PROGRAM SCORER.GPB.ALASKA COMPUTES SCORES OF FINITE ELEMENT VELOCITY MODELS FROM PROGRAM -PLATES- BY USING SLIP-RATE, STRESS, AND GEODETIC DATA THIS VERSION CUSTOMIZED FOR THE ALASKAN PROBLEM IN THE PLACES MARKED BY C****** ALASKA (BEGIN SECTION) ****************** C****** ALASKA (END SECTION) ****************** BY PETER BIRD, DEPARTMENT OF EARTH AND SPACE SCIENCES, UNIVERSITY OF CALIFORNIA, LOS ANGELES, CALIFORNIA 90024 (WITH ASSISTANCE FROM XIANGHONG KONG). VERSION OF MAY 6, 1993 -------------------------------------------------------- ATTEMPTING TO READ FINITE ELEMENT GRID FROM UNIT 1 TITLE OF FINITE ELEMENT GRID = AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis (SINCE OPTION BRIEF=.TRUE., GRID WILL NOT BE ECHOED HERE. BE CAREFUL]]]) SINCE FAULT OFFSETS ARE ALL ZERO, INPUT PARAMETER BYERLY WILL HAVE NO EFFECT. WARNING: STRIKE-SLIP FAULT ELEMENTS 104 AND 130 SHARE NODES 233 AND 234 BUT THEIR ARGUMENTS OF -17.6 AND -29.7 DEGREES DIFFER SUBSTANTIALLY. THE ARGUMENTS WILL BE AVERAGED, AND A VALUE OF -23.7 WILL BE USED. THIS IS NECESSARY TO PREVENT FAULT LOCKING; IF YOU -WANT- THE FAULT LOCKED, THEN USE A SINGLE NODE AT THIS POINT. WARNING: STRIKE-SLIP FAULT ELEMENTS 183 AND 184 SHARE NODES 841 AND 842 BUT THEIR ARGUMENTS OF 21.2 AND 19.7 DEGREES DIFFER SUBSTANTIALLY. THE ARGUMENTS WILL BE AVERAGED, AND A VALUE OF 20.5 WILL BE USED. THIS IS NECESSARY TO PREVENT FAULT LOCKING; IF YOU -WANT- THE FAULT LOCKED, THEN USE A SINGLE NODE AT THIS POINT. 10 DATA ON FAULT SLIP RATES WERE READ FROM UNIT 2: -IN MILLIMETERS/YEAR- FAULT POSITION TOWARD MIN. MAX. MIN. MAX. ELEMNT FRACTION NODE R.LAT. R.LAT. DELVZ DELVZ 128 1.000 239 48.000 58.000 INF INF Fairweather Plafker et al., 1978 127 .500 357 .001 INF .001 INF Saint Elias Campbell et al.; Estabrook et al., 1992 107 .500 598 .001 INF .001 INF Castle Mountain Detterman et al., 1974 7 .500 400 -.001 .002 INF INF Denali (E.Shakwak) Richter and Matson, 1971 121 .500 402 .001 INF .001 INF Duke River Page et al., 1991 77 .500 462 9.000 33.000 INF INF Totschunda Richter and Matson, 1971 94 .500 521 11.000 35.000 INF INF Denali (W.Shakwak) Richter and Matson, 1971 93 .500 589 5.000 INF INF INF Denali (McKinley) Stout et al., 1973 93 .500 589 1.000 1.000 INF INF Denali (McKinley) Lanphere, 1978 147 .500 1451 INF -.001 INF -.001 Zhemchig basin Abers et al., 1993 NOTE: DELVZ VALUES ARE ALWAYS POSITIVE IN CASES OF CONVERGENCE (THRUSTING), AND NEGATIVE IN CASES OF DIVERGENCE (NORMAL FAULTING). ---------------------------------------------------------------------- DATA ON STRESS DIRECTIONS (IN DEGREES COUNTERCLOCKWISE FROM +X) SITE ELE# S1 S2 A-E TYPE ARG REGIME DEPTH AK-1 493 .525 .029 A G-VA 109. SS? 0.000 Nakamura and others (1977) AK-2 121 .061 .960 A G-VA 115. SS? 0.000 Nakamura and others(1977) AK-3 126 .675 .110 D G-VA 128. SS? 0.000 Nakamura and others(1977) AK-4 128 .860 .083 D G-VA 125. SS? 0.000 Nakamura and others(1977) AK-5 126 .409 .292 A G-VA 103. SS? 0.000 Nakamura and others(1977) AK-6 128 .705 .219 B G-VA 100. SS? 0.000 Nakamura and others(1977) AK-7 126 .057 .535 C G-VA 14. SS? 0.000 Nakamura and others(1977) AK-8 128 .362 .361 C G-VA 126. SS? 0.000 Nakamura and others(1977) AK-9 104 .118 .431 B G-VA 137. SS? 0.000 Nakamura and others (1977) AK-10 104 .048 .515 B G-VA 142. SS? 0.000 Nakamura and others (1977) AK-11 105 .413 .146 C G-VA 12. SS? 0.000 Nakamura and others (1977) AK-12 107 .231 .497 C G-VA 133. SS? 0.000 Nakamura and others (1977) AK-13 113 .124 .834 B G-VA 97. SS? 0.000 Nakamura and others (1977) AK-14 108 .173 .094 D G-VA 134. SS? 0.000 Nakamura and others (1977) AK-15 71 .263 .109 A G-VA 118. SS? 0.000 Nakamura and others (1977) AK-16 522 .077 .254 A G-VA 115. SS? 0.000 Nakamura and others (1977) AK-17 693 .475 .047 B G-VA 1. SS? 0.000 Nakamura and others (1977) AK-18 522 .427 .064 B G-VA 136. SS? 0.000 Nakamura and others (1977) AK-19 82 .185 .171 C G-VA 96. SS? 0.000 Nakamura and others (1977) AK-20 23 .116 .390 A G-VA 61. SS? 0.000 Nakamura and others (1977) AK-21 680 .039 .391 B G-VA 126. SS? 0.000 Nakamura and others (1977) 680 .039 .391 B G-VA 21. SS? 0.000 Nakamura and others (1977) AK-22 276 .905 .058 A G-VA 155. SS? 0.000 Nakamura and others (1977) AK-23 44 .720 .060 A G-VA 110. SS? 0.000 Nakamura and others (1977) AK-24 281 .659 .363 B G-VA 166. SS? 0.000 Nakamura and others (1977) AK-25 52 .261 .535 D G-VA 106. SS? 0.000 Nakamura and others (1977) AK-26 468 .619 .122 A G-VA 138. SS? 0.000 Nakamura and others (1977) AK-27 399 .067 .799 A G-VA 151. SS? 0.000 Nakamura and others (1977) AK-28 368 .208 .053 B BO 136. -- Cox (1983), J.W. Cox (1984, written comm.) AK-29 279 .513 .024 B G-VA 122. SS? 0.000 Nakamura and others (1977) 279 .513 .024 B G-VA 37. SS? 0.000 AK-31 124 .341 .227 B FM(S) 96. SS 26.000 AK-32 124 .341 .227 B FM(S) 94. SS 25.000 AK-36 169 .049 .352 B FM(S) 105. T 33.000 AK-38 169 .512 .240 B FM(S) 97. T 38.000 AK-40 619 .890 .067 B FM(S) 114. T? 20.000 AK-43 624 .843 .111 B FM(S) 20. T 20.000 AK-45 625 .117 .484 B FM(S) 52. T 15.000 AK-48 624 .484 .285 B FM(S) 82. T 5.000 AK-52 41 .259 .511 B FM(S) 111. T 12.000 AK-53 78 .090 .614 B FM(S) 109. T 24.000 AK-56 621 .550 .117 B FM(S) 89. N 34.000 AK-58 41 .183 .576 B FM(S) 119. T 10.000 AK-60 471 .054 .284 B FM(S) 118. T 33.000 AK-67 499 .088 .818 C FM(S) 90. T 25.000 AK-68 154 .770 -.012 B FM(S) 86. T 30.000 AK-69 152 .297 .555 B FM(S) 96. T 41.000 AK-72 142 .227 .212 B FM(S) 96. T 35.000 AK-75 495 .339 .256 B FM(S) 100. T 30.000 AK-80 60 -.002 .848 C FM(S) 139. T 30.000 AK-81 151 .743 .134 B FM(S) 92. T 22.000 AK-85 607 .323 .447 B FM(S) 117. T 32.000 AK-86 182 .292 .283 B FM(S) 85. T 0.000 AK-90 602 .050 .357 B FM(S) 126. T 44.000 AK-91 512 .699 .279 C FM(S) 101. T 25.000 AK-92 493 .606 .220 B FM(S) 95. T 31.000 AK-94 495 .013 .032 B FM(S) 10. T 13.000 AK-95 188 .427 .183 B FM(S) 63. T 20.000 AK-97 624 .431 .445 C FM(S) 172. T 9.000 AK-98 621 .137 .173 B FM(S) 74. T 30.000 AK-100 253 .325 .396 C FM(S) 76. T 15.000 AK-106 265 .454 .069 B FM(S) 100. T 17.000 AK-107 65 .271 .055 B FM(S) 30. T 12.000 AK-108 96 .651 .111 B FM(S) 101. T 28.000 AK-110 491 .581 .117 C FM(S) 80. T 30.000 AK-111 391 .290 .318 C FM(S) 42. SS/T 0.000 AK-112 611 .287 .433 C FM(S) 178. T 17.000 AK-113 183 .145 .113 B FM(S) 45. T 14.000 AK-114 498 .688 .091 B FM(S) 88. T 6.000 AK-115 266 .544 .042 B FM(S) 117. T 14.000 AK-116 116 .330 .095 B FM(S) 108. T 23.000 AK-118 624 .399 .474 C FM(S) 91. T 12.000 AK-120 104 .164 .722 B FM(S) 118. T 39.000 AK-121 193 .012 .149 B FM(S) 100. T 33.000 AK-125 86 .255 .207 B FM(S) 47. T 38.000 AK-126 587 .072 .024 B FM(S) 89. T 7.000 AK-129 624 .117 .712 B FM(S) 89. T 22.000 AK-130 590 .168 .116 B FM(S) 104. T 15.000 AK-131 492 .554 .100 B FM(S) 89. T 17.000 AK-136 106 .293 .563 B FM(S) 108. T 40.000 AK-137 230 .490 .386 B FM(S) 84. T 26.000 AK-138 577 .271 .130 B FM(S) 73. T 29.000 AK-143 60 .580 .223 B FM(S) 95. T 29.000 AK-147 86 .409 .351 B FM(S) 60. T 34.000 AK-148 624 .053 .293 B FM(S) 88. T 24.000 AK-149 121 .231 .459 C FM(S) 107. T 39.000 AK-151 493 .251 .315 B FM(S) 101. T 36.000 AK-152 108 .044 .719 B FM(S) 96. T 36.000 AK-153 86 .187 .109 B FM(S) 44. T 40.000 AK-154 71 .365 .577 C FM(S) 95. T 37.000 AK-155 63 .583 .384 C FM(S) 95. T 43.000 AK-157 493 .162 .469 B FM(S) 114. T 15.000 AK-158 493 .159 .489 B FM(S) 114. T 13.000 AK-161 493 .291 .365 B FM(S) 114. T 25.000 AK-162 118 .476 .092 C FM(S) 91. T 38.000 AK-163 187 .244 .107 B FM(S) 71. T 7.000 AK-164 153 .115 .724 C FM(S) 47. T 2.000 AK-165 153 .246 .689 C FM(S) 110. T 10.000 AK-166 252 .345 .451 C FM(S) 121. T 15.000 AK-167 60 .371 .417 C FM(S) 92. T 33.000 AK-170 63 .611 .342 C FM(S) 102. T 37.000 AK-172 177 .100 .158 B FM(S) 65. T 8.000 AK-174 98 .014 .522 B FM(S) 106. T 20.000 AK-175 161 .212 .203 B FM(S) 78. T 25.000 AK-176 161 .148 .312 B FM(S) 89. T 33.000 AK-179 121 .113 .635 B FM(S) 101. T 33.000 AK-180 181 .098 .454 C FM(S) 73. T 45.000 AK-181 79 .090 .513 B FM(S) 127. T 10.000 AK-182 124 .431 .567 B FM(S) 91. T 25.000 AK-184 63 .068 .799 C FM(S) 114. T 39.000 AK-186 627 .087 .403 B FM(S) 110. T 11.000 AK-189 106 .861 .098 B FM(S) 103. T 26.000 AK-193 142 .399 .463 B FM(S) 78. T 33.000 AK-194 96 .757 .072 C FM(S) 107. T 33.000 AK-195 458 -.019 .610 C FM(S) 110. T 8.000 AK-201 493 .088 .184 B FM(S) 85. T 54.000 AK-203 142 .435 .416 B FM(S) 75. T 33.000 AK-211 94 .552 .272 C FM(S) 110. T 33.000 AK-212 488 .428 .234 B FM(S) 87. T 20.000 AK-213 589 .294 .078 B FM(S) 100. T 15.000 AK-214 624 .066 .045 B FM(S) 50. T 29.000 AK-215 620 .810 .122 B FM(S) 50. T 29.000 AK-220 118 .322 .201 C FM(S) 90. T 33.000 AK-221 108 .327 .459 C FM(S) 155. T 39.000 AK-222 489 .241 .277 C FM(S) 93. T 25.000 AK-226 510 -.003 .136 C FM(S) 157. T 19.000 AK-229 118 .334 .186 C FM(S) 143. T 33.000 AK-233 489 .022 .473 C FM(S) 89. T 10.000 AK-235 252 .181 .394 C FM(S) 100. T 15.000 AK-237 252 .181 .394 B FM(S) 114. T 15.000 AK-238 252 .290 .344 C FM(S) 126. T 13.000 AK-239 134 .342 .529 B FM(S) 87. T 25.000 AK-240 142 .666 .217 C FM(S) 34. T 14.000 AK-241 493 .587 .273 B FM(S) 95. T 39.000 AK-243 152 .353 .134 C FM(S) 84. T 29.000 AK-244 152 .315 .252 C FM(S) 83. T 41.000 AK-246 155 .067 .329 C FM(S) 70. T 24.000 AK-247 646 .210 .748 C FM(S) 100. T 10.000 AK-250 491 .523 .100 C FM(S) 127. T 37.000 AK-251 64 .174 .076 C FM(S) 118. T 23.000 AK-252 142 .464 .123 C FM(S) 73. T 24.000 AK-256 188 .742 .056 C FM(S) 46. T 28.000 AK-258 495 .062 .708 C FM(S) 134. SS/T 15.000 AK-261 114 .137 .163 C FM(S) 97. SS 35.000 AK-263 113 -.008 .815 C FM(S) 67. T 15.000 AK-265 121 .340 .104 B FM(S) 98. T 23.000 AK-266 121 .455 .087 B FM(S) 84. T 31.000 AK-267 121 .106 .357 B FM(S) 91. T 24.000 AK-268 488 .449 .265 B FM(S) 93. T 18.000 AK-270 120 .220 .371 C FM(S) 98. T 15.000 AK-271 489 .048 .413 C FM(S) 98. T 16.000 AK-272 488 .539 .459 C FM(S) 94. T 16.000 AK-273 488 .460 .546 C FM(S) 106. T 15.000 AK-274 489 .129 .296 C FM(S) 90. T 15.000 AK-275 493 .635 .231 C FM(S) 106. T 46.000 AK-276 130 .895 .007 B FM(S) 131. T 15.000 AK-277 489 .076 .941 C FM(S) 129. T 27.000 AK-278 130 .819 .081 B FM(S) 131. T 15.000 AK-279 129 .026 .108 C FM(S) 133. T 15.000 AK-280 251 .225 .015 C FM(S) 127. T 15.000 AK-281 488 .479 .239 C FM(S) 96. T 15.000 AK-282 113 .056 .709 C FM(S) 92. SS 49.000 AK-284 79 .225 .257 B FM(S) 114. T 15.000 AK-286 129 .097 .056 C FM(S) 132. T 15.000 AK-287 120 .178 .335 C FM(S) 94. T 17.000 AK-288 124 .373 .184 C FM(S) 95. T 15.000 AK-292 106 .165 .293 C FM(S) 36. N 18.000 AK-293 106 .278 .231 C FM(S) 51. N 15.000 AK-294 106 .285 .207 C FM(S) 52. N 15.000 AK-295 120 .184 .336 C FM(S) 95. T 25.000 AK-297 121 .363 .412 C FM(S) 104. T 41.000 AK-298 488 .387 .359 C FM(S) 100. T 15.000 AK-299 120 .433 .082 C FM(S) 90. T 18.000 AK-300 78 .465 .060 B FM(S) 117. T 15.000 AK-301 78 .358 .170 C FM(S) 129. T 15.000 AK-304 121 .345 .392 C FM(S) 110. T 48.000 AK-305 649 .241 .731 C FM(S) 130. T 15.000 AK-307 120 .190 .122 C FM(S) 101. T 37.000 AK-308 96 .306 .201 C FM(S) 131. T 15.000 AK-309 587 .337 .426 C BO 95. -- AK-310 586 .581 .099 C BO 76. -- AK-311 587 .261 .284 C BO 76. -- AK-312 587 .344 .258 C BO 109. -- AK-313 587 .303 .157 C BO 109. -- AK-314 589 .015 .983 C BO 116. -- AK-315 588 -.009 .318 C BO 111. -- AK-316 582 .119 .888 C BO 92. -- AK-317 588 -.007 .513 C BO 107. -- AK-318 588 .171 .072 C BO 114. -- AK-320 391 .127 .609 C BO 154. -- AK-321 391 .140 .645 C BO 96. -- AK-322 368 .237 .057 C BO 9. -- AK-323 368 .237 .057 C BO 125. -- AK-324 368 .207 .095 C BO 178. -- AK-325 368 .229 .075 C BO 139. -- AK-326 368 .220 .112 C BO 112. -- BC-1 222 .273 .083 C? BO 113. 1.780 Fordjor and others(1983) BC-2 222 .263 .128 B? BO 36. 1.020 Bell and others(1986) BC-3 222 .448 .436 B? BO 50. 1.550 Gough and Bell(1981) BC-4 213 .401 .539 A? BO 46. 1.820 Bell and others(1986?) BC-5 214 .592 .156 B? BO 77. 1.140 Gough and Bell (1981) BC-6 213 .213 .527 A? BO 50. 2.470 Gough and Bell(1981) BC-7 209 .284 .550 A? BO 79. 1.890 Bell and others(1986?) NT-5 234 .044 .667 B BO 68. -- Gough and others (1983) NT-6 236 .031 .279 B? BO 40. -- Gough and others(1983) NT-7 230 .696 .146 B? BO 107. -- Gough and others(1983) NT-8 230 .804 -.024 B? BO 113. -- Gough and others(1983) NT-9 232 .109 .461 B BO 88. -- Gough and others(1983) NT-10 232 .084 .726 B BO 109. -- Gough and others(1983) NT-11 234 .169 .207 B BO 152. -- Gough and others(1983) NT-12 234 .128 .127 B BO 166. -- Gough and others(1983) NT-13 232 .689 .180 B BO 89. -- Gough and others(1983) NT-14 221 .742 .192 B BO 55. -- Gough and others(1983) NT-15 221 .115 .562 B BO 46. -- Gough and others(1983) NT-16 221 .125 .568 B BO 39. -- Gough and others (1983) NT-17 221 .042 .493 B BO 57. -- Gough and others(1983) NT-18 234 .040 .670 B BO 75. -- Gough and others(1983) NT-19 230 .055 .779 B BO 59. -- Gough and others(1983) NT-20 221 .135 .549 B BO 134. -- Gough and others(1983) NT-37 221 .036 .501 A BO 73. -- Cox, pers. comm. 1986 NT-38 393 .244 .367 A BO 71. 