Checklist of organisms (“swimmers”) collected by Sediment Trap on Mooring B (Ross Sea shelf, Joides Basin, Antarctica) in years 1995-1996, 2004-2005 and 2014-2016

データ レコード

この オカレンス（観察データと標本) リソース内のデータは、1 つまたは複数のデータ テーブルとして生物多様性データを共有するための標準化された形式であるダーウィン コア アーカイブ (DwC-A) として公開されています。 コア データ テーブルには、905 レコードが含まれています。

この IPT はデータをアーカイブし、データ リポジトリとして機能します。データとリソースのメタデータは、 ダウンロード セクションからダウンロードできます。 バージョン テーブルから公開可能な他のバージョンを閲覧でき、リソースに加えられた変更を知ることができます。

バージョン

次の表は、公にアクセス可能な公開バージョンのリソースのみ表示しています。

引用方法

研究者はこの研究内容を以下のように引用する必要があります。:

Grillo M, Linciano M, Balan M, Guzzi A, Noli N, Cometti V, Langone L, Giordano P, Schiaparelli S, Gan Y (2026). Checklist of organisms (“swimmers”) collected by Sediment Trap on Mooring B (Ross Sea shelf, Joides Basin, Antarctica) in years 1995-1996, 2004-2005 and 2014-2016. Version 1.3. Italian National Antarctic Museum (MNA, Section of Genoa). Occurrence dataset. https://ipt.biodiversity.aq/resource?r=mnait_sediment_trap_mooring_b&v=1.3

権利

研究者は権利に関する下記ステートメントを尊重する必要があります。:

パブリッシャーとライセンス保持者権利者は Italian National Antarctic Museum (MNA, Section of Genoa)。 This work is licensed under a Creative Commons Attribution (CC-BY 4.0) License.

GBIF登録

このリソースをはGBIF と登録されており GBIF UUID: bf7857e0-0f34-47b0-828f-2011adddcbd6が割り当てられています。   Scientific Committee on Antarctic Research によって承認されたデータ パブリッシャーとして GBIF に登録されているItalian National Antarctic Museum (MNA, Section of Genoa) が、このリソースをパブリッシュしました。

キーワード

Occurrence; Specimen; ANTARCTIC ZOOPLANKTON; TIME-SERIES ANALYSIS; ANTARCTIC BIODIVERSITY; PELAGIC COMMUNITY

連絡先

地理的範囲

The sediment traps, connected to the Mooring B (Joides Basin, Ross Sea), is located at a depth ranges of 470 - 530 m.

生物分類学的範囲

説明がありません

時間的範囲

プロジェクトデータ

The Italian project “Biogenic Sedimentation” aims at investigating the biogeochemical processes that regulate the production, transfer, and sedimentation of organic matter in the Southern Ocean, with particular focus on the Ross Sea. “Biogenic Sedimentation” is devoted to understanding how surface biological productivity translates into particle fluxes toward the seafloor, and to what extent this process contributes to the natural sequestration of atmospheric carbon, the so-called “biological carbon pump.” The research approach combines the use of sediment traps, detailed analyses of biogenic material, and assessments of seasonal and interannual variability of export fluxes, integrating oceanographic observations with remote sensing data. This strategy enables the quantification of carbon and nutrient export rates and supports the evaluation of the role of the Southern Ocean in the global CO₂ budget.

プロジェクトに携わる要員:

収集方法

Samples were collected in the Joides Basin (Ross Sea, Antarctica) at Mooring B, which was equipped with an automated sediment trap deployed at different depths depending on the sampling year. The seafloor at the site lies at about 560 m depth. The trap was designed to collect sinking particulate matter during the entire deployment period. This enabled the recovery of biological material descending through the water column. Sampling activities were carried out during six Italian Antarctic Expeditions, corresponding to the periods 1994–1995, 2004–2005, and 2014–2016. Each series covered two consecutive expeditions: one for deployment and the following one for recovery. During 1994–1995 the trap was positioned at 530 m depth; during 2004–2005, at 515 m; and during 2014–2016, at 470 m. All deployments took place within the Ross Sea Marine Protected Area, specifically, within the General Protection Zone (RS-GPZi sector). In the 1995–1996 series, a McLane Parflux Mark 7G-21 cups trap was used. This model featured 21 collection cups and a 0.5 m² collection area. In the subsequent deployments (2004–2005 and 2014–2016), a McLane 78HW-13 sediment trap was used, also with a 0.5 m² collection area but fitted with 13 cups. All collection cups were pre-filled with a buffered 5% formaldehyde solution to ensure optimal preservation of the organic matter. The rotation interval of the cups ranged from 7 days to 3 months. Further technical details are available in Langone et al. (2000; 2003).

