This resource includes seabed backscatter data for South-west Corner Marine Park collected by Geoscience Australia during the periods 9 – 12 March 2020 and 27 January – 16 February 2021 on the charter vessel Santosha. The survey was undertaken as a collaborative project with the University of Western Australia, the University of Tasmania and the Australian Centre for Field Robotics (University of Sydney) and funded through the National Environmental Science Program Marine Biodiversity Hub, with co-investment by all partners and the Director of National Parks. The purpose of the project was to build baseline information for benthic habitats on the continental shelf in the marine park that will support ongoing environmental monitoring within the South-west Marine Park Network as part of the 10-year management plan (2018-2028). Data acquisition for the project included multibeam bathymetry and backscatter for an area covering 330 km^2 offshore from Cape Naturaliste to Cape Leeuwin coast, with underwater imagery of benthic communities and demersal fish collected by University of Western Australia on separate field deployments. This backscatter dataset contains a 4 m resolution 32-bit geotiff file of the survey area produced from the processed Kongsberg EM2040C multibeam sonar system data using the CMST-GA MB Process v15.04.04.0 (.64) toolbox software co-developed by the Centre for Marine Science and Technology at Curtin University and Geoscience Australia. For further information see: Giraldo-Ospina, A. et al., 2021. South-west Corner Marine Park Post Survey Report. Report to the National Environmental Science Program, Marine Biodiversity Hub.

The GMRT-AusSeabed project aims to address the cost associated with processing, merging and reformatting of bathymetric data in marine modelling and management by enabling users to more easily create bathymetric maps. The project leverages two major existing initiatives, the AusSeabed Data Hub operated by AusSeabed and the Global Multi-Resolution Topography Synthesis (GMRT) operated by Lamont Doherty Earth Observatory (LDEO) and funded by the US National Science Foundation. GMRT-AusSeabed is seeking to deliver two core services that are relevant to this particular document: 1. Definition of an attributed point cloud for bathymetric data that is common across a wide range of bathymetric sensor platforms (multibeam echosounder, LiDAR, satellite, etc) 2. Develop additional user controls, primarily relating to data selection, that leverage the attributed point cloud for the creation of bathymetric maps. Within the bounds of the GMRT-AusSeabed project, this document provides: 1. A summary of the key points discussed within the first workshop, “Point Cloud Attribution”, 2. A detailed list of the attributes that are to be carried forward through the work program. 3. A list of influences external to the workshop that have contributed to the list. Workshop participants included representatives from Geoscience Australia, Deakin University, CSIRO, Guardian Geomatics and Land and Information New Zealand. See <a href="https://www.ausseabed.gov.au/gmrt">https://www.ausseabed.gov.au/gmrt</a> for more information.

The GMRT-AusSeabed project aims to address the cost associated with processing, merging and reformatting of bathymetric data in marine modelling and management by enabling users to more easily create bathymetric maps. The project leverages two major existing initiatives, the AusSeabed Data Hub operated by AusSeabed and the Global Multi-Resolution Topography Synthesis (GMRT) operated by Lamont Doherty Earth Observatory (LDEO) and funded by the US National Science Foundation. GMRT-AusSeabed is seeking to deliver two core services that are relevant to this particular document: 1. Definition of an attributed point cloud for bathymetric data that is common across a wide range of bathymetric sensor platforms (multibeam echosounder, LiDAR, satellite, etc) 2. Develop additional user controls, primarily relating to data selection, that leverage the attributed point cloud for the creation of bathymetric maps. Within the bounds of the GMRT-AusSeabed project, this document provides: 1. A summary of the key points discussed within the second workshop, “Backend Storage”, 2. An overview of the toolkits being explored by the project for delivery of various capabilities 3. Outcomes and actions that are being moved forward with in the project. Workshop participants included representatives from Geoscience Australia, Australian Antarctic Division, University of Western Australia, and Guardian Geomatics. See <a href="https://www.ausseabed.gov.au/gmrt">https://www.ausseabed.gov.au/gmrt</a> for more information.

Jervis Bay Reef Polygons were digitised from the Multibeam bathymetry datasets of Jervis Bay. Reef areas were defined as seabed hard substrate that are often raised from the surroundings flat sedimentary seabed. They were identified and mapped relatively easily on hillshaded bathymetry layers.

The Peterborough to Port Fairy bathymetry survey was acquired by Deakin University Marine Mapping lab onboard the M/V Yolla during the period 28 May 2018 - 19 June 2018 using a Kongsberg EM2040C multibeam sonar system. The survey was completed as part of the Victorian Coastal Monitoring Program, which requires bathymetry data to understand offshore sediment dynamics within Victorian coastal waters. This dataset contains a 2m-resolution 32-bit floating point GeoTIFF file of the bathymetry in the study area, derived from the processed EM2040C bathymetry data using CARIS HIPS and SIPS software. This dataset is not to be used for navigational purposes.

