0.00 0.00 4.69 NE-98-PC1 156.5 9437 85.32 0.00 0.00 14.68 NE-98-PC1 160.5 9582 95.78 0.00 0.00 4.22 NE-98-PC1 164.5 9706 95.31 0.00 0.00 4.69 NE-98-PC1 168.5 9831 68.52 0.33 0.00 31.15 NE-98-PC1 172.5 9973 16.33 0.00 0.00 83.67 NE-98-PC1 176.5 10239 85.75 0.00 0.00 14.25 NE-98-PC1 180.5 10504 74.61 0.00 0.00 25.39 NE-98-PC1 184.5 10769 71.75 0.00 0.00 28.25 NE-98-PC1 188.5 11035 28.98 0.00 0.00 71.02 NE-98-PC1 196.5 11546 90.21 0.00 0.00 9.79 NE-98-PC1 200.5 11732 97.92 0.00 0.00 2.08 NE-98-PC1 202.5 11826 84.55 0.84 0.00 14.61 NE-98-PC1 205.5 11966 96.92 0.31 0.00 2.77 NE-98-PC1 209.5 12152 96.65 0.00 0.00 3.35 NE-98-PC1 213.5 12339 98.47 0.00 0.00 1.53 NE-98-PC1 217.5 12494 93.05 0.00 0.00 6.95 NE-98-PC1 221.5 12580 91.45 0.00 0.00 8.55 NE-98-PC1 225.5 12666 87.17 0.00 0.00 12.83 NE-98-PC1 229.5 12751 95.82 0.00 0.00 4.18 NE-98-PC1 233.5 12837 96.15 0.00 0.00 3.85 NE-98-PC1 237.5 12923 93.94 0.00 0.00 6.06 NE-98-PC1 241.5 13009 88.32 1.52 0.00 10.15 NE-98-PC1 245.5 13175 88.38 0.00 0.00 11.62 NE-98-PC1 249.5 13507 87.57 0.00 0.00 12.43 NE-98-PC1 253.5 13838 86.81 0.27 0.00 12.91 NE-98-PC1 257.5 14170 77.01 2.09 0.00 20.90 NE-98-PC1 261.5 14502 86.32 1.71 0.00 11.97 NE-98-PC1 265.5 14833 89.80 3.12 0.00 7.08 NE-98-PC1 277.5 15963 95.29 0.59 0.00 4.12 NE-98-PC1 281.5 16401 95.64 0.29 0.00 4.07 NE-98-PC1 293.5 17718 89.73 1.21 0.00 9.06 NE-98-PC1 297.5 17962 82.48 9.24 0.00 8.28 NE-98-PC1 301.5 18171 78.26 5.28 0.00 16.46 NE-98-PC1 305.5 18380 91.52 2.12 0.00 6.36 NE-98-PC1 309.5 18589 86.99 7.51 0.00 5.49 NE-98-PC1 313.5 18798 85.09 3.52 0.00 11.38 NE-98-PC1 315.5 18903 77.71 2.79 0.00 19.50 NE-98-PC1 378.5 20752 81.94 13.23 0.00 4.84 NE-98-PC1 394.5 21131 88.38 7.34 0.00 4.28 NE-98-PC1 402.5 21321 80.51 15.25 0.00 4.24 NE-98-PC1 410.5 21510 78.85 13.14 0.00 8.01 NE-98-PC1 418.5 21700 64.49 33.96 0.00 1.56 NE-98-PC1 426.5 21889 51.46 46.93 0.00 1.62 NE-98-PC1 538.5 23617 76.63 15.38 0.00 7.99 NE-98-PC1 546.5 23717 80.46 11.73 0.00 7.82 NE-98-PC1 570.5 24018 82.07 12.77 0.00 5.17 NE-98-PC1 578.5 24118 78.09 15.74 0.00 6.17 NE-98-PC1 586.5 24219 78.75 15.31 0.00 5.94 NE-98-PC1 589.5 24256 68.47 16.82 0.00 14.71 NE-98-PC1 596.5 24344 77.62 18.83 0.00 3.56 NE-98-PC1 604.5 24444 77.54 14.67 0.00 7.78 NE-98-PC1 612.5 24545 68.59 14.42 0.00 16.99 NE-98-PC1 620.5 24648 84.07 7.42 0.00 8.52 NE-98-PC1 628.5 24772 87.80 9.45 0.00 2.74 NE-98-PC1 636.5 24896 87.21 5.25 0.00 7.54 NE-98-PC1 644.5 25021 87.89 1.69 0.00 10.42 NE-98-PC1 652.5 25145 75.30 12.20 0.00 12.50 NE-98-PC1 660.5 25269 84.73 6.63 0.00 8.65 NE-98-PC1 668.5 25393 75.49 14.38 0.00 10.13 NE-98-PC1 676.5 25518 67.96 5.83 0.00 26.21 NE-98-PC1 684.5 25642 