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Geochemistry of syntectonic carbonate veins within Late Cretaceous turbidites, Hikurangi Margin (New Zealand): Implications for a mid‐Oligocene age of subduction initiation

Geochemistry of syntectonic carbonate veins within Late Cretaceous turbidites, Hikurangi Margin (New Zealand): Implications for a mid‐Oligocene age of subduction initiation

Authors :
van de Lagemaat, Suzanna H.A.
Mering, John A.
Kamp, Peter J.J.
Mantle dynamics & theoretical geophysics
Mantle dynamics & theoretical geophysics
Source :
Geochemistry, Geophysics, Geosystems, 23(5), 1. American Geophysical Union
Publication Year :
2022

Abstract

We document the geochemistry of calcite veins in the Late Cretaceous Tikihore Formation (Raukumara Peninsula, New Zealand) to characterize their fluid composition and source and to help establish the age of subduction initiation at the Hikurangi margin of the Australia-Pacific plate boundary. The calcite veins occur within normal faults offsetting turbidites that accumulated in a lower slope basin. Vein calcite trace metal content and rare earth element patterns are consistent with a seawater-derived brine composition. Oxygen isotope (δ18O) values range from −6.1 to +8.4‰ and are −0.2‰ VPDB on average; positive δ13C values of up to +28‰ VDPB reflect methanogenesis. Oxygen isotope temperature data indicate that calcite vein mineralization occurred at temperatures in the range of 29°C–48°C. This is markedly less than the maximum burial temperature experienced by the host rocks, which we estimate to be 104 ± 10°C at 30–27 Ma from the inverse modeling of apatite fission track data. The vein calcite has a 28.5 ± 4.9 Ma U-Pb age. From these data, we infer that the succession above Tikihore Formation was removed by slumping, thereby resulting in fluid overpressure in the reservoir, followed by hydraulic fracturing and the precipitation of the vein calcite. Ultimately, the data presented here from the Tikihore veins are consistent with subduction initiation at 30–27 Ma, based on the U-Pb age of the vein calcite and modeling of apatite fission track data for the host sandstone, corroborated by the 30–27 Ma timing of back thrusting on the Taranaki Fault and related foredeep development in eastern Taranaki Basin.

Details

Language :
English
ISSN :
15252027
Volume :
23
Issue :
5
Database :
OpenAIRE
Journal :
Geochemistry, Geophysics, Geosystems
Accession number :
edsair.doi.dedup.....82a4f7d4893e89c2a1d73f6cd012f3c5