# Lake Chacacocha, Peru, Leaf Wax Stable Isotope Data over the last 1800 Years #----------------------------------------------------------------------- # World Data Service for Paleoclimatology, Boulder # and # NOAA Paleoclimatology Program #----------------------------------------------------------------------- # Template Version 4.0 # Encoding: UTF-8 # NOTE: Please cite original publication, NOAA Landing Page URL, dataset and publication DOIs (where available), and date accessed when using downloaded data. # If there is no publication information, please cite investigator, study title, NOAA Landing Page URL, and date accessed. # # Description/Documentation lines begin with '#' followed by a space # Data lines have no '#' # # NOAA_Landing_Page: https://www.ncei.noaa.gov/access/paleo-search/study/41202 # Landing_Page_Description: NOAA Landing Page of this file's parent study, which includes all study metadata. # # Study_Level_JSON_Metadata: https://www.ncei.noaa.gov/pub/data/metadata/published/paleo/json/noaa-recon-41202.json # Study_Level_JSON_Description: JSON metadata of this data file's parent study, which includes all study metadata. # # Data_Type: Paleolimnology # # Dataset_DOI: # # Science_Keywords: drought, monsoon, other hydroclimate reconstruction #--------------------------------------- # Resource_Links # # Data_Download_Resource: https://www.ncei.noaa.gov/pub/data/paleo/paleolimnology/southamerica/peru/sae-lim2025/sae-lim2025-lag1-d2h.txt # Data_Download_Description: NOAA Template File; LAG1 Leaf Wax d2H Data # #--------------------------------------- # Contribution_Date # Date: 2025-04-11 #--------------------------------------- # File_Last_Modified_Date # Date: 2025-04-11 #--------------------------------------- # Title # Study_Name: Lake Chacacocha, Peru, Leaf Wax Stable Isotope Data over the last 1800 Years #--------------------------------------- # Investigators # Investigators: Sae-Lim, Jarunetr (https://orcid.org/0000-0001-7997-4016); Konecky, Bronwen (https://orcid.org/0000-0003-1647-2865); Hutchings, Jack (https://orcid.org/0000-0003-3396-6787); Michelutti, Neal (https://orcid.org/0000-0002-5857-4811); Grooms, Christopher (https://orcid.org/0000-0001-6749-1092); Vuille, Mathias (https://orcid.org/0000-0002-9736-4518); Castañeda, Isla (https://orcid.org/0000-0002-2524-9326); Smol, John (https://orcid.org/0000-0002-2499-6696) #--------------------------------------- # Description_Notes_and_Keywords # Description: # Provided Keywords: Common Era, South American summer monsoon, leaf wax isotopes #--------------------------------------- # Publication # Authors: Sae-Lim, J., Konecky, B.L., Hutchings, J.A., Michelutti, N., Grooms, C., Vuille, M., Castañeda, I.S., and Smol, J.P. # Published_Date_or_Year: 2025 # Published_Title: Biomarker evidence for arid intervals during the past ~1,800 years in the central Andean highlands # Journal_Name: Earth and Planetary Science Letters # Volume: 662 # Edition: # Issue: # Pages: # Report_Number: 119407 # DOI: 10.1016/j.epsl.2025.119407 # Online_Resource: # Full_Citation: # Abstract: The late Holocene behavior of the South American Summer Monsoon (SASM) has been a focal point of studies of oxygen isotope ratios in Andean speleothems and