Antarctic and Sub-Antarctic Asteroidea database 2017

サンプリング イベント
最新バージョン Antarctic Biodiversity Information Facility (ANTABIF) により出版 3月 19, 2019 Antarctic Biodiversity Information Facility (ANTABIF)
公開日:
2019年3月19日
ライセンス:
CC0 1.0

DwC-A形式のリソース データまたは EML / RTF 形式のリソース メタデータの最新バージョンをダウンロード:

DwC ファイルとしてのデータ ダウンロード 4,580 レコード English で (388 KB) - 更新頻度: unknown
EML ファイルとしてのメタデータ ダウンロード English で (117 KB)
RTF ファイルとしてのメタデータ ダウンロード English で (34 KB)

説明

The present dataset is a compilation of georeferenced occurrences in the Southern Ocean for the asteroids (Echinodermata: Asteroidea). Occurrence data south of 45°S latitude have been mined from various sources together with information regarding the taxonomy, the sampling source and sampling sites when available. Records from 1872 to 2016 have been thoroughly checked to ensure the quality of a dataset which reaches a total of 13,840 occurrences from 4580 unique sampling events. Information regarding the reproductive strategy (brooders vs. broadcasters) of 63 species is also made available. This dataset represents the most exhaustive occurrence database on Antarctic and Sub-Antarctic asteroids.

データ レコード

この sampling event 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、4,580 レコードが含まれています。

拡張データ テーブルは1 件存在しています。拡張レコードは、コアのレコードについての追加情報を提供するものです。 各拡張データ テーブル内のレコード数を以下に示します。

Event (コア)
4580
Occurrence 
13840

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。

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 Antarctic Biodiversity Information Facility (ANTABIF)。 To the extent possible under law, the publisher has waived all rights to these data and has dedicated them to the Public Domain (CC0 1.0). Users may copy, modify, distribute and use the work, including for commercial purposes, without restriction.

GBIF登録

このリソースは GBIF に登録されていません。

キーワード

Asteroidea; Presence-only data; Southern Ocean; Antarctic; Sub-Antarctic; Samplingevent; Samplingevent

連絡先

Camille Moreau
  • 論文著者
Université Libre de Bruxelles (ULB)
  • Avenue FD Roosevelt, 50
1000 Bruxelles
BE
Christopher Mah
  • 最初のデータ採集者
Antonio Agüera
Nadia Améziane
  • 最初のデータ採集者
David Barnes
  • 最初のデータ採集者
Guillaume Crokaert
Marc Eléaume
Huw Griffiths
  • 最初のデータ採集者
Charlène Guillaumot
Lenaïg G. Hemery
  • 最初のデータ採集者
Anna Jażdżewska
  • 最初のデータ採集者
Quentin Jossart
  • 最初のデータ採集者
Vladimir Laptikhovsky
  • 最初のデータ採集者
Katrin Linse
  • 最初のデータ採集者
Kate Neill
  • 最初のデータ採集者
Chester Sands
  • 最初のデータ採集者
Thomas Saucède
  • 最初のデータ採集者
Stefano Schiaparelli
  • 最初のデータ採集者
Jacek Siciński
  • 最初のデータ採集者
Noémie Vasset
  • 最初のデータ採集者
Bruno Danis
  • 最初のデータ採集者
Camille Moreau
  • 論文著者
  • PhD Student
Université Libre de Bruxelles (ULB)
  • Avenue FD Roosevelt, 50
1000 Bruxelles
BE
Camille Moreau
  • 論文著者
  • PhD student
Université Libre de Bruxelles (ULB)
  • Avenue FD Roosevelt, 50
1000 Bruxelles
BE
Charlène Guillaumot
  • PhD student
Université Libre de Bruxelles (ULB)
  • Avenue FD Roosevelt, 50
1000 Bruxelles
BE
Antonio Agüera
  • Post-Doc
Université Libre de Bruxelles (ULB)
Bruxelles
BE
Guillaume Crokaert
  • Master Student
Université Libre de Bruxelles (ULB)
Bruxelles
BE
Marc Eléaume
  • Researcher
Muséum National d'Histoire Naturelle
Paris
FR
Ania Jażdżewska
University of Lodz
Lenaïg Hemery

地理的範囲

This study focuses on the Antarctic and Sub-Antarctic regions located at latitudes south of 45°S. The Southern Ocean is a vast region characterised by the paucity of its scientific data and available collections are the compilation of several historical campaigns.

