Melt Generation at Very Slow-Spreading Oceanic Ridges: Constraints from Geochemical and Geophysical Data

doi:10.1093/petrology/42.6.1171

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Journal of Petrology Volume 42 Number 6 Pages 1171-1196 2001
© Oxford University Press 2001

Melt Generation at Very Slow-Spreading Oceanic Ridges: Constraints from Geochemical and Geophysical Data

R. S. WHITE^,*, T. A. MINSHULL^,, M. J. BICKLE and C. J. ROBINSON

BULLARD LABORATORIES, MADINGLEY ROAD, CAMBRIDGE CB3 0EZ, UK

We show that there is a strong and consistent correlation betweengeochemical and geophysical estimates of the amount of meltgenerated in the mantle beneath oceanic ridges. This correlationholds across all spreading rates and on scales down to the sizeof individual ridge segments. There is an abrupt decrease inthe amount of melt generated at full spreading rates below $~$ 20mm/a. Our observations are consistent with the conclusion that<10% of the melt is frozen in the mantle before it reachesthe crust and that serpentine probably represents only a smallpercentage of the material above the Moho. The melt is wellmixed on a ridge segment scale, probably in high-level magmachambers, but the melts remain distinct between segments. Therare earth element concentrations of basalts from very slow-spreadingridges are higher than those from normal oceanic ridges, whichis directly indicative of reduced mantle melting, and they showcharacteristic light rare earth element enrichment, interpretedas caused by a deep tail of small percentage wet melting. Thedecrease in melt production at rates below $~$ 20 mm/a points tothe importance of conductive cooling inhibiting melting of theupwelling mantle at very slow-spreading centres.

KEY WORDS: crustal thickness; melt generation; mid-ocean ridges; rare earth elements; seismic refraction

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