Structural Controls on Shallow Cenozoic Fluid Flow in the Otago Schist, New Zealand

Abstract: The Otago Schist in the South Island of New Zealand represents an exhumed Mesozoic accretionary prism. Two coastal areas (Akatore Creek and Bruce Rocks) south of Dunedin preserve structural and geochemical evidence for the development of postmetamorphic hydrothermal systems that involved widespread fluid-rock reaction at shallow crustal depths. The Jurassic to Triassic pumpellyite-actinolite (Akatore Creek) to upper greenschist facies (Bruce Rocks) metamorphic fabrics were crosscut by sets of regionally extens… Show more

“…Also focusing on a case of inherited ductile structures, Holbek et al [31] evaluate the structural controls on shallow Cenozoic fluid flow in the Otago Schist of New Zealand, an exhumed Mesozoic accretionary prism. They study hydrothermal systems that caused fluid flow and mineral reactions at shallow depths.…”

“…They interpret that the vein and breccia mineralizing fluids had a metamorphic source following breakdown reactions. Holbek et al [31] identify foliation, joints, and fault 3 Geofluids networks as the main structural controls on fluid flow, which is inferred to have taken place due to compression in the Early Miocene.…”

Structural Controls on Basin- and Crustal-Scale Fluid Flow and Resulting Mineral Reactions

“…Also focusing on a case of inherited ductile structures, Holbek et al [31] evaluate the structural controls on shallow Cenozoic fluid flow in the Otago Schist of New Zealand, an exhumed Mesozoic accretionary prism. They study hydrothermal systems that caused fluid flow and mineral reactions at shallow depths.…”

“…They interpret that the vein and breccia mineralizing fluids had a metamorphic source following breakdown reactions. Holbek et al [31] identify foliation, joints, and fault 3 Geofluids networks as the main structural controls on fluid flow, which is inferred to have taken place due to compression in the Early Miocene.…”

Structural Controls on Basin- and Crustal-Scale Fluid Flow and Resulting Mineral Reactions

Microscale geochemical variations in metamorphic-hydrothermal scheelite and insights into trace element sources (Otago Schist, New Zealand)