# Duckhole Lake, Tasmania 950 Year Sediment Reflectance and Temperature Reconstruction #----------------------------------------------------------------------- # World Data Service for Paleoclimatology, Boulder # and # NOAA Paleoclimatology Program # National Centers for Environmental Information (NCEI) #----------------------------------------------------------------------- # Template Version 2.0 # NOTE: Please cite original publication, online resource and date accessed when using this data. # If there is no publication information, please cite Investigator, title, online resource and date accessed. # # Description/Documentation lines begin with # # Data lines have no # # # Online_Resource: http://www.ncdc.noaa.gov/paleo/study/20452 # Online_Resource: http://www1.ncdc.noaa.gov/pub/data/paleo/paleolimnology/australia/duckhole2013temp.txt # # Archive: Paleolimnology # # Parameter_Keywords: physical properties, reconstruction #--------------------------------------- # Contribution_Date # Date: 2016-09-01 #--------------------------------------- # Title # Study_Name: Duckhole Lake, Tasmania 950 Year Sediment Reflectance and Temperature Reconstruction #--------------------------------------- # Investigators # Investigators: Saunders, K.M.; Grosjean, M.; Hodgson, D.A. #--------------------------------------- # Description and Notes # Description: Sediment reflectance data (650-700 nm trough, a proxy for Total chlorin) and temperature reconstruction # for the past 950 years from Duckhole Lake, southern Tasmania, Australia. Note: The R value included here is -0.56, # not +0.56 as originally published. This takes into account the published erratum: # Saunders, Krystyna M; Grosjean, Martin; Hodgson, Dominic A (2016) Erratum. The Holocene 26(5) 830 # Provided Keywords: temperature, Tasmania, reconstruction, lake sediment #--------------------------------------- # Publication # Authors: KM Saunders, M Grosjean, DA Hodgson # Published_Date_or_Year: 2013-06-01 # Published_Title: A 950 yr temperature reconstruction from Duckhole Lake, southern Tasmania, Australia # Journal_Name: The Holocene # Volume: 23 # Edition: # Issue: 6 # Pages: 771-783 # Report Number: # DOI: 10.1177/0959683612470176 # Online_Resource: http://hol.sagepub.com/content/23/6/771.abstract # Full_Citation: # Abstract: A lack of quantitative high resolution paleoclimate data from the Southern Hemisphere limits the ability to examine current trends within the context of long-term natural climate variability. This study presents a temperature reconstruction for southern Tasmania based on analyses of a sediment core from Duckhole Lake (43.365S, 146.875E). The relationship between non-destructive whole core scanning reflectance spectroscopy measurements in the visible spectrum (380-730 nm) and the instrumental temperature record (ad 1911-2000) was used to develop a calibration-in-time reflectance spectroscopy-based temperature model. Results showed that a trough in reflectance from 650 to 700 nm, which represents chlorophyll