other archives, as they primarily reflect large-scale atmospheric circulation over the South American lowlands rather than localized precipitation vs. evaporation. Consequently, the local effective moisture history throughout the Andes has remained poorly constrained. Here we present ~1800-year plant wax hydrogen (d2Hwax) and carbon (d13Cwax) isotope records from Lake Chacacocha, southeastern Peru. d2Hwax and d13Cwax from terrestrial upland and wetland vegetation allow large-scale atmospheric conditions and local-scale effective moisture to be evaluated side-by-side. In agreement with d18O-based proxies from the region, Chacacocha d2Hwax shows that the SASM was strengthened during the Little Ice Age (LIA). However, our record shows that the SASM began this intensification around 1250 CE, well before the external radiative forcings of the LIA, suggesting that long-term shifts in SASM behavior can be catalyzed by internal drivers e.g., teleconnections with the tropical Pacific. Independent of SASM dynamics, Chacacocha d13Cwax reveals two pronounced, centennial to multi-centennial arid intervals between ca. 450-900 CE and ca. 1640-1850 CE – the latter co-occurring with peak SASM intensity. LIA aridity aligns with nearby evidence for reduced net ice accumulation and glacial retreat from the LIA maximum extent around this time, implying that despite enhanced monsoon activity regionally, reduced effective moisture locally affected the glacial mass balance in southern Peru. Our results help reconcile conflicting interpretations of the SASM, glacial, and high-alpine environmental histories in the Central Andes over the past 1,800 years. #--------------------------------------- # Funding_Agency # Funding_Agency_Name: US National Science Foundation # Grant: EAR (P2C2) 2103081, 2103062, 2103041, AGS (P4CLIMATE) 2402113 #--------------------------------------- # Funding_Agency # Funding_Agency_Name: National Geographic Society # Grant: HJ-097R-17 #--------------------------------------- # Funding_Agency # Funding_Agency_Name: David and Lucile Packard Foundation # Grant: Fellowship #--------------------------------------- # Funding_Agency # Funding_Agency_Name: International Center of Energy, Environment, and Sustainablility (InCEES) at Washington University # Grant: #--------------------------------------- # Site_Information # Site_Name: Lake Chacacocha # Location: Peru # Northernmost_Latitude: -13.96 # Southernmost_Latitude: -13.96 # Easternmost_Longitude: -71.08 # Westernmost_Longitude: -71.08 # Elevation_m: 4860 #--------------------------------------- # Data_Collection # Collection_Name: LAG1 leaf wax d2H Sae-Lim2025 # First_Year: 310 # Last_Year: 2010 # Time_Unit: CE # Core_Length_m: 0.35 # Parameter_Keywords: age control, hydrogen isotopes # Notes: #--------------------------------------- # Chronology_Information # Chronology: # The 14C and 210Pb age controls were originally analyzed and published in Michelutti et al. (2020) J. Paleolimnol (https://doi.org/10.1007/s10933-020-00127-z). # C-14 age controls # lab_code Sample name assigned by 14C laboratory # depth_top Depth top of sample interval (cm) # depth_bottom Depth bottom of sample interval (cm) # depth_mid Mid-depth (cm) # mat.dated Material