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Aequorea

Aequorea

krystallmaneter(+9)·Péron & Lesueur, 1810

GBIF:2267493

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Species Profile

Habitat

Marine

ABOUT

Descriptions(10)

Nerítico y Oceánico
Hidromedusas mesozooplanctónicas del Océano Pacífico colombiano
Diagnosis: Medusa manubrium very wide, circular; no gastric peduncle, but often with jelly cone within stomach; subumbrella without radial rows of gelatinous papillae. With numerous, unbranched radial canals, new radial canals develop centrifugally from stomach base. Gonads on radial canals, separated from manubrium. Marginal tentacles hollow; usually with excretory pores or papillae on adaxial side of base; no marginal or lateral cirri; statocysts closed; no ocelli. Hydroid where known of ‘ campanulinid’ type, small usually lacking species-specific characters (see Bouillon et al., 2006).
Hydromedusae observed during night dives in the Gulf Stream
Remarks: Aequorea is a difficult genus as can be suspected from the complex synonymy given above. A comprehensive revision of its species is needed (Purcell, 2018). Kramp (1961) plainly expressed “ The species are more or less doubtful. ” Russell (1953) had similar thoughts. However, both experts contributed much in consolidating and establishing a workable species level taxonomy which is still in use today. Dawson (2004) and Zheng et al. (2009, 2014) have begun to study species level systematics using DNA sequences, but we are still missing sequence data for many populations and species and their correlation with morphotypes. Here, we separated the species first using their 16 S data and then searched for suitable names that matched their morphology. A few photographs of fully grown medusae that were not sampled could afterwards also be attributed to nominal species. It seems, however, that the sequence data are not really congruent with described nominal species. While the species level diversity is higher than expected, it is also surprising that some have a much wider distribution than thought before [see also Pruski & Miglietta (2019) for A. australis and its occurrence in the Gulf of Mexico]. Some additional species were examined for this study to allow a better comparison and species delimitation. This material is listed above in the section Material and Methods.
Hydromedusae observed during night dives in the Gulf Stream
type species Aequorea forskalea Péron & Lesueur, 1810 by subsequent designation by Mayer (1910).
Hydromedusae observed during night dives in the Gulf Stream

Genus Aequorea Peron & Lesueur, 1810 Fig. 1A

Aequorea macrodactyla (Brandt, 1835)

Morphological description.

The freshly collected jellyfish were observed carefully in the lab by using: Nikon SMZ100 Binocular, Nikon AZ100 Binocular with DS-Ri1 camera, and Zeiss Imager microscope M2. All specimens have a biconvex lens umbrella (central disc is lens-shaped) of around 20 mm thick and 65 mm to 80 mm in diameter. The stomach is shallow with a diameter of a little less than half of the umbrella, around 30 mm to 38 mm (Fig. 1A). There is an average of 32 straight radial canals (Fig. 1B) and the gonads are linear on both sides of each radial canal (Fig. 1C). The jellyfish have between 10-20 broad marginal tentacle bulbs (Fig. 1A) each with abaxial keel (Fig. 1D). The identification of Aequorea spp. can be confusing mainly due to their considerable variability, and misidentification has occurred in the past (Kramp 1965). The amount of radial canals and tentacles, and the shape of the bases of the marginal tentacles are of great importance and the key to distinguish morphologically between other similar jellyfish belonging to the genus Aequorea, for example Aequorea pensilis and Aequorea macrodactyla that bear a close resemblance one to another. The marginal bulb should be determined in order to distinguish between similar species of Aequorea (Mayer 1910; Kramp 1956; Kramp 1965; Russell 1970; Bouillon et al. 2006; Gul and Gravili 2013). In our findings we can see clearly (Fig. 1C) the cross-shaped bases of the marginal tentacles that continue the radial canal. Also it is evident (Fig. 1C) that some radial canals end as marginal bulbs but did not develop tentacles and should be considered as non-tentacular marginal bulbs or rudimentary bulbs (Fig. 1D), which is a characteristic phenomenon of the Aequorea macrodactyla . In Figure 1C we can see the position of the gonads surrounding the radial canal. The color of the radial canal, the endoderm of the lips and the tentacle bulbs present a milky color as other parts are mostly transparent.

