Imaging Upper‐Mantle Anisotropy with Transdimensional Bayesian Monte Carlo Sampling

IF 2.6 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Bulletin of the Seismological Society of America Pub Date : 2024-06-01 DOI:10.1785/0120230233

Gianmarco Del Piccolo, Brandon P. VanderBeek, Manuele Faccenda, Andrea Morelli, Joseph S. Byrnes

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Abstract

Underdetermination is a condition affecting all problems in seismic imaging. It manifests mainly in the nonuniqueness of the models inferred from the data. This condition is exacerbated if simplifying hypotheses like isotropy are discarded in favor of more realistic anisotropic models that, although supported by seismological evidence, require more free parameters. Investigating the connections between underdetermination and anisotropy requires the implementation of solvers which explore the whole family of possibilities behind nonuniqueness and allow for more informed conclusions about the interpretation of the seismic models. Because these aspects cannot be investigated using traditional iterative linearized inversion schemes with regularization constraints that collapse the infinite possible models into a unique solution, we explore the application of transdimensional Bayesian Monte Carlo sampling to address the consequences of underdetermination in anisotropic seismic imaging. We show how teleseismic waves of P and S phases can constrain upper‐mantle anisotropy and the amount of additional information these data provide in terms of uncertainty and trade‐offs among multiple fields.

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利用跨维贝叶斯蒙特卡洛采样成像上幔各向异性

欠确定性是影响地震成像所有问题的一个条件。它主要表现为从数据推断出的模型的非唯一性。如果摒弃各向同性等简化假设，转而采用更现实的各向异性模型，这种情况就会加剧。要研究欠确定性和各向异性之间的联系，就需要使用求解器来探索非唯一性背后的所有可能性，并对地震模型的解释得出更明智的结论。传统的迭代线性化反演方案带有正则化约束，可将无限可能的模型折叠成唯一的解，但无法对这些方面进行研究，因此我们探索了跨维贝叶斯蒙特卡洛采样的应用，以解决各向异性地震成像中判定不足的后果。我们展示了 P 相和 S 相远震波如何约束上幔各向异性，以及这些数据在不确定性和多场权衡方面提供的额外信息量。

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来源期刊

Bulletin of the Seismological Society of America 地学-地球化学与地球物理

CiteScore

5.80

自引率

13.30%

发文量

140

审稿时长

3 months

期刊介绍： The Bulletin of the Seismological Society of America, commonly referred to as BSSA, (ISSN 0037-1106) is the premier journal of advanced research in earthquake seismology and related disciplines. It first appeared in 1911 and became a bimonthly in 1963. Each issue is composed of scientific papers on the various aspects of seismology, including investigation of specific earthquakes, theoretical and observational studies of seismic waves, inverse methods for determining the structure of the Earth or the dynamics of the earthquake source, seismometry, earthquake hazard and risk estimation, seismotectonics, and earthquake engineering. Special issues focus on important earthquakes or rapidly changing topics in seismology. BSSA is published by the Seismological Society of America.