Dated # age_14C_BP1950 Radiocarbon age (radiocarbon years before 1950 Common Era) # age_14C_1s_yr One standard deviation uncertainty of the radiocarbon age (radiocarbon years) # age_calib_2s_yr Positive and negative two standard deviations uncertainty for calibrated age mean (CE) # age_calib_neg2s_CE Calibrated age at two standard deviations lower (youngest) confidence bound (CE) # age_calib_pos2s_CE Calibrated age at two standard deviations upper (oldest) confidence bound (CE) # prob_area_2s Relative area under the probability distribution of calibrated values that is captured by the reported two standard deviations age range # calib_curve Calibration curve to use for converting radiocarbon years to calendar years # notes Notes # # lab_code depth_top depth_bottom depth_mid mat.dated age_14C_BP1950 age_14C_1s_yr age_calib_2s_yr age_calib_neg2s_CE age_calib_pos2s_CE prob_area_2s calib_curve calib_method notes # UCIAMS #200793 11 11.5 11.25 macrofossil remains 575 20 1411 1394 1437 1 SHCal20 The calibrated age range (2sigma) in Michelutti et al. is 1311-1359 CE (based on IntCal20). NaN # UCIAMS #200794 28 28.5 28.25 macrofossil remains 1470 25 622 588 657 1 SHCal20 The calibrated age range (2sigma) in Michelutti et al. is 553-642 CE (based on IntCal20). NaN # # Excess Pb210 age controls # samp_id Sample identification # depth_top Depth top of sample interval (cm) # depth_bottom Depth bottom of sample interval (cm) # depth_mid Mid-depth (cm) # mat.dated Material Dated # crsyear 210Pb calibrated age based on constant sedimentation model (CE) # crserr 210 Pb age, standard error # note notes # # samp_id depth_top depth_bottom depth_mid mat.dated crsyear crserr note # Top core 0 0 0 bulk sediment 2016.67 0 Core collection year # Pb1 0 0.5 0.25 bulk sediment 2010.4 1.1 # Pb2 0.5 1 0.75 bulk sediment 1995.7 1.6 # Pb3 1 1.5 1.25 bulk sediment 1982.5 2.2 # Pb4 1.5 2 1.75 bulk sediment 1972.3 2.7 # Pb5 2 2.5 2.25 bulk sediment 1961.6 3.4 # Pb6 2.5 3 2.75 bulk sediment 1949.2 4.5 # Pb7 3 3.5 3.25 bulk sediment 1936.7 6.1 # Pb8 3.5 4 3.75 bulk sediment 1919.4 8.8 # Pb9 4 4.5 4.25 bulk sediment 1898 14.3 # # Age-depth model based on 210 Pb and 14C dates # samp_id Sample identification # depth_top Depth top of sample interval (cm) # depth_bottom Depth bottom of sample interval (cm) # depth_mid Mid-depth (cm) # age_model_mean Mean age inferred from an age-depth model (CE) # age_model_min Minimum age inferred from an age-depth model (CE) # age_mode_max Maximum age inferred from an age-depth model (CE) # age_model_median Median age inferred from an age-depth model (CE) # # samp_id depth_top depth_bottom depth_mid age_model_mean age_model_min age_mode_max age_model_median # LAG1-01 0 0.5 0.25 2010 2015 2002 2010 # LAG1-02 0.5 1 0.75 1996 2004 1984 1996 # LAG1-03 1 1.5 1.25 1979 1986 1970 1980 # LAG1-04 1.5 2 1.75 1967 1974 1958 1968 # LAG1-05 2 2.5 2.25 1959 1965 1951 1959 # LAG1-06 2.5 3 2.75 1951 1958 1943 1951 # LAG1-07 3 3.5 3.25 1943 1952 1936 1943 # LAG1-08 3.5 4 3.75 1934 1945 1924 1934 # LAG1-09 4 4.5 4.25 1921 1937 1904 1921 # LAG1-10 4.5 5 4.75 1901 1924 1880 1901 # LAG1-11 5 5.5 5.25 1878 1911 1848 1878 # LAG1-12 5.5 6 5.75 1852 1897 1804 1853 # LAG1-13 6 6.5 6.25 1821 1864 1758 1825 # LAG1-14 6.5 7 