Ocean net primary production (ONPP) is defined as the rate of inorganic carbon uptake into the ocean biosphere, minus respiration. Biological processes, chiefly photosynthesis, can remove carbon from the dissolved inorganic ocean reservoir, providing an important potential sink for atmospheric carbon. This carbon flux into the ocean biosphere constitutes the base of the pelagic marine food web, directly affecting fishery productivity (Behrenfeld et al., 2002). As part of the Earth Observing System (EOS) science activities at Goddard Space Flight Center (GSFC), the National Aeronautics and Space Administration (NASA) is applying models to remote sensing data from the Moderate Resolution Imaging Spectroradiometer (MODIS), aboard the Terra and the Aqua spacecraft, to compute two indices of ONPP. The key model input data for the ONPP models are 8 day (weekly) composite averages of the MODIS semi-analytic chlorophyll product (Chlor_a_3) and the MODIS daytime sea surface temperature (D1) in Integerized Sinusoidal Equal Area Grid (ISEAG) projection, at 4.63 km resolution. Both models also use photosynthetically available radiation (PAR) is derived from surface incident short-wave surface flux estimates provided by NASA's Data Assimilation Office (DAO). The PAR, which is provided in one degree, unprojected global observations for every 3 hours, is averaged over the MODIS weekly period of eight days. For the P2 model only, daily synoptic mixed-layer depth (MLD) at one degree resolution is provided by the U.S. Navy's Fleet Numeric Meteorology and Oceanography Center, and also averaged to the MODIS weekly period. This was extracted from http://modis.gsfc.nasa.gov/data/atbd/atbd_mod19.pdf being the parts relevant to the 4km mapped modis monthly mean chlorophyll, K_90, suspended solids and sea surface temperature data. MODIS datasest are routinely recalibrated as data collection algorithms and seasonal biases are refined by NASA over time.
This dataset series comprises fish species composition data collected during the survey conducted jointly by the Queensland State and Commonwealth Governments during 1963-1965 to examine the prawn resources of the south-eastern corner of the Gulf of Carpentaria. Aubrey Harris retrieved the data from Rainer and Munro c.1984 - and it was used by Aubrey Harris and Ian Poiner for analysis for their paper (Harris, A. N. M. and Poiner, I. R. (1991)).
Fish Bycatch samples were collected for CSIRO from trawls between March and December 1983.These trawls were part of a 12 month survey of the tiger prawn fishery of southeastern Gulf of Carpentaria carried out by Queensland Department of Primary Industry. The vessels involved were the 'Gwendolyn May' and Shirley Ross' which fished each month for four nights on either side of the new moon, using 6-fathom nets (Florida Flyers, with a Texas drop chain rig) with a cod-end mesh of 45 mm. This data was then used to compare demersal fish community with that found from Munro's 1962-65 data (Poiner and Harris 1986).
This dataset series comprises fish species composition data collected during the trawl and bottom sediment survey carried out in April 1985 and April 1986. This data was collected and used to compare fish abundance for this region with the pre-trawling surveys done by Munro between 1963 and 1965. Sediment samples were collected during the 1986 survey.
The overall aims were to provide data on the distribution of deep seabed habitats and fauna that are amenable to scientific hypothesis testing, can be immediately applied to marine resource management processes, and that enable strategic development of tools and techniques for understanding the processes that maintain deep sea biodiversity. This work was to support the process of NWR Estate inventory and management performance assessment by providing interpreted benthic habitat maps, faunal inventories, distribution maps and conservation values. Data will be collected at scientific reference sites from potential MPA areas that can be re-visited for monitoring purposes in the future. Sampling along environmental gradients (geographic range and depth) in this section of Australia's coast will also provide the opportunity to evaluate biogeographic hypotheses. Further refinement of predictive methods for identifying seabed habitat types, initially developed in temperate and cool-temperate environments, will be enabled by data collection from this tropical location in Australia. We intended to highlight the importance of this underlying science as a modern "Voyage of Discovery" given the likely significance of the findings in terms of Australia's biodiversity and its biogeography and evolution. (From Voyage Plan). Sediment samples were divided into two samples: an elutrition sample for macroinvertebrates that was sent to Robin Wilson at MV for analysis and a sediment sample to be analysed by Geoscience Australia.
This record describes the collections of benthic biota (and their derived data) from one Marine National Facility charter voyage conducted under Project 4 - Benthic biota of volcanic seamounts, seeps and canyons of the GAB - of the Great Australian Bight Deepwater Marine Program (GABDMP): IN2015_C01. A key objective for which is to characterise the composition, abundance and distributions of benthic fauna (seabed animals) associated with volcanic seamounts, canyon and seep zone habitats in in ~1000-5000 m depth, within and adjacent to the Chevron lease areas in the GAB. Benthic biota samples were taken at 6 potential seep, 5 volcanic seamount, and 3 deep outcropping rock sites. Epibenthic biota were collected using the beam trawl, epibenthic sled and rock dredge; macro-infauna were extracted by elutriation of sediment collections taken using the ICP and the Smith-MacIntyre grab. The invertebrate specimens were identified to operational taxonomic units (OTU) and photographed on board and shipped to Museum Victoria, from where selected taxa were distributed to taxonomic experts for identification. Macro-infauna samples were sorted to OTU in the lab and specimens treated the same as epifauna for further identification. Specimens were distributed to various Museum collections (including SAMA, NMV, AMS) for registration and curation. All fishes were identified to OTU on board and shipped to the Australian national Fish Collection (ANFC) where they were registered and databased. A series of workshops were held bringing together fish expert taxonomists to identify the collection and distribute representative sub-collections to various museums. Taxa targeted for detailed taxonomic identification are: sponges, anemones, octocorals, polychaetes, molluscs, echinoderms, crustacea (select groups), pycnogonids and fishes.
