A new locality for primary xenolith-bearing nephelinites in northwestern British Columbia

High Ni abundances (420–500 ppm) and Mg* values (100 × Mg/(Mg + Fe2+) = 69–71) and the presence of mantle-derived xenoliths indicate that a subvolcanic nephelinite intrusion in northwestern British Columbia represents an unmodified primary magma. A separate, closely associated nephelinite intrusion shows evidence of minor olivine fractionation from a similar composition. Only three other occurrences of primary nephelinite have been described. This new occurrence suggests that these magmas may not be so rare as previously supposed. The trace-element abundances closely resemble those of primary nephelinites of similar La content from Freemans Cove, Canada. Such compositions are usually taken as evidence of intraplate rifting and doming. Therefore, these rocks are further evidence of late Tertiary or Quaternary rifting in the Stikine volcanic belt.

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The Cheslatta Lake suite: Miocene mafic, alkaline magmatism in central British Columbia

Canadian Journal of Earth Sciences ◽

10.1139/e00-121 ◽

2001 ◽

Vol 38 (4) ◽

pp. 697-717 ◽

Cited By ~ 7

Author(s):

Robert G Anderson ◽

Jonah Resnick ◽

James K Russell ◽

G J Woodsworth ◽

Michael E Villeneuve ◽

...

Keyword(s):

British Columbia ◽

Olivine Basalt ◽

Volcanic Belt ◽

Primitive Mantle ◽

Alkaline Magmatism ◽

Type Area ◽

Late Tertiary ◽

Alkali Olivine Basalt ◽

Trace Element Contents ◽

Geochemical Studies

New mapping, mineralogical, and geochemical studies help characterize late Tertiary primitive, alkaline, sodic basanite, alkali olivine basalt, transitional basalt, and diabase in the Nechako River, Whitesail Lake, and McLeod Lake map areas of central British Columbia and distinguish the Miocene Cheslatta Lake suite. The suite encompasses scattered erosional remnants of topographically distinct, columnar-jointed, olivine-phyric basalt and diabase volcanic necks, dykes, and associated lava flows north of the Anahim volcanic belt and west of the Pinchi Fault. Volcanic centres at Alasla Mountain and at Cutoff Creek, near Cheslatta Lake, are proposed as type areas. Olivine, plagioclase, and pyroxene phenocrysts, megacrysts, and (or) xenocrysts; common ultramafic xenoliths; and rare but significant plutonic and metamorphic xenoliths are characteristic. Basanite, transitional basalt, and alkali olivine basalt groundmass contain plagioclase, clinopyroxene, Fe-Ti oxides, feldspathoid, olivine, and apatite. The Cheslatta Lake suite is characterized by its alkaline character, olivine-rich (>10 wt.%) normative mineralogy, and silica-undersaturated nature (>1 wt.% normative nepheline; hypersthene-normative rocks are uncommon). Mg numbers vary between 7242. Some samples encompass near-primitive mantle melt compositions. Cheslatta Lake suite rocks in the Nechako River area are distinguished from the underlying Eocene Endako and stratigraphically higher Neogene Chilcotin groups basaltic andesite lavas within the study area, and from the Chilcotin Group basalt in the type area south of the Anahim volcanic belt, by form, preserved thickness, phenocrystxenocryst mineralogy, amygdule abundance, included xenoliths, isotopic age, and major and incompatible, high field strength, and rare-earth trace element contents.

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The Petrology of Late Tertiary Dolerite Plugs in the South Cariboo Region, British Columbia

Canadian Journal of Earth Sciences ◽

10.1139/e73-022 ◽

1973 ◽

Vol 10 (2) ◽

pp. 205-225 ◽

Cited By ~ 2

Author(s):

R. B. Farquharson

Keyword(s):

British Columbia ◽

Trace Element ◽

Chemical Nature ◽

Major Element ◽

Basaltic Magma ◽

Olivine Basalt ◽

Coarse Grained ◽

Basalt Magma ◽

Late Tertiary ◽

High Level

The petrology of four plugs of fresh, coarse-grained olivine dolerite, of Pliocene age, is described in this paper. Two plugs, which exhibit textural and mineralogical variations, are described in detail. Major element analyses and selected trace element analyses for fifteen samples illustrate the chemical nature of the dolerite as well as fractionation in small marginal portions of the plugs. Strontium isotope values indicate that the plugs represent basaltic magma that was not contaminated by crastal matter. Both the mineralogy and the chemistry of the plugs indicate that the magma was mildly alkaline, and suggest that it was a differentiate of a primary olivine basalt magma, perhaps derived through crystal fractionation in a high-level magma chamber.

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