1.160 Cox, pers. comm., 1986 NT-39 236 .285 .475 B BO 71. 3.000 Cox, pers. comm., 1986 NT-40 393 .117 .900 A BO 66. 2.000 Cox, pres. comm., 1986 NT-41 236 .035 .000 A BO 55. 3.010 Bell and others (in prep, 1986) NT-42 369 .033 .065 A BO 36. 3.170 Bell and others (in prep, 1986) NT-43 369 .056 .090 A BO 51. 2.580 Bell and others (in prep, 1986) NT-44 236 .051 .150 B BO 59. 1.580 Bell and others (in prep, 1986) NT-45 369 .084 .056 A BO 44. 2.110 Bell and others (in prep, 1986) NT-46 369 .108 .085 A BO 31. 2.030 Bell and others (in prep, 1986) NT-47 264 .707 .232 A BO 23. 3.380 Bell and others (in prep,1986) 264 .707 .232 D BO 70. 3.380 . NT-48 369 .092 .061 A BO 74. 1.910 Bell and other (in prep, 1986) NT-49 237 .050 .901 B BO 48. 2.080 Bell and others (in prep, 1986) NT-50 393 .027 .934 B BO 71. 3.350 Bell and others (in prep, 1986) NT-51 369 .092 .036 A BO 34. 1.210 Bell and others (in prep, 1986) NT-52 393 .021 .909 A BO 37. 2.020 Bell and others (in prep, 1986) NT-53 236 .032 .278 A BO 34. 1.530 Bell and others (in prep, 1986) NT-54 262 .320 .252 A BO 25. 1.960 Bell and others (in prep, f1986) NT-55 393 .082 .912 A BO 56. 2.740 Bell and others (in prep, 1986) NT-56 369 .104 .019 A BO 37. 2.740 Bell and others (in prep, 1986) NT-57 369 .125 .035 A BO 32. 2.950 Bell and others (in prep, 1986) NT-58 369 .124 .024 A BO 43. 3.070 Bell and others (in prep, 1986) NT-59 237 .056 .748 A BO 33. 1.030 Bell and others (in prep, 1986) NT-60 393 .024 .855 B BO 50. 2.610 Bell and others (in prep, 1986) NT-61 393 .065 .832 A BO 44. 3.010 Bell and others (in prep, 1986) NT-62 393 .034 .795 A BO 36. 2.910 Bell and others (in prep, 1986) NT-63 369 .228 .071 A BO 59. 3.100 Bell and others (in prep, 1986) NT-64 369 .201 .020 B BO 66. 2.680 Bell and others (in prep, 1986) NT-65 393 .055 .698 A BO 59. 2.070 Bell and others (in prep, 1986) NT-66 393 .024 .691 A BO 25. 1.410 Bell and others (in prep, 1986) NT-67 393 .138 .653 B BO 69. 1.900 Bell and others (in prep, 1986) NT-68 393 .176 .576 C BO 38. 1.750 Bell and others (in prep, 1986) NT-69 393 .207 .583 C BO 34. 1.850 Bell and others (in prep, 1986) NT-70 393 .194 .571 B BO 74. 1.730 Bell and others (in prep , 1986) NT-71 393 .294 .423 A BO 77. 1.180 Bell and others (in prep.,1986) NT-72 393 .244 .366 A BO 71. 1.620 Bell and others (in prep., 1986) NT-73 393 .277 .331 A BO 62. 0.650 Bell and others (in prep., 1986) NT-75 236 .110 -.025 A BO 59. 2.070 Bell and others (in prep, 1986) YK-1 230 .607 .250 C FM(S) 63. SS 18.000 Wetmiller and Horner (1978) YK-2 236 .051 .151 B? BO 43. -- Gough and others(1983) YK-3 264 .655 .047 B BO 46. -- Gough and others(1983) YK-4 255 .705 -.007 B BO 112. -- Gough and others(1983) YK-5 229 .460 .120 B BO 96. -- YK-6 230 .493 .021 B BO 63. -- YK-7 513 .167 -.018 A FM(C) 62. SS 15.000 YK-8 230 .500 .387 C FM(S) 85. SS 26.000 YK-9 231 .343 .239 C FM(S) 126. SS/T 8.000 YK-10 513 .796 .109 B FM(S) 74. T 13.000 YK-11 392 .042 .428 B FM(S) 56. T 10.000 Dziewonski and others (1986) YK-12 227 .285 .288 B FM(S) 33. T 14.700 Dziewonski and others (1986) OF-12 369 .590 .258 C FM(S) 104. N/SS 40.000 Hasegawa and others (1979) OF-13 369 .003 .106 C BO 14. 2.860 Bell and others (in prep) 369 .003 .106 D BO 14. 2.860 . OF-14 369 .065 .196 C BO 41. 4.100 Bell and others (in prep) OF-15 392 .185 .447 A BO 23. 2.520 Bell and others (in prep) OF-16 369 .062 .119 A BO 36. 2.810 Bell and others (in prep, 1986) OF-17 369 .109 .015 A BO 36. 2.040 Bell and others (in prep, 1986) OF-18 369 .298 .167 B BO 32. 2.900 Bell and others (in prep, 1986) OF-19 369 .336 .162 A BO 25. 3.140 Bell and others (in prep, 1986) OF-20 369 .259 .022 A BO 48. 3.700 Bell and others (in prep, 1986) OF-21 369 .349 .093 B BO 45. 3.740 Bell and others (in prep, 1986) OF-22 393 .312 .615 B BO 68. 1.850 Bell and others (in prep, 1986) OF-23 393 .379 .615 B BO 76. 3.120 Bell and others (in prep, 1986) OF-24 369 .639 .221 A FM(S) 77. N/SS 40.000 Hasegawa and others (1979) OF-66 1 .307 .062 C FM(S) 85. SS 22.000 Rogers (1983) OF-67 5 .223 .216 C FM(S) 89. SS 20.000 Rogers (1983) GEODETIC BENCHMARK LOCATIONS FROM INPUT UNIT 4 BENCHMARK (NETWORK NAME): A31 ELE# S1 S2 ------------------------------- ------ ------ ------ Delta Barnes 523 .005 .875 Delta Canwell 515 .017 .004 Delta Castner 268 .028 .964 Delta Center 40 .041 .938 Delta Ferrians 524 .001 .005 Delta Johnson 40 .077 .860 Delta Lanni 40 .088 .885 Delta Miller 523 .023 .922 Delta Quartz 268 .123 .863 Delta Rainy 524 .052 .047 Delta Upper 40 .004 .807 Delta Yost 515 .035 .034 Fairweather Chamberlain 581 .547 .313 Fairweather Comb 718 .727 .038 Fairweather Flat 583 .035 .030 Fairweather Hidden 583 .081 .040 Fairweather Mid 717 .795 .116 Fairweather Moser 583 .028 .214 Fairweather Nova 722 .877 .012 Fairweather Slate 583 .069 .289 Fairweather Tat 581 .944 .051 Fairweather Yaku 581 .765 .134 Nenana Brusk 506 .710 .205 Nenana Cant 506 .323 .400 Nenana Cantw RM2 506 .432 .515 Nenana Cantwell 506 .432 .345 Nenana Carlo 54 .120 .488 Nenana Cleft 54 .305 .458 Nenana Cranberry 506 .152 .322 Nenana Hiway 54 .406 .590 Nenena Knoll 506 .367 .586 Nenana LGO 21 & 22 506 .427 .442 Nenana LGO 31 506 .494 .493 Nenana Reindeer 506 .527 .370 Nenana Riley 54 .113 .355 Nenana Slime 54 .346 .601 Nenana Summit 506 .229 .486 Nenana Talus 506 .451 .061 Nunatak #1 512 .139 .091 Nunatak #2 717 .736 .053 Nunatak #3 717 .750 .075 Nunatak #4 512 .119 .046 Nunatak #5 583 .189 .009 Nunatak #6 512 .119 .057 Totschunda Bend 455 .368 .628 Totschunda Black Eagle 455 .283 .642 Totschunda Burnt 455 .279 .544 Totschunda Cache 455 .112 .477 Totschunda Coal 462 .240 .260 Totschunda Cub 455 .108 .731 Totschunda End 462 .384 .024 Totschunda Frederika 462 .295 .187 Totschunda Fulcrum 462 .171 .342 Totschunda Goat 462 .219 .357 Totschunda Gofer 462 .191 .262 Totschunda Holmes 455 .212 .696 Totschunda Lime 455 .439 .541 Totschunda Pass 462 .154 .240 Totschunda Pingpong 455 .204 .580 Totschunda Rohn 462 .276 .269 Totschunda Russell 462 .326 .071 Totschunda Sentinel 462 .134 .427 Totschunda Skolai 462 .190 .158 Totschunda Solo 455 .367 .534 VLBI Fairbanks 265 .539 .117 VLBI Kodiak 608 .207 .420 VLBI Kodiak transverse base 205 .060 .758 VLBI Nome 401 .014 .701 VLBI Nome transverse base 370 .711 .095 VLBI Sand Point 71 .187 .565 VLBI Sand Point transverse base 306 .430 .079 VLBI Sourdough 515 .223 .236 VLBI Sourdough transverse base 240 .270 .232 VLBI Whitehorse 246 .118 .052 VLBI Whitehorse transverse base 240 .072 .541 VLBI Yakataga 588 .407 .121 VLBI Yakataga transverse base 227 .843 .074 GEODETIC BASLINE RATES FROM INPUT UNIT 4 BENCHMARK #1: A31 BENCHMARK #2: 1X,A31 RATE(MM/A):1X,F6 SIGMA ------------------------------- ------------------------------- ------ ------ Delta Canwell Delta Johnson -1.00 1.00 Delta Canwell Delta Rainy 2.00 1.00 Delta Canwell Delta Yost 1.00 1.00 Delta Castner Delta Barnes 6.00 1.00 Delta Castner Delta Canwell 5.00 1.00 Delta Castner Delta Center -5.00 1.00 Delta Castner Delta Ferrians 5.00 1.00 Delta Castner Delta Johnson -1.00 1.00 Delta Castner Delta Lanni 1.00 1.00 Delta Castner Delta Miller 3.00 1.00 Delta Castner Delta Quartz -1.00 1.00 Delta Castner Delta Upper .00 1.00 Delta Center Delta Barnes 2.00 1.00 Delta Center Delta Lanni .00 1.00 Delta Ferrians Delta Barnes -3.00 1.00 Delta Ferrians Delta Center -1.00 1.00 Delta Ferrians Delta Lanni 1.00 1.00 Delta Johnson Delta Miller 1.00 1.00 Delta Johnson Delta Quartz 1.00 1.00 Delta Johnson Delta Upper 3.00 1.00 Delta Miller Delta Canwell 1.00 1.00 Delta Miller Delta Rainy .00 1.00 Delta Miller Delta Yost .00 1.00 Delta Quartz Delta Upper 1.00 1.00 Delta Rainy Delta Yost 1.00 1.00 Fairweather Comb Fairweather Flat 8.00 2.00 Fairweather Comb Fairweather Hidden 14.00 2.00 Fairweather Comb Fairweather Moser 1.00 3.00 Fairweather Comb Fairweather Yaku -5.00 2.00 Fairweather Flat Fairweather Hidden 2.00 2.00 Fairweather Flat Fairweather Mid -7.00 2.00 Fairweather Flat Fairweather Moser -5.00 2.00 Fairweather Flat Fairweather Nova 14.00 2.00 Fairweather Hidden Fairweather Mid -7.00 2.00 Fairweather Hidden Fairweather Moser -6.00 2.00 Fairweather Hidden Fairweather Nova 15.00 3.00 Fairweather Hidden Fairweather Yaku 1.00 3.00 Fairweather Mid Fairweather Moser -12.00 3.00 Fairweather Mid Fairweather Nova 6.00 3.00 Fairweather Moser Fairweather Nova 11.00 3.00 Fairweather Moser Fairweather Yaku 7.00 2.00 Fairweather Nova Fairweather Yaku -2.00 2.00 Nenana Brusk Nenana Cantwell .00 2.00 Nenana Brusk Nenana Slime 1.00 2.00 Nenana Brusk Nenana Talus 1.00 2.00 Nenana Cant Nenana Cantwell .00 2.00 Nenana Cant Nenana Summit 1.00 2.00 Nenana Cantw RM2 Nenena Knoll 1.00 1.00 Nenana Cantw RM2 Nenana LGO 31 1.00 1.00 Nenana Cantwell Nenana Cleft 1.00 2.00 Nenana Cantwell Nenana Hiway .00 2.00 Nenana Cantwell Nenana LGO 21 & 22 .00 2.00 Nenana Cantwell Nenana LGO 31 -1.00 2.00 Nenana Cantwell Nenana Slime 1.00 2.00 Nenana Cantwell Nenana Summit 1.00 2.00 Nenana Cantwell Nenana Talus .00 2.00 Nenana Carlo Nenana Cleft 1.00 2.00 Nenana Carlo Nenana Riley -1.00 2.00 Nenana Carlo Nenana Slime .00 2.00 Nenana Cleft Nenana Riley .00 2.00 Nenana Cleft Nenana Slime .00 2.00 Nenana Cleft Nenana Summit 1.00 2.00 Nenana Cranberry Nenana Cant 2.00 1.00 Nenana Cranberry Nenana Cantwell 3.00 1.00 Nenana Cranberry Nenana Slime 5.00 1.00 Nenana Cranberry Nenana Summit 1.00 2.00 Nenana Hiway Nenana LGO 31 1.00 2.00 Nenana Hiway Nenana Reindeer -1.00 2.00 Nenana LGO 21 & 22 Nenana Hiway .00 1.00 Nenana LGO 21 & 22 Nenana LGO 31 1.00 2.00 Nenana LGO 21 & 22 Nenana Reindeer .00 2.00 Nenana LGO 31 Nenena Knoll 1.00 2.00 Nenana LGO 31 Nenana Reindeer .00 1.00 Nenana Slime Nenana Riley .00 2.00 Nenana Slime Nenana Summit 2.00 2.00 Nenana Slime Nenana Talus .00 2.00 Nunatak #1 Nunatak #2 3.00 2.00 Nunatak #1 Nunatak #3 7.00 2.00 Nunatak #1 Nunatak #4 1.00 2.00 Nunatak #1 Nunatak #5 -2.00 2.00 Nunatak #1 Nunatak #6 1.00 2.00 Nunatak #2 Nunatak #4 -3.00 2.00 Nunatak #2 Nunatak #5 -6.00 2.00 Nunatak #2 Nunatak #6 -5.00 2.00 Nunatak #3 Nunatak #4 -2.00 1.00 Nunatak #3 Nunatak #5 1.00 2.00 Nunatak #3 Nunatak #6 -3.00 1.00 Nunatak #4 Nunatak #5 3.00 2.00 Nunatak #4 Nunatak #6 2.00 1.00 Nunatak #5 Nunatak #6 2.00 2.00 VLBI Fairbanks VLBI Kodiak -4.00 1.00 VLBI Kodiak transverse base VLBI Kodiak 11.00 1.00 VLBI Fairbanks VLBI Nome 3.00 4.00 VLBI Nome transverse base VLBI Nome .00 4.00 VLBI Fairbanks VLBI Sand Point 4.00 2.00 VLBI Sand Point transverse base VLBI Sand Point -5.00 1.00 VLBI Fairbanks VLBI Sourdough 4.00 3.00 VLBI Sourdough transverse base VLBI Sourdough 2.00 1.00 VLBI Fairbanks VLBI Whitehorse -2.00 2.00 VLBI Whitehorse transverse base VLBI Whitehorse 6.00 2.00 VLBI Fairbanks VLBI Yakataga -35.00 3.00 VLBI Yakataga transverse base VLBI Yakataga 3.00 1.00 ====================================================================== AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis AKBC795: BOUNDARY CONDITIONS, 7/95, BASED ON NUVEL-1 & COOK ET AL., 1986 INAK9801: = INAK9549, Re-run with corrected Old_PLATES ATTEMPTING TO READ PARAMETERS FROM UNIT 11 TITLE OF PARAMETER SET = INAK9801: = INAK9549, Re-run with corrected Old_PLATES ************************************************** IT IS THE USERS RESPONSIBILITY TO INPUT ALL OF THE FOLLOWING NUMERICAL QUANTITIES IN CONSISTENT UNITS, SUCH AS SYSTEM-INTERNATIONAL (SI) OR CM-G-S (CGS). NOTE THAT TIME UNIT MUST BE THE SECOND (HARD-CODED). ************************************************** ========== STRATEGIC PARAMETERS (DEFINE THE REAL-EARTH PROBLEM) ====== .170 COEFFICIENT OF FRICTION ON FAULTS .850 COEFFICIENT OF FRICTION WITHIN BLOCKS 1.0000 EFFECTIVE-PRESSURE (BIOT) COEFFICIENT, 0.0 TO 1.0 .0000 BYERLY COEFFICIENT (NOT USED IN THIS RUN, AS ALL OFFSETS ARE ZERO) 2.30E+09/ 5.41E+04 A FOR CREEP = PRE-EXPONENTIAL SHEAR STRESS CONSTANT FOR CREEP. (CRUST/MANTLE) 4000./ 18314. B FOR CREEP =(ACTIVATION ENERGY)/R/N IN K. (CRUST/MANTLE) 0.00E+00/ 1.71E-02 C FOR CREEP = DERIVATIVE OF B WITH RESPECT TO DEPTH. (CRUST/MANTLE) 5.00E+08/ 5.00E+08 D FOR CREEP = MAXIMUM SHEAR STRESS UNDER ANY CONDITIONS. (CRUST/MANTLE) .333333 E FOR CREEP = STRAIN-RATE EXPONENT FOR CREEP (1/N). (SAME FOR CRUST AND MANTLE]) 1.00E+07 LIMIT ON HORIZONTAL TRACTIONS APPLIED TO BASE OF PLATE 1.000E+03 DENSITY OF GROUNDWATER, LAKES, & OCEANS 2.800E+03/ 3.330E+03 MEAN DENSITY, CORRECTED TO 0 DEGREES KELVIN. (CRUST/MANTLE) 3.168E+03 DENSITY OF ASTHENOSPHERE 9.800E+00 MEAN GRAVITATIONAL