and its derivatives, was significantly correlated to annual mean temperature. A calibration model was developed (R = -0.56, p auto < 0.05, root mean squared error of prediction (RMSEP) = 0.21C, five-year filtered data, calibration period 1911-2000) and applied down-core to reconstruct annual mean temperatures in southern Tasmania over the last c. 950 years. This indicated that temperatures were initially cool c. ad 1050, but steadily increased until the late ad 1100s. After a brief cool period in the ad 1200s, temperatures again increased. Temperatures steadily decreased during the ad 1600s and remained relatively stable until the start of the 20th century when they rapidly decreased, before increasing from ad 1960s onwards. Comparisons with high resolution temperature records from western Tasmania, New Zealand and South America revealed some similarities, but also highlighted differences in temperature variability across the mid-latitudes of the Southern Hemisphere. These are likely due to a combination of factors including the spatial variability in climate between and within regions, and differences between records that document seasonal (i.e. warm season/late summer) versus annual temperature variability. This highlights the need for further records from the mid-latitudes of the Southern Hemisphere in order to constrain past natural spatial and seasonal/annual temperature variability in the region, and to accurately identify and attribute changes to natural variability and/or anthropogenic activities. #--------------------------------------- # Funding_Agency # Funding_Agency_Name: European Union # Grant: Marie Curie International Incoming Fellowship #--------------------------------------- # Site Information # Site_Name: Duckhole Lake # Location: Australia/New Zealand>Australia # Country: Australia # Northernmost_Latitude: -43.3647 # Southernmost_Latitude: -43.3647 # Easternmost_Longitude: 146.875 # Westernmost_Longitude: 146.875 # Elevation: 159 m #--------------------------------------- # Data_Collection # Collection_Name: Duckhole2013temp # First_Year: 1067 # Last_Year: 2004 # Time_Unit: AD # Core_Length: 89.5 cm # Notes: #--------------------------------------- # Chronology_Information # Chronology: # # Labcode DH210-1 DH210-2 DH210-3 DH210-4 DH210-5 DH210-6 DH210-7 DH210-8 DH210-9 DH210-10 Poz-31867 Beta-298036 Poz-34649 Poz-34652 Poz-31868 # depth_top (mm) 0 0.2 0.5 2 3.5 4.5 5.5 6.5 7.5 9.5 265 47 55.4 79.5 89 # depth_bottom (mm) 0.2 0.5 1 2.5 4 5 6 7 8 10 25.5 472 559 805 900 # mat.dated Sediment Sediment Sediment Sediment Sediment Sediment Sediment Sediment Sediment Sediment terrestrial plant macrofossil terrestrial plant macrofossil terrestrial plant macrofossil terrestrial plant macrofossil terrestrial plant macrofossil # 14C.raw 145 270 425 665 990 # 14C.raw_err 30 30 30 30 40 # datemeth 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 210Pb (alpha spectroscopy) 14C (AMS) 14C (AMS) 14C (AMS) 14C (AMS) 14C (AMS) # reservoir 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 # delta-R # delta-R_err_lo # delta-R_err_up # calib.14C 2006.574573 2002.249693 1995.926568 1985.267833 1972.071124 1964 1959.282209 1954.529834 1951.428926 1945.078688 # calib.14C_1sig_lo # calib.14C_1sig_up # calib.14C_2sig_lo 2005.14 2000.39 1993.24 1980.85 1964.83 1955.41 1949.74 1944.05 1940.65 1933.17 # calib.14C_2sig_up 2008.01 2004.11 1998.61 1989.69 1979.31 1972.59 1968.83 1965.00 1962.21 1956.99 # calib_method NA NA NA NA NA NA NA NA NA NA ShCal04 ShCal04 ShCal04 ShCal04 ShCal04 # rejected No No No No No No No No No No No No No No No # # # Raw 210Pb data # depth_top cm # depth_bot cm # cum.dry.mass gcm-2 # Total 210Pb and err BqKg-1 # Ra226 BqKg-1 # Unsupported 210Pb and err BqKg-1 # Ages based on years before 2009 (year of core collection) # age_lo years # age_up years # # Labcode depth_top depth_bottom mat.dated cum.dry.mass Total.Pb210 Total.Pb210_err Ra226 Ra226_err Unsupported.Pb210 Unsupported.Pb210_err age_lo age_high rejected # DH-09-01(2) 0 0.2 bulk sediment 0.07 37.90 2.58 7.91 1.43 29.99 2.95 0.99 3.86 no # DH-09-01(X) 0.2 0.5 bulk sediment 0.20 33.97 2.75 7.91 1.43 26.06 3.10 4.89 8.61 no # DH-09-01(3) 0.5 1 bulk sediment 0.39 28.31 2.30 7.91 1.43 20.40 2.71 10.39 15.76 no # DH-09-01(6) 2 2.5 bulk sediment 0.79 15.75 1.98 7.91 1.43 7.84 2.45 19.31 28.15 no # DH-09-01(9) 3.5 4 bulk sediment 1.37 16.91 1.86 7.91 1.43 9.00 2.35 29.69 44.17 no # DH-09-01(11) 4.5 5 bulk sediment 1.76 9.60 1.45 7.91 1.43 1.70 2.04 36.41 53.59 no # DH-09-01(13) 5.5 6 bulk sediment 2.14 11.56 1.52 7.91 1.43 3.65 2.09 40.17 59.26 no # DH-09-01(15) 6.5 7 bulk sediment 2.49 9.32 1.70 7.91 1.43 1.41 2.22 44.00 64.95 no # DH-09-01(17) 7.5 8 bulk sediment 2.86 9.25 1.67 7.91 1.43 1.34 2.20 46.79 68.35 no # DH-09-01(21) 9.5 10 bulk sediment 3.64 8.90 1.40 7.91 1.43 0.99 2.00 52.01 75.83 no # DH-09-01(22) 10 10.5 bulk sediment 3.78 6.27 1.32 7.91 1.43 -1.64 1.95 yes # DH-09-01(23) 10.5 11 bulk sediment 3.95 8.19 1.52 7.91 1.43 0.28 2.09 yes # DH-09-0124) 11 11.5 bulk sediment 4.09 7.83 1.44 7.91 1.43 -0.08 2.03 yes # # #--------------------------------------- # Variables # Data variables follow that are preceded by "##" in columns one and two. # Variables list, one per line, shortname-tab-longname components (9 components: what, material, error, units, seasonality, archive, detail, method, C or N for Character or Numeric data) # ## age_AD age, , , AD, , , , ,N ## temp-ann surface temperature, , , deg C, Annual, climate reconstruction, 5yr filtered, calibrated model: R=-0.56 pauto<0.05 0.21C root mean squared error,N # #------------------------ # Data # Data lines follow (have no #) # Data line format - tab-delimited text, variable short name as header # Missing Value: # age_AD temp-ann 2004 12.1 2003 12.1 2002 12.1 2001 12.1 2000 12.1 1999 12.1 1998 12.0 1997 11.9 1996 11.8 1995 11.7 1994 11.7 1993 11.7 1992 11.8 1991 11.9 1990 11.9 1989 11.8 1988 11.7 1987 11.5 1986 11.5 1985 11.4 1984 11.4 1983 11.4 1982 11.5 1981 11.5 1980 11.6 1979 11.6 1978 11.6 1977 11.6 1976 