Gondwana’s interlinked peripheral orogens

Gondwana’s interlinked peripheral orogens

After its Ediacaran-Early Cambrian assembly, Gondwana was flanked by a system of peripheral orogens, Terra Australis, Avalonian-Cadomian and newly defined North Indo-Australie, which display broad temporal correlations of their lithotectonic records. Prior to assembly, their initial histories were p...

Full description

Bibliographic Details
Main Authors: Cawood, Peter, Martin, Erin, Murphy, Brendan, Pisarevsky, Sergei
Format: Journal Article
Language:English
Published: Elsevier 2021
Subjects:
Science & Technology
Physical Sciences
Geochemistry & Geophysics
Gondwana
peripheral orogen
Neoproterozoic
supercontinent
ACCRETIONARY OROGENS
HF ISOTOPES
EVOLUTION
RODINIA
BREAKUP
MARGIN
CONSTRAINTS
MAGMATISM
AUSTRALIA
PACIFIC
Online Access:http://purl.org/au-research/grants/arc/FL150100133
http://hdl.handle.net/20.500.11937/90945
Description
Summary:After its Ediacaran-Early Cambrian assembly, Gondwana was flanked by a system of peripheral orogens, Terra Australis, Avalonian-Cadomian and newly defined North Indo-Australie, which display broad temporal correlations of their lithotectonic records. Prior to assembly, their initial histories were primarily controlled by the early Neoproterozoic breakup of Rodinia with second order variances reflecting the differing relationships of their basement continental blocks to that supercontinent. The Terra Australis Orogen developed on basement blocks that previously occupied interior locations within Rodinia and initial successions record development of a passive continental margin. The North Indo-Australie orogen records a similar history of passive margin development, but at least its Indian portion was likely separate from Rodinia. The basement blocks of the Avalonian-Cadomian Orogen previously occupied exterior locations around Rodinia with initial successions indicating the development of a convergent plate margin. As Gondwana assembled, Avalonian-Cadomian convergence terminated at about the same time as convergence commenced in the Terra Australis and North Indo-Australie orogens. The absence of a complete long-lived contemporaneous subduction girdle around Gondwana likely prevented its breakup, in contrast to Rodinia and Pangea, in which the presence of subduction girdles corresponds with lithospheric extension across the supercontinents as a precursor to their ultimate breakup.

Similar Items