Biodiversity, distribution and community structure of benthic hydroids from Point Géologie Archipelago (Dumont d’Urville Sea, Adélie Land, Antarctica)

Hydrozoans are one of the main and most characteristic zoological groups of Antarctic benthic communities, yet there are Antarctic areas where the hydrozoan fauna is completely unknown (e.g. the Admunsen Sea, West Antarctica) or scarcely known (e.g. Adélie Land, East Antarctica). Hitherto, only one...

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Bibliographic Details
Published in:Polar biology 2021-02, Vol.44 (2), p.407-420
Main Author: Peña Cantero, Álvaro L.
Format: Article
Language:English
Subjects:
Antarctic zone
Archipelagoes
Benthic communities
Benthos
Biodiversity
Biodiversity hot spots
Biological diversity
Biomass
Biomedical and Life Sciences
Community structure
Ecology
Fauna
Hot spots (geology)
Hydrozoa
Life Sciences
Microbiology
New records
Oceanography
Original Paper
Plant Sciences
Polar waters
Protected areas
Species
Zoology
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Summary:Hydrozoans are one of the main and most characteristic zoological groups of Antarctic benthic communities, yet there are Antarctic areas where the hydrozoan fauna is completely unknown (e.g. the Admunsen Sea, West Antarctica) or scarcely known (e.g. Adélie Land, East Antarctica). Hitherto, only one study, published in 1972, has been devoted to hydroids inhabiting marine bottoms off Adélie Land. The present study contributes to a better knowledge of the benthic hydroid fauna of this region by studying material from the Antarctic Specially Protected Area of Pointe Géologie Archipelago (ASPA 120), area of considerable biological value and great importance for scientific research. 35 species of benthic hydroids were found, belonging to 14 families and 18 genera. 15 species represent new records for the area, bringing the number of species reported in the zone to 45. Leptothecata is dominant, with 30 species, while Anthoathecata is represented by just five species. Symplectoscyphidae is the most speciose family, with 11 species (31%), whereas Kirchenpaueriidae has the highest biomass due to Oswaldella terranovae , the species with the highest abundance and biomass and that could be considered a true habitat builder and biodiversity hotspot. The study of the hydroid assemblages has revealed the overwhelming dominance in the area of a community characterised mainly by O. terranovae ; three other assemblages are present, albeit much less represented. The hydroid fauna is clearly dominated by eurybathic species (65%) and most of the species studied (88%) are restricted to Antarctic or Antarctic/sub-Antarctic waters, with 65% endemic to the Antarctic region.
ISSN:0722-4060
1432-2056
DOI:10.1007/s00300-021-02802-x