1. Geochemical patterns of late Cenozoic intraplate basaltic volcanism in northern New Zealand and their relationship to the behaviour of the mantle.
- Author
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Smith, Ian E. M. and Cronin, Shane J.
- Subjects
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INTRAPLATE volcanism , *CENOZOIC Era , *PLATE tectonics , *ISLAND arcs , *VOLCANOES , *VOLCANISM - Abstract
A major period of subduction-related volcanism in northern New Zealand began about 20 million years ago; its locus of activity migrated southward during the late Cenozoic in response to changes in convergence between the Australian and Pacific tectonic plates. As the volcanic arc migrated, six discrete fields of small-scale basaltic volcanoes were established behind the subduction system. These volcanoes show geochemical characteristics that reveal patterns of mantle behaviour linked to the rapidly evolving plate tectonic environment of Zealandia. Two northern volcano fields began activity about 8 million years ago and have been active into recent times; their chemical compositions reflect partial melting of shallow mantle and their spatial relationships an essentially static source environment. In contrast, four southern fields are dominated by alkalic magmas that likely ascended rapidly from garnet-bearing asthenospheric sources in a northward migrating pattern of discrete temporal episodes (∼1 ma duration) since 3 Ma. The Northland fields were sourced in mantle that became coupled to the lithosphere and have remained active during the last 8 Ma. The Auckland fields are interpreted to reflect independent actively rising asthenospheric mini-plumes linked to mantle convection associated with but geochemically distinct from the subduction system beneath central North Island New Zealand. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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