座標(緯度経度) 南 西 [-90, -180], 北 東 [-45, 180]

生物分類学的範囲

All the specimens included in this dataset belong to the class Asteroidea (Echinodermata) and were identified at the species level.

Order Paxillosida, Valvatida, Forcipulatida, Velatida, Brisingida, Notomyotida, Spinulosida
Family Porcellanasteridae, Acanthasteridae, Odontasteridae, Asteriidae, Stichasteridae, Asterinidae, Pedicellasteridae, Goniasteridae, Myxasteridae, Astropectinidae, Freyellidae, Benthopectinidae, Brisingidae, Pterasteridae, Poraniidae, Solasteridae, Ctenodiscidae, Ganeriidae, Echinasteridae, Heliasteridae, Luidiidae, Leilasteridae, Zoroasteridae, Ophidiasteridae, Paulasteriidae, Korethrasteridae, Pseudarchasteridae, Radiasteridae
Genus Abyssaster, Acanthaster, Acodontaster, Adelasterias, Allostichaster, Anasterias, Anseropoda, Anteliaster, Anthenoides, Asterina, Asthenactis, Astromesites, Astropecten, Astrostole, Bathybiaster, Belgicella, Benthopecten, Brisinga, Brisingenes, Caimanaster, Calyptraster, Ceramaster, Cheiraster, Chitonaster, Chondraster, Cladaster, Clavaporania, Coscinasterias, Cosmasterias, Crossaster, Cryptasterias, Ctenodiscus, Cuenotaster, Cycethra, Diplasterias, Diplodontias, Diplopteraster, Dipsacaster, Dytaster, Echinaster, Eratosaster, Eremicaster, Freyastera, Freyella, Freyellaster, Fromia, Ganeria, Gaussaster, Gilbertaster, Glabraster, Granaster, Henricia, Hippasteria, Hymenaster, Hymenodiscus, Hyphalaster, Kampylaster, Kenrickaster, Labidiaster, Leptychaster, Lethasterias, Lithosoma, Lonchotaster, Lophaster, Luidia, Lysasterias, Macroptychaster, Mediaster, Meridiastra, Mimastrella, Mirastrella, Myxoderma, Neosmilaster, Notasterias, Notioceramus, Novodinia, Odinella, Odontaster, Odontohenricia, Ophidiaster, Paralophaster, Paranepanthia, Patiriella, Paulasterias, Pectinaster, Pedicellaster, Pentagonaster, Pergamaster, Peribolaster, Perissasterias, Perknaster, Persephonaster, Pillsburiaster, Plutonaster, Poraniopsis, Porcellanaster, Proserpinaster, Psalidaster, Pseudarchaster, Pseudechinaster, Psilaster, Pteraster, Radiaster, Remaster, Rhopiella, Saliasterias, Sclerasterias, Scotiaster, Smilasterias, Solaster, Sphaeriodiscus, Stichaster, Styracaster, Taranuiaster, Tarsaster, Tremaster, Vemaster, Zoroaster
Species Abyssaster diadematus, Abyssaster planus, Acanthaster planci, Acodontaster capitatus, Acodontaster conspicuus, Acodontaster elongatus, Acodontaster hodgsoni, Acodontaster marginatus, Adelasterias papillosa, Allostichaster capensis, Allostichaster farquhari, Allostichaster insignis, Allostichaster polyplax, Anasterias antarctica, Anasterias asterinoides, Anasterias directa, Anasterias laevigata, Anasterias mawsoni, Anasterias pedicellaris, Anasterias perrieri, Anasterias rupicola, Anasterias sphoerulata, Anasterias spirabilis, Anasterias studeri, Anasterias suteri, Anseropoda antarctica, Anteliaster australis, Anteliaster scaber, Anthenoides cristatus, Asterina fimbriata, Asthenactis australis, Astromesites primigenius, Astropecten