High-resolution gravity and geoid models in Tahiti obtained from new airborne and land gravity observations: data fusion by spectral combination
Artikel i vetenskaplig tidskrift, 2015

For the first time, we carry out an airborne gravity survey and we collect new land gravity data over the islands of Tahiti and Moorea in French Polynesia located in the South Pacific Ocean. The new land gravity data are registered with GPS-derived coordinates, network-adjusted and outlier-edited, resulting in a mean standard error of 17 μGal. A crossover analysis of the airborne gravity data indicates a mean gravity accuracy of 1.7 mGal. New marine gravity around the two islands is derived from Geosat/GM, ERS-1/GM, Jason-1/GM, and Cryosat-2 altimeter data. A new 1-s digital topography model is constructed and is used to compute the topographic gravitational effects. To use EGM08 over Tahiti and Moorea, the optimal degree of spherical harmonic expansion is 1500. The fusion of the gravity datasets is made by the band-limited least-squares collocation, which best integrates datasets of different accuracies and spatial resolutions. The new high-resolution gravity and geoid grids are constructed on a 9-s grid. Assessments of the grids by measurements of ground gravity and geometric geoidal height result in RMS differences of 0.9 mGal and 0.4 cm, respectively. The geoid model allows 1-cm orthometric height determination by GPS and Lidar and yields a consistent height datum for Tahiti and Moorea. The new Bouguer anomalies show gravity highs and lows in the centers and land-sea zones of the two islands, allowing further studies of the density structure and volcanism in the region.

Författare

Hsuan-Chang Shih

Academia Sinica

Cheinway Hwang

National Chiao Tung University

Jean-Pierre Barriot

University of French Polynesia

Maxime Mouyen

Academia Sinica

Pascal Correia

Service de l’Aménagement et de l’Urbanisme de la Polynésie française

Didier Lequeux

Service de l’Aménagement et de l’Urbanisme de la Polynésie française

Lydie Sichoix

University of French Polynesia

Earth, Planets and Space

1343-8832 (ISSN) 1880-5981 (eISSN)

Vol. 67 124

Ämneskategorier

Geofysik

Geologi

Geokemi

DOI

10.1186/s40623-015-0297-9

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Senast uppdaterat

2023-05-16