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- Title
The effects of anisotropy of marine magnetic anomalies on the Curie point depth estimates from spectral analysis.
- Authors
Wang, Mingming; Liu, Zhixin
- Abstract
Azimuthally averaged power spectra are widely used in the Curie point depth (CPD) estimation with the implicit assumption that the magnetization distribution is random and uncorrelated. However, the marine magnetic anomalies are caused by bands of normal and reverse magnetization and show obvious trends. To investigate the effects of the anisotropy of marine magnetic anomalies on the CPD estimates, we develop 3D fractal striped magnetization models to produce lineated marine magnetic anomalies for the first time. We analyze the spectra anisotropy of the lineated magnetic anomalies of the synthetic fractal striped magnetization models and investigate its effects on the CPD estimates. The synthetic models and actual data show that the spectra of the lineated marine magnetic anomalies are directionally anisotropic. The amplitude response is strong and the slope of the logarithmic spectrum is large in a direction perpendicular to the stripes of magnetic anomalies, whereas the amplitude response is weak and the slope of the logarithmic spectrum is small in a direction parallel to the stripes of magnetic anomalies. The depth estimates in the perpendicular direction are close to the actual values, whereas the depths estimates in the parallel direction are significantly lower than the actual values. The actual marine magnetic anomalies of the South China Sea exhibit an anisotropic power spectrum that is consistent with the spectral anisotropy of magnetic anomalies of the synthetic fractal striped magnetization models.
- Subjects
SOUTH China Sea; MAGNETIC anomalies; CURIE temperature; MAGNETIC anisotropy; FRACTAL analysis; MARINE mineral resources
- Publication
Acta Geophysica, 2018, Vol 66, Issue 5, p1019
- ISSN
1895-6572
- Publication type
Article
- DOI
10.1007/s11600-018-0197-z