Antelope Lake, California (Merged) CA628 Additional Site Information Dave Meko Updated and merged version of ITRDB chronologies ca066 and ca067. Chronology built from PIPO/PIJE samples collected in 1981 by Holmes and Adams and in 1999 by Meko and Grow. In selecting from earlier collection, preference for series longer than 300 yr that are strongly coherent at multidecadal wavelengths. Chronology intended for inferring moisture variations. Ringwidths detrended by the ratio method, as described by Cook et al. (1990), using a 200-year cubic smoothing spline as the default detrending curve. The amplitude of the frequency response of this spline is 0.50 at a wavelength of 200 years. Time series plots showed ring-width variations at wavelengths longer than 200 years are largely asynchronous across trees. Two-pass approach was taken to detrending. First pass was automatic initial detrending by the default curve choice. Second pass was optional manual over-riding of the default guided by superposed time series plots of smoothed indices from multiple trees. Manual step optionally includes truncating an individual ring-width series, deleting it from the chronology, or modifying its curve fit by selecting a more suitable detrending line (e.g., a stiffer spline (Cook and Peters 1981), or a horizontal line instead of a straight line with a negative slope) The final selected detrending curves are listed in table below. Note that the table lists only those ring width series actually used in the chronology; additional ring-width series, masked out in the chronology building, might be included in the .rwl data file sent to the ITRDB. After the trend line was fit, core indices were computed by dividing the ring-width in each year by the value of the fitted trend line. Core indices were then averaged to get tree indices, and tree indices were averaged to get a site index, or standard chronology. Averaging of tree indices for a given year was by the arithmetic mean if fewer than 6 trees; otherwise by a bi-weight mean. The residual chronology was computed in same way as the standard chronology except that autoregressive residuals of core indices were 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 ANJ05A 1552 1980 CS(200yr) AR(3) 0.49 2 ANJ05B 1578 1980 CS(200yr) AR(3) 0.46 3 ANJ06A 1645 1980 CS(200yr) AR(3) 0.44 4 ANJ10B 1676 1980 CS(200yr) AR(3) 0.46 5 ANJ12A 1659 1980 CS(200yr) AR(3) 0.59 6 ANJ13A 1579 1980 CS(200yr) AR(3) 0.55 7 ANJ13B 1599 1980 CS(200yr) AR(3) 0.44 8 ANJ14A 1518 1980 CS(200yr) AR(3) 0.30 9 ANJ14B 1510 1910 CS(200yr) AR(3) 0.36 10 ANJ26A 1629 1950 CS(200yr) AR(3) 