ACCELERATION (LENGTH/SEC**2) 1.000E+03 NUMBER OF LENGTH UNITS NEEDED TO MAKE 1 KILOMETER (E.G., 1000. IN SI, 1.E5 IN CGS) 2.40E-05/ 3.10E-05 VOLUMETERIC THERMAL EXPANSION OF CRUST (1/VOL)*(D.VOL/D.T). (CRUST/MANTLE) 3.00E+00/ 4.06E+00 THERMAL CONDUCTIVITY, ENERGY/LENGTH/SEC/DEG. (CRUST/MANTLE) 4.55E-07/ 3.20E-08 RADIOACTIVE HEAT PRODUCTION ENERGY/VOLUME/SEC. (CRUST/MANTLE) 283. SURFACE TEMPERATURE, ON ABSOLUTE SCALE 1223./ 1573. CONVECTING TEMPERATURE (TMAX), ON ABSOLUTE SCALE. (CRUST/MANTLE) ========== TACTICAL PARAMETERS (HOW TO REACH THE SOLUTION) ========== 50 MAXIMUM ITERATIONS WITHIN VELOCITY SOLUTION .000100 ACCEPTABLE FRACTIONAL CHANGE IN VELOCITY (STOPS ITERATION EARLY) 5.00E+07 EXPECTED MEAN VALUE OF SHEAR STRESS IN CRUST (USED TO INITIALIZE AND SET STIFFNESS LIMITS) 1.00E-10 MAGNITUDE OF VELOCITY ERR0RS ALLOWED DUE TO FINITE STIFFNESS (SUCH ERR0RS MAY APPEAR IN SUCH FORMS AS: 1. FICTICIOUS BASAL SLIP OF CRUST OVER MANTLE 2. ERRONEOUS CONVERGENCE/DIVERGENCE AT VERTICAL FAULTS 3. VELOCITY EFFECT OF FICTICIOUS VISCOUS COMPLIANCES HOWEVER, VALUES WHICH ARE TOO SMALL WILL CAUSE ILL-CONDITIONED LINEAR SYSTEMS AND STRESS ERR0RS, AND MAY PREVENT CONVERGENCE]) F SHOULD NODAL VELOCITIES BE OUTPUT EVERY STEP? (FOR CONVERGENCE STUDIES) ------------------------------------------------------------------------------- SKIPPED OVER PLOT-CONTROL LINES ------------------------------------------------------------------------------- GEOLOGIC SLIPRATE PREDICTIONS AND THEIR ERR0RS: -IN MILLIMETERS/YEAR- FAULT POSITION TOWARD MIN. MAX. MIN. MAX. ELEMNT FRACTION NODE R.LAT. R.LAT. DELVZ DELVZ + MODEL-R.LAT ERR0R MODEL-DELVZ ERR0R CHANCES-OF-CONSISTENCY-W/-GEOLOGY 128 1.000 239 48.000 58.000 INF INF 38.077 9.923 INF INF .218 1.000 127 .500 357 .001 INF .001 INF 2.194 .000 .417 .000 1.000 1.000 107 .500 598 .001 INF .001 INF 3.890 .000 5.937 .000 1.000 1.000 7 .500 400 -.001 .002 INF INF 5.462 5.460 INF INF .200 1.000 121 .500 402 .001 INF .001 INF .972 .000 8.188 .000 1.000 1.000 77 .500 462 9.000 33.000 INF INF 5.775 3.225 INF INF .211 1.000 94 .500 521 11.000 35.000 INF INF 11.683 .000 INF INF .704 1.000 93 .500 589 5.000 INF INF INF 5.329 .000 INF INF .710 1.000 93 .500 589 1.000 1.000 INF INF 5.329 4.329 INF INF .200 1.000 147 .500 1451 INF -.001 INF -.001 -.271 .000 -.137 .000 1.000 1.000 NOTE: DELVZ VALUES ARE ALWAYS POSITIVE IN CASES OF CONVERGENCE (THRUSTING), AND NEGATIVE IN CASES OF DIVERGENCE (NORMAL FAULTING). AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis AKBC795: BOUNDARY CONDITIONS, 7/95, BASED ON NUVEL-1 & COOK ET AL., 1986 INAK9801: = INAK9549, Re-run with corrected Old_PLATES FRACTION OF PREDICTIONS IN ERR0R = .286 AVERAGE ERR0R OF ALL PREDICTIONS = 1.638 MM/YEAR ROOT-MEAN-SQUARE ERR0R OF ALL PREDICTIONS = 3.353 MM/YEAR LARGEST ERR0R OF ANY PREDICTION = 9.923 MM/YEAR PROBABILITY THAT MODEL INPUT PARAMETERS AND PHYSICAL EQUATIONS ARE CONSISTENT WITH THE TRUE GEOLOGY REPRESENTED BY THIS DATASET IS 9.201E-04 ################################################ ### ESTIMATE, BASED ON THIS DATASET,OF ### ### PROBABILITY THAT, IN A GIVEN CASE, ### ### THESE PHYSICAL EQUATIONS AND PARAMETER ### ### VALUES LEAD TO A PREDICTED SLIP RATE ### ### CONSISTENT WITH GEOLOGIC DATA (WITHIN ### ### ITS UNCERTAINTIES) IS .6069 ### ################################################ ---------------------------------------------------------------------- SCORES WITH REGARD TO STRESS DIRECTION DATA: DATA DATA DATA DATA DATA MODEL MODEL MODEL MODEL SITE ELEMENT ARG(S1H) REGIME E-SIGNS E-SIGNS #WRONG ARG(S1H) ERR0R WEIGHT AK-1 493 109. SS? 0 0 0 -1 1 -1 0 77. 32. 1.00 AK-2 121 115. SS? 0 0 0 -1 1 -1 0 86. 29. 1.00 AK-3 126 128. SS? 0 0 0 -1 1 -1 0 109. 19. .25 AK-4 128 125. SS? 0 0 0 1 1 -1 0 112. 13. .25 AK-5 126 103. SS? 0 0 0 -1 1 -1 0 109. 6. 1.00 AK-6 128 100. SS? 0 0 0 1 1 -1 0 112. 12. .75 AK-7 126 14. SS? 0 0 0 -1 1 -1 0 109. 85. .50 AK-8 128 126. SS? 0 0 0 1 1 -1 0 112. 14. .50 AK-9 104 137. SS? 0 0 0 1 1 -1 0 19. 62. .75 AK-10 104 142. SS? 0 0 0 1 1 -1 0 19. 57. .75 AK-11 105 12. SS? 0 0 0 1 1 -1 0 7. 5. .50 AK-12 107 133. SS? 0 0 0 1 1 -1 0 40. 87. .50 AK-13 113 97. SS? 0 0 0 1 1 -1 0 110. 13. .75 AK-14 108 134. SS? 0 0 0 -1 1 -1 0 104. 30. .25 AK-15 71 118. SS? 0 0 0 -1 1 -1 0 122. 4. 1.00 AK-16 522 115. SS? 0 0 0 -1 1 -1 0 108. 7. 1.00 AK-17 693 1. SS? 0 0 0 -1 1 -1 0 164. 17. .75 AK-18 522 136. SS? 0 0 0 -1 1 -1 0 108. 28. .75 AK-19 82 96. SS? 0 0 0 -1 1 1 0 96. 0. .50 AK-20 23 61. SS? 0 0 0 -1 1 1 0 67. 6. 1.00 AK-21 680 126. SS? 0 0 0 -1 1 -1 0 161. 35. .75 680 21. SS? 0 0 0 -1 1 -1 0 161. 40. .75 AK-22 276 155. SS? 0 0 0 -1 1 -1 0 158. 3. 1.00 AK-23 44 110. SS? 0 0 0 -1 1 1 0 142. 32. 1.00 AK-24 281 166. SS? 0 0 0 -1 1 -1 0 157. 9. .75 AK-25 52 106. SS? 0 0 0 -1 1 1 0 163. 57. .25 AK-26 468 138. SS? 0 0 0 -1 1 -1 0 152. 14. 1.00 AK-27 399 151. SS? 0 0 0 -1 1 -1 0 163. 12. 1.00 AK-28 368 136. 0 0 0 -1 -1 1 0 4. 48. .75 AK-29 279 122. SS? 0 0 0 -1 1 -1 0 157. 35. .75 279 37. SS? 0 0 0 -1 1 -1 0 157. 60. .75 AK-31 124 96. SS -1 1 0 1 1 -1 1 84. 12. .75 AK-32 124 94. SS -1 1 0 1 1 -1 1 84. 10. .75 AK-36 169 105. T -1 0 1 -1 1 1 0 37. 68. .75 AK-38 169 97. T -1 0 1 -1 1 1 0 37. 60. .75 AK-40 619 114. T? 0 0 0 -1 1 1 0 163. 49. .75 AK-43 624 20. T -1 0 1 -1 1 1 0 138. 62. .75 AK-45 625 52. T -1 0 1 -1 1 1 0 111. 59. .75 AK-48 624 82. T -1 0 1 -1 1 1 0 138. 56. .75 AK-52 41 111. T -1 0 1 -1 1 -1 1 121. 10. .75 AK-53 78 109. T -1 0 1 -1 1 -1 1 113. 4. .75 AK-56 621 89. N 0 1 -1 -1 1 1 1 102. 13. .75 AK-58 41 119. T -1 0 1 -1 1 -1 1 121. 2. .75 AK-60 471 118. T -1 0 1 -1 1 1 0 160. 42. .75 AK-67 499 90. T -1 0 1 -1 1 1 0 42. 48. .50 AK-68 154 86. T -1 0 1 -1 1 -1 1 13. 73. .75 AK-69 152 96. T -1 0 1 -1 1 -1 1 98. 2. .75 AK-72 142 96. T -1 0 1 1 1 -1 2 48. 48. .75 AK-75 495 100. T -1 0 1 -1 1 -1 1 68. 32. .75 AK-80 60 139. T -1 0 1 -1 1 -1 1 109. 30. .50 AK-81 151 92. T -1 0 1 1 1 -1 2 76. 16. .75 AK-85 607 117. T -1 0 1 -1 1 -1 1 129. 12. .75 AK-86 182 85. T -1 0 1 -1 -1 1 0 80. 5. .75 AK-90 602 126. T -1 0 1 -1 -1 1 0 33. 87. .75 AK-91 512 101. T -1 0 1 -1 1 1 0 85. 16. .50 AK-92 493 95. T -1 0 1 -1 1 -1 1 77. 18. .75 AK-94 495 10. T -1 0 1 -1 1 -1 1 68. 58. .75 AK-95 188 63. T -1 0 1 -1 1 1 0 63. 0. .75 AK-97 624 172. T -1 0 1 -1 1 1 0 138. 34. .50 AK-98 621 74. T -1 0 1 -1 1 1 0 102. 