6.75 1788 1841 1712 1793 # LAG1-15 7 7.5 7.25 1752 1816 1660 1758 # LAG1-16 7.5 8 7.75 1714 1790 1608 1720 # LAG1-17 8 8.5 8.25 1677 1762 1570 1680 # LAG1-18 8.5 9 8.75 1639 1732 1537 1639 # LAG1-19 9 9.5 9.25 1600 1696 1505 1600 # LAG1-20 9.5 10 9.75 1563 1657 1476 1561 # LAG1-21 10 10.5 10.25 1525 1623 1450 1521 # LAG1-22 10.5 11 10.75 1486 1563 1428 1483 # LAG1-23 11 11.5 11.25 1449 1511 1405 1446 # LAG1-24 11.5 12 11.75 1416 1466 1378 1414 # LAG1-25 12 12.5 12.25 1387 1434 1340 1387 # LAG1-26 12.5 13 12.75 1361 1412 1298 1362 # LAG1-27 13 13.5 13.25 1336 1391 1264 1338 # LAG1-28 13.5 14 13.75 1312 1373 1234 1314 # LAG1-29 14 14.5 14.25 1288 1354 1203 1290 # LAG1-30 14.5 15 14.75 1263 1335 1175 1265 # LAG1-31 15 15.5 15.25 1239 1317 1146 1241 # LAG1-32 15.5 16 15.75 1216 1298 1117 1219 # LAG1-33 16 16.5 16.25 1194 1283 1093 1197 # LAG1-34 16.5 17 16.75 1171 1262 1067 1174 # LAG1-35 17 17.5 17.25 1148 1242 1045 1149 # LAG1-36 17.5 18 17.75 1124 1223 1021 1125 # LAG1-37 18 18.5 18.25 1101 1202 996 1102 # LAG1-38 18.5 19 18.75 1078 1181 973 1078 # LAG1-39 19 19.5 19.25 1055 1161 951 1056 # LAG1-40 19.5 20 19.75 1032 1138 924 1033 # LAG1-41 20 20.5 20.25 1009 1119 898 1009 # LAG1-42 20.5 21 20.75 986 1097 875 985 # LAG1-43 21 21.5 21.25 963 1074 853 962 # LAG1-44 21.5 22 21.75 940 1049 829 940 # LAG1-45 22 22.5 22.25 916 1023 809 916 # LAG1-46 22.5 23 22.75 893 1000 787 893 # LAG1-47 23 23.5 23.25 871 979 765 870 # LAG1-48 23.5 24 23.75 848 954 746 848 # LAG1-49 24 24.5 24.25 825 930 726 823 # LAG1-50 24.5 25 24.75 801 902 706 800 # LAG1-51 25 25.5 25.25 778 875 684 777 # LAG1-52 25.5 26 25.75 754 849 666 754 # LAG1-53 26 26.5 26.25 732 822 643 731 # LAG1-54 26.5 27 26.75 708 793 621 708 # LAG1-55 27 27.5 27.25 684 766 598 684 # LAG1-56 27.5 28 27.75 661 733 579 662 # LAG1-57 28 28.5 28.25 637 698 557 639 # LAG1-58 28.5 29 28.75 613 672 535 616 # LAG1-59 29 29.5 29.25 589 646 508 591 # LAG1-60 29.5 30 29.75 564 623 476 567 # LAG1-61 30 30.5 30.25 539 605 442 543 # LAG1-62 30.5 31 30.75 514 587 408 518 # LAG1-63 31 31.5 31.25 488 569 377 493 # LAG1-64 31.5 32 31.75 463 552 342 469 # LAG1-65 32 32.5 32.25 437 533 307 444 # LAG1-66 32.5 33 32.75 411 514 276 417 # LAG1-67 33 33.5 33.25 385 493 242 391 # LAG1-68 33.5 34 33.75 360 474 207 366 # LAG1-69 34 34.5 34.25 335 454 180 340 # LAG1-70 34.5 35 34.75 310 434 150 315 # #--------------------------------------- # Variables # PaST_Thesaurus_Download_Resource: https://www.ncei.noaa.gov/access/paleo-search/skos/past-thesaurus.rdf # PaST_Thesaurus_Download_Description: Paleoenvironmental Standard Terms (PaST) Thesaurus terms, definitions, and relationships in SKOS format. # # Data variables follow that are preceded by "##" in columns one and two. # Variables list, one per line, shortname-tab-var components: what, material, error, units, seasonality, data type, detail, method, C or N for Character or Numeric data) # ## samp_id sample identification,sediment,,,,paleolimnology,,,C,sample ID ## depth_mid depth,sediment,,centimeter,,paleolimnology,,,N,Mid-depth of sample within section ## age_model_mean age,sediment,,year Common Era,,paleolimnology,,,N,Mean age ## C21_d2H delta 2H,C21 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C21 d2H mean