0.41 11 ANJ26B 1624 1980 CS(200yr) AR(3) 0.50 12 ANJ32A 1477 1980 CS(200yr) AR(3) 0.31 13 ANJ32B 1473 1980 CS(200yr) AR(3) 0.27 14 ANJ38A 1647 1980 CS(200yr) AR(3) 0.45 15 ANJ42B 1594 1980 CS(200yr) AR(3) 0.37 16 ANP08A 1634 1980 CS(200yr) AR(3) 0.40 17 ANP08B 1636 1980 CS(200yr) AR(3) 0.42 18 ANP18A 1509 1980 CS(200yr) AR(3) 0.26 19 ANP18C 1587 1980 CS(200yr) AR(2) 0.29 20 ANP18D 1493 1980 CS(200yr) AR(3) 0.23 21 ANP22B 1612 1980 CS(200yr) AR(2) 0.20 22 ANP22C 1575 1980 CS(200yr) AR(2) 0.19 23 ANP27A 1545 1980 CS(100yr) AR(2) 0.48 24 ANP27B 1532 1980 CS(100yr) AR(3) 0.36 25 ANP37A 1675 1975 CS(200yr) AR(3) 0.42 26 ANP37B 1674 1980 CS(200yr) AR(3) 0.28 27 ANP41A 1587 1980 CS(200yr) AR(3) 0.18 28 ANP41B 1612 1980 CS(200yr) AR(3) 0.19 29 ANP43A 1548 1980 CS(200yr) AR(3) 0.49 30 ANP43B 1529 1980 CS(200yr) AR(3) 0.34 31 ALK01A 1745 1998 CS(200yr) AR(3) 0.29 32 ALK01B 1739 1998 CS(200yr) AR(3) 0.27 33 ALK02A 1598 1998 CS(200yr) AR(3) 0.06 34 ALK02B 1567 1998 CS(200yr) AR(3) 0.18 35 ALK03B 1600 1998 CS(100yr) AR(3) 0.22 36 ALK06A 1787 1968 * CS(100yr) AR(2) 0.15 37 ALK06B 1815 1998 * CS(200yr) AR(3) 0.27 38 ALK07A 1564 1998 CS(200yr) AR(3) 0.19 39 ALK08A 1645 1998 CS(200yr) AR(1) 0.52 40 ALK08B 1642 1998 CS(200yr) AR(1) 0.29 41 ALK09B 1673 1998 CS(200yr) AR(3) 0.27 42 ALK10A 1702 1998 CS(200yr) AR(3) 0.29 43 ALK10B 1747 1998 CS(200yr) AR(3) 0.18 44 ALK11A 1735 1993 CS(200yr) AR(2) 0.32 45 ALK11B 1782 1992 CS(200yr) AR(2) 0.33 46 ALK12A 1747 1998 CS(200yr) AR(3) 0.20 47 ALK12B 1719 1998 CS(200yr) AR(3) 0.37 48 ALK13A 1606 1998 CS(200yr) AR(2) 0.39 49 ALK13B 1450 1998 CS(200yr) AR(3) 0.27 50 ALK13C 1489 1998 CS(200yr) AR(3) 0.20 51 ALK14A 1760 1998 CS(100yr) AR(2) 0.38 52 ALK14B 1768 1998 CS(100yr) AR(1) 0.34 53 ALK15B 1703 1998 CS(200yr) AR(3) 0.44 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 : CA628.CRN Measurement file name : CA628.RWL Date checked : 11MAR05 Checked by : H. ADAMS AND J. LUKAS Beginning year : 1450 Ending year : 1998 Principal investigators: MEKO, GROW Site name : ANTELOPE LAKE, MERGED Site location : CALIFORNIA Species information : PIPO PONDEROSA PINE Latitude : 4009 Longitude : -12036 Elevation : 1480M Series intercorrelation: 0.557 Avg mean sensitivity : 0.272 Avg standard deviation : 0.588 Avg autocorrelation : 0.812 Number dated series : 53 Segment length tested : 50 Number problem segments: 37 Pct problem segments : 4.75 PART 5: CORRELATION OF SERIES BY SEGMENTS: ca628.rwl 17:09 Fri 11 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 1450 1475 1500 1525 1550 1575 1600 1625 1650 1675 1700 1725 1750 1775 1800 1825 1850 1875 1900 