28. .75 AK-100 253 76. T -1 0 1 -1 1 1 0 118. 42. .50 AK-106 265 100. T -1 0 1 -1 1 1 0 106. 6. .75 AK-107 65 30. T -1 0 1 -1 1 -1 1 105. 75. .75 AK-108 96 101. T -1 0 1 -1 1 -1 1 95. 6. .75 AK-110 491 80. T -1 0 1 -1 1 -1 1 83. 3. .50 AK-111 391 42. SS/T -1 1 1 -1 -1 1 1 8. 34. .50 AK-112 611 178. T -1 0 1 -1 1 -1 1 109. 69. .50 AK-113 183 45. T -1 0 1 -1 1 1 0 54. 9. .75 AK-114 498 88. T -1 0 1 -1 1 1 0 13. 75. .75 AK-115 266 117. T -1 0 1 -1 1 1 0 121. 4. .75 AK-116 116 108. T -1 0 1 1 1 -1 2 123. 15. .75 AK-118 624 91. T -1 0 1 -1 1 1 0 138. 47. .50 AK-120 104 118. T -1 0 1 1 1 -1 2 19. 81. .75 AK-121 193 100. T -1 0 1 -1 1 1 0 109. 9. .75 AK-125 86 47. T -1 0 1 -1 1 -1 1 119. 72. .75 AK-126 587 89. T -1 0 1 -1 1 1 0 94. 5. .75 AK-129 624 89. T -1 0 1 -1 1 1 0 138. 49. .75 AK-130 590 104. T -1 0 1 -1 1 1 0 100. 4. .75 AK-131 492 89. T -1 0 1 1 1 -1 2 77. 12. .75 AK-136 106 108. T -1 0 1 1 1 -1 2 92. 16. .75 AK-137 230 84. T -1 0 1 -1 -1 1 0 87. 3. .75 AK-138 577 73. T -1 0 1 -1 1 1 0 74. 1. .75 AK-143 60 95. T -1 0 1 -1 1 -1 1 109. 14. .75 AK-147 86 60. T -1 0 1 -1 1 -1 1 119. 59. .75 AK-148 624 88. T -1 0 1 -1 1 1 0 138. 50. .75 AK-149 121 107. T -1 0 1 -1 1 -1 1 86. 21. .50 AK-151 493 101. T -1 0 1 -1 1 -1 1 77. 24. .75 AK-152 108 96. T -1 0 1 -1 1 -1 1 104. 8. .75 AK-153 86 44. T -1 0 1 -1 1 -1 1 119. 75. .75 AK-154 71 95. T -1 0 1 -1 1 -1 1 122. 27. .50 AK-155 63 95. T -1 0 1 -1 1 -1 1 108. 13. .50 AK-157 493 114. T -1 0 1 -1 1 -1 1 77. 37. .75 AK-158 493 114. T -1 0 1 -1 1 -1 1 77. 37. .75 AK-161 493 114. T -1 0 1 -1 1 -1 1 77. 37. .75 AK-162 118 91. T -1 0 1 -1 1 -1 1 83. 8. .50 AK-163 187 71. T -1 0 1 -1 1 1 0 88. 17. .75 AK-164 153 47. T -1 0 1 -1 1 -1 1 66. 19. .50 AK-165 153 110. T -1 0 1 -1 1 -1 1 66. 44. .50 AK-166 252 121. T -1 0 1 -1 1 1 0 122. 1. .50 AK-167 60 92. T -1 0 1 -1 1 -1 1 109. 17. .50 AK-170 63 102. T -1 0 1 -1 1 -1 1 108. 6. .50 AK-172 177 65. T -1 0 1 -1 1 1 0 5. 60. .75 AK-174 98 106. T -1 0 1 -1 1 -1 1 96. 10. .75 AK-175 161 78. T -1 0 1 -1 1 -1 1 23. 55. .75 AK-176 161 89. T -1 0 1 -1 1 -1 1 23. 66. .75 AK-179 121 101. T -1 0 1 -1 1 -1 1 86. 15. .75 AK-180 181 73. T -1 0 1 -1 1 -1 1 24. 49. .50 AK-181 79 127. T -1 0 1 -1 1 -1 1 119. 8. .75 AK-182 124 91. T -1 0 1 1 1 -1 2 84. 7. .75 AK-184 63 114. T -1 0 1 -1 1 -1 1 108. 6. .50 AK-186 627 110. T -1 0 1 -1 1 1 0 97. 13. .75 AK-189 106 103. T -1 0 1 1 1 -1 2 92. 11. .75 AK-193 142 78. T -1 0 1 1 1 -1 2 48. 30. .75 AK-194 96 107. T -1 0 1 -1 1 -1 1 95. 12. .50 AK-195 458 110. T -1 0 1 -1 1 1 0 85. 25. .50 AK-201 493 85. T -1 0 1 -1 1 -1 1 77. 8. .75 AK-203 142 75. T -1 0 1 1 1 -1 2 48. 27. .75 AK-211 94 110. T -1 0 1 -1 1 -1 1 90. 20. .50 AK-212 488 87. T -1 0 1 -1 1 -1 1 80. 7. .75 AK-213 589 100. T -1 0 1 -1 1 1 0 88. 12. .75 AK-214 624 50. T -1 0 1 -1 1 1 0 138. 88. .75 AK-215 620 50. T -1 0 1 -1 1 1 0 155. 75. .75 AK-220 118 90. T -1 0 1 -1 1 -1 1 83. 7. .50 AK-221 108 155. T -1 0 1 -1 1 -1 1 104. 51. .50 AK-222 489 93. T -1 0 1 -1 1 -1 1 91. 2. .50 AK-226 510 157. T -1 0 1 -1 1 1 0 124. 33. .50 AK-229 118 143. T -1 0 1 -1 1 -1 1 83. 60. .50 AK-233 489 89. T -1 0 1 -1 1 -1 1 91. 2. .50 AK-235 252 100. T -1 0 1 -1 1 1 0 122. 22. .50 AK-237 252 114. T -1 0 1 -1 1 1 0 122. 8. .75 AK-238 252 126. T -1 0 1 -1 1 1 0 122. 4. .50 AK-239 134 87. T -1 0 1 -1 1 -1 1 62. 25. .75 AK-240 142 34. T -1 0 1 1 1 -1 2 48. 14. .50 AK-241 493 95. T -1 0 1 -1 1 -1 1 77. 18. .75 AK-243 152 84. T -1 0 1 -1 1 -1 1 98. 14. .50 AK-244 152 83. T -1 0 1 -1 1 -1 1 98. 15. .50 AK-246 155 70. T -1 0 1 -1 1 -1 1 51. 19. .50 AK-247 646 100. T -1 0 1 -1 1 1 0 24. 76. .50 AK-250 491 127. T -1 0 1 -1 1 -1 1 83. 44. .50 AK-251 64 118. T -1 0 1 -1 1 -1 1 105. 13. .50 AK-252 142 73. T -1 0 1 1 1 -1 2 48. 25. .50 AK-256 188 46. T -1 0 1 -1 1 1 0 63. 17. .50 AK-258 495 134. SS/T -1 1 1 -1 1 -1 1 68. 66. .50 AK-261 114 97. SS -1 1 0 1 1 -1 1 120. 23. .50 AK-263 113 67. T -1 0 1 1 1 -1 2 110. 43. .50 AK-265 121 98. T -1 0 1 -1 1 -1 1 86. 12. .75 AK-266 121 84. T -1 0 1 -1 1 -1 1 86. 2. .75 AK-267 121 91. T -1 0 1 -1 1 -1 1 86. 5. .75 AK-268 488 93. T -1 0 1 -1 1 -1 1 80. 13. .75 AK-270 120 98. T -1 0 1 -1 1 -1 1 75. 23. .50 AK-271 489 98. T -1 0 1 -1 1 -1 1 91. 7. .50 AK-272 488 94. T -1 0 1 -1 1 -1 1 80. 14. .50 AK-273 488 106. T -1 0 1 -1 1 -1 1 80. 26. .50 AK-274 489 90. T -1 0 1 -1 1 -1 1 91. 1. .50 AK-275 493 106. T -1 0 1 -1 1 -1 1 77. 29. .50 AK-276 130 131. T -1 0 1 1 1 -1 2 103. 28. .75 AK-277 489 129. T -1 0 1 -1 1 -1 1 91. 38. .50 AK-278 130 131. T -1 0 1 1 1 -1 2 103. 28. .75 AK-279 129 133. T -1 0 1 1 1 -1 2 104. 29. .50 AK-280 251 127. T -1 0 1 -1 1 1 0 124. 3. .50 AK-281 488 96. T -1 0 1 -1 1 -1 1 80. 16. .50 AK-282 113 92. SS -1 1 0 1 1 -1 1 110. 18. .50 AK-284 79 114. T -1 0 1 -1 1 -1 1 119. 5. .75 AK-286 129 132. T -1 0 1 1 1 -1 2 104. 28. .50 AK-287 120 94. T -1 0 1 -1 1 -1 1 75. 19. .50 AK-288 124 95. T -1 0 1 1 1 -1 2 84. 11. .50 AK-292 106 36. N 0 1 -1 1 1 -1 0 92. 56. .50 AK-293 106 51. N 0 1 -1 1 1 -1 0 92. 41. .50 AK-294 106 52. N 0 1 -1 1 1 -1 0 92. 40. .50 AK-295 120 95. T -1 0 1 -1 1 -1 1 75. 20. .50 AK-297 121 104. T -1 0 1 -1 1 -1 1 86. 18. .50 AK-298 488 100. T -1 0 1 -1 1 -1 1 80. 20. .50 AK-299 120 90. T -1 0 1 -1 1 -1 1 75. 15. .50 AK-300 78 117. T -1 0 1 -1 1 -1 1 113. 4. .75 AK-301 78 129. T -1 0 1 -1 1 -1 1 113. 16. .50 AK-304 121 110. T -1 0 1 -1 1 -1 1 86. 24. .50 AK-305 649 130. T -1 0 1 -1 1 1 0 176. 46. .50 AK-307 120 101. T -1 0 1 -1 1 -1 1 75. 26. .50 AK-308 96 131. T -1 0 1 -1 1 -1 1 95. 36. .50 AK-309 587 95. 0 0 0 -1 1 1 0 94. 1. .50 AK-310 586 76. 0 0 0 -1 1 1 0 111. 35. .50 AK-311 587 76. 0 0 0 -1 1 1 0 94. 18. .50 AK-312 587 109. 0 0 0 -1 1 1 0 94. 15. .50 AK-313 587 109. 0 0 0 -1 1 1 0 94. 15. .50 AK-314 589 116. 0 0 0 -1 1 1 0 88. 28. .50 AK-315 588 111. 0 0 0 -1 1 1 0 102. 9. .50 AK-316 582 92. 0 0 0 -1 1 1 0 93. 1. .50 AK-317 588 107. 0 0 0 -1 1 1 0 102. 5. .50 AK-318 588 114. 0 0 0 -1 1 1 0 102. 12. .50 AK-320 391 154. 0 0 0 -1 -1 1 0 8. 34. .50 AK-321 391 96. 0 0 0 -1 -1 1 0 8. 88. .50 AK-322 368 9. 0 0 0 -1 -1 1 0 4. 5. .50 AK-323 368 125. 0 0 0 -1 -1 1 0 4. 59. .50 AK-324 368 178. 0 0 0 -1 -1 1 0 4. 6. .50 AK-325 368 139. 0 0 0 -1 -1 1 0 4. 45. .50 AK-326 368 112. 0 0 0 -1 -1 1 0 4. 72. .50 BC-1 222 113. 0 0 0 -1 1 1 0 38. 75. .50 BC-2 222 36. 0 0 0 -1 1 1 0 38. 2. .75 BC-3 222 50. 0 0 0 -1 1 1 0 38. 12. .75 BC-4 213 46. 