Temporal relations between mineral deposits and global tectonic cycles

Peter Anthony Cawood; Chris Hawkesworth

doi:10.1144/SP393.1

Temporal relations between mineral deposits and global tectonic cycles

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Mineral deposits are heterogeneously distributed in both space and time, with variations reflecting tectonic setting, evolving environmental conditions, as in the atmosphere and hydrosphere, and secular changes in the Earth’s thermal history. The distribution of deposit types whose settings are tied to plate margin processes (e.g. orogenic gold, volcanic-hosted massive sulphide, Mississippi valley type Pb–Zn deposits) correlates well with the supercontinent cycle, whereas deposits related to intra-cratonic settings and mantle-driven igneous events, such as Ni–Cu–PGE deposits, lack a clear association. The episodic distribution of deposits tied to the supercontinent cycle is accentuated by selective preservation and biasing of rock units and events during supercontinent assembly, a process that encases the deposit within the assembled supercontinent and isolates it from subsequent removal and recycling at plate margins.

Original language	English
Title of host publication	Ore Deposits in an Evolving Earth
Editors	G. R. T. Jenkin, P. A. J. Lusty, I. McDonald, M. P. Smith, A. J. Boyce, J. J. Wilkinson
Place of Publication	London
Publisher	Geological Society
DOIs	https://doi.org/10.1144/SP393.1
Publication status	Published - Oct 2013

Publication series

Name	Geological Society Special Publications
Publisher	The Geological Society
Volume	393
ISSN (Print)	0305-8719
ISSN (Electronic)	2041-4927

Keywords

Mineral deposits
Tectonic cycles
Supercontinent cycle
Intra-cratonic
Plate margin

Access to Document

10.1144/SP393.1

SP393.1.full
Copyright 2013, the authors. This is an open access article published under the terms of the CC-BY 3.0 license.
Final published version, 398 KB

Processes that shape continental record: The Processes that shape the Continental Record
Cawood, P. A. (PI), Cawood, P. A. (PI) & Hawkesworth, C. (CoI)
NERC
1/07/12 → 31/12/15
Project: Standard

Cite this

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title = "Temporal relations between mineral deposits and global tectonic cycles",

abstract = "Mineral deposits are heterogeneously distributed in both space and time, with variations reflecting tectonic setting, evolving environmental conditions, as in the atmosphere and hydrosphere, and secular changes in the Earth{\textquoteright}s thermal history. The distribution of deposit types whose settings are tied to plate margin processes (e.g. orogenic gold, volcanic-hosted massive sulphide, Mississippi valley type Pb–Zn deposits) correlates well with the supercontinent cycle, whereas deposits related to intra-cratonic settings and mantle-driven igneous events, such as Ni–Cu–PGE deposits, lack a clear association. The episodic distribution of deposits tied to the supercontinent cycle is accentuated by selective preservation and biasing of rock units and events during supercontinent assembly, a process that encases the deposit within the assembled supercontinent and isolates it from subsequent removal and recycling at plate margins.",

keywords = "Mineral deposits, Tectonic cycles, Supercontinent cycle, Intra-cratonic , Plate margin",

author = "Cawood, {Peter Anthony} and Chris Hawkesworth",

note = "Natural Environment Research Council (grant NE/J021822/1) supported this research.",

year = "2013",

month = oct,

doi = "10.1144/SP393.1",

language = "English",

series = "Geological Society Special Publications",

publisher = "Geological Society",

editor = "Jenkin, {G. R. T.} and Lusty, {P. A. J. } and I. McDonald and Smith, {M. P. } and Boyce, {A. J.} and Wilkinson, {J. J.}",

booktitle = "Ore Deposits in an Evolving Earth",

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Temporal relations between mineral deposits and global tectonic cycles. / Cawood, Peter Anthony; Hawkesworth, Chris.
Ore Deposits in an Evolving Earth. ed. / G. R. T. Jenkin; P. A. J. Lusty; I. McDonald; M. P. Smith; A. J. Boyce; J. J. Wilkinson. London: Geological Society, 2013. (Geological Society Special Publications; Vol. 393).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

TY - CHAP

T1 - Temporal relations between mineral deposits and global tectonic cycles

AU - Cawood, Peter Anthony

AU - Hawkesworth, Chris

N1 - Natural Environment Research Council (grant NE/J021822/1) supported this research.

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AB - Mineral deposits are heterogeneously distributed in both space and time, with variations reflecting tectonic setting, evolving environmental conditions, as in the atmosphere and hydrosphere, and secular changes in the Earth’s thermal history. The distribution of deposit types whose settings are tied to plate margin processes (e.g. orogenic gold, volcanic-hosted massive sulphide, Mississippi valley type Pb–Zn deposits) correlates well with the supercontinent cycle, whereas deposits related to intra-cratonic settings and mantle-driven igneous events, such as Ni–Cu–PGE deposits, lack a clear association. The episodic distribution of deposits tied to the supercontinent cycle is accentuated by selective preservation and biasing of rock units and events during supercontinent assembly, a process that encases the deposit within the assembled supercontinent and isolates it from subsequent removal and recycling at plate margins.

KW - Mineral deposits

KW - Tectonic cycles

KW - Supercontinent cycle

KW - Intra-cratonic

KW - Plate margin

U2 - 10.1144/SP393.1

DO - 10.1144/SP393.1

M3 - Chapter

T3 - Geological Society Special Publications

BT - Ore Deposits in an Evolving Earth

A2 - Jenkin, G. R. T.

A2 - Lusty, P. A. J.

A2 - McDonald, I.

A2 - Smith, M. P.

A2 - Boyce, A. J.

A2 - Wilkinson, J. J.

PB - Geological Society

CY - London

ER -

Temporal relations between mineral deposits and global tectonic cycles

Abstract

Publication series

Keywords

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Projects

Processes that shape continental record: The Processes that shape the Continental Record

Cite this