Health & Environmental Research Online (HERO)


Print Feedback Export to File
575623 
Journal Article 
Petrology of hypabyssal kimberlites: Relevance to primary magma compositions 
Mitchell, RH 
2008 
Journal of Volcanology and Geothermal Research
ISSN: 0377-0273 
ELSEVIER SCIENCE BV 
AMSTERDAM 
174 
1-3 
1-8 
WOS:000257602900002 
Hypabyssal kimberlites are similar in their mineralogy and geochemistry across the world, and thus form a distinct magma type that is produced repeatedly in time and space. This small volume magma is derived from the asthenosphere (200-?650 km), and as it nears the surface consists of olivine macrocrysts, i.e. xenocrysts (~ 25 vol.%), olivine phenocrysts (~ 25 vol.%), entrained in a Ba-Ti-Mg-rich, Al-poor carbonate-silicate liquid containing high, but unknown amounts, of dissolved CO2, CH4 and H2O. Hypabyssal kimberlites are shown to be hybrid rocks formed by mixing with, and assimilation of, mantle-derived lherzolite and harzburgite. Orthopyroxene is not stable in these magmas and its resorption leads the precipitation of primary liquidus olivine. The magma crystallizes rapidly at crustal levels to uniform holocrystalline rocks that do not contain glass. In addition to spinel, perovskite, monticellite, apatite, and phlogopite-kinoshitalite, primary carbonates are typically present as low pressure liquidus phases. Serpentines (primary polygonal serpentine and chrysotile) and carbonate commonly crystallize together from volatile-rich (CO2 + H2O) deuteric residua as a polycrystalline mesostasis or discrete segregations; the latter are not in-filled vesicles. Kimberlite magmas have a very long crystallization interval ranging from > 1200 to ~ 300 °C, and there is a continuum from the magmatic crystallization of silicate and oxide minerals to carbo-hydrothermal residua forming the calcite-serpentine mesostasis. It is concluded that there are no hypabyssal kimberlites which are representatives of the initial primary magma; all kimberlites are hybrid and contaminated magmas which have undergone crystallization in the mantle prior to crystallization of the groundmass-mesostasis assemblages. 
kimberlite; upper mantle; assimilation; hybridization; olivine; serpentine 
Workshop on Kimberlite Emplacement 
Saskatchewan, CANADA 
OPPT REs
• OPPT_Asbestos, Part I: Chrysotile_Supplemental Search
     LitSearch: Sept 2020 (Undated)
          Science Direct
          WoS