0 0 0 -1 1 1 0 34. 12. 1.00 BC-5 214 77. 0 0 0 -1 1 1 0 29. 48. .75 BC-6 213 50. 0 0 0 -1 1 1 0 34. 16. 1.00 BC-7 209 79. 0 0 0 -1 1 1 0 20. 59. 1.00 NT-5 234 68. 0 0 0 -1 1 1 0 67. 1. .75 NT-6 236 40. 0 0 0 -1 -1 1 0 86. 46. .75 NT-7 230 107. 0 0 0 -1 -1 1 0 87. 20. .75 NT-8 230 113. 0 0 0 -1 -1 1 0 87. 26. .75 NT-9 232 88. 0 0 0 -1 1 1 0 77. 11. .75 NT-10 232 109. 0 0 0 -1 1 1 0 77. 32. .75 NT-11 234 152. 0 0 0 -1 1 1 0 67. 85. .75 NT-12 234 166. 0 0 0 -1 1 1 0 67. 81. .75 NT-13 232 89. 0 0 0 -1 1 1 0 77. 12. .75 NT-14 221 55. 0 0 0 -1 1 1 0 44. 11. .75 NT-15 221 46. 0 0 0 -1 1 1 0 44. 2. .75 NT-16 221 39. 0 0 0 -1 1 1 0 44. 5. .75 NT-17 221 57. 0 0 0 -1 1 1 0 44. 13. .75 NT-18 234 75. 0 0 0 -1 1 1 0 67. 8. .75 NT-19 230 59. 0 0 0 -1 -1 1 0 87. 28. .75 NT-20 221 134. 0 0 0 -1 1 1 0 44. 90. .75 NT-37 221 73. 0 0 0 -1 1 1 0 44. 29. 1.00 NT-38 393 71. 0 0 0 -1 1 1 0 54. 17. 1.00 NT-39 236 71. 0 0 0 -1 -1 1 0 86. 15. .75 NT-40 393 66. 0 0 0 -1 1 1 0 54. 12. 1.00 NT-41 236 55. 0 0 0 -1 -1 1 0 86. 31. 1.00 NT-42 369 36. 0 0 0 -1 1 1 0 45. 9. 1.00 NT-43 369 51. 0 0 0 -1 1 1 0 45. 6. 1.00 NT-44 236 59. 0 0 0 -1 -1 1 0 86. 27. .75 NT-45 369 44. 0 0 0 -1 1 1 0 45. 1. 1.00 NT-46 369 31. 0 0 0 -1 1 1 0 45. 14. 1.00 NT-47 264 23. 0 0 0 -1 -1 1 0 94. 71. 1.00 264 70. 0 0 0 -1 -1 1 0 94. 24. .25 NT-48 369 74. 0 0 0 -1 1 1 0 45. 29. 1.00 NT-49 237 48. 0 0 0 -1 -1 1 0 76. 28. .75 NT-50 393 71. 0 0 0 -1 1 1 0 54. 17. .75 NT-51 369 34. 0 0 0 -1 1 1 0 45. 11. 1.00 NT-52 393 37. 0 0 0 -1 1 1 0 54. 17. 1.00 NT-53 236 34. 0 0 0 -1 -1 1 0 86. 52. 1.00 NT-54 262 25. 0 0 0 -1 1 1 0 133. 72. 1.00 NT-55 393 56. 0 0 0 -1 1 1 0 54. 2. 1.00 NT-56 369 37. 0 0 0 -1 1 1 0 45. 8. 1.00 NT-57 369 32. 0 0 0 -1 1 1 0 45. 13. 1.00 NT-58 369 43. 0 0 0 -1 1 1 0 45. 2. 1.00 NT-59 237 33. 0 0 0 -1 -1 1 0 76. 43. 1.00 NT-60 393 50. 0 0 0 -1 1 1 0 54. 4. .75 NT-61 393 44. 0 0 0 -1 1 1 0 54. 10. 1.00 NT-62 393 36. 0 0 0 -1 1 1 0 54. 18. 1.00 NT-63 369 59. 0 0 0 -1 1 1 0 45. 14. 1.00 NT-64 369 66. 0 0 0 -1 1 1 0 45. 21. .75 NT-65 393 59. 0 0 0 -1 1 1 0 54. 5. 1.00 NT-66 393 25. 0 0 0 -1 1 1 0 54. 29. 1.00 NT-67 393 69. 0 0 0 -1 1 1 0 54. 15. .75 NT-68 393 38. 0 0 0 -1 1 1 0 54. 16. .50 NT-69 393 34. 0 0 0 -1 1 1 0 54. 20. .50 NT-70 393 74. 0 0 0 -1 1 1 0 54. 20. .75 NT-71 393 77. 0 0 0 -1 1 1 0 54. 23. 1.00 NT-72 393 71. 0 0 0 -1 1 1 0 54. 17. 1.00 NT-73 393 62. 0 0 0 -1 1 1 0 54. 8. 1.00 NT-75 236 59. 0 0 0 -1 -1 1 0 86. 27. 1.00 YK-1 230 63. SS -1 1 0 -1 -1 1 1 87. 24. .50 YK-2 236 43. 0 0 0 -1 -1 1 0 86. 43. .75 YK-3 264 46. 0 0 0 -1 -1 1 0 94. 48. .75 YK-4 255 112. 0 0 0 -1 1 1 0 100. 12. .75 YK-5 229 96. 0 0 0 -1 1 1 0 92. 4. .75 YK-6 230 63. 0 0 0 -1 -1 1 0 87. 24. .75 YK-7 513 62. SS -1 1 0 -1 1 -1 0 96. 34. 1.00 YK-8 230 85. SS -1 1 0 -1 -1 1 1 87. 2. .50 YK-9 231 126. SS/T -1 1 1 -1 1 1 0 78. 48. .50 YK-10 513 74. T -1 0 1 -1 1 -1 1 96. 22. .75 YK-11 392 56. T -1 0 1 -1 -1 1 0 25. 31. .75 YK-12 227 33. T -1 0 1 -1 1 1 0 55. 22. .75 OF-12 369 104. N/SS -1 1 -1 -1 1 1 1 45. 59. .50 OF-13 369 14. 0 0 0 -1 1 1 0 45. 31. .50 369 14. 0 0 0 -1 1 1 0 45. 31. .25 OF-14 369 41. 0 0 0 -1 1 1 0 45. 4. .50 OF-15 392 23. 0 0 0 -1 -1 1 0 25. 2. 1.00 OF-16 369 36. 0 0 0 -1 1 1 0 45. 9. 1.00 OF-17 369 36. 0 0 0 -1 1 1 0 45. 9. 1.00 OF-18 369 32. 0 0 0 -1 1 1 0 45. 13. .75 OF-19 369 25. 0 0 0 -1 1 1 0 45. 20. 1.00 OF-20 369 48. 0 0 0 -1 1 1 0 45. 3. 1.00 OF-21 369 45. 0 0 0 -1 1 1 0 45. 0. .75 OF-22 393 68. 0 0 0 -1 1 1 0 54. 14. .75 OF-23 393 76. 0 0 0 -1 1 1 0 54. 22. .75 OF-24 369 77. N/SS -1 1 -1 -1 1 1 1 45. 32. 1.00 OF-66 1 85. SS -1 1 0 -1 1 -1 0 32. 53. .50 OF-67 5 89. SS -1 1 0 -1 1 1 0 70. 19. .50 AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis AKBC795: BOUNDARY CONDITIONS, 7/95, BASED ON NUVEL-1 & COOK ET AL., 1986 INAK9801: = INAK9549, Re-run with corrected Old_PLATES WEIGHTED MEAN ERR0R IN STRESS ORIENTATION = 25.61 DEGREES. WEIGHTED MEAN NUMBER OF INCORRECT AXIS SIGNS = .38698 SUBPROGRAM -LIMITS- PERFORMS DIMENSIONAL ANALYSIS AND ESTIMATES NECESSARY STIFFNESS LIMITS TO BALANCE THE CONFLICTING OBJECTIVES OF ACCURACY AND PRECISION: AREA OF MODEL = 1.433E+13 LENGTH**2 VOLUME OF CRUST = 1.300E+18 LENGTH**3 TYPICAL THICKNESS = 9.072E+04 LENGTH TYPICAL WIDTH = 3.785E+06 LENGTH CONSTR (CONSTRAINT WEIGHT) = 2.268E+23 FORCE-SEC/LENGTH**2 ETAMAX (MAX. BASAL COUPLING) = 5.991E+16 FORCE-SEC/LENGTH**3 FMUMAX (MAX. FAULT STIFFNESS) = 2.500E+18 FORCE-SEC/LENGTH**3 VISMAX (MAX. BLOCK VISCOSITY) = 1.893E+24 FORCE-SEC/LENGTH**2 ----------------------------------------------------------------------- GEODETIC BASELINE RATE PREDICTIONS AND THEIR ERR0RS: OBSERVED PREDICTED MODEL MODEL UNCORRECTED RATE RATE ERR0R SIGMA ERR0R MODEL RATE BASELINE (MM/YR) (MM/YR) (MM/YR) (MM/YR) (SIGMAS) (MM/YR) ------------------------------- -------- -------- ------- ------- ------- -------- Delta Canwell -TO- Delta Johnson -1.000 2.410 3.410 1.000 3.41 -10.791 Delta Canwell -TO- Delta Rainy 2.000 1.002 .998 1.000 1.00 -.016 Delta Canwell -TO- Delta Yost 1.000 -.730 1.730 1.000 1.73 -.044 Delta Castner -TO- Delta Barnes 6.000 6.289 .289 1.000 .29 4.893 Delta Castner -TO- Delta Canwell 5.000 -.405 5.405 1.000 5.41 -5.547 Delta Castner -TO- Delta Center -5.000 1.088 6.088 1.000 6.09 .021 Delta Castner -TO- Delta Ferrians 5.000 -7.958 12.958 1.000 12.96 -5.737 Delta Castner -TO- Delta Johnson -1.000 1.744 2.744 1.000 2.74 .021 Delta Castner -TO- Delta Lanni 1.000 1.916 .916 1.000 .92 .029 Delta Castner -TO- Delta Miller 3.000 -.697 3.697 1.000 3.70 2.958 Delta Castner -TO- Delta Quartz -1.000 -.427 .573 1.000 .57 -.038 Delta Castner -TO- Delta Upper .000 .168 .168 1.000 .17 -.010 Delta Center -TO- Delta Barnes 2.000 4.908 2.908 1.000 2.91 5.168 Delta Center -TO- Delta Lanni .000 -.317 .317 1.000 .32 .002 Delta Ferrians -TO- Delta Barnes -3.000 -1.239 1.761 1.000 1.76 -6.546 Delta Ferrians -TO- Delta Center -1.000 -6.733 5.733 1.000 5.73 -10.915 Delta Ferrians -TO- Delta Lanni 1.000 -6.950 7.950 1.000 7.95 -11.464 Delta Johnson -TO- Delta Miller 1.000 -2.322 3.322 1.000 3.32 -3.942 Delta Johnson -TO- Delta Quartz 1.000 -1.199 2.199 1.000 2.20 .003 Delta Johnson -TO- Delta Upper 3.000 -1.907 4.907 1.000 4.91 -.023 Delta Miller -TO- Delta Canwell 1.000 4.319 3.319 1.000 3.32 -6.383 Delta Miller -TO- Delta Rainy .000 3.428 3.428 1.000 3.43 -1.658 Delta Miller -TO- Delta Yost .000 3.698 