measurement ## C21_d2H_std delta 2H,C21 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C21 d2H instrumental error ## C21_d2H_err delta 2H,C21 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C21 d2H propagated error ## C23_d2H delta 2H,C23 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C23 d2H mean measurement ## C23_d2H_std delta 2H,C23 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C23 d2H instrumental error ## C23_d2H_err delta 2H,C23 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C23 d2H propagated error ## C25_d2H delta 2H,C25 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C25 d2H mean measurement ## C25_d2H_std delta 2H,C25 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C25 d2H instrumental error ## C25_d2H_err delta 2H,C25 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C25 d2H propagated error ## C27_d2H delta 2H,C27 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C27 d2H mean measurement ## C27_d2H_std delta 2H,C27 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C27 d2H instrumental error ## C27_d2H_err delta 2H,C27 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C27 d2H propagated error ## C29_d2H delta 2H,C29 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C29 d2H mean measurement ## C29_d2H_std delta 2H,C29 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C29 d2H instrumental error ## C29_d2H_err delta 2H,C29 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C29 d2H propagated error ## C31_d2H delta 2H,C31 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C31 d2H mean measurement ## C31_d2H_std delta 2H,C31 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C31 d2H instrumental error ## C31_d2H_err delta 2H,C31 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C31 d2H propagated error ## C33_d2H delta 2H,C33 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C33 d2H mean measurement ## C33_d2H_std delta 2H,C33 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C33 d2H instrumental error ## C33_d2H_err delta 2H,C33 n-alkane,,per mil VSMOW,,paleolimnology,,isotope ratio mass spectrometry,N,n-alkane C33 d2H propagated error ## epsilon_d2H delta 2H,n-alkane,,per mil VSMOW,,paleolimnology,,,N,H fractionation between wetland plants (n-C25 and n-C27) and upland plants (n-C31 and n-C33) ## epsilon_d2H_err delta 2H,n-alkane,unspecified error,per mil VSMOW,,paleolimnology,,,N,Propagated error associated with epsilon #------------------------ # Data: # Data lines follow (have no #) # Data line format - tab-delimited text, variable short name as header # Missing_Values: -999 samp_id depth_mid age_model_mean C21_d2H C21_d2H_std C21_d2H_err C23_d2H C23_d2H_std C23_d2H_err C25_d2H C25_d2H_std C25_d2H_err C27_d2H C27_d2H_std C27_d2H_err C29_d2H C29_d2H_std C29_d2H_err C31_d2H C31_d2H_std C31_d2H_err C33_d2H C33_d2H_std C33_d2H_err epsilon_d2H epsilon_d2H_err LAG1-01 0.25 2010 -999 -999 -999 -195.75 0.15 4.8 -999 -999 -999 -212.3 0 4.8 -235.1 0.2 4.8 -244.05 0.05 4.8 -238.9 0 4.8 29.175 11.59 LAG1-02 0.75 1996 -999 -999 -999 -206.9 0 4.8 -209.08 1.91 4.84 -194.35 0.46 4.47 -210.13 0.33 4.46 -224.33 1 4.56 -230.58 2.75 5.23 25.74 13.53 LAG1-03 1.25 1979 -261 0.2 4.1 -240.1 0.5 4.13 -237.05 0.65 4.15 -224.35 0.65 4.15 -229.6 0.4 4.12 -237.55 0.75 4.17 -246.45 0.75 4.17 11.3 11.77 LAG1-04 1.75 1967 -999 -999 -999 -999 -999 -999 -227.1 1.8 4.48 -215.9 0.1 4.1 -226.3 0.1 4.1 -236.65 0.65 4.15 -241.25 0.15 4.1 17.45 11.91 LAG1-05 2.25 1959 -999 -999 -999 -999 -999 -999 -999 -999 -999 -213.7 3.7 5.71 -232.82 3.23 5.3 -243.33 1.76 4.56 -236.25 6.65 7.94 26.09 14.87 LAG1-06 2.75 1951 -999 -999 -999 -225.6 1.8 4.3 -232.5 0.4 3.92 -221.15 0.95 4.01 -230.55 0.05 3.9 -240.1 0.2 3.91 -244.5 1.1 4.05 15.475 11.24 LAG1-07 3.25 1943 -266.9 0.2 4.1 -234.35 0.15 4.1 -222.88 1.18 4.31 -210.45 0.55 4.14 -222.55 1.16 4.31 -234.13 1.24 4.33 -999 -999 -999 17.465 10.31 LAG1-08 3.75 1934 -999 -999 -999 -216.75 1.35 3.94 -222.9 0.2 3.71 -213.65 0.85 3.8 -229.2 0.4 3.72 -241.1 1 3.83 -244.95 2.65 4.55 24.75 11.26 LAG1-09 4.25 1921 -238.3 1.2 5.04 -226.57 0.86 4.65 -227.63 2.12 5 -212.44 1.42 4.87 -228.1 2.25 5.06 -238.63 0.5 4.88 -242.28 1.91 4.92 20.42 13.91 LAG1-10 4.75 1901 -999 -999 -999 -222.1 0.2 4.1 -221.2 0.6 4.14 -212.65 0.55 4.14 -229.9 0.1 4.1 -241.7 1 4.22 -248.2 0.1 4.1 28.025 11.74 LAG1-11 5.25 1878 -253.55 1.15 4.26 -233.6 2.4 4.75 -223.15 1.25 4.29 -209.3 0.1 4.1 -225.65 0.15 4.1 -238.1 0.3 4.11 -246.95 0.55 4.14 26.3 11.77 LAG1-12 5.75 1852 -999 -999 -999 -218.88 6.12 7.45 -220.13 0.41 4.27 -207.3 1 4.37 -229.88 0.88 4.34 -243.53 1.92 4.66 -247.23 2.93 5.16 31.665 13.06 LAG1-13 6.25 1821 -999 -999 -999 -999 -999 -999 -999 -999 -999 -189.72 5.09 6.6 -222.1 4.25 5.97 -240.43 3.27 5.32 -999 -999 -999 50.71 11.92 LAG1-14 6.75 1788 -999 -999 -999 -221.38 5.83 7.33 -223.18 0.63 4.49 -208.75 1.25 4.62 -234.35 0.85 4.53 -248.25 1.4 4.67 -251.53 3.91 5.93 33.925 13.99 LAG1-15 7.25 1752 -999 -999 -999 -212.95 1.65 4.23 -219.4 0.9 4 -205.6 0 3.9 -231.1 0.6 3.95 -241.95 0.85 3.99 -247.9 0.3 3.91 32.425 11.17 LAG1-16 7.75 1714 -999 -999 -999 -217.9 0.4 4.12 -221.18 1.58 4.44 -211.85 1.01 4.27 -233.2 0.46 4.18 -245.68 1.49 4.41 -250.83 1.29 4.35 31.74 12.35 LAG1-17 8.25 1677 -247.05 0.05 3.4 -232.73 2.2 4.48 -231.63 1.15 3.97 -221.78 1.58 4.07 -234.15 1.1 3.96 -242.73 2.55 4.66 -247.28 0.6 3.89 18.3 11.76 LAG1-18 8.75 1639 -999 -999 -999 -229.35 1.35 4.13 -229.65 0.35 3.92 -221.25 0.05 3.9 -233.2 1.1 4.05 -241.7 0 3.9 -244.4 0.8 3.98 17.6 11.1 LAG1-19 9.25 1600 -251.1 0 4.5 -999 -999 -999 -221.4 0 4.9 -212.1 1.6 5.15 -230.65 1.21 4.56 -244.78 0.79 4.47 -234.05 1.55 4.76 22.665 13.64 LAG1-20 9.75 1563 -999 -999 -999 -221.15 0.75 3.78 -230.3 1.1 3.86 -221.05 0.75 3.78 -234.4 0.1 3.7 -246.6 0.8 3.79 -250.5 0.5 3.73 22.875 10.72 LAG1-21 10.25 1525 -999 -999 -999 -208.25 0.25 4.11 -218.15 0.45 4.12 -209.95 0.05 4.1 -232.7 0.5 4.13 -243.5 0 4.1 -247.6 0.2 4.1 31.5 11.61 LAG1-22 10.75 1486 -243.7 0 4.5 -224.4 5.2 6.78 -216.75 2.65 5.22 -219.5 5.85 7.2 -238.7 0.75 3.73 -244.4 1.62 4.27 -242.5 0 4.5 25.325 15.1 LAG1-23 11.25 1449 -248.1 0.7 4.16 -223.15 0.05 4.1 -222.2 0.3 4.11 -218.9 0.2 4.1 -230.05 0.15 4.1 -239.55 0.25 4.11 -246.6 0.6 4.14 22.525 11.64 LAG1-24 11.75 1416 -999 -999 -999 -216.6 0.4 4.12 -229.75 1.05 4.23 -224.6 0.5 4.13 -235.55 0.55 4.14 -244.55 1.15 4.26 -249.45 1.35 4.32 19.825 11.98 LAG1-25 12.25 1387 -258.45 0.35 4.11 -228.85 2.84 4.9 -228.85 2.05 4.49 -221.33 1.28 4.2 -231.25 1.61 4.31 -239.88 0.81 4.08 -245.83 