Horse Ridge, Oregon (Recollection) - OR061 Additional Site Information Dave Meko Merged chronology of Meko and Baisan (5/1997) collection and Adams and others (6/1983) collection. Purpose: study of hydrologic drought. Ringwidths detrended by ratio method (Cook et al. 1990). Automated choice of dtrending curves. Order of preference: (1) monotonic non-increasing cubic smoothing spline, (2) least-squares-fit straight line of negative slope, and (3) horizontal line at mean of ring width. The horizontal line is equivalent to no detrending. Spline fit by trial and error, incrementally increasing the spline parameter (Cook and Peters 1981) while monitoring first and second derivatives of the fitted spline at each iteration. Spline initially set very stiff (approximately straight line), and allowed to become more flexible as spline parameter increased. Iteration stopped when either of two conditions on first two derivatives of fitted spline violated: (1) first derivative (slope) must be negative everywhere, and (2) second derivative (curvature) must be positive throughout the second half of the series. If most flexible possible spline satisfying the above conditions so stiff that the amplitude of frequency response at a wavelength twice the series length is less than 0.5, series detrended with a least-squares-fit straight line. If slope of the fitted spline or straight line positive, a horizontal line at the ring-width mean used as the "age trend" (effectively no detrending). Plots of ring width and overlaid selected detrending curves viewed subsequently for optional manual overide of automatic curve selections or manual specification of fit period less than entire series length. Final selected detrending curves listed in table below. After the trend line fit, core indices computed as the ratio of ringwidth to trend line. Core indices then averaged to get tree indices, and tree indices averaged to get site index, or standard chronology. Averaging of tree indices for a given year by arithmetic mean if fewer than 6 trees; otherwise by bi-weight mean. Residual chronology computed in same way as standard chronology except that autoregressive residuals of core indices used in place of core indices. The "sample size" listed in attached ".crn" files is the number of TREES sampled each year, not the number of cores. N Core Fit Period Curve fit Persistence 1 HOR09A 1492 1982 SL AR(3) 0.25 2 HOR09B 1493 1982 CS(456 yr) AR(2) 0.16 3 HOR14A 1655 1982 SL AR(3) 0.14 4 HOR14B 1254 1982 HL AR(3) 0.19 5 HOR14C 1229 1982 CS(1289 yr) AR(3) 0.19 6 HOR23A 1696 1982 SL AR(2) 0.06 7 HOR23B 1701 1982 SL AR(2) 0.09 8 HOR23Y 1593 1688 SL AR(1) 0.03 9 HOR30A 1639 1982 CS(244 yr) AR(1) 0.12 10 HOR31A 1361 1982 