Back to Search Start Over

Migration of hydrothermal systems in an evolving collisional orogen, New Zealand.

Authors :
Craw, D.
Upton, P.
Horton, T.
Williams, J.
Source :
Mineralium Deposita; Feb2013, Vol. 48 Issue 2, p233-248, 16p
Publication Year :
2013

Abstract

The Pacific-Australian tectonic plate boundary through the South Island of New Zealand consists of the transpressional Southern Alps mountain belt and the transcurrent Marlborough Fault System, both of which have active tectonically driven hydrothermal systems, with topographically driven meteoric incursion and warm springs. The Southern Alps hydrothermal system is relatively diffuse, with little or no fault control, and is channelled through scattered extensional sites beneath the mountains, where gold mineralisation is occurring locally. The hydrothermal activity along the Marlborough Fault System is controlled by the principal faults in well-defined valleys separated by narrow high ridges. Lateral evolution of Marlborough fault strands southwestwards into the Southern Alps has caused diversion of diffuse Southern Alps hydrothermal activity into the structural superimposition zone, where fluid flow is increasingly being controlled by faults. This hydrothermal diversion was accompanied by major topographic reorientation and river drainage reversal in the late Quaternary. Vein swarms now exposed in the remnants of the Southern Alps north of the superimposition zone formed at shallow levels, with some evidence for fluid boiling, from a mixture of meteoric and deep-sourced fluid. These veins, some of which contain gold, are part of an abandoned <1 million-year-old hydrothermal zone beneath the fossil topographic divide of the Southern Alps that has now been dismembered by lateral incursion of the Marlborough fault strands. Observations on this active plate boundary provide some insights into processes that controlled orogenic gold mineralisation in ancient belts, particularly with respect to relationships between hydrothermal fluid flow, structure and topography. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00264598
Volume :
48
Issue :
2
Database :
Complementary Index
Journal :
Mineralium Deposita
Publication Type :
Academic Journal
Accession number :
85211023
Full Text :
https://doi.org/10.1007/s00126-012-0421-8