Formation of the Denchai gem sapphires, northern Thailand: evidence from mineral chemistry and fluid/melt inclusion characteristics

Limtrakun, Phisit; Zaw, Khin; Ryan, Chris; Mernagh, T. P.

doi:10.1180/0026461016560004

Cited by 33 publications

(14 citation statements)

References 17 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Of special interest are secondary corundum deposits that are associated with rift-related alkaline basaltic volcanism as these are among the world's largest gem corundum suppliers (e.g., Guo et al 1996;Limtrakun et al 2001;Shore and Weldon 2009) and are hence economically of great importance. Such basaltic secondary deposits are located all over the world, most notably in Asia (e.g., Guo et al 1996, and in eastern Australia, at the western Pacific margin (e.g., Coenraads 1990;Graham et al 2008;Sutherland 1996;Sutherland et al 1998aSutherland et al , 2002Sutherland et al , 2009bSutherland et al , 2015Sutherland et al , 2017Saminpanya 2001;McGee 2005;Abduriyim et al 2012), but also in Europe (e.g., Malikova 1999;Giuliani et al 2009;Uher et al 2012), Africa (Kiefert and Schmetzer 1987;Krzemnicki et al 1996;Schwarz et al 2000;Pardieux et al 2014), in South America , and in North America (e.g., Garland 2002;Berg 2007Berg , 2014Palke et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Petrogenesis of alkaline basalt-hosted sapphire megacrysts. Petrological and geochemical investigations of in situ sapphire occurrences from the Siebengebirge Volcanic Field, Germany

Baldwin

Tomaschek

Ballhaus

et al. 2017

Contrib Mineral Petrol

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Petrogenesis of alkaline basalt-hosted sapphire megacrysts. Petrological and geochemical investigations of in situ sapphire occurrences from the Siebengebirge Volcanic Field, Germany

Baldwin

Tomaschek

Ballhaus

et al. 2017

Contrib Mineral Petrol

View full text Add to dashboard Cite

“…Unraveling the origin of gem-quality corundum in the region of Thailand has been a major goal of several investigations (e.g., Coenraads et al, 1995;Levinson and Cook, 1995;Guo et al, 1996;Sutherland et al, 1998;Limtrakun et al, 2001;Sutthirat et al, 2001). Despite these efforts, however, there is still no consensus regarding the genesis of these gem-quality corundum megacrysts, partly because of the apparent absence of corundum-bearing rocks that could provide detailed petrologenetic information.…”

Section: Formation Of Corundum Inclusionsmentioning

confidence: 96%

“…Previously, petrochemical investigations were aimed at understanding the genesis of gem-quality corundum (ruby and sapphire) through studies of basalts, as well as inclusions in corundum megacrysts that occur abundantly in placer deposits near these basaltic fields (e.g., Vichit et al, 1978;Barr and MacDonald, 1981;Guo et al, 1996;Intasopa et al, 1999;Sutthirat et al, 2001;Limtrakun et al, 2001). Only a few studies have been performed on mantlederived megacrysts and peridotite xenoliths (Barr and Dostal, 1986;Promprated et al, 1999).…”

Section: Introductionmentioning

confidence: 97%

Petrochemistry of Mafic Granulite Xenoliths from the Chantaburi Basaltic Field: Implications for the Nature of the Lower Crust beneath Thailand