CS(796 yr) AR(3) 0.19 11 HOR31B 1332 1982 CS(521 yr) AR(2) 0.13 12 HOR31C 1381 1982 CS(572 yr) AR(2) 0.15 13 HOR36A 1531 1982 CS(565 yr) AR(3) 0.13 14 HOR37A 1604 1982 CS(258 yr) AR(3) 0.09 15 HOR37B 1604 1971 CS(471 yr) AR(3) 0.16 16 HOR42B 1721 1982 HL AR(2) 0.16 17 HOR42X 1281 1486 HL AR(3) 0.51 18 HOR43A 1743 1982 CS(235 yr) AR(3) 0.14 19 HOR43B 1489 1910 CS(844 yr) AR(1) 0.13 20 HRG06A 1853 1996 SL AR(2) 0.02 21 HRG06B 1819 1996 SL AR(1) 0.02 22 HRG01A 1818 1996 SL AR(2) 0.12 23 HRG01B 1746 1996 CS(276 yr) AR(2) 0.19 24 HRG07A 1740 1996 CS(244 yr) AR(1) 0.22 25 HRG07B 1753 1996 CS(244 yr) AR(1) 0.21 26 HRG08A 1730 1996 CS(307 yr) AR(1) 0.26 27 HRG08B 1733 1996 CS(240 yr) AR(2) 0.23 28 HRG09A 1726 1996 SL AR(2) 0.20 29 HRG09B 1728 1996 CS(398 yr) AR(2) 0.24 30 HRG10A 1628 1996 SL AR(2) 0.05 31 HRG10B 1076 1996 CS(691 yr) AR(3) 0.08 32 HRG11A 1747 1996 CS(313 yr) AR(2) 0.07 33 HRG11B 1774 1996 SL AR(2) 0.06 34 HRG12A 1619 1996 CS(325 yr) AR(1) 0.23 35 HRG12B 1578 1996 CS(272 yr) AR(1) 0.32 36 HRG15A 1000 1649 CS(488 yr) AR(3) 0.11 37 HRG15B 900 1476 HL AR(3) 0.15 38 HRG16A 900 1516 HL AR(3) 0.15 39 HRG17A 1215 1930 SL AR(3) 0.09 40 HRG22B 1780 1996 SL AR(3) 0.14 41 HRG23B 1621 1996 CS(274 yr) AR(1) 0.12 42 HRG24A 1796 1996 CS(257 yr) AR(3) 0.27 43 HRG24B 1766 1996 CS(233 yr) AR(3) 0.15 44 HRG25A 1719 1996 HL AR(2) 0.23 45 HRG25B 1770 1996 * CS(362 yr) AR(2) 0.25 46 HRG26A 1709 1996 SL AR(2) 0.38 47 HRG26B 1727 1996 SL AR(3) 0.41 48 HRG27A 1785 1996 SL AR(3) 0.09 49 HRG27B 1815 1996 CS(191 yr) AR(2) 0.06 50 HRG28A 1639 1996 CS(333 yr) AR(2) 0.11 51 HRG28B 1708 1920 CS(383 yr) AR(2) 0.18 52 HRG29A 1861 1996 CS(184 yr) AR(3) 0.27 53 HRG29B 1757 1996 SL AR(3) 0.27 54 HRG30A 1551 1996 CS(450 yr) AR(2) 0.06 55 HRG30B 1569 1996 CS(278 yr) AR(1) 0.04 56 HRG31B 1827 1996 SL AR(1) 0.04 57 HRG31A 1818 1996 SL AR(2) 0.30 58 HRG31C 1841 1996 CS(200 yr) AR(2) 0.24 59 HRG33B 1412 1996 CS(819 yr) AR(2) 0.11 60 HRG3A 1381 1996 CS(450 yr) AR(1) 0.06 61 HRG3B 1329 1996 CS(701 yr) AR(3) 0.19 62 HRG4A 1455 1810 SL AR(3) 0.13 63 HRG33A1 830 1000 CS(133 yr) AR(1) 0.11 64 HRG33A2 1000 1727 HL AR(2) 0.09 65 HRG4B 1407 1910 CS(353 yr) AR(3) 0.12 66 HRG21A 830 1405 CS(582 yr) AR(3) 0.08 Fit Period = period of ring width used in curve fitting * = subset of full period of ring width in .rwl file Curve Fit = type of model used to detrend ring width NE=modified negative exponential SL=least-square-fit straight line HL=horizontal line at mean of ring width for fit period CS=cubic smoothing spline (wavelength of 50% frequency reponse in parentheses) Persistence = autoregressive prewhitening information AR(q) = order q of autoregressive model fit to core index nn = decimal proportion of core-index variance