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Melt Segregation from Partially Molten Source Regions: The Importance of Melt Density and Source Region Size

Stolper, Edward and Walker, David and Hager, Bradford H. and Hays, James F. (1981) Melt Segregation from Partially Molten Source Regions: The Importance of Melt Density and Source Region Size. Journal of Geophysical Research B, 86 (B7). pp. 6261-6271. ISSN 0148-0227. doi:10.1029/JB086iB07p06261.

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The compressibility of basic melt at 1 atmosphere is about an order of magnitude higher than that of mantle minerals. Consequently, the density contrast between melt and the principal residual crystals in mantle source regions is expected to decrease with increasing source region depth. The increasingly olivine-normative character of primary melts produced at greater depths is also expected to result in a decrease in this density contrast with increasing source region depth. Once vertical permeability is established by melt generated during partial melting, buoyancy-driven melt percolation can under some circumstances segregate melt from the residual crystals in its source region on a geologically rapid time scale. Limits to this process are provided by cooling of the source region (freezing melt in) and rigidity of the crystalline matrix (mechanically trapping melt). Source region size influences these limits strongly: consequently, small, partially molten diapirs (∼km in diameter) may be able to trap large melt fractions (≳30%), but larger source regions would be unable to do so. The reduction in density contrast with pressure reduces the buoyant force driving melt percolation and provides another limit to melt segregation. Diapirs at depth may thus stably contain large fractions of melt but may decompress and unload their melt during ascent; this effect would be enhanced in small diapirs and may be relevant to the genesis of komatiitic magma. Melt compression may also be a factor in explaining why the very different maximum depths inferred for typical basic melt segregation from source regions on different planets—∼500 km on the moon, ∼250 km on Mars, ∼100 km on earth—correspond to similar pressures (25–35 kbar); at greater pressures, melt may no longer be capable under ordinary conditions of segregating upwards by buoyancy. This may also help to explain why depleted peridotites overlie more fertile peridotites and how deep regions of the mantle are able to remain fertile over geologic time.

Item Type:Article
Related URLs:
URLURL TypeDescription DOIArticle
Stolper, Edward0000-0001-8008-8804
Hager, Bradford H.0000-0002-5643-1374
Additional Information:© 1981 American Geophysical Union. Received 6 June 1980; accepted 18 September 1980. We wish to thank T. J. Ahrens, C. Herzberg, B. Kamb and D. Stevenson for helpful comments on preliminary versions of the manuscript. This work was supported by NSF grants OCE 79-09699, EAR 79-06321, EAR 79-23977, EAR 80-25643, and EAR 80-18819; NASA grant NGL 22-007-247; and the Committee on Experimental Geology and Geophysics of Harvard University. Contribution 3454, Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California.
Funding AgencyGrant Number
NSFOCE 79-09699
NSFEAR 79-06321
NSFEAR 79-23977
NSFEAR 80-25643
NSFEAR 80-18819
NASANGL 22-007-247
Harvard University Committee on Experimental Geology and GeophysicsUNSPECIFIED
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Other Numbering System NameOther Numbering System ID
Caltech Division of Geological and Planetary Sciences3454
Issue or Number:B7
Record Number:CaltechAUTHORS:20120821-160724340
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Official Citation:Stolper, E., D. Walker, B. H. Hager, and J. F. Hays (1981), Melt Segregation From Partially Molten Source Regions: The Importance of Melt Density and Source Region Size, J. Geophys. Res., 86(B7), 6261–6271, doi:10.1029/JB086iB07p06261.
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:33430
Deposited By: Jason Perez
Deposited On:22 Aug 2012 14:28
Last Modified:09 Nov 2021 21:34

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