Green's function at depth of borehole observation required for precise estimation of the effect of ocean tidal loading near coasts

SUMMARY We calculated Green's functions of displacements and strains caused by a surface load in surface and subsurface observations. Green's functions of displacements and strains at depth became different from those at the surface for a range of angular distances less than 0.01–0.1°. The...

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Published in	Geophysical journal international Vol. 227; no. 1; pp. 275 - 286
Main Authors	Kamigaichi, Osamu, Matsumoto, Norio, Hirose, Fuyuki
Format	Journal Article
Language	English
Published	Oxford University Press 01.10.2021
Subjects	Tides and planetary waves Downhole methods Japan Numerical solutions Loading of the Earth
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Abstract	SUMMARY We calculated Green's functions of displacements and strains caused by a surface load in surface and subsurface observations. Green's functions of displacements and strains at depth became different from those at the surface for a range of angular distances less than 0.01–0.1°. These Green's functions closely agree with the corresponding Boussinesq approximations for tidal loading at angular distances of less than about 0.01–0.001°. We examined the difference between the ocean tidal loading effect estimated by Green's functions at the surface and the effect for subsurface observations, and found a non-negligible difference when the ratio of distance between the coast and observatory to the deployment depth is smaller than 20. We compared amplitudes and phase shifts of areal and shear strains in the M2 tidal constituent observed by borehole strainmeters at 11 observatories with the theoretical strains using the Green's functions at the deployment depth and those at the surface. The theoretical strains using Green's function at the deployment depth are much closer to the observed strains than theoretical strains at the surface at four observatories where the ratios of distance from the coast to the observatories to the deployment depth are small. These results suggest that Green's functions at the deployment depth are needed to estimate theoretical strains precisely near the coast.
AbstractList	We calculated Green's functions of displacements and strains caused by a surface load in surface and subsurface observations. Green's functions of displacements and strains at depth became different from those at the surface for a range of angular distances less than 0.01–0.1°. These Green's functions closely agree with the corresponding Boussinesq approximations for tidal loading at angular distances of less than about 0.01–0.001°. We examined the difference between the ocean tidal loading effect estimated by Green's functions at the surface and the effect for subsurface observations, and found a non-negligible difference when the ratio of distance between the coast and observatory to the deployment depth is smaller than 20. We compared amplitudes and phase shifts of areal and shear strains in the M2 tidal constituent observed by borehole strainmeters at 11 observatories with the theoretical strains using the Green's functions at the deployment depth and those at the surface. The theoretical strains using Green's function at the deployment depth are much closer to the observed strains than theoretical strains at the surface at four observatories where the ratios of distance from the coast to the observatories to the deployment depth are small. These results suggest that Green's functions at the deployment depth are needed to estimate theoretical strains precisely near the coast. SUMMARY We calculated Green's functions of displacements and strains caused by a surface load in surface and subsurface observations. Green's functions of displacements and strains at depth became different from those at the surface for a range of angular distances less than 0.01–0.1°. These Green's functions closely agree with the corresponding Boussinesq approximations for tidal loading at angular distances of less than about 0.01–0.001°. We examined the difference between the ocean tidal loading effect estimated by Green's functions at the surface and the effect for subsurface observations, and found a non-negligible difference when the ratio of distance between the coast and observatory to the deployment depth is smaller than 20. We compared amplitudes and phase shifts of areal and shear strains in the M2 tidal constituent observed by borehole strainmeters at 11 observatories with the theoretical strains using the Green's functions at the deployment depth and those at the surface. The theoretical strains using Green's function at the deployment depth are much closer to the observed strains than theoretical strains at the surface at four observatories where the ratios of distance from the coast to the observatories to the deployment depth are small. These results suggest that Green's functions at the deployment depth are needed to estimate theoretical strains precisely near the coast.
Author	Matsumoto, Norio Hirose, Fuyuki Kamigaichi, Osamu
Author_xml	– sequence: 1 givenname: Osamu surname: Kamigaichi fullname: Kamigaichi, Osamu – sequence: 2 givenname: Norio orcidid: 0000-0002-7021-1773 surname: Matsumoto fullname: Matsumoto, Norio email: n.matsumoto@aist.go.jp – sequence: 3 givenname: Fuyuki orcidid: 0000-0003-1649-0000 surname: Hirose fullname: Hirose, Fuyuki
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Cites_doi	10.1029/96JB03458 10.1007/BFb0011461 10.2467/mripapers.48.89 10.4294/jpe1952.22.123 10.1029/RG010i003p00761 10.1029/2009JB006407 10.1111/j.1365-246X.1961.tb06815.x 10.5571/syntheng.6.27 10.1029/2019JB018088 10.1029/98EO00426 10.1007/BF00877049 10.1111/j.1365-246X.1991.tb05697.x 10.1016/j.jog.2009.09.024 10.1029/96JB02273 10.4294/jpe1952.26.13 10.1111/j.1365-246X.1995.tb03546.x
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Keywords	Tides and planetary waves Downhole methods Japan Numerical solutions Loading of the Earth
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