Tanimoto, Toshiro and Stevenson, David J.
(1994)
Seismic constraints on a model of partial melts under ridge axes.
Journal of Geophysical Research B, 99
(B3).
pp. 45494558.
ISSN 01480227.
https://resolver.caltech.edu/CaltechAUTHORS:20140312112218874
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Abstract
In a recent global scale seismic study, the correlation between S wave velocity under ridge axes and spreading rate was pointed out. The correlation is strong for depths to about 70 km, but it diminishes below this depth. We present the correlation plots at four depths, 38, 66, 90, and 110 km, for which correlation is strong at 38 and 66 km but is weak at 90 km and is almost nonexistent at 110 km. We present a model to explain this behavior, which includes a thermal conduction model for the development of lithosphere and a simple melt percolation. Thermal effects on S wave velocity are assumed to be accounted for entirely by the plate cooling (thermal conduction) model. We point out that the thermal model under this assumption predicts asymptotically no correlation between S wave velocity and spreading rate, specifically for spreading rate larger than about 3 cm yr^(−1). This contradicts the correlation observed in the data at shallow depths. The existence of partial melt is thus required to explain the observed behavior at 38 and 66 km depths. We start from four basic equations that govern the distribution of partial melt and derive the relation between the amount of partial melt and the spreading rate. We adopt a simple power law relation between permeability (k) and porosity (ƒ) by k(ƒ) = k_0ƒ^n, where k_0 and n are constants and assume that pores are filled with melt. We then set up an integral relation between S wave velocity and spreading rate. The final formula indicates that the gradient in the correlation plots is the inverse of the power (1/n) in the permeabilityporosity relation, thus enabling us to constrain n as well as k_0 from seismic data. The data also have some sensitivity to the depth to solidus. We show that (1) the depth to solidus is probably within the range 60–100 km and (2) if the power n is n = 2–3, then k_0 = 10^(−8)  10^(−10) m^2. These parameters predict that porosity and fluid velocity are 1–2% and about 0.5 m yr^(−1), respectively. The depth to solidus is consistent with previous estimates by petrological data but is perhaps the first and direct seismological evidence of partial melt from surface wave data. Analytical forms for the dependence on depth and spreading rate of porosity, fluid velocity within permeable rocks, and ascent times of magma are also obtained.
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Additional Information:  © 1994 American Geophysical Union. Received March 17, 1993; revised November 22, 1993; accepted November 30, 1993.
This work was supported by NSF grants OCE9296207 and EAR9296218 (TT) and EAR9017893 (DJS). Institute of Crustal Studies Contribution number 14324CS at UCSB Division of Geological and Planetary Sciences contribution number 5349 at Caltech. The paper benefited greatly by the constructive reviews provided by Anne Sheehan, Charles Langmuir, an anonymous reviewer, and an associate editor.
Paper number 93JB03402. 

Funders:  Funding Agency  Grant Number 

NSF  OCE9296207  NSF  EAR9296218  NSF  EAR9017893 


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Caltech Division of Geological and Planetary Sciences  5349 


Issue or Number:  B3 

Record Number:  CaltechAUTHORS:20140312112218874 

Persistent URL:  https://resolver.caltech.edu/CaltechAUTHORS:20140312112218874 

Official Citation:  Tanimoto, T., and D. J. Stevenson (1994), Seismic constraints on a model of partial melts under ridge axes, J. Geophys. Res., 99(B3), 4549–4558, doi:10.1029/93JB03402. 

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ID Code:  44278 

Collection:  CaltechAUTHORS 

Deposited By: 
Ruth Sustaita


Deposited On:  12 Mar 2014 20:00 

Last Modified:  03 Oct 2019 06:16 

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