brasiliensis, Astrostole scabra, Bathybiaster loripes, Belgicella racowitzana, Benthopecten munidae, Benthopecten pedicifer, Benthopecten pikei, Brisinga chathamica, Brisingenes multicostata, Caimanaster acutus, Calyptraster tenuissimus, Calyptraster vitreus, Ceramaster australis, Ceramaster grenadensis, Ceramaster patagonicus, Cheiraster (Cheiraster) otagoensis, Cheiraster (Luidiaster) antarcticus, Cheiraster (Luidiaster) gerlachei, Cheiraster (Luidiaster) hirsutus, Cheiraster (Luidiaster) planeta, Chitonaster cataphractus, Chitonaster felli, Chitonaster johannae, Chitonaster trangae, Chondraster elattosis, Cladaster analogus, Clavaporania fitchorum, Coscinasterias calamaria, Coscinasterias muricata, Cosmasterias dyscrita, Cosmasterias lurida, Crossaster campbellicus, Crossaster multispinus, Crossaster penicillatus, Cryptasterias brachiata, Cryptasterias turqueti, Ctenodiscus australis, Ctenodiscus procurator, Cuenotaster involutus, Cycethra frigida, Cycethra macquariensis, Cycethra verrucosa, Diplasterias brandti, Diplasterias brucei, Diplasterias kerguelenensis, Diplasterias meridionalis, Diplasterias octoradiata, Diplasterias radiata, Diplodontias dilatatus, Diplodontias robustus, Diplodontias singularis, Diplopteraster clarki, Diplopteraster hurleyi, Diplopteraster otagoensis, Diplopteraster peregrinator, Diplopteraster semireticulatus, Diplopteraster verrucosus, Dipsacaster magnificus, Dytaster felix, Echinaster farquhari, Echinaster smithi, Eratosaster jenae, Eremicaster crassus, Eremicaster pacificus, Eremicaster vicinus, Freyastera benthophila, Freyastera tuberculata, Freyella attenuata, Freyella drygalskii, Freyella echinata, Freyella formosa, Freyella fragilissima, Freyella giardi, Freyella heroina, Freyella mutabilia, Freyellaster polycnema, Fromia monilis, Ganeria attenuata, Ganeria falklandica, Ganeria hahni, Gaussaster antarcticus, Gilbertaster anacanthus, Glabraster antarctica, Granaster nutrix, Henricia aucklandiae, Henricia compacta, Henricia diffidens, Henricia fisheri, Henricia lukinsii, Henricia obesa, Henricia ornata, Henricia pagenstecheri, Henricia parva, Henricia praestans, Henricia ralphae, Henricia simplex, Henricia smilax, Henricia spinulfera, Henricia studeri, Hippasteria falklandica, Hippasteria phrygiana, Hymenaster caelatus, Hymenaster campanulatus, Hymenaster carnosus, Hymenaster coccinatus, Hymenaster crucifer, Hymenaster densus, Hymenaster edax, Hymenaster estcourti, Hymenaster formosus, Hymenaster fucatus, Hymenaster graniferus, Hymenaster latebrosus, Hymenaster nobilis, Hymenaster pellucidus, Hymenaster perspicuus, Hymenaster praecoquis, Hymenaster pullatus, Hymenaster sacculatus, Hymenodiscus aotearoa, Hymenodiscus distincta, Hymenodiscus submembranacea, Hyphalaster giganteus, Hyphalaster inermis, Hyphalaster scotiae, Kampylaster incurvatus, Kenrickaster pedicellaris, Labidiaster annulatus, Labidiaster radiosus, Leptychaster flexuosus, Leptychaster kerguelenensis, Leptychaster magnificus, Leptychaster