due to persistence; computed as 1-R, where R is the ratio of variance of residual index to variance of standard index References: Cook, E.R., Briffa, K., Shiyatov, S., Mazepa, V. 1990. Tree- ring standardization and growth-trend estimation. In: Methods of dendrochronology, applications in the environmental sciences. Kluwer Academic Press, Boston, 104-123. Cook, E.R., Peters, K., 1981. The smoothing spline: a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies. Tree Ring Bulletin, 41, p. 45-53 Meko, D.M., M. D. Therrell, C. H. Baisan, and M. K. Hughes, 2001, Sacramento River Flow Reconstructed to A.D. 869 From Tree Rings, Journal of the American Water Resources Association, v.37, No.4, August 2001. Meko, D. M., 2001. Reconstructed Sacramento River system runoff from tree rings, Report prepared for the California Department of Water Resources under Agreement No. B81923-SAP # 4600000193. Available from: California Department of Water Resources, P.O. Box 942836, Room 1601, Sacramento, CA 94236-0001. 63 pp. COFECHA output: Chronology file name : OR061.CRN Measurement file name : OR061.RWL Date checked : 29MAR05 Checked by : H. ADAMS AND J. LUKAS Beginning year : 830 Ending year : 1996 Principal investigators: MEKO,BAISAN,HOLMES,ADAMS,ROSE,WU Site name : HORSE RIDGE Site location : OREGON Species information : JUOC WESTERN JUNIPER Latitude : 04358 Longitude : -12104 Elevation : 1146M Series intercorrelation: 0.850 Avg mean sensitivity : 0.653 Avg standard deviation : 0.330 Avg autocorrelation : 0.454 Number dated series : 66 Segment length tested : 50 Number problem segments: 3 Pct problem segments : 0.31 PART 5: CORRELATION OF SERIES BY SEGMENTS: or061.rwl 13:16 Tue 29 Mar 2005 Page 5 ------------------------------------------------------------------------------------------------------------------------------------ Correlations of 50-year dated segments, lagged 25 years Flags: A = correlation under .3281 but highest as dated; B = correlation higher at other than dated position Seq Series Time_span 825 850 875 900 925 950 975 1000 1025 1050 1075 1100 1125 1150 1175 1200 1225 1250 1275 1300 874 899 924 949 974 999 1024 1049 1074 1099 1124 1149 1174 1199 1224 1249 1274 1299 1324 1349 --- -------- --------- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 4 HOR14B 1254 1982 .88 .88 .75 5 HOR14C 1229 1982 .79 .93 .90 .75 17 HOR42X 1281 1486 .80 .82 31 HRG10B 1076 1996 .85 .88 .84 .94 .94 .80 .75 .82 .84 .87 36 HRG15A 1000 1649 .68 .72 .86 .88 .81 .82 .91 .89 .70 .64 .72 .61 .65 37 HRG15B 900 1476 .78 .78 .82 .70 .63 .81 .81 .84 .85 .84 .88 .89 .66 .61 .83 .79 .71 38 HRG16A 900 1516 .90 .89 .85 .87 .79 .75 .90 .93 .89 .86 .87 .88 .86 .89 .92 .90 .89 39 HRG17A 1215 1930 .75 .78 .92 .92 .87 63 HRG33A1 830 1000 .69 .27A .42 .82 .70 .67 .67 64 HRG33A2 1000 1727 .76 .75 .79 .81 .80 .74 .81 .81 .76 .80 .82 .73 .69 66 HRG21A 830 1405 .69 .27B .18B .60 .87 .85 .87 .77 .74 .83 .87 .88 .87 .88 .91 .84 .87 .94 .87 .74 Av segment correlation .69 .27 .30 .77 .81 .80 .78 .73 .75 .84 .86 .85 .83 .88 .89 .77 .77 .87 .82 .77 PART 5: CORRELATION OF SERIES BY SEGMENTS: or061.rwl 13:16 Tue 29 Mar 2005 Page 6 ------------------------------------------------------------------------------------------------------------------------------------ Correlations of 50-year dated segments, lagged 25 years Flags: A = correlation under .3281 but highest as dated; B = correlation higher at other than dated position Seq Series Time_span 1325 1350 1375 1400 1425 1450 1475 1500 1525 1550 1575 1600 1625 1650 1675 1700 1725 1750 1775 1800 1374 1399 1424 1449 1474 1499 1524 1549 1574 1599 1624 1649 1674 1699 1724 1749 1774 1799 1824 1849 --- -------- --------- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 1 HOR09A 1492 1982 .88 .89 .90 .92 .93 .94 .92 .83 .86 .87 .73 .77 .83 .66 2 HOR09B 1493 1982 .90 .90 .87 .87 .91 .89 .85 .84 .89 .77 .56 .72 .84 .69 3 HOR14A 1655 1982 .84 .75 .82 .95 .92 .88 .86 4 HOR14B 1254 1982 .75 .93 .93 .88 .88 .85 .79 .79 .80 .88 .95 .89 .84 .76 .79 .94 .93 .92 .89 .87 5 HOR14C 1229 1982 .73 .92 .97 .90 .86 .89 .84 .71 .76 .88 .95 .92 .88 .89 .91 .92 .89 .89 .91 .89 6 HOR23A 1696 1982 .93 .92 .91 .92 .90 .93 7 HOR23B 1701 1982 .92 .93 .92 .91 .93 8 HOR23Y 1593 1688 .85 .80 .80 .82 9 HOR30A 1639 1982 .76 .74 .77 .82 .62 .64 .79 .82 10 HOR31A 1361 1982 .91 .91 .86 .84 .92 .94 .94 .95 .83 .85 .89 .79 .73 .85 .93 .87 .86 .87 .85 11 HOR31B 1332 1982 .89 .92 .95 .91 .85 .91 .94 .95 .96 .83 .82 .93 .91 .90 .92 .92 .84 .87 .94 .89 12 HOR31C 1381 1982 .93 .82 .72 .86 .90 .91 .90 .77 .81 .78 .71 .81 .90 .96 .89 .90 .92 .86 13 HOR36A 1531 1982 .92 .92 .88 .73 .76 .88 .92 .93 .75 .69 .86 .88 14 HOR37A 1604 1982 .92 .92 .88 .91 .96 .93 .93 .92 .88 15 HOR37B 1604 1971 .90 .90 .91 .95 .95 .84 .75 .83 .91 16 HOR42B 1721 1982 .87 .87 .77 .81 .85 17 HOR42X 1281 1486 .81 .82 .83 .79 .69 .60 18 HOR43A 1743 1982 .71 .82 .91 .87 19 HOR43B 1489 1910 .88 .88 .85 .86 .94 .94 .87 .85 .90 .93 .85 .88 .94 .79 21 HRG06B 1819 1996 .87 22 HRG01A 1818 1996 .79 23 HRG01B 1746 1996 .89 .92 .94 .88 24 HRG07A 1740 1996 .62 .69 .75 .72 25 HRG07B 1753 1996 .73 .89 .85 26 HRG08A 1730 1996 .92 .93 .91 .68 27 HRG08B 1733 1996 .84 .92 .92 .74 28 HRG09A 1726 1996 .90 .94 .91 .82 29 HRG09B 1728 1996 .89 .93 .89 .82 30 HRG10A 1628 1996 .80 .82 .91 .92 .89 .88 .76 .71 31 HRG10B 1076 1996 .84 .80 .79 .69 .65 .77 .82 .84 .83 .84 .87 .85 .84 .86 .91 .93 .89 .85 .67 .62 32 HRG11A 1747 1996 .89 .89 .85 .78 33 HRG11B 1774 1996 .86 .85 .82 34 HRG12A 1619 1996 .85 .85 .84 .88 .91 .78 .77 .89 .87 35 HRG12B 1578 1996 .73 .84 .85 .84 .90 .92 .79 .78 .89 .80 36 HRG15A 1000 1649 .86 .88 .84 .79 .71 .79 .88 .93 .90 .85 .81 .80 37 HRG15B 900 1476 .83 .86 .78 .78 .77 .78 38 HRG16A 900 1516 .88 .82 .84 .90 .89 .88 .89 39 HRG17A 1215 1930 .86 .91 .91 .90 .88 .85 .89 .91 .73 .77 .90 .86 .76 .83 .89 .92 .92 .85 .80 .85 40 HRG22B 1780 1996 .89 .83 41 HRG23B 1621 1996 .95 .94 .92 .92 .95 .94 .93 .92 .77 42 HRG24A 1796 1996 .84 .83 43 HRG24B 1766 1996 .80 .87 .87 44 HRG25A 1719 1996 .93 .94 .89 .79 .72 45 HRG25B 1682 1996 .72 .73 .69 .78 .82 .77 46 HRG26A 1709 1996 .80 .82 .83 .88 .89 47 HRG26B 1727 1996 .80 .85 .90 .92 48 HRG27A 1785 1996 .93 .91 49 HRG27B 1815 1996 .81 50 HRG28A 1639 1996 .88 .89 .94 .96 .95 .93 .94 .94 51 HRG28B 1708 1920 .94 .86 .83 .67 .64 53 HRG29B 1757 1996 .75 .86 .85 54 HRG30A 1551 1996 .86 .94 .93 .91 .89 .93 .95 .94 .94 .94 .92 55 HRG30B 1569 1996 .86 .89 .94 .95 .92 .94 .96 .92 .91 .92 .89 57 HRG31A 1818 1996 .79 59 HRG33B 1412 1996 .87 .79 .79 .85 .90 .82 .84 .81 .74 .85 .82 .85 .87 .80 .78 .78 .66 60 HRG3A 1381 1996 .94 .86 .85 .90 .88 .80 .80 .90 .93 .92 .86 .85 .93 .95 .83 .83 .89 .84 61 HRG3B 1329 1996 .91 .92 .93 .92 .91 .92 .91 .90 .88 .90 .91 .90 .90 .88 .90 .91 .86 .84 .84 .82 62 HRG4A 1455 1810 .90 .90 .88 .86 .90 .94 .95 .89 .86 .88 .69 .54 .64 .67 64 HRG33A2 1000 1727 .82 .88 .90 .85 .82 .87 .88 .86 .77 .85 .93 .87 .82 .79 .83 .77 65 HRG4B 1407 1910 .86 .89 .89 .89 .91 .91 .89 .92 .93 .94 .89 .89 .85 .81 .91 .87 .85 66 HRG21A 830 1405 .81 .92 .86 Av segment correlation .83 .88 .89 .85 .81 .85 .88 .88 .86 .86 .89 .88 .86 .85 .88 .89 .84 .84 .86 .82 PART 5: CORRELATION OF SERIES BY SEGMENTS: or061.rwl 13:16 Tue 29 Mar 2005 Page 7 ------------------------------------------------------------------------------------------------------------------------------------ Correlations of 50-year dated segments, lagged 25 years Flags: A = correlation under .3281 but highest as dated; B = correlation higher at other than dated position Seq Series Time_span 1825 1850 1875 1900 1925 1950 1874 1899 1924 1949 1974 1999 --- -------- --------- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 1 HOR09A 1492 1982 .70 .85 .76 .73 .91 .91 2 HOR09B 1493 1982 .71 .81 .76 .78 .88 .88 3 HOR14A 1655 1982 .83 .82 .74 .76 .94 .95 4 HOR14B 1254 1982 .87 .86 .81 .83 .96 .94 5 HOR14C 1229 1982 .90 .90 .85 .85 .94 .93 6 HOR23A 1696 1982 .94 .93 .92 .88 .93 .92 7 HOR23B 1701 1982 .94 .94 .93 .86 .89 .89 9 HOR30A 1639 1982 .73 .57 .64 .84 .91 .92 10 HOR31A 1361 1982 .89 .92 .92 .90 .90 .89 11 HOR31B 1332 1982 .91 .93 .89 .86 .91 .92 12 HOR31C 1381 1982 .89 .93 .91 .87 .88 .90 13 