1925 1499 1524 1549 1574 1599 1624 1649 1674 1699 1724 1749 1774 1799 1824 1849 1874 1899 1924 1949 1974 --- -------- --------- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 1 ANJ05A 1552 1980 .70 .77 .49 .53 .34 .13B .39 .44 .35 .42 .48 .38B .30A .45 .49 .37 2 ANJ05B 1578 1980 .63 .47 .55 .39 .35 .61 .65 .59 .60 .46 .28A .10B .37 .52 .49 3 ANJ06A 1645 1980 .30A .37 .38 .44 .49 .60 .66 .66 .55 .47 .42 .41 .40 4 ANJ10B 1676 1980 .50 .60 .53 .45 .50 .50 .46 .47 .59 .56 .47 5 ANJ12A 1659 1980 .44 .32A .36 .37 .45 .52 .67 .54 .46 .54 .67 .78 6 ANJ13A 1579 1980 .48 .53 .58 .57 .54 .59 .40 .36 .52 .33B .43 .48 .47 .55 .55 7 ANJ13B 1599 1980 .50 .49 .48 .50 .59 .64 .65 .74 .73 .64 .60 .48 .34 .37 .53 8 ANJ14A 1518 1980 .41 .34 .46 .55 .48 .44 .41 .60 .61 .65 .56 .49 .44 .42 .49 .57 .45 .49 9 ANJ14B 1510 1910 .69 .44 .53 .59 .56 .70 .55 .57 .65 .61 .45 .54 .49 .48 .51 .50 10 ANJ26A 1629 1950 .55 .53 .58 .63 .73 .57 .52 .64 .65 .58 .67 .66 .65 11 ANJ26B 1624 1980 .74 .74 .54 .41 .52 .54 .69 .57 .41 .51 .56 .51 .47 .52 12 ANJ32A 1477 1980 .73 .77 .70 .76 .80 .76 .70 .43B .38 .49 .43 .53 .67 .46 .32B .40 .49 .28A .23A 13 ANJ32B 1473 1980 .45 .67 .76 .59 .66 .67 .65 .77 .60 .48 .35 .21B .51 .61 .41 .36 .34 .49 .77 .62 14 ANJ38A 1647 1980 .55 .59 .36 .59 .69 .66 .60 .64 .65 .42 .57 .66 .41 15 ANJ42B 1594 1980 .66 .61 .71 .69 .51 .57 .56 .57 .67 .67 .68 .62 .56 .62 .71 16 ANP08A 1634 1980 .60 .68 .67 .67 .57 .66 .66 .51 .49 .53 .54 .56 .40 17 ANP08B 1636 1980 .63 .59 .63 .62 .59 .65 .59 .62 .59 .52 .58 .65 .68 18 ANP18A 1509 1980 .55 .45 .66 .61 .51 .51 .32A .35 .49 .28A .25A .41 .35 .30A .49 .61 .61 .57 19 ANP18C 1587 1980 .61 .58 .53 .45 .44 .60 .57 .52 .60 .50 .37 .51 .69 .65 .45 20 ANP18D 1493 1980 .36 .46 .52 .74 .69 .50 .27B .11B .46 .57 .50 .43 .40B .54 .51 .44 .53 .52 .41 21 ANP22B 1612 1980 .69 .61 .43 .56 .51 .20B .48 .59 .52 .41 .31A .44 .44 .42 22 ANP22C 1575 1980 .61 .66 .55 .38 .58 .64 .49 .60 .50 .41 .52 .43 .46 .49 .57 23 ANP27A 1545 1980 .64 .70 .76 .61 .61 .61 .54 .47 .43 .59 .66 .38 .38 .69 .66 .62 .65 24 ANP27B 1532 1980 .64 .63 .71 .58 .64 .52 .37 .40 .46 .49 .61 .55 .48 .61 .62 .67 .71 25 ANP37A 1675 1975 .47 .68 .69 .68 .74 .47 .37 .57 .62 .64 .58 26 ANP37B 1674 1980 .53 .52 .57 .52 .61 .60 .55 .56 .33B .35B .64 .59 27 ANP41A 1587 1980 .31A .69 .71 .54 .68 .76 .68 .75 .73 .63 .58 .57 .57 .58 .57 28 ANP41B 1612 1980 .75 .73 .53 .50 .64 .56 .71 .70 .54 .55 .58 .61 .69 .72 29 ANP43A 1548 1980 .72 .72 .80 .75 .72 .67 .76 .78 .63 .66 .58 .56 .57 .61 .69 .73 .73 30 ANP43B 1529 1980 .67 .68 .68 .60 .59 .52 .62 .68 .54 .52 .52 .45 .48 .56 .65 .64 .60 31 