1.72 4.35 17.765 12.11 LAG1-26 12.75 1361 -244.15 2.05 5.87 -232.1 2.57 4.48 -229.28 0.47 3.83 -221.5 0.4 3.42 -232.83 1.06 3.95 -241.35 1.08 3.95 -242.23 2.78 4.6 16.4 11.2 LAG1-27 13.25 1336 -999 -999 -999 -224.05 2.15 4.45 -225.55 0.75 3.97 -220.75 0.65 3.95 -232.65 0.15 3.9 -241.35 0.95 4.01 -244.75 2.05 4.41 19.9 11.56 LAG1-28 13.75 1312 -238.1 0 3.4 -230.58 2.98 4.82 -226.22 2.1 4.34 -219.48 3.19 4.96 -233.25 1.53 4.1 -242.62 1.85 4.23 -245.72 2.13 4.36 21.32 12.67 LAG1-29 14.25 1288 -999 -999 -999 -222.85 0.45 4.12 -232.85 1.05 4.23 -221.15 0.25 4.11 -236.7 0.2 4.1 -245.6 0.4 4.12 -252.05 1.65 4.42 21.825 11.94 LAG1-30 14.75 1263 -999 -999 -999 -227 0.5 4.13 -225.85 0.65 4.15 -220.4 0.7 4.16 -234.2 0.4 4.12 -241.6 0.8 4.18 -246.2 0 4.1 20.775 11.73 LAG1-31 15.25 1239 -999 -999 -999 -218.55 0.05 3.7 -220.15 0.35 3.72 -211 1.1 3.86 -228.65 0.75 3.78 -238.85 1.65 4.05 -999 -999 -999 23.275 9.41 LAG1-32 15.75 1216 -999 -999 -999 -219.8 0.3 4.11 -225.75 0.05 4.1 -220.5 0.3 4.11 -235.2 0.5 4.13 -242.4 0.6 4.14 -246.35 1.95 4.54 21.25 11.95 LAG1-33 16.25 1194 -206.5 0.19 4.25 -216.98 2.22 4.99 -217.17 1.46 4.7 -209.32 2.13 4.95 -225.75 2.2 5.15 -237.73 1.98 4.89 -239.9 1.26 4.43 25.57 13.42 LAG1-34 16.75 1171 -229.4 0.2 3.41 -226.7 0.6 3.45 -228.05 0.7 3.86 -218.6 0.3 3.41 -229.86 0.51 3.85 -237.61 1 4.56 -241.3 2.48 4.54 16.13 11.59 LAG1-35 17.25 1148 -999 -999 -999 -224.2 0.6 3.95 -223.15 0.35 3.92 -216.6 1.1 4.05 -228.6 1 4.03 -238.05 0.45 3.93 -243.25 0.55 3.94 20.775 11.2 LAG1-36 17.75 1124 -999 -999 -999 -224.65 1.05 4.04 -220.3 0.2 3.91 -215.3 0.4 3.92 -229.2 0.1 3.9 -236.15 0.05 3.9 -240.5 0.9 4 20.525 11.12 LAG1-37 18.25 1101 -238.5 0 4.9 -228.3 0 4.9 -219.7 0 4.9 -214.1 0 4.9 -228.23 1.1 4.96 -236.53 1.68 5.12 -240 0 4.9 21.365 14.02 LAG1-38 18.75 1078 -246.85 0.15 4.5 -218.2 1 4.61 -215.2 3.84 5.8 -210.08 3.04 5.3 -228.48 1.28 4.54 -237.4 0.5 4.38 -239.8 1.07 4.48 25.96 14.12 LAG1-39 19.25 1055 -999 -999 -999 -209.7 0.4 3.72 -214.5 1.2 3.89 -211.15 0.75 3.78 -227 0.7 3.77 -235.45 0.55 3.74 -239.7 0 3.7 24.75 10.69 LAG1-40 19.75 1032 -243.9 0 4.5 -228 0.5 4.53 -219.15 0.05 4.5 -211.35 0.35 4.51 -227.25 0.85 4.58 -236.45 0.45 4.52 -236.95 0.55 4.53 21.45 12.77 LAG1-41 20.25 1009 -999 -999 -999 -228.95 0.35 4.11 -224 0.1 4.1 -216.15 1.15 4.26 -232.05 0.35 4.11 -239.5 0.2 4.1 -999 -999 -999 19.425 10.01 LAG1-42 20.75 986 -999 -999 -999 -219.95 0.25 3.91 -221.1 1 4.03 -213.85 0.25 3.91 -228.1 0.1 3.9 -239.8 0.8 3.98 -239.4 1.2 4.08 22.125 11.31 LAG1-43 21.25 963 -230.6 0.1 4.5 -227.6 0.3 4.51 -222.1 0.7 4.55 -214.2 0.7 4.55 -230.1 0.2 4.5 -240.2 0.3 4.51 -240.15 0.85 4.58 22.025 12.86 LAG1-44 21.75 940 -226.75 0.75 4.56 -222.55 0.05 4.5 -221.8 0.1 4.5 -214.5 0.3 4.51 -231.35 0.15 4.5 -239.9 0.4 4.52 -240.05 0.15 4.5 21.825 12.75 LAG1-45 22.25 916 -999 -999 -999 -210.25 0.85 3.8 -218.9 0.5 3.73 -212.95 0.45 3.73 -227.6 0.4 3.72 -237.35 0.35 3.72 -242.2 0 3.7 23.85 10.52 LAG1-46 22.75 893 -233.65 0.55 4.53 -225.98 4.76 6.65 -225.33 2.97 5.52 -214.45 3.09 5.58 -228.58 0.8 4.72 -236.95 0.59 4.69 -235.85 0.95 4.6 16.51 14.42 LAG1-47 23.25 871 -999 -999 -999 -221 0.7 3.96 -226.95 0.55 3.94 -216.55 0.75 3.97 -231.25 0.45 3.93 -245.6 0.1 3.9 -999 -999 -999 23.85 9.49 LAG1-48 23.75 848 -999 -999 -999 -220.85 0.15 4.1 -225.3 1.2 4.27 -217.95 0.95 4.21 -232.85 0.85 4.19 -239.8 1.4 4.33 -240.7 0 4.1 18.625 11.96 LAG1-49 24.25 825 -213.65 0.35 4.91 -225.95 0.45 4.92 -225.95 1.35 5.08 -216.05 0.65 4.94 -223.1 0.3 4.91 -232.15 0.05 4.9 -999 -999 -999 11.15 11.99 LAG1-50 24.75 801 -999 -999 -999 -223.4 2.9 4.98 -222.98 1.02 4.18 -211.95 1.05 4.04 -227.38 0.73 4.12 -235.58 1.15 4.21 -238.38 5.2 6.59 19.515 13.63 LAG1-51 25.25 778 -999 -999 -999 -211.9 1 4.12 -219.65 0.25 4.01 -212.85 0.15 4 -229.8 0.5 4.03 -235.5 0.3 4.01 -240.55 0.35 4.02 21.775 11.34 LAG1-52 25.75 754 -999 -999 -999 -208.2 0.9 4.1 -229.15 0.05 4 -218.3 0.9 4.1 -229.4 0.6 4.04 -240.5 1 4.12 -999 -999 -999 16.775 9.85 LAG1-53 26.25 732 -999 -999 -999 -228.88 1.39 4.57 -227.53 0.8 4.42 -210.5 3.25 5.43 -228.6 0.41 4.37 -242.1 3.96 5.89 -229.95 1.05 4.91 17.01 14.67 LAG1-54 26.75 708 -999 -999 -999 -217.55 0.25 3.91 -215.55 1.35 4.13 -208.8 0.4 3.92 -228.25 0.75 3.97 -238.55 0.75 3.97 -242.25 1.25 4.1 28.225 11.4 LAG1-55 27.25 684 -999 -999 -999 -206.4 0 4 -216.35 0.75 4.07 -207.55 0.55 4.04 -227.65 0.35 4.02 -237.05 0.55 4.04 -999 -999 -999 25.1 9.77 LAG1-56 27.75 661 -219.05 1.85 5.8 -223.33 0.95 5.58 -220.47 1.36 5.66 -209.57 0.66 5.54 -230.8 0.4 3.92 -236.14 2.57 5.5 -999 -999 -999 21.12 13.42 LAG1-57 28.25 637 -999 -999 -999 -210.75 1.15 4.07 -217.05 0.85 3.99 -202.4 1.3 4.11 -222.8 0.9 4 -237.55 0.15 3.9 -244.45 0.65 3.95 31.275 11.28 LAG1-58 28.75 613 -999 -999 -999 -226.9 0.3 3.41 -225.95 1.25 3.62 -221.35 0.75 3.48 -232.15 0.05 3.4 -239.1 0.3 3.41 -999 -999 -999 15.45 8.43 LAG1-59 29.25 589 -999 -999 -999 -192.4 0.2 4 -215.45 1.15 4.16 -207.45 0.05 4 -226.45 0.45 4.03 -236.9 0.2 4 -999 -999 -999 25.45 9.77 LAG1-60 29.75 564 -999 -999 -999 -208.5 0 3.9 -213.35 0.65 3.95 -206.35 0.45 3.93 -225.85 0.05 3.9 -235.95 0.85 3.99 -236.95 0.85 3.99 26.6 11.21 LAG1-61 30.25 539 -999 -999 -999 -999 -999 -999 -999 -999 -999 -211.1 0 4.9 -219.15 1.55 5.14 -228 0 4.9 -999 -999 -999 16.9 9.8 LAG1-62 30.75 514 -999 -999 -999 -200.4 0 4 -215.4 0.6 4.04 -207.3 0.9 4.1 -225.5 0.3 4.01 -234.6 1.1 4.15 -999 -999 -999 23.25 9.91 LAG1-63 31.25 488 -207.65 0.65 4.45 -212.25 1.52 4.89 -216.38 0.91 4.74 -212.25 1.19 4.59 -226.52 2.23 4.96 -236.28 1.2 4.59 -237.4 2.2 4.92 22.525 13.33 LAG1-64 31.75 463 -999 -999 -999 -217.05 1.05 4.04 -225.65 0.35 3.92 -215 0.2 3.91 -229 0.9 4 -240.1 0.4 3.92 -999 -999 -999 19.775 9.46 LAG1-65 32.25 437 -999 -999 -999 -206.5 1.6 4.31 -218.35 1.35 4.22 -211.4 0.7 4.06 -228.05 0.35 4.02 -235.1 0.2 4 -999 -999 -999 20.225 9.86 LAG1-66 32.75 411 -999 -999 -999 -216.2 1 3.83 -222.75 0.75 3.78 -220.45 1.55 4.01 -231.6 0.4 3.72 -237.95 0.05 3.7 -242.6 0 3.7 18.675 10.74 LAG1-67 33.25 385 -999 -999 -999 -206.35 0.05 4 -218.5 2 4.47 -212.9 0.2 4 -230.55 0.25 4.01 -238.05 0.05 4 -999 -999 -999 22.35 10 LAG1-68 33.75 360 -999 -999 -999 -208.3 0 4 -215.5 0.2 4 -209.9 1.1 4.15 -226.65 0.15 4 -235.15 0.45 4.03 -999 -999 -999 22.45 9.79 LAG1-69 34.25 335 -999 -999 -999 -216.35 0.05 3.9 -212.7 0.2 3.91 -205.9 0.2 3.91 -226.65 0.35 3.92 -239.3 1 4.03 -237.4 0.5 3.93 29.05 11.16 LAG1-70 34.75 310 -999 -999 -999 -201.75 0.25 3.71 -208.45 0.55 3.74 -202.55 0.95 3.82 -221.45 0.05 3.7 -231.85 0.55 3.74 -236.2 0 3.7 28.525 10.61