The GMRT-AusSeabed project aims to address the cost associated with processing, merging and reformatting of bathymetric data in marine modelling and management. This will be achieved by adopting and expanding the Global Multi-Resolution Topography Synthesis (GMRT) tool and becoming a local platform node focused on Australia’s region of marine responsibility. The GMRT is operated by Lamont Doherty Earth Observatory and funded by the US National Science Foundation. The implementation of GMRT for Australia is supported by funding from the Australian Research Data Commons (ARDC). One of the main deliverables for the project is a user needs analysis, which will inform the design of the platform. This report presents a summary of the outcomes of the engagement with the ocean and coastal modelling community to ensure the solutions are fit-for-purpose. The initial project plan included a proposal for in-person workshop with the modelling community to establish user requirements, however COVID-19 restrictions were in place during the project and this was not possible. Instead, requirements were gathered from the community via an online survey. An overview of the survey questions and responses is presented in Section 2, while Section 3 provides some further analysis of the results and recommendations for the design of the new platform.

The Vanderford Glacier bathymetry survey was acquired by the Australian Antarctic Division (AAD) during the maiden Antarctic voyage of the RSV Nuyina from 23 December 2021 – 30 January 2022. The survey area encompasses Vincennes Bay (offshore Vanderford Glacier), and offshore Casey Station and Davis Station and was completed as a combination of commissioning trials, ice trials and a resupply voyage. Bathymetry data was acquired using a Kongsberg EM 712 and EM 122 and processed using QPS Qimera and Caris HIPS and SIPS. The dataset was then exported to GeoTIFF using CARIS HIPS and SIPS software. This dataset contains nine 5m-, 10m-, 16m-, 20m-, 64m-, 128m-resolution 32-bit floating point GeoTIFF files. This dataset is not to be used for navigational purposes.

​The King Island North, Bass Strait, bathymetry survey was acquired for the Australian Hydrographic Office (AHO) onboard the M/V Pacific Quest during the period 28 January to 6 May 2021. This was a contracted survey conducted as part of the HydroScheme Industry Partnership Program (HIPP). The survey area encompasses a region located north of King Island in Bass Strait, including the approaches to Phoques Bay, located at the NW extremity of King Island. Bathymetry data was acquired using a Kongsberg EM2040D and processed using QPS Qimera V2.0.1. The dataset was then exported to GeoTIFF using CARIS HIPS and SIPS software. This dataset contains a 30m-resolution 32-bit floating point GeoTIFF file of the bathymetry in the survey area. This dataset is not to be used for navigational purposes.

This is a compilation of bathymetry surveys GA-4415 and GA-0348. GA-4415 survey was conducted by the Royal Australian Navy (RAN) and the Australian Antarctic Division (AAD) onboard the RAN vessel Wyatt Earp in 2013/2014, while GA-0348 survey was a collaboration between Geoscience Australia (GA) , the Royal Australian Navy and Australian Antarctic Division acquired by the AAD workboat Howard Burton during December 2014 to February 2015. The survey goal was to acquire high resolution bathymetry data to improve our understanding of the seafloor using multibeam sonar. The bathymetry data collection will be supplemented by physical sampling of the seafloor sediments and video recordings of the biological communities living in the seafloor. The survey covers areas that are frequently used by the RSV Aurora Australis. Improving our understanding of the seabed environment in these shallow coastal waters will ultimately lead to a better environmental management of the Australian Antarctic Territory. The data will also help the RAN to develop more accurate navigation charts therefore reducing the risk to maritime operation in the region. This dataset is not to be used for navigational purposes.

The RS9401 bathymetry survey, GA0124 was acquired by Geoscience Australia onboard the Australian vessel Rig Seismic from the 12th of January to the 16th of February 1994 using an MR1 (12 kHz) towed sidescan sonar system. The objectives of the RS9401 bathymetry survey was to collect new data in order to update our understanding of the Macquarie Ridge Complex (MRC), located at the boundary between the Pacific and Australian plates. The survey acquired Sidescan/ bathymetry, gravity and 96- channel seismic reflection imaging across the morphologic ridge and trench system. Gravity and magnetic data were collected during the entire survey. This V0 dataset contains three, 128 m resolution 32-bit geotiff of the Macquarie Ridge survey area produced from the processed MR1 bathymetry data. This dataset is not to be used for navigational purposes. This dataset is published with the permission of the CEO, Geoscience Australia.