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Geophysics From Terrestrial Time‐Variable Gravity Measurements
Author(s) -
Van Camp Michel,
Viron Olivier,
Watlet Arnaud,
Meurers Bruno,
Francis Olivier,
Caudron Corentin
Publication year - 2017
Publication title -
reviews of geophysics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 8.087
H-Index - 156
eISSN - 1944-9208
pISSN - 8755-1209
DOI - 10.1002/2017rg000566
Subject(s) - gravimetry , gravimeter , geophysics , gravitational field , geodesy , geology , gravity of earth , context (archaeology) , polar motion , earth's rotation , physics , astronomy , paleontology , casing , geotechnical engineering , reservoir modeling
Abstract In a context of global change and increasing anthropic pressure on the environment, monitoring the Earth system and its evolution has become one of the key missions of geosciences. Geodesy is the geoscience that measures the geometric shape of the Earth, its orientation in space, and gravity field. Time‐variable gravity, because of its high accuracy, can be used to build an enhanced picture and understanding of the changing Earth. Ground‐based gravimetry can determine the change in gravity related to the Earth rotation fluctuation, to celestial body and Earth attractions, to the mass in the direct vicinity of the instruments, and to vertical displacement of the instrument itself on the ground. In this paper, we review the geophysical questions that can be addressed by ground gravimeters used to monitor time‐variable gravity. This is done in relation to the instrumental characteristics, noise sources, and good practices. We also discuss the next challenges to be met by ground gravimetry, the place that terrestrial gravimetry should hold in the Earth observation system, and perspectives and recommendations about the future of ground gravity instrumentation.

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