HOR36A 1531 1982 .91 .87 .74 .83 .93 .92 14 HOR37A 1604 1982 .92 .87 .75 .81 .88 .88 15 HOR37B 1604 1971 .93 .92 .91 .89 .90 16 HOR42B 1721 1982 .84 .79 .78 .90 .91 .92 18 HOR43A 1743 1982 .89 .90 .93 .93 .94 .95 19 HOR43B 1489 1910 .64 .74 .66 20 HRG06A 1853 1996 .91 .90 .88 .92 .94 21 HRG06B 1819 1996 .90 .90 .84 .81 .87 .93 22 HRG01A 1818 1996 .84 .90 .90 .92 .87 .92 23 HRG01B 1746 1996 .88 .88 .81 .69 .70 .88 24 HRG07A 1740 1996 .68 .57 .59 .75 .85 .85 25 HRG07B 1753 1996 .73 .64 .66 .75 .80 .82 26 HRG08A 1730 1996 .61 .67 .71 .88 .92 .89 27 HRG08B 1733 1996 .72 .71 .72 .93 .90 .86 28 HRG09A 1726 1996 .85 .91 .89 .91 .92 .93 29 HRG09B 1728 1996 .86 .83 .85 .91 .91 .91 30 HRG10A 1628 1996 .78 .80 .73 .73 .80 .85 31 HRG10B 1076 1996 .80 .82 .80 .81 .80 .84 32 HRG11A 1747 1996 .75 .84 .92 .90 .93 .93 33 HRG11B 1774 1996 .81 .85 .91 .90 .92 .95 34 HRG12A 1619 1996 .82 .76 .76 .81 .85 .87 35 HRG12B 1578 1996 .81 .83 .81 .86 .95 .92 39 HRG17A 1215 1930 .88 .88 .88 .90 40 HRG22B 1780 1996 .80 .86 .89 .87 .89 .92 41 HRG23B 1621 1996 .76 .84 .84 .84 .92 .91 42 HRG24A 1796 1996 .76 .81 .88 .82 .76 .87 43 HRG24B 1766 1996 .89 .83 .81 .92 .90 .91 44 HRG25A 1719 1996 .80 .75 .65 .79 .87 .84 45 HRG25B 1682 1996 .84 .73 .67 .84 .81 .82 46 HRG26A 1709 1996 .90 .92 .93 .94 .94 .92 47 HRG26B 1727 1996 .87 .90 .91 .89 .92 .89 48 HRG27A 1785 1996 .90 .91 .91 .87 .82 .82 49 HRG27B 1815 1996 .86 .89 .89 .87 .87 .92 50 HRG28A 1639 1996 .92 .86 .82 .90 .91 .92 51 HRG28B 1708 1920 .85 .86 .82 52 HRG29A 1861 1996 .79 .81 .79 .82 .85 53 HRG29B 1757 1996 .83 .86 .88 .88 .90 .81 54 HRG30A 1551 1996 .89 .89 .90 .88 .86 .91 55 HRG30B 1569 1996 .90 .83 .79 .90 .89 .91 56 HRG31B 1827 1996 .40 .53 .89 .81 .88 .95 57 HRG31A 1818 1996 .81 .88 .88 .78 .72 .83 58 HRG31C 1841 1996 .73 .79 .78 .80 .88 .89 59 HRG33B 1412 1996 .73 .64 .49 .74 .93 .94 60 HRG3A 1381 1996 .84 .86 .82 .81 .79 .74 61 HRG3B 1329 1996 .86 .88 .82 .83 .87 .87 65 HRG4B 1407 1910 .81 .70 .77 Av segment correlation .82 .83 .81 .85 .88 .89 PART 7: DESCRIPTIVE STATISTICS: or061.rwl 13:16 Tue 29 Mar 2005 Page 12 ------------------------------------------------------------------------------------------------------------------------------------ Corr //-------- Unfiltered --------\\ //---- Filtered -----\\ No. No. No. with Mean Max Std Auto Mean Max Std Auto AR Seq Series Interval Years Segmt Flags Master msmt msmt dev corr sens value dev corr () --- -------- --------- ----- ----- ----- ------ ----- ----- ----- ----- ----- ----- ----- ----- -- 1 HOR09A 1492 1982 491 20 0 .847 .57 2.40 .429 .516 .728 2.76 .416 -.041 1 2 HOR09B 1493 1982 490 20 0 .813 .64 2.75 .454 .487 .662 2.58 .415 -.043 1 3 HOR14A 1655 1982 328 13 0 .859 .26 .79 .161 .352 .675 