TY - JOUR

T1 - Digestion Fractional Crystallisation (DFC)

T2 - an important process in the genesis of kimberlites. Evidence from olivine in the Majuagaa kimberlite, southern West Greenland

AU - Pilbeam, Llewellyn Howard

AU - Nielsen, T.F.D.

AU - Waight, Tod Earle

PY - 2013

Y1 - 2013

N2 - High-precision electron microprobe data for major and trace elements (nickel, calcium and manganese) in the margins and rims of groundmass olivine grains from the Majuagaa kimberlite (sensu stricto) in southern West Greenland are presented. Despite a range of olivine core compositions defining several zoning types most of the olivine grains have similar margins. The olivine cores are considered to be xenocrysts in the kimberlite magma whereas the margins represent cognate olivine crystallized from the kimberlite melt itself. We evaluatemodels of olivine margin formation by fractional crystallization, fractionalcrystallization with simultaneous digestion of xenoliths, and diffusion. Only fractional crystallization coupled with digestion of xenocrysts (primarily orthopyroxene), with subsequent minor diffusion, can account for the observed compositional profiles in the olivine margins.We propose that the digestion crystallization process, whereby the entrained xenolithic material reacts with the kimberlite melt, is important in the evolution of kimberlite magmas.We suggest that this type of reaction gives a distinct local flavour to the parental kimberlitemelt and can account for the similarities and differences between the various kimberlitic (sensu lato) magma types present in southern West Greenland and worldwide.

AB - High-precision electron microprobe data for major and trace elements (nickel, calcium and manganese) in the margins and rims of groundmass olivine grains from the Majuagaa kimberlite (sensu stricto) in southern West Greenland are presented. Despite a range of olivine core compositions defining several zoning types most of the olivine grains have similar margins. The olivine cores are considered to be xenocrysts in the kimberlite magma whereas the margins represent cognate olivine crystallized from the kimberlite melt itself. We evaluatemodels of olivine margin formation by fractional crystallization, fractionalcrystallization with simultaneous digestion of xenoliths, and diffusion. Only fractional crystallization coupled with digestion of xenocrysts (primarily orthopyroxene), with subsequent minor diffusion, can account for the observed compositional profiles in the olivine margins.We propose that the digestion crystallization process, whereby the entrained xenolithic material reacts with the kimberlite melt, is important in the evolution of kimberlite magmas.We suggest that this type of reaction gives a distinct local flavour to the parental kimberlitemelt and can account for the similarities and differences between the various kimberlitic (sensu lato) magma types present in southern West Greenland and worldwide.

U2 - 10.1093/petrology/egt016

DO - 10.1093/petrology/egt016

M3 - Journal article

VL - 54

SP - 1399

EP - 1425

JO - Journal of Petrology

JF - Journal of Petrology

SN - 0022-3530

IS - 7

ER -