This record describes the sediment data collected from the Marine National Facility RV Investigator Event Voyage IN2015_E02, departing Hobart on the 7th April and returning to Hobart on the 14th April, 2015. The primary voyage objective was to deploy a specific sub-set of sampling equipment related to benthic biology, to establish processes, procedures and work flows in places such as the rear deck and sample processing laboratories. The primary equipment trialled was the MNF Deep Tow Camera, MNF Beam trawl, MNF Benthic (Sherman) Sled, and MNF Smith-McIntyre Grab, and the CSIRO-supplied Integrated Corer Platform (ICP), DeepBRUVs lander, and fishing dropline. The Integrated Coring Platform ( ICP) combines a number of technologies to maximise sampling in a single deployment. The ICP is built around a 6 barrel corer (KC, Denmark) and together with its central electronics module integrates cameras (cable, seafloor and corer views), CTD (SBE37IDO), altimeter, 120KHz scientific echo-sounders, Niskin bottles and hydrocarbon sensor suite. Sensor data is delivered in real time to the surface via fibre optic deployment cable. Video data from the ICP cameras includes imagery of seafloor types and mid-water biota during the up/down casts, refer to related marlin record for video data access. This metadata record describes the sediment collection using the grab and ICP taken inside the Huon Commonwealth Marine Reserve at 5 depth strata (100m, 200m, 500m, 1000m and 2000m) and on Patience seamount. Sediment samples were collected for chemical (CSIRO Energy), grainsize and composition (SARDI) analyses; surface water was also collected for PAH (polycyclic aromatic hydrocarbons ) analysis by NMI (National Measurements Institute). Bulk samples of sediments were elutriated for macrofauna analysis (University of Adelaide).
The scientific objectives for the survey were split across two voyages (SS11/2006 for leg 1 and SS02/2007 for leg 2). They were to: (1) use advanced sampling tools and techniques that are, to the extent possible, non destructive (2) collect precisely georeferenced baseline data at scientific reference sites to enable indicators to be quantified (e.g. biodiversity metrics and levels of fishing effort at each site). These data will be documented and available for use for targeted monitoring during subsequent surveys (1) provide results that can assess the achievement of the TSMR management plan to date (revisit four seamounts photographed in 1997 - Main Pedra, Sister 1, K1 and D1; look for changes in fished and unfished sites) and refine baseline data (2) enable future assessment against performance objectives for the TSMR and selected proposed Commonwealth MPAs - Huon, Tasman Fracture and possibly South Tasman Rise and Freycinet depending on the time available at sea (3) test efficiency of the various biodiversity metrics to determine effectiveness, cost and potential for monitoring other deepwater reserves (4) provide samples for key taxa that can be used in subsequent genetic research to refine definition and extent of endemicity in deepwater fauna (5) complete swath mapping of relevant parts of continental slope between Hobart and SW Cape. This metadata record refers to the biological samples collected during this survey. This record describes the biological catch data collected during the survey. Invertebrate specimens were photographed and lodged with Australian Museums for identification, focused on sponges, corals, echinoderms, crustaceans, molluscs and ascidians. To date (Dec. 2016) we are aware of 15 taxonomic revisions or descriptions that have been published using material from this collection.
The overall aims were to provide data on the distribution of deep seabed habitats and fauna that are amenable to scientific hypothesis testing, can be immediately applied to marine resource management processes, and that enable strategic development of tools and techniques for understanding the processes that maintain deep sea biodiversity. This work was to support the process of NWR Estate inventory and management performance assessment by providing interpreted benthic habitat maps, faunal inventories, distribution maps and conservation values. Data will be collected at scientific reference sites from potential MPA areas that can be re-visited for monitoring purposes in the future. Sampling along environmental gradients (geographic range and depth) in this section of Australia's coast will also provide the opportunity to evaluate biogeographic hypotheses. Further refinement of predictive methods for identifying seabed habitat types, initially developed in temperate and cool-temperate environments, will be enabled by data collection from this tropical location in Australia. We intended to highlight the importance of this underlying science as a modern "Voyage of Discovery" given the likely significance of the findings in terms of Australia's biodiversity and its biogeography and evolution. (From Voyage Plan) This record describes the biological samples taken during the survey. Fishes were lodges in the CSIRO Fish collection, invertebrate specimens were photographed and distributed to Australian museums for identification by taxonomists, focusing on sponges, corals, echinoderms, ascidians, molluscs and crustaceans. To date (as per Dec 2016) we are aware of 27 manuscripts of taxonomic revisions and/or descriptions that have used material collected from this survey.
Benthic biota samples were taken in the Great Australian Bight (GAB) and near St Helen's Hill seamount during the pilot survey for estimating the effectiveness of spatial closures for deepwater gulper sharks and associated fishery species. There are large gaps in ecological knowledge of gulper sharks which limit the effective design of area closures (e.g. optimising sizes and numbers) and assessment of their performance. The survey aimed to fill these gaps do this by characterising the habitats and ecosystem processes in 200-700 m depths that sustain key species, and commencing a process to determine the relevant aspects of species ecology. Primarily this will be (1) to measure the movement of fish within and to/ from a large closed area in the GAB with a tagging program, and (2) estimate the abundance of selected species in relation to habitat features (substructure within submarine canyons, escarpments and rocky banks, and adjacent water column features) with two independent, non-extractive photographic methods. This metadata record describes the benthic biota samples taken at during this survey. Epibenthic biota were collected using epibenthic sled (5 ops) and macro-infauna were extracted by elutriation of sediment collections taken using the Smith-MacIntyre grab (13 ops). The invertebrate specimens were distributed to Museum collections for registration and curation. Data on specimen identifications by taxonomic experts are tracked, collated and archived at the CSIRO.