melchiorensis, Lethasterias australis, Lithosoma novaezelandiae, Lonchotaster tartareus, Lophaster densus, Lophaster gaini, Lophaster stellans, Lophaster tenuis, Luidia clathrata, Luidia porteri, Lysasterias adeliae, Lysasterias belgicae, Lysasterias chirophora, Lysasterias digitata, Lysasterias hemiora, Lysasterias heteractis, Lysasterias joffrei, Lysasterias lactea, Lysasterias perrieri, Macroptychaster accrescens, Mediaster arcuatus, Mediaster dawsoni, Mediaster pedicellaris, Mediaster sladeni, Meridiastra medius, Meridiastra oriens, Mimastrella cognata, Mirastrella biradialis, Myxoderma qawashqari, Neosmilaster georgianus, Neosmilaster steineni, Notasterias armata, Notasterias bongraini, Notasterias candicans, Notasterias haswelli, Notasterias pedicellaris, Notasterias stolophora, Notioceramus anomalus, Novodinia novaezelandiae, Odinella nutrix, Odontaster aucklandensis, Odontaster benhami, Odontaster meridionalis, Odontaster pearsei, Odontaster penicillatus, Odontaster pusillus, Odontaster roseus, Odontaster validus, Odontohenricia anarea, Odontohenricia endeavouri, Ophidiaster confertus, Paralophaster antarcticus, Paralophaster godfroyi, Paralophaster hyalinus, Paralophaster lorioli, Paranepanthia aucklandensis, Patiriella regularis, Paulasterias tyleri, Pectinaster filholi, Pectinaster mimicus, Pedicellaster hypernotius, Pentagonaster pulchellus, Pergamaster incertus, Pergamaster triseriatus, Peribolaster folliculatus, Peribolaster lictor, Peribolaster macleani, Perissasterias monacantha, Perknaster antarcticus, Perknaster aurantiacus, Perknaster aurorae, Perknaster charcoti, Perknaster densus, Perknaster fuscus, Perknaster sladeni, Persephonaster facetus, Pillsburiaster aoteanus, Pillsburiaster indutilis, Plutonaster complexus, Plutonaster fragilis, Plutonaster hikurangi, Plutonaster jonathani, Plutonaster knoxi, Plutonaster sirius, Poraniopsis echinaster, Porcellanaster ceruleus, Proserpinaster neozelanicus, Psalidaster fisheri, Psalidaster mordax, Pseudarchaster discus, Pseudarchaster garricki, Pseudechinaster rubens, Psilaster acuminatus, Psilaster charcoti, Pteraster affinis, Pteraster bathami, Pteraster florifer, Pteraster gibber, Pteraster hirsutus, Pteraster koehleri, Pteraster robertsoni, Pteraster rugatus, Pteraster spinosissimus, Pteraster stellifer, Radiaster gracilis, Remaster gourdoni, Rhopiella hirsuta, Saliasterias brachiata, Sclerasterias eustyla, Sclerasterias mollis, Scotiaster inornatus, Smilasterias clarkailsa, Smilasterias irregularis, Smilasterias scalprifera, Smilasterias triremis, Solaster longoi, Solaster notophrynus, Solaster regularis, Solaster torulatus, Sphaeriodiscus mirabilis, Stichaster australis, Styracaster armatus, Styracaster chuni, Styracaster horridus, Styracaster robustus, Taranuiaster novaezealandiae, Tarsaster stoichodes, Tremaster mirabilis, Vemaster sudatlanticus, Zoroaster actinocles, Zoroaster alternicanthus, Zoroaster fulgens, Zoroaster macracantha, Zoroaster spinulosus, Zoroaster tenuis