First record of Aequoreamacrodactyla (Cnidaria, Hydrozoa) from the Israeli coast of the eastern Mediterranean Sea, an alien species indicating invasive pathwaysPensoft via PlaziNo known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.

Taxon classification Animalia Leptothecata Aequoreidae

Genus Aequorea Peron & Lesueur, 1810 Fig. 1A

Aequorea macrodactyla (Brandt, 1835)

Morphological description.

The freshly collected jellyfish were observed carefully in the lab by using: Nikon SMZ100 Binocular, Nikon AZ100 Binocular with DS-Ri1 camera, and Zeiss Imager microscope M2. All specimens have a biconvex lens umbrella (central disc is lens-shaped) of around 20 mm thick and 65 mm to 80 mm in diameter. The stomach is shallow with a diameter of a little less than half of the umbrella, around 30 mm to 38 mm (Fig. 1A). There is an average of 32 straight radial canals (Fig. 1B) and the gonads are linear on both sides of each radial canal (Fig. 1C). The jellyfish have between 10-20 broad marginal tentacle bulbs (Fig. 1A) each with abaxial keel (Fig. 1D). The identification of Aequorea spp. can be confusing mainly due to their considerable variability, and misidentification has occurred in the past (Kramp 1965). The amount of radial canals and tentacles, and the shape of the bases of the marginal tentacles are of great importance and the key to distinguish morphologically between other similar jellyfish belonging to the genus Aequorea, for example Aequorea pensilis and Aequorea macrodactyla that bear a close resemblance one to another. The marginal bulb should be determined in order to distinguish between similar species of Aequorea (Mayer 1910; Kramp 1956; Kramp 1965; Russell 1970; Bouillon et al. 2006; Gul and Gravili 2013). In our findings we can see clearly (Fig. 1C) the cross-shaped bases of the marginal tentacles that continue the radial canal. Also it is evident (Fig. 1C) that some radial canals end as marginal bulbs but did not develop tentacles and should be considered as non-tentacular marginal bulbs or rudimentary bulbs (Fig. 1D), which is a characteristic phenomenon of the Aequorea macrodactyla . In Figure 1C we can see the position of the gonads surrounding the radial canal. The color of the radial canal, the endoderm of the lips and the tentacle bulbs present a milky color as other parts are mostly transparent.

First record of Aequoreamacrodactyla (Cnidaria, Hydrozoa) from the Israeli coast of the eastern Mediterranean Sea, an alien species indicating invasive pathwaysPensoft via PlaziNo known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
Distribution in South America: medusa — Atlantic Ocean, Brazil, from 23.70 ° S to 24 ° S (Tronolone 2001).
Census of Cnidaria (Medusozoa) and Ctenophora from South American marine waters
Description. Colonies minute, mainly stolonal, with erect shoots comprising 1 – 2 hydrothecae; stolon creeping. Pedicels of variable length (120 – 235 µm), spirally grooved nearly throughout, smooth below hydrotheca; diameter gradually widening from base (35 – 45 µm) towards distal end (60 – 75 µm). Hydrotheca ovate, 235 – 270 µm long, 120 – 155 µm wide in middle, tapering apically to form a conical, pleated operculum, with pointed tip; folds continuing downwards nearly to base; the latter square in shape, 100 – 130 µm wide. Hydranth with ca. 20 amphicoronate tentacles; intertentacular web present. Nematocysts (undischarged): large capsules of unidentified type (11.4 – 12.0) × (3.7 – 3.9) µm; microbasic (?) mastigophores (6.3 – 6.8) × (2.0 – 2.1) µm.
On a collection of shallow-water hydroids (Cnidaria: Hydrozoa) from Guadeloupe and Les Saintes, French Lesser Antilles
Remarks. Due to the lack of knowledge of the medusa stage, this material could not be identified to species level. Several nominal species (medusa stage) of Aequorea have been reported from the western Atlantic (see Kramp 1959 a), but their complete life cycles are unknown.
On a collection of shallow-water hydroids (Cnidaria: Hydrozoa) from Guadeloupe and Les Saintes, French Lesser Antilles
Material examined. Stn. 3: 01.04.2008 — several hydrothecae but no gonothecae, on algae. Stn. 7: 25.03.2008 — a small, sterile colony, with both stolonal and minute erect stems, on algae; 27.03.2008 — a minute, sterile, stolonal colony, on alga.
On a collection of shallow-water hydroids (Cnidaria: Hydrozoa) from Guadeloupe and Les Saintes, French Lesser Antilles

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GEOGRAPHY

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REGIONS

Geographic Distribution(5)

DK
not evaluated
NO
SE
United States part of the North Atlantic Ocean(US)
uncertain
United States part of the North Atlantic Ocean(US)
uncertain

DATA

Occurrence Datasets

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Common names used for this species across different languages and regions. Available in 7 languages and 1 country. 1 preferred.

