25bf34e6-48ef-41aa-9b62-876ca0c66a2a https://ipt.biodiversity.aq/resource?r=antarxxvii-leg1 Invertebrates from the ANTARXXVII Leg1 expedition to the Bransfield Strait, Antarctica - data Louraine Salabao University of Liege, University of Hasselt
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lsalabao@naturalsciences.be 0000-0002-3154-8832
Jolien Claes Vrije Universiteit Brussel
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jolien.claes95@gmail.com 0000-0002-3154-8832
Yi-Ming Gan Royal Belgian Institute of Natural Sciences
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ymgan@naturalsciences.be 0000-0001-7087-2646
Anton Van de Putte Royal Belgian Institute of Natural Sciences
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avandeputte@naturalsciences.be 0000-0003-1336-5554
Isa Schön Royal Belgian Institute of Natural Sciences
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ischoen@naturalsciences.be 0000-0001-9269-6487
Louraine Salabao University of Liege, University of Hasselt
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lsalabao@naturalsciences.be 0000-0002-3154-8832
Yi-Ming Gan Royal Belgian Institute of Natural Sciences Data Manager ymgan@naturalsciences.be 0000-0001-7087-2646 2021-08-23 eng The dataset contains information of the samples taken during the first leg of the ANTARXXVII campaign in the Southern Ocean aboard BAP Carrasco from December 24, 2019 to January 25, 2020. Samples were collected using an amphipod trap, Isaacs-Kidd midwater trawl (IKMT) and van veen grab sampler deployed in the stations within Admiralty bay, along Bransfield Strait and within Maxwell Bay. All the samples that were caught were identified and grouped to the lowest taxonomic level possible using the keys of Marine Wildlife King George Island Antarctica by Schories & Kohlberg (2016) and Rauschert & Arntz (2015). Other taxonomic keys and photographs provided by Cédric d'Udekem d'Acoz were also used for confirmation. The dataset gives an overview on the distribution and abundance of these species in the Admiralty bay, Bransfield Strait and Maxwell Bay during the summer season. This dataset is published by SCAR-AntOBIS under the license CC-BY 4.0. Please follow the guidelines from the SCAR and IPY Data Policies (https://www.scar.org/excom-meetings/xxxi-scar-delegates-2010-buenos-aires-argentina/4563-scar-xxxi-ip04b-scar-data-policy/file/) when using the data. If you have any questions regarding this dataset, don't hesitate to contact us via the contact information provided in the metadata or via data-biodiversity-aq@naturalsciences.be. Issues with dataset can be reported at https://github.com/biodiversity-aq/data-publication/ This dataset is part of the Refugia and Ecosystem Tolerance in the Southern Ocean (RECTO) project funded by Belgium Science Policy (BELSPO). Occurrence GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type.xml MYSIDS RIBBON WORMS SEA STARS EARTHWORMS BRITTLE/BASKET STARS AMPHIPODS OSTRACODS GCMD Science Keywords 9.1.5: https://gcmdservices.gsfc.nasa.gov/kms/concepts/concept_scheme/sciencekeywords Specimen GBIF Dataset Subtype Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_subtype.xml Occurrence GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type_2015-07-10.xml marine, harvested by iOBIS This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License. Bransfield Strait, Southern Ocean -60.429 -54.263 -60.913 -63.524 2019-12-29 2020-01-19 kingdom Animalia phylum Arthropoda phylum Nemertea phylum Echinodermata phylum Annelida class Malacostraca class Asteroidea class Ophiuroidea class Bivalvia phylum Mollusca phylum Nematoda class Gastropoda class Ostracoda class Pilidiophora class Polychaeta class Pycnogonida unkown Louraine Salabao University of Liege
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lsalabao@naturalsciences.be 0000-0002-3154-8832
Yi-Ming Gan Royal Belgian Institute of Natural Sciences ymgan@naturalsciences.be 0000-0001-7087-2646 - Sampling was carried out at different sites with different sampling devices (baited amphipod trap, Isaacs-Kidd midwater trawl or Van Veen grab sampler). Details of sampling methods are mentioned in the sampling description section. - Samples collected were sorted, photographed and preserved. Preservation method is indicated in the field "preparations" in data. - The quality control of the occurrence records are mentioned in the quality control section. The sampling was carried out in Admiralty Bay, Maxwell Bay and Bransfield Strait. The amphipod trap was deployed in two different stations close to Machu Picchu base in the Admiralty Bay. About 400 grams of Chilean pickerel fish was used as bait inside the trap. Organisms caught inside the trap were placed in a bucket with cold sea water and sorted. Samples were photographed and immediately preserved and stored in a -20 °C freezer in the laboratory. About 20 amphipod individuals or pleopods were preserved in All protect Tissue reagent as well as DNA/RNA shield for later molecular analyses. A part of the amphipod