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1

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Orthogonal stack of global tide gauge sea level data (1990)

Wahr, J. ; Trupin, A.

In: Other Sources

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Publication Date: 2019-06-28

Description: Yearly and monthly tide gauge sea level data from around the globe are fitted to numerically generated equilibrium tidal data to search for the 18.6 year lunar tide and 14 month pole tide. Both tides are clearly evident in the results, and their amplitudes and phases are found to be consistent with a global equilibrium response. Global, monthly sea level data from outside the Baltic sea and Gulf of Bothnia are fitted to global atmospheric pressure data to study the response of the ocean to pressure fluctuations. The response is found to be inverted barometer at periods greater than two months. Global averages of tide gauge data, after correcting for the effects of post glacial rebound on individual station records, reveal an increase in sea level over the last 80 years of between 1.1 mm/yr and 1.9 mm/yr.

Keywords: GEOPHYSICS

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2

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The earth's forced nutations - Geophysical implications (1990)

De Vries, D. ; Wahr, J. M.

In: Other Sources

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Publication Date: 2019-06-28

Description: Theories of nutation are examined critically to develop an extension of the theoretical description based on an earth in nonhydrostatic equilibrium. The estimation of nutation amplitude as a function of frequency is reviewed with reference to contributing variables such as the oceans, mantle anelasticity, and nonhydrostatic structure. Theoretical results by Wahr (1981) are compared to those of VLBI observations, and other VLBI data are used to discuss Wahr and Bergen's (1986) theoretical nutation admittances for an anelastic earth. The contributions associated with the tilt-over mode and with free-core nutations (FCN) are discussed, and the contribution of anelasticity is examined. The VLBI data show that nutation data are important sources of information regarding the earth's interior. Nutation amplitudes are derived with a model for a nonhydrostatically prestressed earth to determine the FCN contributions.

Keywords: GEOPHYSICS

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3

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An excitation mechanism for the free 'core nutation' (1981)

Wahr, J. M. ; Sasao, T.

In: Other Sources

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Publication Date: 2019-06-28

Description: The earth is believed to possess a free nutational mode due to its rotating, elliptical, fluid core, with an eigenfrequency of approximately (1 + 1/460) cycle per sidereal day as seen from the sidereally rotating earth. This free 'core nutation' has not yet been undisputably observed. Furthermore, there has been considerable doubt that any known mechanism could excite this mode to an observable level. It is shown here that diurnal atmospheric and oceanic loading of the earth's surface provides an efficient excitation mechanism which depends critically on the physical damping of the mode. Possible effects of the mode on geodetic measurements are discussed. The effects of 'wobble' and 'nutation' on astrometric observations are also considered.

Keywords: GEOPHYSICS

Type: Geophysical Journal; 64; 1981

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4

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Interpretation of postseismic deformation with a viscoelastic relaxation model (1980)

Wyss, M. ; Wahr, J.

In: Other Sources

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Publication Date: 2019-06-28

Description: A viscoelastic relaxation model is used to interpret postseismic surface deformation for the large-magnitude Aleutian earthquakes of 1957 and 1965. The lithosphere and asthenosphere are modeled as elastic solids with an anomalous viscoelastic inclusion below the island arc volcanoes. It is found that the observed postseismic surface deformation is a corollary of the known island arc structure. A satisfactory fit to the uplift following the 1957 earthquake is found for a viscoelastic volume with 80-km width extending from a depth of 50 to 200 km.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 85; Nov. 10

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5

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Effect of the fluid core on changes in the length of day due to long period tides (1981)

Wahr, J. M. ; Sasao, T. ; Smith, M. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: The long period luni-solar tidal potential is known to cause periodic changes in the earth's rotation rate. It is found that the effect of a dissipationless fluid outer core is to reduce the amplitudes of these tidal perturbations by about 11 percent. When the fluid core effect is added to Agnew and Farrell's (1978) estimate of the effect of an equilibrium ocean, the result is in accord with observation. The effects of dissipative processes within the fluid core are also examined. Out-of-phase perturbations are found which could be as large as about 10 ms at 18.6 yr. It is concluded, however, that the poorly understood decade fluctuations in the earth's rotation rate will prohibit observation of this effect.

Keywords: GEOPHYSICS

Type: Geophysical Journal; 64; 1981

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6

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A diurnal resonance in the ocean tide and in the earth's load response due to the resonant free 'core nutation' (1981)

Sasao, T. ; Wahr, J. M.

