The Oligocene (Whaingaroan-Waitakian) Tikorangi Formation is a totally subsurface, lithostratigraphically complex, mixed siliciclastic-limestone-rich sequence forming an important fracture reservoir within Taranaki Basin, New Zealand. Petrographically the formation comprises a spectrum of interbedded rock types ranging from calcareous mudstone to wackestone to packstone to clean sparry grainstone. Skeletal and textural varieties within these rock types have aided in the identification of three environmentally distinctive megafacies for the Tikorangi Formation rocks-shelfal, foredeep, and basinal. Data from these megafacies have been used to detail previous conclusions on the petrogenesis and to further refine depositional paleoenvironmental...
The middle Miocene Mangarara Formation is a thin (1–60 m), laterally discontinuous unit of moderatel...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The Oligocene (Whaingaroan-Waitakian) Tikorangi Formation is a totally subsurface, lithostratigraphi...
The Oligocene (Whaingaroan-Waitakian) Tikorangi Formation is a totally subsurface, lithostratigraphi...
Tikorangi Formation is a totally subsurface, litho-stratigraphically complex, mixed siliciclastic-li...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The totally subsurface Oligocene-Early Miocene Tikorangi Formation in Taranaki Basin is New Zealand’...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The latest Eocene and Oligocene was a time of marked paleoenvironmental change in Taranaki Basin, in...
The Moki Formation, Taranaki Basin, New Zealand, is a Mid Miocene (Late Altonian to Early Lillburnia...
The subsurface mid-Tertiary Tikorangi Formation is the sole limestone and the only fracture-producin...
The middle Miocene Mangarara Formation is a thin (1–60 m), laterally discontinuous unit of moderatel...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The Oligocene (Whaingaroan-Waitakian) Tikorangi Formation is a totally subsurface, lithostratigraphi...
The Oligocene (Whaingaroan-Waitakian) Tikorangi Formation is a totally subsurface, lithostratigraphi...
Tikorangi Formation is a totally subsurface, litho-stratigraphically complex, mixed siliciclastic-li...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The subsurface Oligocene Tikorangi Formation is a unique and important oil producer in the onshore W...
The totally subsurface Oligocene-Early Miocene Tikorangi Formation in Taranaki Basin is New Zealand’...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The latest Eocene and Oligocene was a time of marked paleoenvironmental change in Taranaki Basin, in...
The Moki Formation, Taranaki Basin, New Zealand, is a Mid Miocene (Late Altonian to Early Lillburnia...
The subsurface mid-Tertiary Tikorangi Formation is the sole limestone and the only fracture-producin...
The middle Miocene Mangarara Formation is a thin (1–60 m), laterally discontinuous unit of moderatel...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...
The Torehina Formation is part of a cool-water carbonate succession of Oligocene age in New Zealand ...