88.24 2.48 0.00 9.29 NE-98-PC1 700.5 25891 83.33 2.61 0.00 14.05 NE-98-PC1 708.5 26015 81.85 10.51 0.00 7.64 NE-98-PC1 716.5 26139 90.40 3.72 0.00 5.88 NE-98-PC1 724.5 26264 82.17 3.18 0.00 14.65 NE-98-PC1 740.5 26512 87.42 2.90 0.00 9.68 NE-98-PC1 745.5 26590 75.16 20.00 0.00 4.84 NE-98-PC1 760.5 26823 84.16 0.00 0.00 15.84 NE-98-PC1 768.5 26947 70.03 2.21 0.00 27.76 NE-98-PC1 776.5 27072 87.35 0.00 0.00 12.65 NE-98-PC1 792.5 27320 87.30 0.63 0.00 12.06 NE-98-PC1 800.5 27445 84.71 4.28 0.00 11.01 NE-98-PC1 816.5 27693 86.98 0.32 0.00 12.70 NE-98-PC1 824.5 27818 79.03 13.55 0.00 7.42 NE-98-PC1 832.5 27942 91.77 0.61 0.00 7.62 NE-98-PC1 840.5 28066 82.32 0.30 0.00 17.38 NE-98-PC1 848.5 28191 88.50 2.36 0.00 9.14 NE-98-PC1 856.5 28315 73.20 0.65 0.00 26.14 NE-98-PC1 880.5 28688 73.95 7.72 0.00 18.33 NE-98-PC1 888.5 28812 80.58 0.97 0.00 18.45 NE-98-PC1 896.5 28937 89.68 0.32 0.00 10.00 NE-98-PC1 900.5 28999 89.16 2.79 0.00 8.05 NE-98-PC1 907.5 29108 91.67 0.32 0.00 8.01 NE-98-PC1 915.5 29232 92.51 1.50 0.00 5.99 NE-98-PC1 923.5 29356 88.50 4.42 0.00 7.08 NE-98-PC1 931.5 29480 84.91 1.18 0.00 13.91 NE-98-PC1 939.5 29605 78.61 4.05 0.00 17.34 NE-98-PC1 947.5 29729 81.50 0.31 0.00 18.18 NE-98-PC1 955.5 29853 77.53 4.43 0.00 18.04 NE-98-PC1 963.5 29978 68.65 0.00 0.00 31.35 NE-98-PC1 971.5 30102 79.86 2.16 0.00 17.99 NE-98-PC1 1019.5 30848 87.43 1.80 0.00 10.78 NE-98-PC1 1027.5 30972 92.26 0.65 0.00 7.10 NE-98-PC1 1035.5 31097 88.85 1.64 0.00 9.51 NE-98-PC1 1042.5 31205 89.97 1.82 0.00 8.21 4. Diatom Percentages, core NE97-PC7 Column 1: Core Name Column 2: Core Depth (cm.) Column 3: Age (calendar yrs BP) Column 4: % Freshwater Planktonic Column 5: % Salinity Indifferent Planktonic Column 6: % Saline Planktonic Column 7: % Benthic Core Name depth Age %Fresh %Indif. %Saline %Benthic NE97-PC7 5 1704 26.02 60.23 0 13.74 NE97-PC7 25 2152 0 92.77 0 7.23 NE97-PC7 45 2600 0.3 77.68 3.57 18.45 NE97-PC7 65 2965 0 92.74 0 7.26 NE97-PC7 85 3286 0 86.88 1.17 11.95 NE97-PC7 93 3430 0.32 82.17 6.05 11.46 NE97-PC7 113 3750 0 70.14 25.75 4.11 NE97-PC7 133 4071 0.3 76.65 18.86 4.19 NE97-PC7 153 4391 0.9 72.16 14.97 11.98 NE97-PC7 173 4711 3.59 55.56 19.61 21.24 NE97-PC7 193 5032 2.07 60.95 10.06 26.92 NE97-PC7 213 5352 3.1 9.31 15.86 71.72 NE97-PC7 233 5673 4.44 30.77 26.33 38.46 NE97-PC7 249 5929 0.89 39.88 0 59.23 NE97-PC7 269 6255 3.21 17.63 2.56 76.6 NE97-PC7 289 6815 0.29 1.17 2.62 95.92 NE97-PC7 309 7375 38.94 19.14 0 41.91 NE97-PC7 329 7936 34.73 16.08 0.96 48.23 NE97-PC7 349 8496 83.85 9.94 0 6.21 NE97-PC7 369 9056 73.94 17.28 0.85 7.93 NE97-PC7 379 9378 74.92 0.68 1.36 23.05 NE97-PC7 399 9938 87.16 0.31 0 12.54 NE97-PC7 