Keyword

MARINE ENVIRONMENT MONITORING

28 record(s)
 
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  • This record provides an overview of the NESP Marine and Coastal Hub project "Synthesis of environmental values to support the review of Australian Marine Park management plans". For specific data outputs from this project, please see child records associated with this metadata. -------------------- Parks Australia (Australian Government) manage 60 Australian Marine Parks (AMPs) around the country, covering an area of 3.8 million square kilometres, or 43% of all Australian waters. The approach to managing AMPs is set out in eight Management Plans, one for each of the five marine park networks (North, North-west, South-west, South-east and Temperate East) and one each for the Coral Sea Marine Park, Christmas Island Marine Park and Cocos (Keeling) Islands Marine Park. A statutory review of Management Plans for the North, North-west, South-west, Temperate-East networks and the Coral Sea Marine Park is scheduled for 2028. This review requires accessible, synthesised evidence on science outputs, natural values, socio-economic values and pressures across parks and networks. This project supports the 2028 statutory review by synthesising relevant NESP Marine Biodiversity Hub, NESP Marine and Coastal Hub, and Parks Australia-contracted work from 2017 onwards. These reports bring together science outputs, natural values, pressures and socio-economic information from 2017 onwards, aggregated where possible to Park and Network scales. The project reviewed the data summaries, workflows and reporting tools used to prepare the synthesis reports, and identified opportunities to better integrate this infrastructure. These recommendations support future AMP management effectiveness reporting, statutory review processes, and national environmental assessment and impact reporting. Outputs • Catalogue of available data for each reviewed Network (North, North-west, South-west, Temperate East) and the Coral Sea AMP [data inventory] • Synthesis report [written] for each region that will include: - a summary of science activity and outputs since 2017 - summaries of the state and trend of Natural Values and Pressures since 2017, aggregated by Ecosystem Component, Ecosystem Depth Zone, AMP, and AMP Zone type (where possible) • Final technical report (including recommendations to support AMP management and reporting) [written]

  • An assessment was made of the state of research knowledge in the Australian Marine Parks (2022 boundaries). This quality assessment is specifically of the suitability of data streams for deriving habitat maps. Five nationally-aggregated data streams were used in the assessment: (1) Seamap Australia (seafloor habitat) (2) AusSeabed bathymetry survey extents (bathymetry mapping) (3) Squidle+ imagery deployments (habitat observations) (4) GlobalArchive video deployments (habitat observations) (5) Geoscience Australia's Marine Sediment Database (MARS) From these data streams, quality ratings (0-5) have been made for the state of research knowledge for three research disciplines: (A) bathymetry maps; (B) habitat observations; and (C) habitat maps. Data quality assessments are reported for each AMP Network and Park. Assessments can be accessed in context at https://seamapaustralia.org/region-reports, via the State-of-Knowledge functionality in the Seamap Australia mapping portal: https://seamapaustralia.org/map, or as a stand-alone file in the 'Downloads' section of this record. This data is live and is refreshed weekly.

  • This record provides an overview of the NESP Marine and Coastal Hub Research Plan 2023 project "Guiding the sustainable development of offshore renewables and other emerging marine industries in Australia". For specific data outputs from this project, please see child records associated with this metadata. -------------------- Australia is entering a phase of rapid offshore renewable energy development, particularly offshore wind, with priority areas identified across the western, southern and eastern coasts. Regulatory assessment under the EPBC Act and Offshore Electricity Infrastructure Act requires accessible environmental, cultural and monitoring information to support socially and ecologically sustainable development. This project established inventories of existing environmental and cultural data, best-practice monitoring standards, and impact-related literature for continental shelf waters associated with Australia’s six priority offshore wind regions: Hunter and Illawarra, Gippsland, Southern Ocean, Bass Strait, and the Indian Ocean off Bunbury. The process was guided by an Offshore Renewable Energy Program Steering Committee with representatives from DCCEEW, NOPSEMA and Marine and Coastal Hub partners. The work ran in parallel with a related NESP Marine and Coastal Hub project (https://www.nespmarinecoastal.edu.au/project/3-21) focused on the confirmed area of declaration for ORE off the east Gippsland coast, Victoria. Together, both projects were guided by an Offshore Renewable Energy Program Steering Committee comprising representatives from DCCEEW, NOPSEMA and Marine and Coastal Hub partners. Focus areas of the data inventory were: • Seabed geomorphology, bathymetry, sedimentology, and habitat characterisation; • Oceanographic features and coastal processes; • Priority threatened, migratory, and marine species and habitats; • Potential impacts during installation, operation, and decommissioning; • Indigenous communities and cultural values affected by ORE development areas; • Monitoring needs and associated best practices. Project outputs included four database inventories with more than 500 publications across 16 impact types, seabed and oceanographic information, and tabulated summaries and mapped extents of priority species relevant to ORE assessment. The compiled data inventories identified major data and management gaps, including limited high-resolution bathymetry, geomorphology and biological survey data; inconsistent data acquisition standards; limited FAIR access to threatened species data; and the need for coordinated research investment and early Traditional Owner engagement. Outputs from the project will support environmental assessment, mitigation and monitoring of offshore wind impacts, standardisation of data collection methodologies, cumulative impact assessment, and regulatory decision-making under the EPBC and OEI Acts. Outputs • Inventory of existing information and associated sources for the following thematic areas: seabed geomorphology and habitat, oceanography, species and habitats, affected indigenous communities, ongoing monitoring needs and associated best practices, potential impacts of installation and operation [data inventories] • Final project report [written]