Method step description:

1. Swimmers were manually separated from passive sinking particles under a ZEISS Discovery V8 stereomicroscope at CNR-ISP (Bologna, Italy) following Chiarini et al. ( 2013). Samples were initially stored at +4 °C in 5% formaldehyde, then transferred to 96% ethanol and sent to MNA (Genoa, Italy), where unsorted swimmers were kept at -20 °C until analysis. Specimens were subsequently split, sorted, identified, and counted, then preserved in 96% ethanol or mounted on slides and permanently deposited in the MNA biological collection.
2. The collected swimmers were counted and the taxonomic investigation was performed to the lowest possible level and based upon historic and recent bibliography (Boxshall e Halsey 2004; Bonello et al. 2020). The online portal World Registry of Marine Species (WoRMS), Banyuls sur Mer marine Copepoda database (Razouls et al. 2022); https://copepodes.obs-banyuls.fr) was used to confirm acceptance of species names. When identification was inconclusive, only genus or family names were assigned.
3. The original unsorted swimmer matrix is stored in 96% ethanol, and also at -20°C. The swimmer specimens, splitted, sorted and identified, are in 96% ethanol or fixed on a slide and permanently deposited in the biological collection of the MNA.

書誌情報の引用

1. Bonello, Guido, Marco Grillo, Matteo Cecchetto, et al. 2020. «Distributional records of Ross Sea (Antarctica) planktic Copepoda from bibliographic data and samples curated at the Italian National Antarctic Museum (MNA): checklist of species collected in the Ross Sea sector from 1987 to 1995». ZooKeys 969: 1–22. https://doi.org/10.3897/zookeys.969.52334
2. Boxshall, Geoffrey Allan, e Sheila H. Halsey. 2004. An introduction to copepod diversity. I. Ray Society.
3. Chiarini, Francesca, Lucilla Capotondi, Robert B. Dunbar, et al. 2013. «A revised sediment trap splitting procedure for samples collected in the Antarctic sea». Methods in Oceanography 8: 13–22.
4. Ivanenko, Viatcheslav N., Paulo HC Corgosinho, Frank Ferrari, Pierre-Marie Sarradin, e Jozee Sarrazin. 2012. «Microhabitat distribution of Smacigastes micheli (Copepoda: Harpacticoida: Tegastidae) from deep-sea hydrothermal vents at the Mid-Atlantic Ridge, 37° N (Lucky Strike), with a morphological description of its nauplius». Marine Ecology 33 (2): 246–56.
5. Langone, L., R. B. Dunbar, D. A. Mucciarone, M. Ravaioli, R. Meloni, e C. A. Nittrouer. 2003. «Rapid sinking of biogenic material during the late austral summer in the Ross Sea, Antarctica». Biogeochemistry of the Ross sea 78: 221–33. https://doi.org/10.1029/078ARS14.
6. Langone, Leonardo, Mauro Frignani, Mariangela Ravaioli, e Cristina Bianchi. 2000. Particle Fluxes and Biogeochemical Processes in an Area Influenced by Seasonal Retreat of the Ice Margin Žnorthwestern Ross Sea, Antarctica/.
7. Michels, Jan, e M. Büntzow. 2010. «Assessment of Congo red as a fluorescence marker for the exoskeleton of small crustaceans and the cuticle of polychaetes». Journal of Microscopy 238 (2): 95–101.
8. Razouls, S., N Desreumaux, J Kouwenberg, e F de Bovée. 2022. Diversity and geographic distribution of marine planktonic copepods. https://doi.org/10.13140/RG.2.1.2077.4241.

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