NOkrystallmaneternobengCrystal JelliesengitaMeduse soleitanobkrystallmaneternobrusЭквореяrus+5 more

Vernacular (common) names are the everyday names used for a species in different languages and regions. A single species may have dozens of common names worldwide. This taxon has names in 7 languages. 1 name preferred.

engCrystal Jellies
eng
Source: Catalogue of LifeSource taxon #299623640
itaMeduse sole
ita
Source: Catalogue of LifeSource taxon #299623640
nobkrystallmaneter
nob
Source: Catalogue of LifeSource taxon #299623640
rusЭкворея
rus
Source: Catalogue of LifeSource taxon #299623640
jpnオワンクラゲ属
jpn
Source: Catalogue of LifeSource taxon #299623640
zho多管水母屬
zho
Source: Catalogue of LifeSource taxon #299623640
kor평면해파리속
kor
Source: Catalogue of LifeSource taxon #299623640
NOkrystallmaneter
nobpreferredNO
Source taxon #167998829
jpnオワンクラゲ属
jpn
Source: World Register of Marine SpeciesSource taxon #155439707
jpnオワンクラゲ属
jpn
Source: WRiMSSource taxon #157131257

CLASSIFICATION

Taxonomic Classification Tree

AnimaliaCnidariaHydrozoaLeptothecataAequoreidaeAequorea

Occurrences with images

CITATIONS

References(18)

  • 1

    Ann. Mus. Hist. Nat. (Paris), 14 (83)

    original descriptionThe Interim Register of Marine and Nonmarine Genera
  • 2

    Aphia 2006

    habitat flag sourceThe Interim Register of Marine and Nonmarine Genera
  • 3

    Brunel, P., L. Bosse & G. Lamarche. (1998). Catalogue of the marine invertebrates of the estuary and Gulf of St. Lawrence. <em>Canadian Special Publication of Fisheries and Aquatic Sciences, 126.</em> 405 pp.

    additional sourceWorld Register of Marine Species
  • 4

    Brunel, P., L. Bosse & G. Lamarche. (1998). Catalogue of the marine invertebrates of the estuary and Gulf of St. Lawrence. <em>Canadian Special Publication of Fisheries and Aquatic Sciences, 126.</em> 405 pp.

    additional sourceWRiMS
  • 5

    CoL 2006

    current name sourceThe Interim Register of Marine and Nonmarine Genera

    • Source Information

    GBIF Backbone Taxonomy

    GBIF Backbone Taxonomy

    checklist

    The GBIF Backbone Taxonomy is a single, synthetic management classification with the goal of covering all names GBIF is dealing with. It's the taxonomic backbone that allows GBIF to integrate name based information from different resources, no matter if these are occurrence datasets, species pages, names from nomenclators or external sources like EOL, Genbank or IUCN. This backbone allows taxonomic search, browse and reporting operations across all those resources in a consistent way and to provide means to crosswalk names from one source to another.

    It is updated regulary through an automated process in which the Catalogue of Life acts as a starting point also providing the complete higher classification above families. Additional scientific names only found in other authoritative nomenclatural and taxonomic datasets are then merged into the tree, thus extending the original catalogue and broadening the backbones name coverage. The GBIF Backbone taxonomy also includes identifiers for Operational Taxonomic Units (OTUs) drawn from the barcoding resources iBOL and UNITE.

    International Barcode of Life project (iBOL), Barcode Index Numbers (BINs). BINs are connected to a taxon name and its classification by taking into account all names applied to the BIN and picking names with at least 80% consensus. If there is no consensus of name at the species level, the selection process is repeated moving up the major Linnaean ranks until consensus is achieved.

    UNITE - Unified system for the DNA based fungal species, Species Hypotheses (SHs). SHs are connected to a taxon name and its classification based on the determination of the RefS (reference sequence) if present or the RepS (representative sequence). In the latter case, if there is no match in the UNITE taxonomy, the lowest rank with 100% consensus within the SH will be used.