11.6 1975 11.6 1974 11.6 1973 11.6 1972 11.6 1971 11.6 1970 11.5 1969 11.5 1968 11.4 1967 11.4 1966 11.4 1965 11.4 1964 11.4 1963 11.4 1962 11.4 1961 11.4 1960 11.4 1959 11.4 1958 11.3 1957 11.3 1956 11.2 1955 11.1 1954 11.0 1953 10.9 1952 10.9 1951 10.9 1950 10.9 1949 10.9 1948 10.9 1947 10.9 1946 10.8 1945 10.7 1944 10.7 1943 10.7 1942 10.7 1941 10.7 1940 10.8 1939 11.0 1938 11.1 1937 11.2 1936 11.2 1935 11.3 1934 11.3 1933 11.4 1932 11.3 1931 11.3 1930 11.2 1929 11.1 1928 11.0 1927 11.0 1926 11.0 1925 11.0 1924 11.0 1923 11.0 1922 11.1 1921 11.2 1920 11.2 1919 11.3 1918 11.3 1917 11.3 1916 11.3 1915 11.3 1914 11.3 1913 11.4 1912 11.4 1911 11.5 1910 11.6 1909 11.6 1908 11.7 1907 11.7 1906 11.7 1905 11.7 1904 11.7 1903 11.7 1902 11.7 1901 11.8 1900 11.8 1899 11.8 1898 11.8 1897 11.8 1896 11.8 1895 11.9 1894 11.9 1893 12.0 1892 12.0 1891 12.1 1890 12.1 1889 12.1 1888 12.1 1887 12.1 1886 12.1 1885 12.1 1884 12.1 1883 12.2 1882 12.2 1881 12.1 1880 12.1 1879 12.1 1878 12.0 1877 12.0 1876 11.9 1875 11.9 1874 11.9 1873 11.9 1872 11.9 1871 11.9 1870 11.9 1869 12.0 1868 12.0 1867 12.1 1866 12.1 1865 12.0 1864 12.0 1863 12.0 1862 12.1 1861 12.1 1860 12.1 1859 12.0 1858 12.0 1857 11.9 1856 11.9 1855 11.8 1854 11.7 1853 11.6 1852 11.5 1851 11.6 1850 11.7 1849 11.8 1848 11.8 1847 11.8 1846 11.8 1845 11.8 1844 11.8 1843 11.8 1842 11.7 1841 11.8 1840 11.8 1839 11.9 1838 12.0 1837 12.0 1836 12.0 1835 12.0 1834 12.1 1833 12.1 1832 12.2 1831 12.2 1830 12.2 1829 12.1 1828 12.1 1827 12.0 1826 12.1 1825 12.1 1824 12.1 1823 12.0 1822 11.9 1821 11.8 1820 11.9 1819 11.9 1818 12.0 1817 12.0 1816 12.0 1815 12.0 1814 12.0 1813 12.1 1812 12.1 1811 12.1 1810 12.2 1809 12.3 1808 12.4 1807 12.5 1806 12.5 1805 12.4 1804 12.2 1803 12.1 1802 12.0 1801 12.0 1800 11.9 1799 11.9 1798 11.9 1797 11.9 1796 11.9 1795 12.0 1794 12.0 1793 12.1 1792 12.1 1791 12.1 1790 12.1 1789 12.0 1788 12.1 1787 12.1 1786 12.2 1785 12.2 1784 12.2 1783 12.2 1782 12.3 1781 12.4 1780 12.5 1779 12.5 1778 12.5 1777 12.5 1776 12.4 1775 12.4 1774 12.4 1773 12.3 1772 12.3 1771 12.2 1770 12.2 1769 12.1 1768 12.1 1767 12.1 1766 12.0 1765 12.0 1764 12.0 1763 11.9 1762 11.9 1761 11.9 1760 12.0 1759 12.0 1758 12.0 1757 12.0 1756 12.1 1755 12.1 1754 12.0 1753 12.0 1752 11.9 1751 12.0 1750 12.0 1749 12.0 1748 11.9 1747 11.9 1746 11.9 1745 11.9 1744 11.8 1743 11.8 1742 11.9 1741 12.0 1740 12.0 1739 12.0 1738 12.1 1737 12.1 1736 12.1 1735 12.0 1734 11.9 1733 11.8 1732 11.8 1731 11.8 1730 11.7 1729 11.5 1728 11.4 1727 11.3 1726 11.2 1725 11.0 1724 10.9 1723 11.0 1722 11.2 1721 11.4 1720 11.4 1719 11.4 1718 11.4 1717 11.5 1716 11.5 1715 11.5 1714 11.5 1713 11.5 1712 11.5 1711 11.5 1710 11.6 1709 11.6 1708 11.6 1707 11.6 1706 11.6 1705 11.5 1704 11.5 1703 11.4 1702 11.4 1701 11.5 1700 11.5 1699 11.6 1698 11.6 1697 11.6 1696 11.5 1695 11.4 1694 11.4 1693 11.4 1692 11.4 1691 11.4 1690 11.5 1689 11.5 1688 11.6 1687 11.7 1686 11.7 1685 11.8 1684 11.7 1683 11.7 1682 11.6 1681 11.6 1680 11.5 1679 11.5 1678 11.5 1677 11.5 1676 11.6 1675 11.6 1674 11.7 1673 