The geochemistry of carbonate cements in the Avalon sand, Grand Banks of Newfoundland

Avalon zone of the Hibernia field are, in places, extensively recrystallized, which complicates interpretation of the chemical and isotopic data. The oxygen isotopic data are widely scattered with fi180 ranging between + 1.6 and-9.2 for calcite and siderite. Siderite has lower 613C values (-6.6 to-1...

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Bibliographic Details
Main Authors: Ian Hutcheon, Cynthia Nahnybida, H. R. Krouse A
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
calcite
oxygen isotopes
carbonate cements
Avalon sand
Grand Banks
Newfoundland
Canada
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.600.1569
http://www.minersoc.org/pages/Archive-MM/Volume_49/49-352-457.pdf
Description
Summary:Avalon zone of the Hibernia field are, in places, extensively recrystallized, which complicates interpretation of the chemical and isotopic data. The oxygen isotopic data are widely scattered with fi180 ranging between + 1.6 and-9.2 for calcite and siderite. Siderite has lower 613C values (-6.6 to-13.2) than calcite +12.4 to-9.8. Typical trace element contents determined by ICP on acid-leached samples, range from 270 to 2100 ppm Sr and 180 to 2200 ppm Zn in calcite. The trace element data indicate that some of the calcite has been precipitated from, or recrystallized by meteoric water. The trace elements show trends related to varia-tions in 6180 in such a way as to imply that not all the spread to low 6180 values can be attributed to meteoric water influence alone. The data are not well enough con-strained to calculate meaningful temperatures, but the range of 6180 values probably represents an elevated range of temperatures of precipitation or recrystallization. Microprobe analyses show that non-recrystallized fossils have a composition distinctly different from veins, cements, and recrystallized fossils, all of which are similar. The compositions ofcalcite cements are highly variable, with FeO (for example) ranging from 0.15 to 4.39 wt. ~, but show no consistent patterns of zonation. Fossil fragments which show no textural evidence of recrystal-lization have low FeO contents (0.2 wt. 7o). Meteoric water, believed to be responsible for at least some of the cementation and recrystallization observed, probably entered the Avalon during and after formation of the mid-Cretaceous nconformity.

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