419 10499 31.58 0 0 68.42 NE97-PC7 439 11059 54.61 0 0 45.39 NE97-PC7 459 11619 0 0 0 0 NE97-PC7 479 12186 93.53 0.88 0 5.59 NE97-PC7 499 12753 77.14 2 0 20.86 NE97-PC7 519 13136 88.83 0.29 0 10.89 NE97-PC7 536 13462 69.18 5.03 0 25.79 NE97-PC7 556 14174 56.74 17.42 0 25.84 NE97-PC7 576 15202 61.32 0.25 0 38.42 NE97-PC7 596 15966 84.99 6.23 0 8.78 NE97-PC7 616 17154 83.15 1.9 0 14.95 NE97-PC7 636 17618 67.19 6.31 0 26.5 NE97-PC7 656 17998 75.44 5.03 0 19.53 NE97-PC7 676 18377 0 0 0 0 NE97-PC7 693 18728 63.81 6.98 0 29.21 NE97-PC7 713 19108 55.38 21.2 0 23.42 NE97-PC7 733 19487 69.26 18.12 0 12.62 NE97-PC7 753 19866 48.91 23.64 0 27.45 NE97-PC7 773 20246 48.71 25.81 0 25.48 NE97-PC7 793 20625 54.23 28.53 0 17.24 NE97-PC7 813 21005 65.62 19.24 0 15.14 5. Diatom Percentages, core NE97-PC5 Column 1: Core Name Column 2: Core Depth (cm.) Column 3: Age (calendar yrs BP) Column 4: % Freshwater Planktonic Column 5: % Salinity Indifferent Planktonic Column 6: % Benthic Core Name depth Age %Fresh %Indif. %Benthic NE97-PC5 0 11500 95.58 0.95 3.47 NE97-PC5 20 12050 92.90 0.00 7.10 NE97-PC5 40 12600 89.66 0.43 9.91 NE97-PC5 60 13150 81.64 1.97 16.39 NE97-PC5 80 13700 92.33 6.07 1.60 NE97-PC5 85 13837.5 77.96 17.20 4.84 NE97-PC5 105 14837.5 96.07 0.66 3.28 NE97-PC5 125 14937.5 97.13 0.96 1.91 NE97-PC5 145 15487.5 93.67 1.33 5.00 NE97-PC5 165 16037.5 92.20 3.18 4.62 NE97-PC5 180 16450 66.01 26.40 7.58 NE97-PC5 260 17175 84.23 10.42 5.36 NE97-PC5 280 17525 75.73 17.80 6.47 NE97-PC5 300 17875 75.82 20.92 3.27 NE97-PC5 328 18365 92.05 5.63 2.32 NE97-PC5 348 18715 47.31 40.72 11.98 NE97-PC5 368 19065 86.88 10.94 2.19 NE97-PC5 388 19415 43.83 41.98 14.20 NE97-PC5 408 19765 75.15 21.86 2.99 NE97-PC5 514 25059.6 86.80 9.24 3.96 NE97-PC5 534 25144.8 48.00 41.54 10.46 NE97-PC5 594 25400.3 70.46 19.69 9.85 NE97-PC5 614 25485.4 52.84 36.93 10.23 NE97-PC5 641 25600.4 51.59 25.80 22.61 NE97-PC5 661 25685.5 64.13 17.78 18.10 NE97-PC5 681 25770.7 80.06 14.79 5.14 NE97-PC5 701 25992.2 73.82 18.61 7.57 NE97-PC5 721 26259.2 63.84 32.70 3.46 NE97-PC5 741 26526.2 71.43 20.86 7.71 NE97-PC5 761 26793.1 82.20 14.24 3.56 NE97-PC5 792 27207 80.63 15.63 3.75 NE97-PC5 812 27473.9 60.06 30.50 9.43 NE97-PC5 832 27740.9 59.94 39.12 0.95 NE97-PC5 872 28274.8 77.71 14.55 7.74 NE97-PC5 892 28541.8 92.53 4.87 2.60 NE97-PC5 907 28719.5 82.44 13.10 4.46 NE97-PC5 932 28865.4 88.82 8.07 3.11 NE97-PC5 940 28912.1 74.04 20.51 5.45 NE97-PC5 960 29028.8 75.73 19.59 4.68 NE97-PC5 980 29145.5 79.71 18.82 1.47 NE97-PC5 1000 29262.2 81.62 6.85 11.53 NE97-PC5 1020 29378.9 85.39 10.71 3.90 NE97-PC5 1040 29495.6 83.80 8.10 8.10 NE97-PC5 1060 29612.3 80.51 12.14 7.35