ALK01A 1745 1998 .56 .59 .59 .56 .47 .47 .48 .59 .75 32 ALK01B 1739 1998 .46 .51 .72 .59 .53 .61 .59 .56 .65 33 ALK02A 1598 1998 .50 .49 .52 .30B .28A .36 .33B .63 .62 .60 .59 .51 .54 .44 .49 34 ALK02B 1567 1998 .54 .50 .43 .53 .49 .59 .51 .37 .51 .51 .33B .40 .60 .56 .50 .49 35 ALK03B 1600 1998 .59 .58 .29B .31A .46 .42 .51 .49 .55 .60 .55 .54 .41 .49 36 ALK06A 1658 1998 .67 .66 .71 .54 .61 .78 .74 .69 .51 .40 .45 .38 37 ALK06B 1615 1998 .69 .76 .63 .54 .52 .39 .66 .72 .67 .64 .41 .44 .57 .48 38 ALK07A 1564 1998 .70 .69 .67 .70 .61 .56 .46 .41 .76 .76 .42 .46 .78 .74 .68 .67 39 ALK08A 1645 1998 .53 .50 .34 .37 .44 .67 .53 .59 .74 .60 .51 .56 .54 40 ALK08B 1642 1998 .48 .43 .37B .51 .46 .60 .74 .73 .76 .66 .60 .69 .62 41 ALK09B 1673 1998 .42 .42 .38 .35 .50 .49 .46 .61 .59 .56 .47 .47 42 ALK10A 1702 1998 .51 .47 .68 .60 .56 .58 .53 .58 .49 .55 43 ALK10B 1747 1998 .61 .54 .56 .50 .46 .56 .62 .57 .68 44 ALK11A 1735 1993 .54 .64 .56 .55 .59 .45 .53 .55 .54 45 ALK11B 1782 1992 .66 .71 .73 .66 .57 .42 .39 46 ALK12A 1747 1998 .70 .64 .61 .56 .62 .63 .53 .48 .42 47 ALK12B 1719 1998 .55 .61 .80 .70 .60 .59 .39 .41 .61 .73 48 ALK13A 1606 1998 .56 .56 .31B .36B .63 .51 .64 .63 .60 .64 .48 .48 .61 .58 49 ALK13B 1450 1998 .30B .56 .67 .57 .60 .52 .54 .49 .39 .58 .70 .62 .68 .64 .68 .74 .57 .59 .69 .50 50 ALK13C 1489 1998 .65 .69 .56 .62 .57 .54 .58 .36 .42 .61 .56 .69 .67 .59 .64 .44 .48 .66 .52 51 ALK14A 1760 1998 .69 .73 .72 .67 .62 .74 .81 .72 52 ALK14B 1768 1998 .71 .69 .72 .73 .67 .72 .74 .75 53 ALK15B 1703 1998 .57 .51 .57 .69 .62 .66 .62 .44 .52 .48 Av segment correlation .37 .59 .62 .57 .65 .62 .59 .59 .48 .48 .55 .51 .59 .61 .55 .54 .52 .54 .57 .55 PART 5: CORRELATION OF SERIES BY SEGMENTS: ca628.rwl 17:09 Fri 11 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 1950 1999 --- -------- --------- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 1 ANJ05A 1552 1980 .27B 2 ANJ05B 1578 1980 .57 3 ANJ06A 1645 1980 .47 4 ANJ10B 1676 1980 .53 5 ANJ12A 1659 1980 .76 6 ANJ13A 1579 1980 .54 7 ANJ13B 1599 1980 .51 8 ANJ14A 1518 1980 .56 11 ANJ26B 1624 1980 .53 12 ANJ32A 1477 1980 .30A 13 ANJ32B 1473 1980 .62 14 ANJ38A 1647 1980 .39 15 ANJ42B 1594 1980 .68 16 ANP08A 1634 1980 .51 17 ANP08B 1636 1980 .71 18 ANP18A 1509 1980 .56 19 ANP18C 1587 1980 .42 20 ANP18D 1493 1980 .43 21 ANP22B 1612 1980 .49 22 ANP22C 1575 1980 .62 23 ANP27A 1545 1980 .58 24 ANP27B 1532 1980 .72 25 ANP37A 1675 1975 .59 26 ANP37B 1674 1980 .52 27 ANP41A 1587 1980 .63 28 ANP41B 1612 1980 .72 29 ANP43A 1548 1980 .75 30 ANP43B 1529 1980 .66 31 ALK01A 1745 1998 .72 32 ALK01B 1739 1998 .57 33 ALK02A 1598 