Authors / CoAuthors
Mcneil, M. | Carroll, A. | Post, A. | Huang, Z. | Cropper, J. | Nichol, S.
Abstract
This flythrough video highlights deep and mesophotic seabed environments within the Coral Sea Marine Park, offshore northeastern Australia. The mesophotic zone, commonly referred to as the ‘twilight zone’ represents the depth range below the brightly lit shallow waters down to the maximum depth that sunlight can penetrate for photosynthesis to occur (~ 30 to 150 meters beneath the sea surface). The featured Malay and North Flinders Reefs represent mid-ocean platform reefs and Cairns Seamount hosts a thriving coral reef community atop what is likely an extinct volcanic cone. These locations represent a range of benthic communities, which vary with depth and substrate type. Soft-sediments (sands, muds and oozes) dominate the deep seafloor, with evidence of water currents that produce bedforms showing active sediment transport at these depths. The walls and flanks of the platform reefs are very steep, with evidence of slope failure where rocky head walls have collapsed and deposited large blocks and boulders on the seafloor, which provide important habitat for sessile and mobile invertebrates including soft corals and sponges as well as cryptic octopus. Typical mesophotic habitats included vast Halimeda algal meadows and rhodolith beds interspersed with soft corals and sponges on soft-sediment. Hard substrates were typically colonised by plate and encrusting hard Scleractinian corals (e.g. Leptoseris and Montipora species), sponges and ascidians. Many large black corals (Antipatharia) and gorgonians (Octocorallia) also featured, with several black coral and carnivorous sponge observations representing new species. The reef community atop Cairns Seamount was highly diverse and included many demersal and pelagic fish species. A high abundance and diversity of gelatinous zooplankton were observed in the deep waters between reefs in the Coral Sea, with several new range extensions recorded. Bathymetry data and seafloor imagery for this flythrough were collected on RV Falkor, owned and operated by the Schmidt Ocean Institute (SOI), during surveys FK200830 and FK200902 in August and October 2020. These surveys were led by Geoscience Australia and James Cook University. Collaborative research partners included the Japan Agency for Marine-Earth Science and Technology, The University of Tokyo, Queensland University of Technology, Queensland Museum, The University of Sydney, University of Tasmania and the University of Wollongong.
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document
eCat Id
147898
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Cnr Jerrabomberra Ave and Hindmarsh Dr GPO Box 378
Canberra
ACT
2601
Australia
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- theme.ANZRC Fields of Research.rdf
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- EARTH SCIENCESGeomorphology and Regolith and Landscape Evolution
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- marine
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- bathymetry
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- mesophotic
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- biota
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- Coral Sea
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- Published_External
Publication Date
2023-07-19T06:47:53
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accepted
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Science communication and outreach
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asNeeded
Topic Category
oceans geoscientificInformation biota
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Bathymetry data and seafloor imagery for this flythrough was collected by the Schmidt Ocean Institute (SOI) during survey FK200830 and FK200902 in August and October 2020, using ship-mounted multibeam echosounders and a remotely operated vehicle equipped with 4K video cameras. Bathymetry for North Flinders and Malay Reefs incorporated airborne LiDAR bathymetry supplied under a data use agreement with the Australian Hydrographic Office.
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[-44.00, -9.00, 112.00, 154.00]
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