The layer defines the elevation of the top surface of the Christchurch Formation geological unit as a contour ArcGIS shapefile. The layer has been derived from the 3D Christchurch Geological Model built using Leapfrog Geo software.

A raster ArcGIS grid that defines the elevation of the basal surface of the Heretaunga Formation geological unit. It has been derived from the 3D geological model of the Napier-Hastings urban area which forms part of GNS Geological Map 7. The 3D model was built using Leapfrog Geo software. This dataset forms part of Begg JG, Jones KE, Lee JM, Tschritter C. 2022. 3D geological model of the Napier-Hastings urban area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 7b). https://doi.org/10.21420/JJEC-J652. The explanatory text associated with this dataset is available from https://doi.org/10.21420/QFEK-9369.

The layer defines the elevation of the top surface of the Springston Formation geological unit as a Gocad T-surf mesh. The layer has been derived from the 3D Eastern Canterbury Geological Model built using Leapfrog Geo software.

The layer defines the thickness of the Tertiary-Castlecliffian geological units as a raster ArcGIS grid. The layer has been derived from the 3D Eastern Canterbury Geological Model built using Leapfrog Geo software.

A GOCAD T-surf mesh that defines the volume of the Awatoto Member geological unit. It has been derived from the 3D geological model of the Napier-Hastings urban area which forms part of GNS Geological Map 7. The 3D model was built using Leapfrog Geo software. This dataset forms part of Begg JG, Jones KE, Lee JM, Tschritter C. 2022. 3D geological model of the Napier-Hastings urban area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 7b). https://doi.org/10.21420/JJEC-J652. The explanatory text associated with this dataset is available from https://doi.org/10.21420/QFEK-9369.

The layer defines the elevation of the basal surface of the Avonside Member geological unit as a raster ArcGIS grid. The layer has been derived from the 3D Christchurch Geological Model built using Leapfrog Geo software.

A raster ArcGIS grid that defines the thickness of the Ōtāhuhu Member (Takaanini Formation) geological unit. It has been derived from the 3D geological model of the Pukekohe area which forms part of GNS Geological Map 12. The 3D model was built using Leapfrog Geo software. This dataset forms part of Jones KE, Strogen DP, Hill MP. 2022. 3D geological model of the Pukekohe area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 12a). https://doi.org/10.21420/PDRP-WS09. The explanatory text associated with this dataset is available from https://doi.org/10.21420/T65Q-MX18.

A raster ArcGIS grid that defines the elevation of the onshore ground surface and offshore bathymetry in the Napier-Hastings area. It is an amalgamation of bathymetric and LiDAR data that has been resampled to 100 m resolution for use in the 3D geological model built with Leapfrog Geo software. This dataset forms part of Begg JG, Jones KE, Lee JM, Tschritter C. 2022. 3D geological model of the Napier-Hastings urban area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 7b). https://doi.org/10.21420/JJEC-J652. The explanatory text associated with this dataset is available from https://doi.org/10.21420/QFEK-9369.

A raster ArcGIS grid that defines the elevation of the basal surface of the Early to Middle Pleistocene geological unit. It has been derived from the 3D geological model of the Napier-Hastings urban area which forms part of GNS Geological Map 7. The 3D model was built using Leapfrog Geo software. This dataset forms part of Begg JG, Jones KE, Lee JM, Tschritter C. 2022. 3D geological model of the Napier-Hastings urban area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 7b). https://doi.org/10.21420/JJEC-J652. The explanatory text associated with this dataset is available from https://doi.org/10.21420/QFEK-9369.

A collection of raster ArcGIS grids that define the elevation of the top of basement and the elevation of the base and top, together with thickness, of the overlying geological units. They have been derived from the 3D geological model of the Pukekohe area which forms part of GNS Geological Map 12. The 3D geological model provides a conceptual three-dimensional representation and interpretation of the near-surface and subsurface geology including basement rocks, the thickness and geometry of geological units overlying basement and major faults. This dataset forms part of Jones KE, Strogen DP, Hill MP. 2022. 3D geological model of the Pukekohe area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 12a). https://doi.org/10.21420/PDRP-WS09. The explanatory text associated with this dataset is available from https://doi.org/10.21420/T65Q-MX18.