地质学
高斯分布
岩石圈
板块构造
反问题
逆理论
打滑(空气动力学)
反向
分布(数学)
大地测量学
数学
构造学
几何学
变形(气象学)
数学分析
地震学
物理
热力学
量子力学
海洋学
作者
J. B. Minster,T. H. Jordan,Péter Molnár,E. L. Haines
标识
DOI:10.1111/j.1365-246x.1974.tb00613.x
摘要
Assuming lithospheric plates to be rigid, we systematically invert 68 spreading rates, 62 fracture zones trends and 10^6 earthquake slip vectors simultaneously to obtain a self-consistent model of instantaneous relative motions for eleven major plates. The inverse problem is linearized and solved iteratively by a maximum likelihood procedure. Because the uncertainties in the data are small, Gaussian statistics are shown to be adequate. The use of a linear theory permits (1) the calculation of the uncertainties in the various angular velocity vectors caused by uncertainties in the data, and (2) quantitative examination of the distribution of information within the data set.
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\nThe existence of a self-consistent model satisfying all the data is strong justification of the rigid plate assumption. Slow movement between North and South America is shown to be resolvable.
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\nWe then invert the trends of 20 linear island chains and aseismic ridges under the assumptions that they represent the directions of plate motions over a set of hot spots fixed with respect to each other. We conclude that these hot spots have had no significant relative motions in the last 10 My.
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