  • This project generated a set of high-quality eDNA-based biodiversity datasets from samples collected at broadly distributed offshore sites across Southeast Australia. The data consists of processed data from eDNA metabarcoding assays (i.e. tables with sampling information, sequence read counts and taxonomy derived from the sequences). Raw sequence data (over 180 million sequences) is available from NCBI (https://www.ncbi.nlm.nih.gov/) under BioProject PRJNA1263580: Environmental DNA measuring offshore marine biodiversity in southeast Australia (https://www.ncbi.nlm.nih.gov/bioproject/PRJNA1263580/). The eDNA biodiversity information focussed on fish but includes sequence data from the full tree of life (from bacteria to vertebrates). Part of the purpose of data collection was to assess key technical aspects of eDNA data collection to refine sampling methods and provide guidance for best practices in future offshore eDNA research

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    This record describes an aggregated data product compiled from a number of different surveys of Macrocystis surface cover in Tasmanian waters, spanning 1950 to 2019. Some surveys represent a statewide census of Macrocystis cover, while others are targeted surveys of smaller regions. Methodology and data quality may also vary between surveys. Please see linked metadata records for specific methodologies and quality statements applying to individual surveys.

  • This record provides an overview of the NESP Marine and Coastal Hub Research Plan 2024 project "Environmental concentrations of emerging contaminants in coastal stormwater". For specific data outputs from this project, please see child records associated with this metadata. -------------------- Contaminants of emerging concern (CECs) are natural and synthetic chemicals associated with pharmaceuticals, pesticides, industrial products, household items and microplastics that can affect environmental and human health. Australian wastewater and coastal water quality strategies have identified the need to better understand the concentrations, distribution and ecological impacts of these contaminants in marine environments, particularly in relation to wastewater discharges and stormwater inputs. This project extended NESP Marine and Coastal Hub Project 2.4 (https://www.nespmarinecoastal.edu.au/project/2-4) that investigated CECs in Australian coastal waters, by increasing the spatial and temporal resolution of sampling around wastewater outfalls and stormwater systems. Sampling focused on Gamay (NSW) and Glenelg (South Australia), enabling comparison between wastewater treatment plant effluent and coastal stormwater inputs across different seasons and environmental conditions. Field programs collected water and sediment samples to quantify contaminants including pharmaceuticals, antibiotics, PFAS, metals and microplastics. Associated environmental variables were also measured. Ecogenomic approaches were used to assess microbial assemblages and antimicrobial resistance to examine the potential ecological impacts of contaminant exposure. The project also incorporated targeted stormwater sampling associated with major flooding following Tropical Cyclone Alfred in south-east Queensland and northern New South Wales, providing a rare time-series dataset on contaminant mobilisation during extreme rainfall events. The project maintained and expanded the National Outfall Database (https://nod.org.au) through continued collection, collation and reporting of wastewater treatment plant discharge data, including outfall flows, pollutant loads and associated infrastructure information. Project outputs improve the evidence base needed to inform contaminant guideline development, wastewater and stormwater management. This includes coastal marine park and Ramsar wetland management, and future assessment of ecological risks associated with contaminants of emerging concern. Outputs • Updates to the National Outfall Database for 2022/23, including proposed new attributes for collection [dataset] • Data from Gamay (Botany Bay) NSW including (1) contaminant levels in water and sediments (2) physico-chemical data; (3) microbial community and genetics composition of water and sediments [dataset] • Timeseries (seasonal) CEC data from wastewater effluent at Glenelg beach area (SA) [dataset] • [Possible] High-resolution temporal CEC data from a stormwater event in St Vincents Gulf [dataset] • Final project report [written]