individuals was also frozen for later flow cytometry and the remaining amphipods were preserved in pure ethanol (99% p.a.) and placed at -20°C for storage. Sorting and processing were done as quickly as possible to prevent degradation of nucleic acids and proteins. Samples were also labelled inside the bottle using ethanol resistant paper and outside the bottle using an ethanol proof marker. Ethanol was replaced after three days. Isaacs-Kidd midwater trawl (IKMT) has a net with a mesh size of 500 µm and was used for pelagic sampling by attaching it on the A-frame crane located at the back of the vessel. The IKMT was deployed at 175 meters and was then towed for 5 minutes. Samples were collected by detaching the cod-end from the net. Amphipods were sorted from the rest of the samples and photos were taken immediately. Organisms were also immediately placed in absolute ethanol (99% purity) afterwards. Van Veen grab sampler allows the sampling of sediments and bottom fauna. Van Veen sampler was deployed at 6 stations in Admiralty Bay and 13 stations along the Bransfield Strait and 1 station within Maxwell Bay. Sampling using the Van Veen grab took approximately 15 minutes from the time it was deployed to the time it came back onboard. In cases where the Van Veen did not close, it was re-deployed up to three trials and only until then was sampling terminated. Large specimens that were visible with the naked eye were immediately collected on board before sieving and were placed in their respective collection bottles with sea water and ice packs on the side to maintain temperature. Any sediment samples collected were sieved onboard using a hand-held kitchen sieve with 1 mm mesh size to collect organisms in the sediment. Further processing and sorting were done in the geological laboratory. To avoid DNA degradation and to keep the organisms alive, sorting was done using a tray with cold sea water with ice packs. Photos were also taken immediately, and organisms directly placed in absolute ethanol (99% purity) afterwards. Processing to storage was done as quickly and as efficiently as possible. All samples that were caught were identified and grouped to the lowest taxonomic level possible using the keys of Marine Wildlife King George Island Antarctica by Schories & Kohlberg (2016) and Rauschert & Arntz (2015). Other taxonomic keys and photographs provided by Cédric d'Udekem d'Acoz were also used for confirmation. - All records were validated. - Coordinates were converted into decimal degrees and plotted on map to verify the geographical location and locality. - All scientific names were checked for typo and matched to the species information backbone of Worlds Register of Marine Species (http://marinespecies.org/) and LSID were assigned to each taxa as scientificNameID. - Event date and time were converted into ISO 8601 and verified with the field reports. Refugia and Ecosystem Tolerance in the Southern Ocean (RECTO) Louraine Salabao 0000-0002-3154-8832 author Jolien Claes 0000-0003-1474-1654 author Anton Van de Putte 0000-0003-1336-5554 principalInvestigator Isa Schön 0000-0001-9269-6487 principalInvestigator RECTO applies a multidisciplinary approach in studying evolution and diversity of Southern Ocean faunas. RECTO has 6 main objectives: 1) Reconstruct population histories and phylogenies of selected faunas; 2) Link population histories and refugia to past climate changes; 3) Estimate variation of morphological traits and width of ecological niches; 4) Use physiological and energy limits and traits to model current and future species distributions; 5) Integrate distribution models into hydrodynamic and particle models; and, 6) Develop different scenarios on how target taxa will respond to future climate change. RECTO will focus on six different animal groups, comprising different trophic levels from the micro- over macro-benthos and pelagic crustaceans to fish and seabirds. The selected species differ in their biology, life history traits and dispersal capacities, which are all factors affecting their abilities to cope with environmental changes. This project is funded by the Belgian Science Policy (BELSPO). Grant Numbers: BR/154/A1/RECTO
2020-12-01T07:10:24.441+00:00 dataset Salabao L, Claes J, Gan Y, Van de Putte A, Schön I (2021): Invertebrates from the ANTARXXVII Leg1 expedition to the Bransfield Strait, Antarctica - data. v1.5. SCAR - AntOBIS. Dataset/Occurrence. https://ipt.biodiversity.aq/resource?r=antarxxvii-leg1&v=1.5 Schories, D., & Kohlberg, G. (Eds.). (2016). Marine Wildlife, King George Island, Antarctica. Dirk Schories Publications. Rauschert, M., & Arntz, W. (2015). Antarctic Macrobenthos: a field guide of the invertebrates living at the antarctic seafloor. Arntz & Rauschert Selbstverlag. Salabao, L., Claes, J., Gan, Y., Van de Putte, A., and Schön, I. 2021. Invertebrates from the ANTARXXVII Leg1 Expedition to the Bransfield Strait, Antarctica - Images (version 2.0). Zenodo. doi:10.5281/zenodo.4942307. 25bf34e6-48ef-41aa-9b62-876ca0c66a2a/v1.5.xml