Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules

Details Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules

May 1984

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984comp...86..119b&link_type=abstract

Contributions to Mineralogy and Petrology, Volume 86, Issue 2, pp.119-130

Other

4

Scientific paper

Abundant small xenoliths in the Mzongwana kimberlite dike, Transkei, southern Africa, are predominantly pyroxenites composed of ilmenite, pyrope, orthopyroxene, clinopyroxene, rutile, and phlogopite; two of the xenoliths contain small amounts of Ti-rich amphibole near kaersutite in composition. A majority of the pyroxenites have polygonal granoblastic textures, but many have fasciculate, acicular and skeletal growths. The latter are believed to be the product of rapid crystallization because of similarities to textures of lunar and terrestrial volcanic rocks and quenched experimental charges. Segregations of garnet or ilmenite and pyroxene are common, and these are believed to have originated by crystallization from supersaturated magma. Pyroxenes in the rocks that appear to have crystallized most rapidly are richer in Al and Ti and the garnets are richer in Ti than comparable phases in the granoblastic rocks. The Mzongwana kimberlite is estimated to have a minimum depth of origin of 150 km by application of pyroxene thermobarometry to bronzite discrete nodules. The depth of crystallization of the pyroxenite xenoliths is believed to be near 100 km on the basis of comparison with phase relations determined by experiment. The pyroxenites appear to have crystallized from Ti-rich, olivine-free magma that was probably derived from a kimberlitic parent. A basaltic source (Karoo?), however, is not ruled out. Rapid crystallization of the pyroxenites at depth in the mantle may have occurred by intrusion in thin dikes some days prior to inclusion in erupting kimberlite. Alternatively, the kimberlite may have incorporated a pyroxenitic liquid, either derivative or unrelated, that crystallized through loss of volatiles and heat in contact with the expanding kimberlite vapor phase. The compositions of the minerals in the Mzongwana pyroxenites are similar to those of Fe-rich discrete nodules that occur in many other kimberlites. Perhaps the minerals in the pyroxenites and the discrete nodules have similar origins except that the Mzongwana pyroxenites crystallized more rapidly at shallower depths in the mantle.

Affiliated with

Also associated with

No associations

Rating

Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.

If you have personal experience with Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Rapidly crystallized garnet pyroxenite xenoliths possibly related to discrete nodules will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFWR-SCP-O-1368485