  • This record provides an overview of the NESP Marine and Coastal Hub Research Plan 2024 project "Environmental DNA for measuring offshore marine biodiversity: what can DNA in water collected from the RV Investigator tell us?". For specific data outputs from this project, please see child records associated with this metadata. -------------------- Environmental DNA (eDNA) in seawater provides a non-extractive way to characterise marine biodiversity from genetic material shed by organisms, from microbes and plankton to invertebrates and fishes. It is an emerging tool for marine ecosystem monitoring, particularly in offshore areas where conventional sampling can be difficult, costly or environmentally disruptive. This project collected and analysed more than 500 eDNA samples from 91 sites during the South-east Australian Marine Ecosystem Survey (SEA-MES) on RV Investigator. Samples were collected along the continental shelf between Tasmania and southern New South Wales, including sites within the South-east Marine Parks Network, providing the first comprehensive eDNA baseline for this region. The project tested active eDNA sampling from CTD water samples and passive eDNA sampling from a deep-towed camera system. DNA metabarcoding and Tree of Life metabarcoding were used to identify biodiversity patterns across the water column and near the seafloor. Results were compared with conventional survey methods, including fish trawls, plankton sampling and deep-towed camera deployments, to assess how eDNA complements existing monitoring approaches. The dataset revealed clear biodiversity patterns by depth, latitude, and water-column position, including higher fish diversity near the seafloor than at the surface. Comparisons with trawl and plankton data showed that eDNA provided complementary biodiversity information, supporting its use alongside existing survey methods and highlighting its value as part of integrated monitoring programs. The outputs provide a new biodiversity baseline for south-eastern Australian waters, and practical guidance on future application of eDNA techniques for offshore monitoring of marine parks and fisheries. Outputs • eDNA sequences with associated collection metadata (x2 voyages x50 sites) [dataset] • Final project report [written]

  • This project undertook a rapid exploration of information on a priority subset of species identified by the Department of Climate Change, Energy, the Environment and Water (DCCEEW) and the National Offshore Petroleum Safety and Environment Authority (NOPSEMA) that are listed as critically endangered or endangered under the Environment Protection and Biodiversity Conservation Act 1999. It specifically focused on these species in relation to the Gippsland declaration area, and the adjacent areas to the declaration area in Bass Strait. This rapid exploration of information was conducted as follows: 1) identify datasets and information sources relevant to priority species identified by DCCEEW and NOPSEMA for the Gippsland declaration area; 2) identify the source of these datasets and information and their level of accessibility; 3) evaluate the utility of datasets and information identified in 2) for assessments/regulatory processes required to be undertaken by DCCEEW and NOPSEMA; and 4) identify what activities would need to be undertaken to improve the accessibility and utility of datasets and information sources identified in 3) that are not currently accessible in useable formats. Fifteen priorities species (12 birds, 3 cetaceans) were identified for which publicly-available occurrence data could be located. This record and the attached download describes the data inventory for Humpback Whales (Megaptera novaeangliae). To download the data inventory for all fifteen priority species, see https://doi.org/10.25959/GB51-RW44.

  • This project undertook a rapid exploration of information on a priority subset of species identified by the Department of Climate Change, Energy, the Environment and Water (DCCEEW) and the National Offshore Petroleum Safety and Environment Authority (NOPSEMA) that are listed as critically endangered or endangered under the Environment Protection and Biodiversity Conservation Act 1999. It specifically focused on these species in relation to the Gippsland declaration area, and the adjacent areas to the declaration area in Bass Strait. This rapid exploration of information was conducted as follows: 1) identify datasets and information sources relevant to priority species identified by DCCEEW and NOPSEMA for the Gippsland declaration area; 2) identify the source of these datasets and information and their level of accessibility; 3) evaluate the utility of datasets and information identified in 2) for assessments/regulatory processes required to be undertaken by DCCEEW and NOPSEMA; and 4) identify what activities would need to be undertaken to improve the accessibility and utility of datasets and information sources identified in 3) that are not currently accessible in useable formats. Fifteen priorities species (12 birds, 3 cetaceans) were identified for which publicly-available occurrence data could be located. This record and the attached download describes the data inventory for the Australian Gould's Petrel (Pterodroma leucoptera leucoptera). To download the data inventory for all fifteen priority species, see https://doi.org/10.25959/GB51-RW44.

  • This project undertook a rapid exploration of information on a priority subset of species identified by the Department of Climate Change, Energy, the Environment and Water (DCCEEW) and the National Offshore Petroleum Safety and Environment Authority (NOPSEMA) that are listed as critically endangered or endangered under the Environment Protection and Biodiversity Conservation Act 1999. It specifically focused on these species in relation to the Gippsland declaration area, and the adjacent areas to the declaration area in Bass Strait. This rapid exploration of information was conducted as follows: 1) identify datasets and information sources relevant to priority species identified by DCCEEW and NOPSEMA for the Gippsland declaration area; 2) identify the source of these datasets and information and their level of accessibility; 3) evaluate the utility of datasets and information identified in 2) for assessments/regulatory processes required to be undertaken by DCCEEW and NOPSEMA; and 4) identify what activities would need to be undertaken to improve the accessibility and utility of datasets and information sources identified in 3) that are not currently accessible in useable formats. Fifteen priorities species (12 birds, 3 cetaceans) were identified for which publicly-available occurrence data could be located. This record and the attached download describes the data inventory for Southern Right Whales (Eubalaena australis). To download the data inventory for all fifteen priority species, see https://doi.org/10.25959/GB51-RW44.