    The GBIF Backbone Taxonomy is available for download at https://hosted-datasets.gbif.org/datasets/backbone/ in different formats together with an archive of all previous versions.

    The following 105 sources have been used to assemble the GBIF backbone with number of names given in brackets:

    • Catalogue of Life Checklist - 4766428 names
    • International Barcode of Life project (iBOL) Barcode Index Numbers (BINs) - 635951 names
    • UNITE - Unified system for the DNA based fungal species linked to the classification - 611208 names
    • The Paleobiology Database - 212054 names
    • World Register of Marine Species - 188857 names
    • The Interim Register of Marine and Nonmarine Genera - 183894 names
    • The World Checklist of Vascular Plants (WCVP) - 131891 names
    • GBIF Backbone Taxonomy - 114350 names
    • TAXREF - 109374 names
    • The Leipzig catalogue of vascular plants - 75380 names
    • ZooBank - 73549 names
    • Integrated Taxonomic Information System (ITIS) - 68377 names
    • Plazi.org taxonomic treatments database - 61346 names
    • Genome Taxonomy Database r207 - 60545 names
    • International Plant Names Index - 52329 names
    • Fauna Europaea - 45077 names
    • The National Checklist of Taiwan (Catalogue of Life in Taiwan, TaiCoL) - 36193 names
    • Dyntaxa. Svensk taxonomisk databas - 35892 names
    • The Plant List with literature - 32692 names
    • United Kingdom Species Inventory (UKSI) - 29643 names
    • Artsnavnebasen - 29208 names
    • The IUCN Red List of Threatened Species - 21221 names
    • Afromoths, online database of Afrotropical moth species (Lepidoptera) - 13961 names
    • Brazilian Flora 2020 project - Projeto Flora do Brasil 2020 - 13829 names
    • Prokaryotic Nomenclature Up-to-Date (PNU) - 10079 names
    • Checklist Dutch Species Register - Nederlands Soortenregister - 8814 names
    • ICTV Master Species List (MSL) - 7852 names
    • Cockroach Species File - 6020 names
    • GRIN Taxonomy - 5882 names
    • Taxon list of fungi and fungal-like organisms from Germany compiled by the DGfM - 4570 names
    • Catalogue of Afrotropical Bees - 3623 names
    • Catalogue of Tenebrionidae (Coleoptera) of North America - 3327 names
    • Checklist of Beetles (Coleoptera) of Canada and Alaska. Second Edition. - 3312 names
    • Systema Dipterorum - 2850 names
    • Catalogue of the Pterophoroidea of the World - 2807 names
    • The Clements Checklist - 2675 names
    • Taxon list of Hymenoptera from Germany compiled in the context of the GBOL project - 2496 names
    • IOC World Bird List, v13.2 - 2366 names
    • Official Lists and Indexes of Names in Zoology - 2310 names
    • National checklist of all species occurring in Denmark - 1922 names
    • Myriatrix - 1876 names
    • Database of Vascular Plants of Canada (VASCAN) - 1822 names
    • Taxon list of vascular plants from Bavaria, Germany compiled in the context of the BFL project - 1771 names
    • Orthoptera Species File - 1742 names
    • A list of the terrestrial fungi, flora and fauna of Madeira and Selvagens archipelagos - 1602 names
    • Aphid Species File - 1565 names
    • World Spider Catalog - 1561 names
    • Taxon list of Jurassic Pisces of the Tethys Palaeo-Environment compiled at the SNSB-JME - 1270 names
    • Backbone Family Classification Patch - 1143 names
    • GBIF Algae Classification - 1100 names
    • International Cichorieae Network (ICN): Cichorieae Portal - 975 names
    • Psocodea Species File - 803 names
    • New Zealand Marine Macroalgae Species Checklist - 787 names
    • Annotated checklist of endemic species from the Western Balkans - 754 names
    • Taxon list of animals with German names (worldwide) compiled at the SMNS - 503 names
    • Catalogue of the Alucitoidea of the World - 472 names
    • Lygaeoidea Species File - 462 names
    • Catálogo de Plantas y Líquenes de Colombia - 422 names
    • GBIF Backbone Patch - 317 names
    • Phasmida Species File - 259 names
    • Cortinariaceae fetched from the Index Fungorum API - 234 names
    • Coreoidea Species File - 233 names