時間的範囲

開始日 / 終了日 1872-01-01 / 2016-01-01

プロジェクトデータ

The present dataset is a compilation of georeferenced occurrences in the Southern Ocean for the asteroids (Echinodermata: Asteroidea). Occurrence data south of 45°S latitude have been mined from various sources together with information regarding the taxonomy, the sampling source and sampling sites when available. Records from 1872 to 2016 have been thoroughly checked to ensure the quality of a dataset which reaches a total of 13,840 occurrences from 4,580 unique sampling events. Information regarding the reproductive strategy (brooders vs. broadcasters) of 63 species is also made available. This dataset represents the most exhaustive occurrence database on Antarctic and Sub-Antarctic asteroids.

タイトル Antarctic and Sub-Antarctic Asteroidea database
ファンデイング The work was supported by a “Fonds pour la formation à la Recherche dans l’Industrie et l’Agriculture” (FRIA) grants to C. Moreau. This is contribution no. 16 to the vERSO project (www.versoproject.be), funded by the Belgian Science Policy Office (BELSPO, contract n°BR/132/A1/vERSO). This is contribution to the IPEV program n°1044 PROTEKER and to team SAMBA of the Biogeosciences laboratory.
Study Area Description This study focuses on the Antarctic and Sub-Antarctic regions located at latitudes south of 45°S. The Southern Ocean is a vast region characterised by the paucity of its scientific data (Griffiths et al., 2010) and available collections are the compilation of several historical campaigns. The objective of this work is to integrate the most complete database of species occurrences for the class Asteroidea in the described geographic extent.
研究の意図、目的、背景など(デザイン) The compilation of occurrence data of asteroid species over the extent of the Southern Ocean was realised by gathering data available from various biodiversity information systems (OBIS, GBIF, biodiversity.aq, PANGAEA https://www.pangaea.de/) as well as published literature, including original manuscripts (e.g. Gutt et al., 2014; Moles et al., 2015), data papers and cruise reports. Compiled occurrences were complemented with data from personal communications of unpublished works. This extensive dataset was developed to describe distribution patterns in the Southern Ocean as well as faunal affinities among 25 Antarctic and Sub-Antarctic bioregions (see Moreau et al., 2017). Several analytical methods such as Bootstrap Spanning Network, non-metrical multidimensional scaling (nMDS) and clustering contributed to highlight the importance of the reproductive strategy on the contemporary observed distribution patterns. The importance of environmental parameters such as the Antarctic Circumpolar Current (ACC), the Polar Front (PF), the presence of gyres or the geographic distance has also been emphasised. This dataset helped better describe the different biogeographic patterns within asteroids, which are overall congruent with other taxa and differs according to species reproductive strategy. This suggests a differential influence of dispersal capabilities on species distribution patterns. Analyses at genus levels also revealed the underlying legacy of past oceanographic and geodynamic processes in present-day patterns such as the existence of a trans-Antarctic pathway that split the Antarctic continent into two entities in the past. The detailed results are available from Moreau et al., 2017.

プロジェクトに携わる要員:

Camille Moreau

収集方法

The compilation of occurrence data of asteroid species over the extent of the Southern Ocean was realised by gathering data available from various biodiversity information systems (OBIS, GBIF, biodiversity.aq, PANGAEA https://www.pangaea.de/) as well as published literature, including original manuscripts, data papers and cruise reports. Compiled occurrences were complemented with data from personal communications of unpublished works. Because of difficulties to access the Southern Ocean region, sampling effort is uneven and mainly focused on coastal areas. Sampling gears and objectives are contrasted between the different campaigns, occurring from 1872 with the HMS Challenger to 2016 with the JR15005 expedition.

