ORIGIN OF PETROLEUM AND MERCURY IN THE CULVER-BAER CINNABAR DEPOSIT, MAYACMAS DISTRICT, CALIFORNIA | Health & Environmental Research Online (HERO)

Health & Environmental Research Online (HERO)

Print Feedback Export to File

This record has one attached file:

Citation
Tags

HERO ID

4959779

Reference Type

Journal Article

Title

ORIGIN OF PETROLEUM AND MERCURY IN THE CULVER-BAER CINNABAR DEPOSIT, MAYACMAS DISTRICT, CALIFORNIA

Author(s)

Peabody, CE; Einaudi, MT

Year

1992

Is Peer Reviewed?

Yes

Journal

Economic Geology and the Bulletin of the Society of Economic Geologists
ISSN: 0361-0128
EISSN: 1554-0774

Volume

Issue

Page Numbers

1078-1103

DOI

10.2113/gsecongeo.87.4.1078

Web of Science Id

WOS:A1992JC64800005

Abstract

The Culver-Baer mercury deposit (Mayacmas district) is located within the strike-slip Mercuryville fault zone at the margin of the Geysers geothermal area where serpentine + magnetite protolith is altered to silica-carbonate rock. Silica-carbonate rock is silica rich at the center of the deposit and consists of the assemblage quartz + magnesite + pyrite. This assemblage is cut by numerous quartz-chalcedony veins and breccia veins composed of quartz + chalcedony +/- cinnabar +/- petroleum +/- millerite +/- barite. The cinnabar, which is chemically pure, and the petroleum, which consists predominantly of polycyclic aromatic hydrocarbons, occur preferentially along the hanging walls of the breccia veins. Outward from the deposit center there is a zonation to carbonate-rich silica-carbonate rock which consists of magnesite + quartz + pyrite. At the deposit margin itself, magnesite + magnetite is the dominant stable assemblage. All rock samples reveal a consistent temporal evolution from magnesite veinlets to silica veinlets.

Geochemical modeling indicates that the mineralogical zonation from serpentinite to silica-rich silica-carbonate rock in the center of the deposit can arise from the interaction of serpentinite with a CO2-rich, H2O-CO2 fluid (PCO2 greater-than-or-equal-to 30 bars at 200-degrees-C). Petrographic and analytical data suggest that other than CO2, the only components added to the system during alteration and mineralization were H2S, Hg, and petroleum. Isotopic and biological marker data support the hypothesis that all of these components may have been derived from local sedimentary rocks in response to heating and transported to the site of deposition in a gas phase. The association of petroleum and cinnabar, particularly along the hanging walls of breccias, is most likely due to a common source and transport in a relatively buoyant fluid rather than due to a direct chemical link. Because there is no evidence for the introduction of any other components, these data suggest that the Culver-Baer deposit may be a fossil condensate zone akin to the model of White et al. (1971).