Re-evaluation of characters in Apolemiidae (Siphonophora), with description of two new species from Monterey Bay, California
Re-evaluation of characters in Apolemiidae (Siphonophora), with description of two new species from Monterey Bay, California
Siphonophores are polymorphic planktonic marine Cnidarians. The family Apolemiidae is sister to all other species of physonect and calycophoran siphonophores. Although this enigmatic group arguably includes the longest animal species on the planet, their colony-level organization and growth patterns are not well understood. Here we describe two new apolemiid species: Apolemia lanosa sp. nov. and A. rubriversa sp. nov. We provide detailed descriptions of zooid budding and the organization of mature zooids within the siphosome. Our findings reveal that at least two distinct general patterns of siphosomal organization are found in different Apolemia species. In the first pattern, dispersed organization, zooids independently attach directly to the siphosomal stem. In the second pattern, pedunculate organization, only the gastrozooid is attached directly to the stem, and the other zooids of the cormidium branch from its peduncle. This diversity within Apolemia indicates that fundamental aspects of zooid budding and organization are homoplastic within Siphonophora, as both patterns are also found in other siphonophores. The observations presented here greatly clarify the interpretation of diagnostic characters within Apolemiidae, bear on the status of the three previously described species, provide critical detail for understanding the diversity of colony-level organization in siphonophores, and establish a foundation for the description of additional apolemiid species.
Cnidaria, Hydrozoa, Siphonophora, Apolemiidae, Apolemia, Cormidial organization, Colony formation
201-232
Siebert, Stefan
90d57f0e-c831-4135-955f-bb496245a37c
Pugh, Phil R.
aa54a60c-ee26-417d-bbbd-6ef53875c940
Haddock, Steven H.D.
2b7338a3-ef4f-4d8c-b2db-c304e7ef3045
27 August 2013
Siebert, Stefan
90d57f0e-c831-4135-955f-bb496245a37c
Pugh, Phil R.
aa54a60c-ee26-417d-bbbd-6ef53875c940
Haddock, Steven H.D.
2b7338a3-ef4f-4d8c-b2db-c304e7ef3045
Siebert, Stefan, Pugh, Phil R. and Haddock, Steven H.D.
(2013)
Re-evaluation of characters in Apolemiidae (Siphonophora), with description of two new species from Monterey Bay, California.
Zootaxa, 3702 (3), .
(doi:10.11646/zootaxa.3702.3.1).
Abstract
Siphonophores are polymorphic planktonic marine Cnidarians. The family Apolemiidae is sister to all other species of physonect and calycophoran siphonophores. Although this enigmatic group arguably includes the longest animal species on the planet, their colony-level organization and growth patterns are not well understood. Here we describe two new apolemiid species: Apolemia lanosa sp. nov. and A. rubriversa sp. nov. We provide detailed descriptions of zooid budding and the organization of mature zooids within the siphosome. Our findings reveal that at least two distinct general patterns of siphosomal organization are found in different Apolemia species. In the first pattern, dispersed organization, zooids independently attach directly to the siphosomal stem. In the second pattern, pedunculate organization, only the gastrozooid is attached directly to the stem, and the other zooids of the cormidium branch from its peduncle. This diversity within Apolemia indicates that fundamental aspects of zooid budding and organization are homoplastic within Siphonophora, as both patterns are also found in other siphonophores. The observations presented here greatly clarify the interpretation of diagnostic characters within Apolemiidae, bear on the status of the three previously described species, provide critical detail for understanding the diversity of colony-level organization in siphonophores, and establish a foundation for the description of additional apolemiid species.
This record has no associated files available for download.
More information
Published date: 27 August 2013
Keywords:
Cnidaria, Hydrozoa, Siphonophora, Apolemiidae, Apolemia, Cormidial organization, Colony formation
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 358781
URI: http://eprints.soton.ac.uk/id/eprint/358781
ISSN: 1175-5334
PURE UUID: ba9cccd2-cbcb-422d-aff8-acfef6e4ca43
Catalogue record
Date deposited: 10 Oct 2013 13:18
Last modified: 14 Mar 2024 15:08
Export record
Altmetrics
Contributors
Author:
Stefan Siebert
Author:
Phil R. Pugh
Author:
Steven H.D. Haddock
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics