From 1 - 10 / 22
  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by LandPro Ltd after the 14 November 2016 earthquake. Coverage includes the Hapuku and Kowhai riverbeds (Epoch 11). The collection of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Survey Date: 24-25/04/2021 Coordinate System: Horizontal: NZTM2000 NZGD2000 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000. The ground sample distance of the orthophotos is 10cm. Cite data as: GNS Science. (2022). 2021 Kaikōura Hapuku Kowhai Rivers April LiDAR [Data set]. GNS Science. https://doi.org/10.21420/5VXH-AZ20

  • Digital Surface Model (DSM) created from aerial photography of the wider Kaikōura region captured in the flying season of 2018-2019. Coverage encompasses North Canterbury and Marlborough regions. Imagery was captured for GNS Science by Aerial Surveys Ltd, Unit A1, 8 Saturn Place, Rosedale, Auckland, New Zealand. The collection and processing of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). The dataset comprises: Digital Surface Model (DSM) supplied at 2m resolution (2.00 m GSD) and 0.6 m point cloud (0.60 m GSD). The above is supplied in terms of New Zealand Transverse Mercator (NZTM) 2000 map projection and NZVD2016. Cite data as: GNS Science. (2022). 2019 Kaikōura regional Digital Surface Model (DSM) [Data set]. GNS Science. https://doi.org/10.21420/B8YG-HG84

  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by Aerial Surveys Ltd after the 14 November 2016 earthquake. Coverage includes the Hapuku and Kowhai riverbeds/catchments, the coastal Papatea area and the Stanton and Leader landslide dams (Epoch 5). The collection of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Survey Date: 16-17/01/2019 and 31/01/2019 Coordinate System: Horizontal: NZTM2000 NZGD2000 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000. The ground sample distance of the orthophotos is 25cm. Cite data as: GNS Science. (2022). 2019 Kaikōura January LiDAR [Data set]. GNS Science. https://doi.org/10.21420/HDT4-TT88

  • Aerial photography of the wider Kaikōura region captured in the flying season of 2016-2017. Coverage encompasses North Canterbury and Marlborough regions. This Imagery was commissioned by LINZ on behalf of GNS science, Environment Canterbury Regional Council, Marlborough District Council, Kaikoura District Council and Hurunui District Council for earthquake recovery purposes. It was captured by Aerial Surveys Ltd, Unit A1, 8 Saturn Place, Albany,0632, New Zealand. The dataset comprises:4-band (RGBI) orthomosaic supplied at 30cm pixel resolution (0.30m GSD) and can be obtained from LINZ (https://data.linz.govt.nz/layer/95549-kaikoura-030m-rural-aerial-photos-2016-2017/) The above is supplied in terms of New Zealand Transverse Mercator (NZTM) 2000 map projection. Cite data as: GNS Science, Environment Canterbury Regional Council, Marlborough District Council, Kaikōura District Council, Hurunui District Council, Waka Kotahi NZ Transport Agency, Earthquake Commission, Toitū Te Whenua Land Information New Zealand (LINZ) (2022). 2016-2017 Kaikoura 0.30m Rural Aerial Photos [Data set]. Collected by Aerial Surveys, distributed by LINZ. https://doi.org/10.21420/ZSJ5-N017

  • Digital Surface Model (DSM) created from aerial photography of the wider Kaikōura region captured in the flying season of 2014-2015 captured by Aerial Surveys Ltd, Unit A1, 8 Saturn Place, Albany,0632, New Zealand. Coverage encompasses North Canterbury and Marlborough regions. The dataset comprises: Digital Surface Model (DSM) supplied at 2m resolution (2.00 m GSD) and 0.6 m point cloud (0.60 m GSD). The above is supplied in terms of New Zealand Transverse Mercator (NZTM) 2000 map projection and NZVD2016. The DSM has been adjusted and corrected to account for tectonic deformation associated with the 2016 Mw 7.8 Kaikōura earthquake, New Zealand (Massey et al., 2020) using an InSAR deformation model (Hamling et al., 2017). Hamling, I. J., Hreinsdóttir, S., Clark, K., Elliott, J., Liang, C., Fielding, E., Litchfield, N., Villamor, P., Wallace, L., Wright, T. J., D'Anastasio, E., Bannister, S., Burbidge, D., Denys, P., Gentle, P., Howarth, J., Mueller, C., Palmer, N., Pearson, C., . . . Stirling, M. (2017). Complex multifault rupture during the 2016 Mw 7.8 Kaikōura earthquake, New Zealand [Article]. Science, 356(6334), Article eaam7194. https://doi.org/10.1126/science.aam7194 Massey, C. I., Townsend, D., Jones, K., Lukovic, B., Rhoades, D., Morgenstern, R., Rosser, B., Ries, W., Howarth, J., Hamling, I., Petley, D., Clark, M., Wartman, J., Litchfield, N., & Olsen, M. (2020). Volume Characteristics of Landslides Triggered by the MW 7.8 2016 Kaikōura Earthquake, New Zealand, Derived From Digital Surface Difference Modeling [Article]. Journal of Geophysical Research: Earth Surface, 125(7), Article e2019JF005163. https://doi.org/10.1029/2019JF005163 The processing of the DSM was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Cite data as: Massey, C., Lukovic, B., Jones, K., (2022). InSAR adjusted and corrected 2015 Kaikōura regional Digital Surface Model (DSM) [Data set]. GNS Science. https://doi.org/10.21420/DP5R-5Y54

  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by AAM Ltd after the 14 November 2016 earthquake. The dataset was generated by AAM and their subcontractors. Survey Date: 01-08/12/2017 Coordinate System: Horizontal: NZTM2000 NZGD2000 version 20160701 NZTM2000 NZGD2000 version 20171201 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000 version 20171201. The ground sample distance of the orthophotos is 20cm. Cite data as: GNS Science. (2022). Kaikōura, Canterbury, New Zealand 2017 LiDAR [Data set]. GNS Science. https://doi.org/10.21420/HMC6-QV40

  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by LandPro Ltd after the 14 November 2016 earthquake. Coverage includes the Hapuku and Kowhai riverbeds (Epoch 4). The collection of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Survey Date: 04-11-2019 Coordinate System: Horizontal: NZTM2000 NZGD2000 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000. The ground sample distance of the orthophotos is 10cm. Cite data as: GNS Science (2023). 2019 Kaikōura Hapuku Kowhai Rivers November LiDAR [Data set]. GNS Science. https://doi.org/10.21420/X2NS-ZS89.

  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by Aerial Surveys Ltd after the 14 November 2016 earthquake. Coverage includes the Hapuku and Kowhai riverbeds/catchments, the coastal Papatea area and the Stanton and Leader landslide dams (Epoch 10). The collection of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Survey Date: 19-03-2021 Coordinate System: Horizontal: NZTM2000 NZGD2000 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000. The ground sample distance of the orthophotos is 25cm. Cite data as: GNS Science. (2022). 2021 Kaikōura March LiDAR [Data set]. GNS Science. https://doi.org/10.21420/QKV5-SK25

  • Digital Surface Model (DSM) created from aerial photography of the wider Kaikōura region captured in the flying season of 2016-2017. Coverage encompasses North Canterbury and Marlborough regions. The collection and processing of this dataset was funded by LINZ on behalf of GNS science, Environment Canterbury Regional Council, Marlborough District Council, Kaikoura District Council and Hurunui District Council for earthquake recovery purposes. It was captured by Aerial Surveys Ltd, Unit A1, 8 Saturn Place, Albany,0632, New Zealand. The dataset comprises: Digital Surface Model (DSM) supplied at 2m resolution (2.00 m GSD) and 0.6 m point cloud (0.60 m GSD). The above is supplied in terms of New Zealand Transverse Mercator (NZTM) 2000 map projection and NZVD2016. DOI: https://doi.org/10.21420/0DYR-Q529 Cite data as: GNS Science, Environment Canterbury Regional Council, Marlborough District Council, Kaikōura District Council, Hurunui District Council, Waka Kotahi NZ Transport Agency, Earthquake Commission, Toitū Te Whenua Land Information New Zealand (LINZ) (2023). 2016-2017 Kaikōura regional Digital Surface Model (DSM) [Data set]. GNS Science. https://doi.org/10.21420/0DYR-Q529

  • LiDAR was commissioned by GNS Science for earthquake recovery purposes for Kaikōura. LiDAR was captured by LandPro Ltd after the 14 November 2016 earthquake. Coverage includes the Hapuku and Kowhai riverbeds and the coastal Papatea area (Epoch 3). The collection of this dataset was funded by the New Zealand Governments Ministry of Business, Innovation and Employment's Endeavour fund as part of the work carried out for the Earthquake Induced Landscape Dynamics project (C05X1709). Survey Date: 08-03-2018 Coordinate System: Horizontal: NZTM2000 NZGD2000 Vertical: NZVD2016 Imagery is supplied in terms of NZTM NZGD2000. The ground sample distance of the orthophotos is 10cm. Cite data as: GNS Science. (2022). 2018 Kaikōura Hapuku Kowhai Papatea March LiDAR [Data set]. GNS Science. https://doi.org/10.21420/TH9W-ST16