In: Other Sources

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Publication Date: 2019-06-28

Description: The effects of the oceans, which are subject to a resonance due to a free rotational eigenmode of an elliptical, rotating earth with a fluid outer core having an eigenfrequency of (1 + 1/460) cycle/day, on the body tide and nutational response of the earth to the diurnal luni-tidal force are computed. The response of an elastic, rotating, elliptical, oceanless earth with a fluid outer core to a given load distribution on its surface is first considered, and the tidal sea level height for equilibrium and nonequilibrium oceans is examined. Computations of the effects of equilibrium and nonequilibrium oceans on the nutational and deformational responses of the earth are then presented which show small but significant perturbations to the retrograde 18.6-year and prograde six-month nutations, and more important effects on the earth body tide, which is also resonant at the free core notation eigenfrequency.

Keywords: GEOPHYSICS

Type: Geophysical Journal; 64; 1981

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7

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Friction- and mountain-torque estimates from global atmospheric data (1984)

Wahr, J. M. ; Oort, A. H.

In: Other Sources

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Publication Date: 2019-06-28

Description: Seasonal, zonal surface torques between the atmosphere and the earth are estimated and compared, using data from a number of independent sources. The mountain torque is computed both from surface pressure data and from isobaric height data. The friction torque is estimated from the oceanic stress data of Hellerman and Rosenstein. Results for the total torque are inferred from atmospheric angular momentum data. Finally, the globally integrated total torque is compared with astronomical observations of the earth's rotation rate. These comparisons help us to assess the quality of the different results. Zonal torques are also computed using results from a GFDL general circulation model of the atmosphere. A comparison with the corresponding results inferred from real data is presented and interpreted in terms of model accuracy.

Keywords: GEOPHYSICS

Type: Journal of the Atmospheric Sciences (ISSN 0022-4928); 41; 190-204

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8

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Modelling the pole tide and its effect on the earth's rotation (1986)

Carton, J. A. ; Wahr, J. M.

In: Other Sources

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Publication Date: 2019-07-12

Description: The pole tide is the response of the ocean to incremental centrifugal forces associated with the Chandler wobble. The tide has a potentially important effect on the period and damping of the wobble, but it is at present not well constrained by observations. Here, both analytical and numerical models for the pole tide are constructed. The analytical models consider the tide first in a global ocean and then in an enclosed basin on a beta-plane. The results are found to approach equilibrium linearly with decreasing frequency and inversely with increasing basin depth. The numerical models solve Laplace's tidal equations over the world's oceans using realistic continental boundaries and bottom topography. The results indicate that the effects of non-equilibrium portion of the deep ocean tide on the Chandler wobble period and damping are negligible.

Keywords: GEOPHYSICS

Type: Geophysical Journal (ISSN 0016-8009); 84; 121-137

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9

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Possible detection of the earth's free-core nutation (1986)

Carter, W. E. ; Wahr, J. M. ; Robertson, D. S.

In: Other Sources

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Publication Date: 2019-07-12

Description: The 5.5 years of VLBI observations primarily collected under project IRIS are used to search for evidence of the free-core nutation (FCN). The observations are consistent with an irregular excitation process, and a model which assumes a step excitation in the FCN amplitude to about 2.0 milliseconds of arc in late 1985 fits the data well. Theoretical analysis appears to rule out the strong Mexican earthquake of September 19, 1985, as a cause of the excitation.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 13; 949-952

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10

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Displacements of the earth's surface due to atmospheric loading - Effects of gravity and baseline measurements (1987)

Wahr, J. M. ; Van Dam, T. M.

In: Other Sources

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Publication Date: 2019-07-12

Description: Atmospheric mass loads and deforms the earth's crust. By performing a convolution sum between daily, global barometric pressure data and mass loading Green's functions, the time dependent effects of atmospheric loading, including those associated with short-term synoptic storms, on surface point positioning measurements and surface gravity observations are estimated. The response for both an oceanless earth and an earth with an inverted barometer ocean is calculated. Load responses for near-coastal stations are significantly affected by the inclusion of an inverted barometer ocean. Peak-to-peak vertical displacements are frequently 15-20 mm with accompanying gravity perturbations of 3-6 micro Gal. Baseline changes can be as large as 20 mm or more. The perturbations are largest at higher latitudes and during winter months. These amplitudes are consistent with the results of Rabbel and Zschau (1985), who modeled synoptic pressure disturbances as Gaussian functions of radius around a central point. Deformation can be adequately computed using real pressure data from points within about 1000 km of the station. Knowledge of local pressure, alone, is not sufficient. Rabbel and Zschau's hypothesized corrections for these displacements, which use local pressure and the regionally averaged pressure, prove accurate at points well inland but are, in general, inadequate within a few hundred kilometers of the coast.

Keywords: GEOPHYSICS

Type: AD-A180374 , AFGL-TR-87-0153 , Journal of Geophysical Research (ISSN 0148-0227); 92; 1281-128

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