Formation of Spinifex Texture in Komatiites: an Experimental Study

doi:10.1093/petrology/egl021

Journal of Petrology Advance Access originally published online on April 27, 2006
Journal of Petrology 2006 47(8):1591-1610; doi:10.1093/petrology/egl021

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Formation of Spinifex Texture in Komatiites: an Experimental Study

FRANÇOIS FAURE¹^,*, NICHOLAS ARNDT² and GUY LIBOUREL¹^,3

¹ CENTRE DE RECHERCHE PÉTROGRAPHIQUE ET GÉOCHIMIQUES CNRS-UPR2300, BP 20, 54501 VANDOEUVRE LES NANCY, FRANCE
² LABORATOIRE DE GÉODYNAMIQUE DES CHAÎNES ALPINES, UMR 5025, UNIVERSITÉ JOSEPH FOURIER BP 53, 38041 ST MARTIN D'HÈRES, FRANCE
³ COLE NATIONALE SUPÉRIEURE DE GÉOLOGIE-INPL BP 40, 54501 VANDOEUVRE LES NANCY, FRANCE

RECEIVED OCTOBER 14, 2004; ACCEPTED MARCH 24, 2006

The formation of platy olivine spinifex, the texture that characterizeskomatiite lavas, has long been enigmatic. A major problem isthat the dendritic morphology of the olivine resembles thatof crystals grown in laboratory experiments at high coolingrates (>50°C/h), but at the position where these texturesform, up to several meters below the komatiite flow top, thecooling rate cannot have been greater than 1–5°C/h.We performed experiments that demonstrate that the platy habitof spinifex olivine or pyroxene is a consequence of slow coolingof ultramafic magma in a thermal gradient (7–35°C/cm).The charges were cooled at rates between 2 and 1428°C/hand, even at the low cooling rates, the thermal gradient ledto constrained growth and the development of preferentiallyoriented dendritic crystals with morphologies like those innatural platy spinifex-textured lavas. Under these conditions,olivine starts to crystallize at temperatures well below theequilibrium liquidus temperature (37°C < – ${Delta}$ T<56°C) depending on the composition of the starting material.When the cooling rate is high, the thermal gradient has a negligibleeffect on the texture and the crystals have a random orientation,like that in the upper parts of komatiite flows.

KEY WORDS: komatiite; spinifex; cooling rate; experimental petrology; thermal gradient

^*Corresponding author. Telephone: +33-383-594226. Fax. +33-383-511798. E-mail: ffaure{at}crpg.cnrs-nancy.fr

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