Study Extent This study focuses on the Antarctic and Sub-Antarctic regions located at latitudes south of 45°S. The Southern Ocean is a vast region characterised by the paucity of its scientific data and available collections are the compilation of several historical campaigns. The objective of this work is to integrate the most complete database of species occurrences for the class Asteroidea in the described geographic extent.
Quality Control Data are available at species level. Identification and taxonomy were thoroughly checked using the Taxon Match Tool implemented in the World Register of Marine Species, to delete all potential discrepancies and update the taxonomy determination. All replicates originating from overlapping origins as well as errors regarding the georeferencing, species synonymy or misspelling were removed.

Method step description:

  1. The present dataset is a compilation of georeferenced occurrences in the Southern Ocean for the asteroids (Echinodermata: Asteroidea). Occurrence data south of 45°S latitude have been mined from various sources, corresponding to a compilation of different historical campaigns, lead from 1872 to 2016. Records have been thoroughly checked to ensure the quality of a dataset which reaches a total of 13,840 occurrences from 4,580 unique sampling events. Information on the taxonomy, the sampling source and sites are provided. The reproductive strategy (brooders vs. broadcasters), playing a key role in the Southern Ocean, is given for 63 species out of the 299 mined. This dataset represents the most exhaustive occurrence database on Antarctic and Sub-Antarctic asteroids.

書誌情報の引用

  1. Moreau C, Mah C, Agüera A, Améziane N, Barnes D, Crokaert G, Eléaume M, Griffiths H, Guillaumot C, Hemery LG, Jażdżewska A, Jossart Q, Laptikhovsky V, Linse K, Neill K, Sands C, Saucède T, Schiaparelli S, Siciński J, Vasset N, Danis B (2018) Antarctic and Sub-Antarctic Asteroidea database. ZooKeys 747: 141-156. https://doi.org/10.3897/zookeys.747.22751

追加のメタデータ

marine, harvested by iOBIS The dataset was used in the following publications: Moreau, C., Saucede, T., Jossart, Q., Agüera, A., Brayard, A., & Danis, B. (2017). Reproductive strategy as a piece of the biogeographic puzzle: a case study using Antarctic sea stars (Echinodermata, Asteroidea). Journal of Biogeography, 44(4), 848-860. DOI: 10.1111/jbi.12965 Moreau, C. V., Aguera, A., Jossart, Q., & Danis, B. (2015). Southern Ocean Asteroidea: a proposed update for the Register of Antarctic Marine Species. Biodiversity data journal, (3). DOI: 10.3897/BDJ.3.e7062 Jossart, Q., Moreau, C., Agüera, A., De Broyer, C., & Danis, B. (2015). The Register of Antarctic Marine Species (RAMS): a ten-year appraisal. ZooKeys, (524), 137. DOI: 10.3897/zookeys.524.6091

目的

The dataset “Antarctic and Sub-Antarctic Asteroidea database” reporting sampling events presences of species around the Southern Ocean is the result of a thorough work of information mining from a very wide range of sources, from biodiversity information systems (e.g. GBIF; OBIS) to personal communication and through a broad range of literature sources (original manuscripts, data papers and cruise reports). This dataset was created as a part of the wider projects vERSO and RECTO which aim to better understand ecosystems and their responses to global change in the Southern Ocean. This dataset has recently been used in a study published in Journal of Biogeography to describe and analyse asteroid biogeographical patterns in the Southern Ocean with a particular focus on the effect of reproductive strategy on the observed distribution patterns (see Moreau et al., 2017). The dataset also allowed an update for the Register of Antarctic Marine Species (see Moreau et al., 2015). Upcoming genetic work will also be coupled to this dataset in order to compare biogeographical and phylogeographical patterns and give a better resolution regarding the underlying role of historical factors. Finally, this dataset is currently being used to create spatially-explicit models for keystone species in ecosystems strongly challenged by global change in the Southern Ocean.

代替識別子 https://ipt.biodiversity.aq/resource?r=asteroidea_southern_ocean