Predicting Global Seafloor Topography Using Multi-Source Data |
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| Authors: | Min zhang Hu Jian cheng Li Hui Li Chong Yang Shen Tao yong Jin Le lin Xing |
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| Institution: | 1. Key Laboratory of Earthquake Geodesy, Institute of Seismology, China Earthquake Administration, Wuhan, China;2. School of Geodesy and Geomatics, Wuhan University, Wuhan, Chinamzhhu@whu.edu.cn;4. School of Geodesy and Geomatics, Wuhan University, Wuhan, China |
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| Abstract: | A new one-minute global seafloor topography model was derived from vertical gravity gradient anomalies (VGG), altimetric gravity anomalies, and ship soundings. Ship soundings are used to constrain seafloor topography at wavelengths longer than 200 km and to calibrate the topography to VGG (or gravity) ratios at short wavelengths area by area. VGG ratios are used to predict seafloor topography for wavelength bands of 100–200 km and to suppress the effect of crust isostasy. Gravity anomalies are used to recover seafloor topography at wavelengths shorter than 100 km. The data processing procedure is described in detail in this paper. The accuracy of the model is evaluated using ship soundings and existing models, including General Bathymetric Charts of the Oceans (GEBCO), DTU10, ETOPO1, and SIO V15.1. The results show that, in the discussed regions, the accuracy of the model is better than ETOPO1, GEBCO, and DTU10. Additionally, the model is comparable with V15.1, which is generally believed to have the highest accuracy. In the north-central Pacific Ocean, the accuracy of the model increased by approximately 29.5% compared with the V15.1 model. This indicates that a more accurate seafloor topography model can be formed by combining gravity anomalies, VGG, and ship soundings. |
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| Keywords: | Seafloor topography vertical gravity gradient gravity anomalies ship soundings flexural isostatic compensation |
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