11.7 1672 11.7 1671 11.8 1670 11.8 1669 11.7 1668 11.7 1667 11.7 1666 11.7 1665 11.6 1664 11.6 1663 11.6 1662 11.6 1661 11.6 1660 11.6 1659 11.7 1658 11.7 1657 11.7 1656 11.6 1655 11.6 1654 11.7 1653 11.7 1652 11.8 1651 11.9 1650 11.9 1649 11.9 1648 11.9 1647 11.9 1646 11.9 1645 11.9 1644 12.0 1643 12.1 1642 12.1 1641 12.2 1640 12.3 1639 12.3 1638 12.4 1637 12.4 1636 12.4 1635 12.4 1634 12.4 1633 12.4 1632 12.4 1631 12.4 1630 12.4 1629 12.5 1628 12.5 1627 12.5 1626 12.6 1625 12.6 1624 12.6 1623 12.6 1622 12.6 1621 12.6 1620 12.6 1619 12.6 1618 12.6 1617 12.6 1616 12.6 1615 12.6 1614 12.6 1613 12.6 1612 12.6 1611 12.6 1610 12.6 1609 12.6 1608 12.6 1607 12.6 1606 12.6 1605 12.6 1604 12.6 1603 12.7 1602 12.7 1601 12.8 1600 12.9 1599 12.9 1598 12.9 1597 12.9 1596 12.9 1595 12.8 1594 12.8 1593 12.8 1592 12.8 1591 12.8 1590 12.8 1589 12.8 1588 12.8 1587 12.8 1586 12.8 1585 12.8 1584 12.8 1583 12.7 1582 12.7 1581 12.7 1580 12.7 1579 12.7 1578 12.7 1577 12.7 1576 12.7 1575 12.7 1574 12.7 1573 12.7 1572 12.7 1571 12.7 1570 12.7 1569 12.7 1568 12.7 1567 12.7 1566 12.7 1565 12.6 1564 12.6 1563 12.6 1562 12.6 1561 12.6 1560 12.6 1559 12.6 1558 12.6 1557 12.6 1556 12.6 1555 12.6 1554 12.6 1553 12.6 1552 12.6 1551 12.6 1550 12.6 1549 12.6 1548 12.5 1547 12.5 1546 12.5 1545 12.5 1544 12.5 1543 12.5 1542 12.5 1541 12.5 1540 12.5 1539 12.5 1538 12.5 1537 12.5 1536 12.5 1535 12.5 1534 12.5 1533 12.5 1532 12.5 1531 12.4 1530 12.4 1529 12.4 1528 12.4 1527 12.4 1526 12.4 1525 12.4 1524 12.4 1523 12.4 1522 12.4 1521 12.4 1520 12.4 1519 12.4 1518 12.4 1517 12.4 1516 12.4 1515 12.4 1514 12.4 1513 12.3 1512 12.3 1511 12.3 1510 12.3 1509 12.3 1508 12.3 1507 12.3 1506 12.3 1505 12.3 1504 12.3 1503 12.3 1502 12.3 1501 12.3 1500 12.3 1499 12.3 1498 12.3 1497 12.3 1496 12.2 1495 12.2 1494 12.2 1493 12.2 1492 12.2 1491 12.2 1490 12.2 1489 12.2 1488 12.2 1487 12.2 1486 12.2 1485 12.2 1484 12.2 1483 12.2 1482 12.2 1481 12.2 1480 12.2 1479 12.2 1478 12.1 1477 12.1 1476 12.1 1475 12.1 1474 12.1 1473 12.1 1472 12.1 1471 12.1 1470 12.1 1469 12.1 1468 12.1 1467 12.1 1466 12.1 1465 12.1 1464 12.1 1463 12.1 1462 12.1 1461 12.0 1460 12.0 1459 12.0 1458 12.0 1457 12.0 1456 12.0 1455 12.0 1454 12.0 1453 12.0 1452 12.0 1451 12.0 1450 12.0 1449 12.0 1448 12.0 1447 12.0 1446 12.0 1445 12.0 1444 12.0 1443 11.9 1442 11.9 1441 11.9 1440 11.9 1439 11.9 1438 11.9 1437 11.9 1436 11.9 1435 11.8 1434 11.7 1433 11.6 1432 11.4 1431 11.3 1430 11.2 1429 11.2 1428 11.1 1427 11.1 1426 11.1 1425 11.0 1424 11.0 1423 11.0 1422 11.0 1421 11.1 1420 11.2 1419 11.2 1418 11.2 1417 11.2 1416 11.2 1415 11.2 1414 11.2 1413 11.2 1412 11.2 1411 11.2 1410 11.2 1409 11.2 1408 11.2 1407 11.2 1406 11.2 1405 11.3 1404 11.3 1403 11.3 1402 11.4 1401 11.4 1400 11.4 1399 11.5 1398 11.5 1397 11.5 1396 11.5 1395 11.5 1394 11.5 1393 11.5 1392 11.5 1391 11.5 1390 11.6 1389 11.6 1388 11.7 1387 11.7 1386 11.7 1385 11.7 1384 11.7 1383 11.7 1382 11.7 1381 11.7 1380 11.8 1379 11.8 1378 11.8 1377 11.8 1376 11.8 1375 11.9 1374 11.9 1373 11.9 1372 12.0 1371 12.0 1370 