Promprated

Taylor

Neal

2003

International Geology Review

View full text Add to dashboard Cite

Mafic granulite-facies xenoliths in alkali basalts from Chantaburi province represent the only known lower-crustal material in Thailand. Most xenoliths contain garnet (or its secondary productkelyphite), plagioclase, and clinopyroxene, ± traces of corundum, and are grouped into garnet-rich and clinopyroxene-rich granulites (Groups 2 and 3, respectively). One sample is classified as olivine-garnet clinopyroxenite (Group 1), reflecting the presence of olivine and spinel and the absence of plagioclase. Whole-rock chemistry suggests that the protoliths of these granulite xenoliths have high normative olivine, plagioclase, and diopside, and, in most cases, low abundances and generally flat REE profiles with positive Eu anomalies. These characteristics indicate that the protoliths originated as basaltic cumulates, similar to troctolite and olivine-gabbro. On cooling, cumulate protoliths transformed to granulite-facies assemblages, mainly by the reaction: Pl + Ol = Gt + Cpx. Interestingly, some granulite xenoliths contain corundum, interpreted as a product of incongruent melting of plagioclase, that may have crystallized sometime prior to the complete transformation of protoliths to garnet granulites. P-T estimates indicate that the xenoliths last equilibrated at ~1100 to 1200°C and 15 to 18 kbar, consistent with depths around 50 to 60 km. The occurrence of mafic granulite xenoliths in Thailand may indicate prolonged periods of basalt underplating that generated new lower crust, and eventually culminated with Late Cenozoic alkali basalt volcanism.

show abstract

“…These inclusions suggest mixing between a silicic component and a carbonatitic/Si-poor component at crustal levels or crystallization from felsic magmas (Guo et al, 1996;Sutherland et al, 1998a). Sapphires in Thailand and Vietnam contain high-K and high-Na silicate melt inclusions and CO 2 -rich fluid inclusions, which suggest a magmatic source (Limtrakun et al, 2001;Izokh et al, 2010). In contrast, the association of sapphirine, Al-rich diopside, spinel and garnet with high-Cr/Ga corundum in some SE Asian and eastern Australian alluvial deposits has been cited to suggest a metamorphic origin for these corundum occurrences (Sutherland and Coenraads, 1996;Sutherland et al, 1998a;Saminpanya and Sutherland, 2011).…”

Section: Background and Classification Of Gem Corundummentioning

confidence: 99%

Trace-element compositions of sapphire and ruby from the eastern Australian gemstone belt

2017

View full text Add to dashboard Cite

Significant uncertainty surrounds the processes involved in the formation of basalt-hosted corundum, particularly the role that the mantle plays in corundum generation. Some previous studies have suggested that trace-element ratios (namely, Cr/Ga and Ga/Mg) are useful for distinguishing two types of corundum: ‘magmatic’ and ‘metamorphic’, designations that include mantle and crustal processes. However, recent studies, including this one, have discovered transitional groups between these end-members that are difficult to classify.We used laser ablation inductively coupled plasma mass spectrometry (LA–ICP–MS) to measure trace-element concentrations in sapphire and ruby crystals from eight alluvial deposits that span a significant length of the eastern Australian gemstone belt. Additionally, we collected LA–ICP–MS U–Pb and traceelement data from zircon megacrysts atWeldborough, Tasmania, which is also within the gemstone belt. Our sapphire and ruby results reveal a continuum in trace-element compositions, an observation that raises questions regarding previous classifications that ascribe corundum from basalt-hosted gemfields to either ‘magmatic’ or ‘metamorphic’ sources. The spatial association of basalt-related gemfields in eastern Australia with a long-lived convergent margin suggests a link between corundum formation and Al-enrichment of the mantle wedge during periods of subduction.

show abstract

Formation of the Denchai gem sapphires, northern Thailand: evidence from mineral chemistry and fluid/melt inclusion characteristics

Cited by 33 publications

References 17 publications

Petrogenesis of alkaline basalt-hosted sapphire megacrysts. Petrological and geochemical investigations of in situ sapphire occurrences from the Siebengebirge Volcanic Field, Germany

Petrogenesis of alkaline basalt-hosted sapphire megacrysts. Petrological and geochemical investigations of in situ sapphire occurrences from the Siebengebirge Volcanic Field, Germany

Petrochemistry of Mafic Granulite Xenoliths from the Chantaburi Basaltic Field: Implications for the Nature of the Lower Crust beneath Thailand

Trace-element compositions of sapphire and ruby from the eastern Australian gemstone belt

Contact Info

Product

Resources

About