    • GTDB supplement - 139 names
    • Mantodea Species File - 119 names
    • Endemic species in Taiwan - 93 names
    • Taxon list of Araneae from Germany compiled in the context of the GBOL project - 88 names
    • Species of Hominidae - 78 names
    • Taxon list of Sternorrhyncha from Germany compiled in the context of the GBOL project - 77 names
    • Taxon list of mosses from Germany compiled in the context of the GBOL project - 75 names
    • Mammal Species of the World - 73 names
    • Plecoptera Species File - 71 names
    • Species Fungorum Plus - 64 names
    • Catalogue of the type specimens of Cosmopterigidae (Lepidoptera: Gelechioidea) from research collections of the Zoological Institute, Russian Academy of Sciences - 47 names
    • Species named after famous people - 41 names
    • Dermaptera Species File - 36 names
    • Taxon list of Trichoptera from Germany compiled in the context of the GBOL project - 34 names
    • True Fruit Flies (Diptera, Tephritidae) of the Afrotropical Region - 33 names
    • Range and Regularities in the Distribution of Earthworms of the Earthworms of the USSR Fauna. Perel, 1979 - 32 names
    • Taxon list of Diplura from Germany compiled in the context of the GBOL project - 30 names
    • Lista de referencia de especies de aves de Colombia - 2022 - 24 names
    • Taxon list of Auchenorrhyncha from Germany compiled in the context of the GBOL project - 20 names
    • Catalogue of the type specimens of Polycestinae (Coleoptera: Buprestidae) from research collections of the Zoological Institute, Russian Academy of Sciences - 19 names
    • Taxon list of Thysanoptera from Germany compiled in the context of the GBOL project - 19 names
    • Lista de especies de vertebrados registrados en jurisdicción del Departamento del Huila - 18 names
    • Taxon list of Microcoryphia (Archaeognatha) from Germany compiled in the context of the GBOL project - 15 names
    • Catalogue of the type specimens of Bufonidae and Megophryidae (Amphibia: Anura) from research collections of the Zoological Institute, Russian Academy of Sciences - 12 names
    • Grylloblattodea Species File - 11 names
    • Coleorrhyncha Species File - 9 names
    • Taxon list of liverworts from Germany compiled in the context of the GBOL project - 9 names
    • Embioptera Species File - 7 names
    • Taxon list of Pisces and Cyclostoma from Germany compiled in the context of the GBOL project - 6 names
    • Taxon list of Pteridophyta from Germany compiled in the context of the GBOL project - 6 names
    • Taxon list of Siphonaptera from Germany compiled in the context of the GBOL project - 5 names
    • The Earthworms of the Fauna of Russia. Perel, 1997 - 5 names
    • Taxon list of Zygentoma from Germany compiled in the context of the GBOL project - 4 names
    • Asiloid Flies: new taxa of Diptera: Apioceridae, Asilidae, and Mydidae - 3 names
    • Taxon list of Protura from Germany compiled in the context of the GBOL project - 3 names
    • Taxon list of hornworts from Germany compiled in the context of the GBOL project - 2 names
    • Chrysididae Species File - 1 names
    • Taxon list of Dermaptera from Germany compiled in the context of the GBOL project - 1 names
    • Taxon list of Diplopoda from Germany in the context of the GBOL project - 1 names
    • Taxon list of Orthoptera (Grashoppers) from Germany compiled at the SNSB - 1 names
    • Taxon list of Pscoptera from Germany compiled in the context of the GBOL project - 1 names
    • Taxon list of Pseudoscorpiones from Germany compiled in the context of the GBOL project - 1 names
    • Taxon list of Raphidioptera from Germany compiled in the context of the GBOL project - 1 names

    GBIF Secretariat (2023). GBIF Backbone Taxonomy. Checklist dataset https://doi.org/10.15468/39omei accessed via GBIF.org on 2026-06-18.

    CC BYPublished 8/28/2023View dataset
    GBIF Usage Key
    2267493
    Dataset Key
    d7dddbf4-2cf0-4f39-9b2a-bb099caae36c
    Origin
    source
    Backbone Key
    2267493
    Taxon ID
    gbif:2267493
    Last Crawled
    8/22/2023
    Last Interpreted
    8/22/2023
    View on GBIF