Bougainvillia spec.
publication ID |
https://doi.org/ 10.35929/RSZ.0049 |
DOI |
https://doi.org/10.5281/zenodo.5719208 |
persistent identifier |
https://treatment.plazi.org/id/D0118A7C-5B09-0012-FBCB-FE15FE107DC0 |
treatment provided by |
Felipe |
scientific name |
Bougainvillia spec. |
status |
|
Fig. 1 View Fig A-B
Examined material: BFLA3826 ; 1 specimen, 14 -NOV- 2018; bell height 5 mm; photographed and then preserved in alcohol for DNA extraction; 16S sequence MW528641 View Materials .
Observations: Bell 5 mm high, higher than wide, mesoglea thick, apical mesoglea 1/4 of bell height, apex rather flat. Manubrium with cruciform base, oral region tubular, widest at base and thus like an inverted cone; four perradial oral tentacles arise well above mouth rim, trunk long, branched about 3 to 4 times, ending in spherical nematocyst knobs. Four gonads, male, interradial, encircling stomach entirely. Four radial canals and marginal bulbs, bulbs D-shaped ( Fig. 1B View Fig ), each with about eight filiform tentacles; dark, round ocelli on adaxial side of tentacle base.
16S Data: A blastn search with the partial 16S gene sequence ( MW528641 View Materials ) did not give a close match, but the best five matches were Bougainvillia species. The sequence with the highest similarity (94% identity) was EU305470 View Materials , obtained from a B. fulva collected in Japan (Kirsten Jensen, Kansas University, pers. com.). Others were B. triestina and B. carolinensis with about 92% identity. Bougainvillia muscus sequences differed even more, reaching only 87% identity.
Remarks: This Bougainvillia medusa could not be identified reliably. Morphologically, it resembles B. carolinensis ( McCrady, 1859) and B. muscus ( Allman, 1863) . It differs from B. carolinensis (see descriptions in Mayer, 1910; Kramp, 1959a; Calder, 1971) in lacking the characteristic shape of the manubrium, which is widening from the aboral end towards the mouth. The manubrium of the present medusa is widest at the aboral end ( Fig. 1A View Fig ). Bougainvillia muscus medusae (for a description see Schuchert, 2007) differ in being smaller (1-4 mm), they have less tentacles per bulb (2-6), and the oral tentacles branch less (0-2).
Also, the 16S data argue against B. carolinensis and B. muscus . There are several 16S sequences of B. muscus available in GenBank (e.g. AM183126 View Materials , AM411411 View Materials ), covering populations from Europe to New Zealand and with an intraspecific divergence of up to 1.5% base pair differences. The Bougainvillia medusa from Florida differed from B. muscus in 13% of the base pairs, and was thus far beyond the intraspecific divergence. The single available sequence from a B. carolinensis from Brazil ( MG791827 View Materials ) did also not match (90% identity only). No morphological data are available for this sample and its identification cannot be verified.
Other Bougainvillia medusae known from the region can also be excluded based on their morphology. Bougainvillia niobe Mayer, 1894 buds medusae from the manubrium. These might not always be present, especially in mature animals (compare fig. 90 in Mayer, 1910), but the gonads are reportedly adradial and not interradial ( Kramp, 1959a: 12). Bougainvillia rugosa Clarke, 1882 has medusae with unbranched oral tentacles and only 3 tentacles per bulb ( Migotto, 1996).
The observed medusa thus likely belongs to an unnamed species, or a hydroid-based nominal species for which the adult medusa is not known yet. Using the 16S sequence will certainly in the future permit the identification of the hydroid (comp. Schuchert et al., 2017; Schuchert, 2019), as well as additional growth stages and the females of the medusa, and thus give a more solid base for the description as a new species.
No 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.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
SubOrder |
Filifera |
Family |
|
Genus |