1998 .53 34 ALK02B 1567 1998 .62 35 ALK03B 1600 1998 .71 36 ALK06A 1658 1998 .69 37 ALK06B 1615 1998 .66 38 ALK07A 1564 1998 .75 39 ALK08A 1645 1998 .61 40 ALK08B 1642 1998 .69 41 ALK09B 1673 1998 .67 42 ALK10A 1702 1998 .71 43 ALK10B 1747 1998 .78 44 ALK11A 1735 1993 .53 45 ALK11B 1782 1992 .43 46 ALK12A 1747 1998 .54 47 ALK12B 1719 1998 .74 48 ALK13A 1606 1998 .65 49 ALK13B 1450 1998 .62 50 ALK13C 1489 1998 .60 51 ALK14A 1760 1998 .75 52 ALK14B 1768 1998 .75 53 ALK15B 1703 1998 .56 Av segment correlation .60 PART 7: DESCRIPTIVE STATISTICS: ca628.rwl 17:09 Fri 11 Mar 2005 Page 9 ------------------------------------------------------------------------------------------------------------------------------------ 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 ANJ05A 1552 1980 429 17 4 .441 .66 2.10 .336 .729 .280 2.60 .405 -.020 1 2 ANJ05B 1578 1980 403 16 2 .485 .88 2.33 .363 .745 .234 2.50 .359 -.022 1 3 ANJ06A 1645 1980 336 14 1 .477 .86 3.23 .475 .787 .291 2.59 .438 -.028 1 4 ANJ10B 1676 1980 305 12 0 .514 1.11 3.05 .620 .818 .292 2.60 .395 .008 1 5 ANJ12A 1659 1980 322 13 1 .539 1.16 2.50 .500 .840 .216 2.77 .375 -.006 1 6 ANJ13A 1579 1980 402 16 1 .494 .95 3.08 .565 .903 .196 2.57 .349 -.051 1 7 ANJ13B 1599 1980 382 16 0 .549 .99 3.68 .530 .800 .234 2.58 .299 -.007 2 8 ANJ14A 1518 1980 463 19 0 .521 .58 1.98 .352 .823 .320 2.73 .324 -.004 1 9 ANJ14B 1510 1910 401 16 0 .569 .73 1.75 .338 .740 .288 2.45 .329 -.007 1 10 ANJ26A 1629 1950 322 13 0 .603 1.00 5.77 .818 .896 .271 2.66 .460 -.041 2 11 ANJ26B 1624 1980 357 15 0 .554 1.05 6.00 1.016 .936 .275 2.52 .396 -.044 1 12 ANJ32A 1477 1980 504 20 5 .565 .77 3.97 .533 .875 .239 2.61 .381 -.001 1 13 ANJ32B 1473 1980 508 21 1 .533 .81 3.10 .539 .873 .276 2.66 .369 .013 1 14 ANJ38A 1647 1980 334 14 0 .560 1.17 3.81 .674 .853 .230 2.78 .384 -.011 1 15 ANJ42B 1594 1980 387 16 0 .625 .97 2.52 .530 .833 .233 2.58 .348 -.015 1 16 ANP08A 1634 1980 347 14 0 .582 .87 1.96 .415 .655 .346 2.67 .450 -.004 1 17 ANP08B 1636 1980 345 14 0 .617 .95 1.96 .370 .654 .293 2.59 .349 -.012 1 18 ANP18A 1509 1980 472 19 4 .478 .90 2.82 .447 .778 .270 2.73 .443 .018 1 19 ANP18C 1587 1980 394 16 0 .525 1.03 2.29 .392 .661 .256 2.66 .398 .021 1 20 ANP18D 1493 1980 488 20 3 .450 .91 3.05 .478 .814 .262 2.85 .373 .017 1 21 ANP22B 1612 1980 369 15 2 .466 1.12 3.74 .553 .827 .232 2.62 .418 -.022 1 22 ANP22C 1575 1980 406 16 0 .534 1.25 4.19 .728 .853 .243 2.75 .417 -.017 1 23 ANP27A 1545 1980 436 18 0 .573 .82 4.63 .802 .921 .352 2.48 .306 -.023 2 24 ANP27B 1532 1980 449 18 0 .558 .92 5.31 .975 .948 .286 2.54 .333 .003 2 25 ANP37A 1675 1975 