On the Use of Changes in Dihedral Angle to Decode Late-stage Textural Evolution in Cumulates

doi:10.1093/petrology/egi026

Journal of Petrology Advance Access originally published online on March 18, 2005
Journal of Petrology 2005 46(8):1565-1583; doi:10.1093/petrology/egi026

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On the Use of Changes in Dihedral Angle to Decode Late-stage Textural Evolution in Cumulates

MARIAN B. HOLNESS¹^,*, MICHAEL J. CHEADLE² and DAN McKENZIE¹

¹ DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF CAMBRIDGE, DOWNING STREET, CAMBRIDGE CB2 3EQ, UK
² DEPARTMENT OF GEOLOGY AND GEOPHYSICS, UNIVERSITY OF WYOMING, 1000 UNIVERSITY AVENUE, LARAMIE, WY 82070, USA

RECEIVED AUGUST 5, 2004; ACCEPTED FEBRUARY 14, 2005

The melt-filled pore structure in the final stages of solidificationof cumulates must lie somewhere between the two end-membersof impingement (in which pore topology is controlled entirelyby the juxtaposition of growth faces of adjacent grains) andtextural equilibrium (in which pore topology is controlled bythe minimization of internal energies). The exact position betweenthese two end-members is controlled by the relative rates ofcrystal growth and textural equilibration. For samples in whichgrowth has stopped, or is very slow, textural equilibrium willprevail. A close examination of dihedral angles in natural examplesdemonstrates that these two end-member textures can be distinguished.The impingement end-member results in a population of apparentsolid–melt dihedral angles with a median of $~$ 60° anda standard deviation of $~$ 25–30°, whereas the texturallyequilibrated end-member population has a median of $~$ 28° anda standard deviation of $~$ 14°. For the specific case of cumulatesin the Rum Layered Intrusion, residual porosity in troctoliticcumulates was close to the impingement end-member, whereas thatin peridotites was close to melt-bearing textural equilibrium.Suites of glass-bearing samples from small, or frequently disturbed,magma systems show modification of initial impingement textures.These modifications may be a consequence of textural equilibrationor of diffusion-limited growth during quenching. Distinctioncan be made between these two processes by a consideration ofgrain shape. The geometry of interstitial phases in suites offully solidified cumulates from the Rum Layered Intrusion showsvariable approach to sub-solidus textural equilibrium from aninitial state inherited by pseudmorphing of the last melt. Texturalequilibration at pore corners occurs as a continuous process,with a gradual movement of the entire dihedral angle populationtowards the equilibrium final state. If the initial, pseudomorphedstate is one of disequilibrium (i.e. a melt-present impingementtexture) this change is accompanied by a reduction in the spreadof the population. If it is one of equilibrium, the change isaccompanied by an initial increase in the spread of the population,followed by a decrease. These observations demonstrate thatpreviously published models of dihedral angle change involvingthe instantaneous establishment of the equilibrium angle inthe immediate vicinity of the pore corner are incorrect.

KEY WORDS: cumulate; dihedral angle; textural evolution; Rum intrusion; Kula; Santorini

^* Corresponding author. E-mail: marian{at}esc.cam.ac.uk

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