2.59 .429 -.024 1 4 HOR14B 1254 1982 729 29 0 .873 .32 1.84 .221 .387 .755 2.65 .397 -.027 2 5 HOR14C 1229 1982 754 30 0 .874 .32 1.95 .250 .430 .818 2.82 .505 -.027 1 6 HOR23A 1696 1982 287 12 0 .914 .72 1.94 .447 .208 .737 2.64 .395 -.024 1 7 HOR23B 1701 1982 282 11 0 .917 .62 1.97 .411 .281 .767 2.71 .388 -.027 1 8 HOR23Y 1593 1688 96 4 0 .839 .71 1.95 .474 .175 .746 2.63 .607 .029 5 9 HOR30A 1639 1982 344 14 0 .771 .43 1.16 .203 .445 .483 2.59 .382 -.042 3 10 HOR31A 1361 1982 622 25 0 .886 .41 4.00 .415 .594 .770 2.63 .389 -.045 1 11 HOR31B 1332 1982 651 26 0 .886 .53 4.45 .533 .623 .715 2.88 .483 -.058 1 12 HOR31C 1381 1982 602 24 0 .869 .33 2.53 .308 .573 .785 2.71 .416 -.043 2 13 HOR36A 1531 1982 452 18 0 .855 .38 1.66 .319 .429 .856 2.63 .398 -.028 1 14 HOR37A 1604 1982 379 15 0 .901 .32 1.61 .253 .571 .713 2.58 .374 -.015 1 15 HOR37B 1604 1971 368 14 0 .899 .40 1.80 .276 .421 .711 2.76 .427 -.030 1 16 HOR42B 1721 1982 262 11 0 .862 .26 1.03 .205 .380 .840 2.74 .396 -.015 1 17 HOR42X 1281 1486 206 8 0 .773 .42 1.88 .364 .646 .708 2.67 .419 -.060 2 18 HOR43A 1743 1982 240 10 0 .873 .35 1.51 .221 .525 .640 2.53 .387 -.011 1 19 HOR43B 1489 1910 422 17 0 .845 .37 1.78 .294 .497 .645 2.66 .436 -.044 2 20 HRG06A 1853 1996 144 5 0 .919 .77 1.86 .362 .110 .601 2.75 .464 -.043 1 21 HRG06B 1819 1996 178 7 0 .883 .80 1.99 .376 .122 .575 2.74 .482 -.020 1 22 HRG01A 1818 1996 179 7 0 .878 .94 3.37 .625 .327 .756 2.94 .607 -.005 1 23 HRG01B 1746 1996 251 10 0 .869 .58 2.39 .421 .518 .675 2.76 .466 -.039 1 24 HRG07A 1740 1996 257 10 0 .716 .67 2.63 .387 .685 .364 2.68 .328 -.045 4 25 HRG07B 1753 1996 244 9 0 .761 .56 2.11 .361 .722 .376 2.53 .286 -.049 2 26 HRG08A 1730 1996 267 10 0 .830 .50 2.74 .377 .638 .554 2.60 .406 -.044 1 27 HRG08B 1733 1996 264 10 0 .835 .42 2.40 .313 .624 .543 2.58 .362 -.047 1 28 HRG09A 1726 1996 271 10 0 .904 .67 2.05 .317 .452 .454 2.62 .438 -.042 1 29 HRG09B 1728 1996 269 10 0 .889 .50 1.22 .238 .494 .442 2.56 .444 -.023 1 30 HRG10A 1628 1996 369 14 0 .823 .25 .75 .147 .205 .690 2.53 .380 -.015 1 31 HRG10B 1076 1996 921 36 0 .836 .24 .87 .155 .274 .755 2.61 .305 -.012 1 32 HRG11A 1747 1996 250 10 0 .873 .46 1.26 .227 .194 .603 2.74 .438 .006 1 33 HRG11B 1774 1996 223 9 0 .885 .54 1.26 .249 .207 .553 2.63 .461 -.028 1 34 HRG12A 1619 1996 378 15 0 .834 .80 5.62 .620 .631 .527 2.47 .299 -.016 6 35 HRG12B 1578 1996 419 16 0 .839 .96 4.49 .736 .650 .531 2.63 .407 -.063 4 36 HRG15A 1000 1649 650 25 0 .797 .36 1.05 .182 .340 .521 2.61 .371 -.014 1 37 HRG15B 900 1476 577 23 0 .787 .32 .87 .159 .338 .493 2.55 .347 -.014 1 38 HRG16A 900 1516 617 24 0 .881 .40 1.46 .254 .345 .730 2.49 .321 -.021 1 39 HRG17A 1215 1930 716 29 0 .874 .42 1.94 .280 .260 .762 2.64 .389 -.031 2 40 HRG22B 1780 1996 217 8 0 .881 .46 1.32 .263 .471 .638 2.53 .411 -.037 1 41 HRG23B 1621 1996 376 15 0 .887 .51 2.05 .335 .593 .587 2.56 .399 -.024 1 42 HRG24A 1796 1996 201 8 0 .836 .49 1.41 .294 .538 .586 2.60 .408 -.045 2 43 HRG24B 1766 1996 231 9 0 .862 .44 1.65 .247 .519 .531 2.54 .386 -.030 1 44 HRG25A 1719 1996 278 11 0 .804 .62 2.03 .380 .473 .572 2.58 .390 -.069 3 45 HRG25B 1682 1996 315 12 0 .764 .56 2.26 .381 .609 .532 2.71 .439 -.061 4 46 HRG26A 1709 1996 288 11 0 .895 1.07 4.44 .742 .693 .494 2.53 .387 -.051 4 47 HRG26B 1727 1996 270 10 0 .884 .99 3.74 .652 .673 .491 2.47 .398 -.051 2 48 HRG27A 1785 1996 212 8 0 .898 .49 1.64 .356 .650 .703 2.65 .396 -.037 1 PART 7: DESCRIPTIVE STATISTICS: or061.rwl 13:16 Tue 29 Mar 2005 Page 13 ------------------------------------------------------------------------------------------------------------------------------------ Corr //-------- Unfiltered --------\\ //---- Filtered -----\\ No. No. No. with Mean Max Std Auto Mean Max Std Auto AR Seq Series Interval Years Segmt Flags Master msmt msmt dev corr sens value dev corr () --- -------- --------- ----- ----- ----- ------ ----- ----- ----- ----- ----- ----- ----- ----- -- 49 HRG27B 1815 1996 182 7 0 .885 .59 2.01 .419 .585 .686 2.68 .471 -.013 1 50 HRG28A 1639 1996 358 14 0 .919 .50 2.71 .377 .617 .590 2.53 .314 -.037 1 51 HRG28B 1708 1920 213 8 0 .812 .43 1.54 .291 .488 .581 2.60 .447 -.049 1 52 HRG29A 1861 1996 136 5 0 .840 .67 1.82 .325 .528 .459 2.53 .459 -.010 1 53 HRG29B 1757 1996 240 9 0 .830 .89 2.08 .372 .506 .385 2.58 .347 -.029 2 54 HRG30A 1551 1996 446 17 0 .908 .57 2.57 .401 .408 .704 2.62 .319 -.024 1 55 HRG30B 1569 1996 428 17 0 .894 .50 2.51 .379 .398 .723 2.46 .284 -.027 1 56 HRG31B 1827 1996 170 6 0 .769 .64 1.33 .284 .353 .507 2.51 .406 -.060 2 57 HRG31A 1818 1996 179 7 0 .849 .54 1.38 .342 .693 .569 2.63 .484 -.029 1 58 HRG31C 1841 1996 156 6 0 .831 .63 1.84 .339 .618 .481 2.68 .417 -.056 1 59 HRG33B 1412 1996 585 23 0 .823 .38 1.52 .218 .296 .680 2.54 .327 -.026 1 60 HRG3A 1381 1996 616 24 0 .866 .28 1.67 .219 .500 .719 2.57 .377 -.036 2 61 HRG3B 1329 1996 668 26 0 .894 .38 3.55 .458 .684 .760 2.65 .418 -.031 2 62 HRG4A 1455 1810 356 14 0 .829 .46 1.70 .346 .398 .684 2.99 .520 -.046 2 63 HRG33A1 830 1000 171 7 1 .617 .53 1.18 .247 .417 .492 2.46 .395 -.053 1 64 HRG33A2 1000 1727 728 29 0 .817 .44 1.01 .211 .300 .545 2.43 .329 -.037 3 65 HRG4B 1407 1910 504 20 0 .860 .46 2.12 .382 .471 .716 2.75 .450 -.033 2 66 HRG21A 830 1405 576 23 2 .766 .54 1.93 .357 .347 .715 2.55 .338 .009 1 --- -------- --------- ----- ----- ----- ------ ----- ----- ----- ----- ----- ----- ----- ----- -- Total or mean: 24549 964 3 .850 .48 5.62 .330 .454 .653 2.99 .395 -.032