301 12 0 .573 .87 3.23 .742 .901 .376 2.64 .415 .007 1 26 ANP37B 1674 1980 307 13 2 .516 .95 3.87 .742 .887 .297 2.70 .407 -.002 1 27 ANP41A 1587 1980 394 16 1 .592 .99 4.49 .909 .925 .310 2.70 .400 -.020 1 28 ANP41B 1612 1980 369 15 0 .640 .97 4.75 .783 .839 .354 2.55 .354 .006 1 29 ANP43A 1548 1980 433 18 0 .677 .94 3.64 .709 .810 .359 2.64 .370 .000 1 30 ANP43B 1529 1980 452 18 0 .587 .79 2.46 .446 .730 .329 2.59 .420 -.033 1 31 ALK01A 1745 1998 254 10 0 .572 1.38 3.33 .668 .843 .226 2.44 .294 -.016 5 32 ALK01B 1739 1998 260 10 0 .558 1.50 3.96 .651 .790 .196 2.72 .492 -.001 5 33 ALK02A 1598 1998 401 16 3 .488 .98 2.07 .284 .448 .254 2.65 .411 .035 2 34 ALK02B 1567 1998 432 17 1 .516 .94 2.77 .502 .815 .226 2.57 .328 .007 1 35 ALK03B 1600 1998 399 15 2 .509 .82 1.96 .407 .805 .232 2.68 .462 -.021 1 36 ALK06A 1658 1998 341 13 0 .619 .82 2.94 .643 .892 .319 2.54 .421 -.007 1 37 ALK06B 1615 1998 384 15 0 .594 1.03 4.92 .806 .882 .262 2.58 .359 -.020 1 38 ALK07A 1564 1998 435 17 0 .654 .58 2.53 .425 .842 .308 2.57 .381 .014 2 39 ALK08A 1645 1998 354 14 0 .562 1.12 4.00 .775 .833 .291 2.76 .431 -.046 4 40 ALK08B 1642 1998 357 14 1 .607 1.05 3.74 .677 .828 .294 2.61 .367 -.050 2 41 ALK09B 1673 1998 326 13 0 .514 1.08 3.47 .723 .885 .275 2.63 .401 -.002 1 42 ALK10A 1702 1998 297 11 0 .572 1.28 2.28 .357 .566 .209 2.59 .455 .009 1 43 ALK10B 1747 1998 252 10 0 .598 1.34 2.42 .383 .463 .248 2.67 .435 .018 1 44 ALK11A 1735 1993 259 10 0 .535 1.45 3.58 .684 .860 .208 2.50 .390 -.016 3 45 ALK11B 1782 1992 211 8 0 .572 1.32 3.08 .651 .879 .213 2.48 .347 .009 1 46 ALK12A 1747 1998 252 10 0 .574 1.54 3.40 .676 .732 .252 2.56 .405 -.007 2 47 ALK12B 1719 1998 280 11 0 .619 1.36 4.70 .808 .862 .211 2.49 .352 .035 2 48 ALK13A 1606 1998 393 15 2 .544 .57 1.70 .226 .714 .230 2.63 .415 -.016 1 PART 7: DESCRIPTIVE STATISTICS: ca628.rwl 17:09 Fri 11 Mar 2005 Page 10 ------------------------------------------------------------------------------------------------------------------------------------ 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 ALK13B 1450 1998 549 21 1 .545 .80 3.06 .591 .879 .312 2.52 .264 .003 1 50 ALK13C 1489 1998 510 20 0 .583 .82 3.32 .580 .832 .292 2.59 .392 -.012 2 51 ALK14A 1760 1998 239 9 0 .713 1.56 4.00 .959 .871 .259 2.67 .440 -.027 1 52 ALK14B 1768 1998 231 9 0 .719 1.39 3.33 .849 .889 .225 2.53 .380 .005 1 53 ALK15B 1703 1998 296 11 0 .568 1.44 4.94 .839 .879 .245 2.52 .343 -.012 1 --- -------- --------- ----- ----- ----- ------ ----- ----- ----- ----- ----- ----- ----- ----- -- Total or mean: 19529 779 37 .557 .98 6.00 .588 .812 .272 2.85 .383 -.008