12.0 1369 11.9 1368 11.9 1367 11.9 1366 11.9 1365 11.9 1364 11.8 1363 11.8 1362 11.7 1361 11.6 1360 11.6 1359 11.6 1358 11.6 1357 11.7 1356 11.7 1355 11.8 1354 11.8 1353 11.7 1352 11.7 1351 11.7 1350 11.7 1349 11.7 1348 11.6 1347 11.6 1346 11.6 1345 11.6 1344 11.6 1343 11.7 1342 11.7 1341 11.7 1340 11.6 1339 11.5 1338 11.5 1337 11.5 1336 11.5 1335 11.5 1334 11.5 1333 11.5 1332 11.5 1331 11.5 1330 11.5 1329 11.4 1328 11.3 1327 11.2 1326 11.1 1325 11.1 1324 11.2 1323 11.3 1322 11.3 1321 11.4 1320 11.5 1319 11.6 1318 11.7 1317 11.7 1316 11.7 1315 11.7 1314 11.6 1313 11.6 1312 11.6 1311 11.5 1310 11.5 1309 11.5 1308 11.5 1307 11.6 1306 11.6 1305 11.7 1304 11.6 1303 11.5 1302 11.4 1301 11.3 1300 11.2 1299 11.1 1298 11.1 1297 11.1 1296 11.1 1295 11.0 1294 11.0 1293 11.0 1292 11.0 1291 10.9 1290 10.8 1289 10.7 1288 10.7 1287 10.7 1286 10.8 1285 10.9 1284 10.9 1283 11.0 1282 11.0 1281 10.9 1280 10.9 1279 10.9 1278 11.0 1277 11.0 1276 11.1 1275 11.2 1274 11.2 1273 11.2 1272 11.2 1271 11.1 1270 11.0 1269 10.9 1268 10.9 1267 10.9 1266 11.0 1265 11.0 1264 11.0 1263 11.0 1262 11.1 1261 11.1 1260 11.2 1259 11.2 1258 11.2 1257 11.2 1256 11.3 1255 11.3 1254 11.4 1253 11.4 1252 11.4 1251 11.3 1250 11.2 1249 11.1 1248 11.1 1247 11.1 1246 11.1 1245 11.1 1244 11.0 1243 10.9 1242 10.8 1241 10.6 1240 10.5 1239 10.5 1238 10.4 1237 10.4 1236 10.3 1235 10.4 1234 10.4 1233 10.4 1232 10.4 1231 10.3 1230 10.2 1229 10.1 1228 10.1 1227 10.1 1226 10.2 1225 10.3 1224 10.5 1223 10.8 1222 11.0 1221 11.2 1220 11.2 1219 11.2 1218 11.3 1217 11.3 1216 11.2 1215 11.2 1214 11.1 1213 11.1 1212 11.1 1211 11.1 1210 11.1 1209 11.0 1208 11.1 1207 11.1 1206 11.1 1205 11.2 1204 11.2 1203 11.1 1202 11.1 1201 11.1 1200 11.1 1199 11.0 1198 11.0 1197 10.9 1196 10.9 1195 10.9 1194 10.9 1193 10.9 1192 11.0 1191 11.0 1190 11.1 1189 11.1 1188 11.1 1187 11.2 1186 11.2 1185 11.3 1184 11.4 1183 11.5 1182 11.4 1181 11.4 1180 11.4 1179 11.3 1178 11.3 1177 11.3 1176 11.3 1175 11.3 1174 11.3 1173 11.3 1172 11.3 1171 11.3 1170 11.3 1169 11.2 1168 11.2 1167 11.2 1166 11.2 1165 11.2 1164 11.2 1163 11.1 1162 11.1 1161 11.0 1160 11.0 1159 10.9 1158 10.9 1157 10.9 1156 11.0 1155 11.1 1154 11.1 1153 11.2 1152 11.2 1151 11.2 1150 11.1 1149 11.1 1148 11.0 1147 11.0 1146 10.9 1145 10.9 1144 10.8 1143 10.8 1142 10.7 1141 10.7 1140 10.7 1139 10.8 1138 10.8 1137 10.9 1136 11.0 1135 11.0 1134 11.1 1133 11.1 1132 11.1 1131 11.0 1130 11.0 1129 10.9 1128 10.8 1127 10.8 1126 10.8 1125 10.8 1124 10.8 1123 10.8 1122 10.8 1121 10.8 1120 10.7 1119 10.6 1118 10.4 1117 10.4 1116 10.4 1115 10.6 1114 10.7 1113 10.7 1112 10.7 1111 10.6 1110 10.6 1109 10.4 1108 10.3 1107 10.3 1106 10.4 1105 10.4 1104 10.4 1103 10.4 1102 10.3 1101 10.3 1100 10.4 1099 10.4 1098 10.4 1097 10.3 1096 10.3 1095 10.3 1094 10.4 1093 10.5 1092 10.5 1091 10.5 1090 10.6 1089 10.6 1088 10.6 1087 10.5 1086 10.4 1085 10.3 1084 10.2 1083 10.2 1082 10.2 1081 10.3 1080 10.4 1079 10.4 1078 10.4 1077 10.3 1076 10.2 1075 10.0 1074 9.9 1073 9.9 1072 9.9 1071 9.9 1070 9.9 1069 10.0 1068 10.2 1067 10.3