3.698 1.000 3.70 -5.699 Delta Quartz -TO- Delta Upper 1.000 .316 .684 1.000 .68 .026 Delta Rainy -TO- Delta Yost 1.000 .193 .807 1.000 .81 .001 Fairweather Comb -TO- Fairweather Flat 8.000 5.877 2.123 2.000 1.06 11.024 Fairweather Comb -TO- Fairweather Hidden 14.000 8.668 5.332 2.000 2.67 14.364 Fairweather Comb -TO- Fairweather Moser 1.000 -1.008 2.008 3.000 .67 -.175 Fairweather Comb -TO- Fairweather Yaku -5.000 -8.114 3.114 2.000 1.56 -16.547 Fairweather Flat -TO- Fairweather Hidden 2.000 .806 1.194 2.000 .60 -.277 Fairweather Flat -TO- Fairweather Mid -7.000 -4.693 2.307 2.000 1.15 -14.680 Fairweather Flat -TO- Fairweather Moser -5.000 -3.469 1.531 2.000 .77 -2.885 Fairweather Flat -TO- Fairweather Nova 14.000 7.564 6.436 2.000 3.22 18.772 Fairweather Hidden -TO- Fairweather Mid -7.000 -1.955 5.045 2.000 2.52 -5.945 Fairweather Hidden -TO- Fairweather Moser -6.000 -4.249 1.751 2.000 .88 -3.648 Fairweather Hidden -TO- Fairweather Nova 15.000 8.583 6.417 3.000 2.14 18.744 Fairweather Hidden -TO- Fairweather Yaku 1.000 -.667 1.667 3.000 .56 -3.964 Fairweather Mid -TO- Fairweather Moser -12.000 -7.740 4.260 3.000 1.42 -14.123 Fairweather Mid -TO- Fairweather Nova 6.000 3.522 2.478 3.000 .83 2.703 Fairweather Moser -TO- Fairweather Nova 11.000 4.093 6.907 3.000 2.30 11.976 Fairweather Moser -TO- Fairweather Yaku 7.000 1.852 5.148 2.000 2.57 -.378 Fairweather Nova -TO- Fairweather Yaku -2.000 -3.023 1.023 2.000 .51 -3.236 Nenana Brusk -TO- Nenana Cantwell .000 -.050 .050 2.000 .03 -.226 Nenana Brusk -TO- Nenana Slime 1.000 -1.177 2.177 2.000 1.09 -2.255 Nenana Brusk -TO- Nenana Talus 1.000 -.594 1.594 2.000 .80 .038 Nenana Cant -TO- Nenana Cantwell .000 -.273 .273 2.000 .14 -.059 Nenana Cant -TO- Nenana Summit 1.000 -.561 1.561 2.000 .78 -.070 Nenana Cantw RM2 -TO- Nenena Knoll 1.000 -.434 1.434 1.000 1.43 -.070 Nenana Cantw RM2 -TO- Nenana LGO 31 1.000 -1.724 2.724 1.000 2.72 -.032 Nenana Cantwell -TO- Nenana Cleft 1.000 -2.739 3.739 2.000 1.87 -.284 Nenana Cantwell -TO- Nenana Hiway .000 -.754 .754 2.000 .38 .818 Nenana Cantwell -TO- Nenana LGO 21 & 22 .000 -.829 .829 2.000 .41 -.075 Nenana Cantwell -TO- Nenana LGO 31 -1.000 -.449 .551 2.000 .28 -.077 Nenana Cantwell -TO- Nenana Slime 1.000 -.620 1.620 2.000 .81 1.182 Nenana Cantwell -TO- Nenana Summit 1.000 -.788 1.788 2.000 .89 -.130 Nenana Cantwell -TO- Nenana Talus .000 -.899 .899 2.000 .45 -.221 Nenana Carlo -TO- Nenana Cleft 1.000 .133 .867 2.000 .43 .093 Nenana Carlo -TO- Nenana Riley -1.000 -.293 .707 2.000 .35 -.043 Nenana Carlo -TO- Nenana Slime .000 -1.429 1.429 2.000 .71 -.039 Nenana Cleft -TO- Nenana Riley .000 -.407 .407 2.000 .20 -.052 Nenana Cleft -TO- Nenana Slime .000 -1.564 1.564 2.000 .78 -.046 Nenana Cleft -TO- Nenana Summit 1.000 -.793 1.793 2.000 .90 1.127 Nenana Cranberry -TO- Nenana Cant 2.000 -.369 2.369 1.000 2.37 .066 Nenana Cranberry -TO- Nenana Cantwell 3.000 -.355 3.355 1.000 3.36 .030 Nenana Cranberry -TO- Nenana Slime 5.000 -.736 5.736 1.000 5.74 1.478 Nenana Cranberry -TO- Nenana Summit 1.000 -1.380 2.380 2.000 1.19 -.006 Nenana Hiway -TO- Nenana LGO 31 1.000 1.526 .526 2.000 .26 1.876 Nenana Hiway -TO- Nenana Reindeer -1.000 -.569 .431 2.000 .22 .163 Nenana LGO 21 & 22 -TO- Nenana Hiway .000 -.055 .055 1.000 .05 1.703 Nenana LGO 21 & 22 -TO- Nenana LGO 31 1.000 -.490 1.490 2.000 .74 -.003 Nenana LGO 21 & 22 -TO- Nenana Reindeer .000 -.312 .312 2.000 .16 -.088 Nenana LGO 31 -TO- Nenena Knoll 1.000 -2.185 3.185 2.000 1.59 -.104 Nenana LGO 31 -TO- Nenana Reindeer .000 .757 .757 1.000 .76 -.116 Nenana Slime -TO- Nenana Riley .000 -2.130 2.130 2.000 1.06 -.144 Nenana Slime -TO- Nenana Summit 2.000 -.328 2.328 2.000 1.16 1.683 Nenana Slime -TO- Nenana Talus .000 -2.713 2.713 2.000 1.36 -1.257 Nunatak #1 -TO- Nunatak #2 3.000 .867 2.133 2.000 1.07 .768 Nunatak #1 -TO- Nunatak #3 7.000 2.168 4.832 2.000 2.42 2.203 Nunatak #1 -TO- Nunatak #4 1.000 1.035 .035 2.000 .02 1.285 Nunatak #1 -TO- Nunatak #5 -2.000 -1.512 .488 2.000 .24 -11.168 Nunatak #1 -TO- Nunatak #6 1.000 .772 .228 2.000 .11 .987 Nunatak #2 -TO- Nunatak #4 -3.000 -1.835 1.165 2.000 .58 -1.339 Nunatak #2 -TO- Nunatak #5 -6.000 -2.722 3.278 2.000 1.64 -8.668 Nunatak #2 -TO- Nunatak #6 -5.000 -2.083 2.917 2.000 1.46 -1.641 Nunatak #3 -TO- Nunatak #4 -2.000 -1.488 .512 1.000 .51 -1.334 Nunatak #3 -TO- Nunatak #5 1.000 .496 .504 2.000 .25 1.447 Nunatak #3 -TO- Nunatak #6 -3.000 -.792 2.208 1.000 2.21 -.746 Nunatak #4 -TO- Nunatak #5 3.000 2.003 .997 2.000 .50 7.569 Nunatak #4 -TO- Nunatak #6 2.000 .262 1.738 1.000 1.74 .296 Nunatak #5 -TO- Nunatak #6 2.000 1.261 .739 2.000 .37 4.101 VLBI Fairbanks -TO- VLBI Kodiak -4.000 -36.968 32.968 1.000 32.97 -2.971 VLBI Kodiak transverse base -TO- VLBI Kodiak 11.000 16.384 5.384 1.000 5.38 4.136 VLBI Fairbanks -TO- VLBI Nome 3.000 -.890 3.890 4.000 .97 -1.469 VLBI Nome transverse base -TO- VLBI Nome .000 -.787 .787 4.000 .20 .433 VLBI Fairbanks -TO- VLBI Sand Point 4.000 -11.493 15.493 2.000 7.75 3.610 VLBI Sand Point transverse base-TO- VLBI Sand Point -5.000 -19.893 14.893 1.000 14.89 -1.728 VLBI Fairbanks -TO- VLBI Sourdough 4.000 -10.558 14.558 3.000 4.85 -10.695 VLBI Sourdough transverse base -TO- VLBI Sourdough 2.000 2.014 .014 1.000 .01 4.711 VLBI Fairbanks -TO- VLBI Whitehorse -2.000 1.730 3.730 2.000 1.86 1.138 VLBI Whitehorse transverse base-TO- VLBI Whitehorse 6.000 -5.706 11.706 2.000 5.85 -5.512 VLBI Fairbanks -TO- VLBI Yakataga -35.000 -43.768 8.768 3.000 2.92 -49.117 VLBI Yakataga transverse base -TO- VLBI Yakataga 3.000 -8.671 11.671 1.000 11.67 -9.885 AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis AKBC795: BOUNDARY CONDITIONS, 7/95, BASED ON NUVEL-1 & COOK ET AL., 1986 INAK9801: = INAK9549, Re-run with corrected Old_PLATES WEIGHTED MEAN PREDICTION ERR0R RELATIVE TO GEODETIC BASELINE RATES IS 3.518 (MM/YR). WEIGHTED RMS ERR0R IS 6.400 (MM/YR). ================================================ BOTTOM LINE: AK795.FEG: ALASKA (July 1995), with uniform Q in syntaxis AKBC795: BOUNDARY CONDITIONS, 7/95, BASED ON NUVEL-1 & COOK ET AL., 1986 INAK9801: = INAK9549, Re-run with corrected Old_PLATES RMS GEOLOGIC SLIP-RATE ERR0R= 3.353 MM/YEAR WEIGHTED MEAN STRESS ERR0R = 25.612 DEGREES WEIGHTED RMS GEODETIC ERR0R = 6.400 MM/YEAR EPSILON (COMBINED ERR0R) = 4.687 MM/YEAR ================================================