Bougainvillia Lesson, 1830

Calder, Dale R., 2019, On a collection of hydroids (Cnidaria, Hydrozoa) from the southwest coast of Florida, USA, Zootaxa 4689 (1), pp. 1-141 : 17-18

publication ID	https://doi.org/10.11646/zootaxa.4689.1.1
persistent identifier	https://treatment.plazi.org/id/9E4CE23A-FFDC-F151-FF03-64CBFA612DAC
treatment provided by	Plazi (2019-10-25 12:55:46, last updated 2024-11-26 14:23:24)
scientific name	Bougainvillia Lesson, 1830
status

Treatment

Genus Bougainvillia Lesson, 1830 View in CoL

Bougainvillia Lesson, 1830: 118 View in CoL .

Type species. Bougainvillia macloviana Lesson, 1830 View in CoL , by monotypy.

Remarks. The genus Bougainvillia Lesson, 1830 , with life cycles including both hydroid and medusa stages, is well-represented in the western North Atlantic. The guidebook on hydroids of the Atlantic coast of North America by Fraser (1944) includes five species under the genus, namely B. superciliaris L. Agassiz, 1849 , B. carolinensis ( McCrady, 1859) , B. rugosa Clarke, 1882 , B. longicirra Stechow, 1914 , and B. inaequalis Fraser, 1944 . In studies on medusae, Kramp (1959, 1961) reported nine species of Bougainvillia from the same region, including B. britannica ( Forbes, 1841) , B. ramosa ( Van Beneden, 1844b) (= B. muscus Allman, 1863 ), B. superciliaris L. Agassiz, 1849 , B. principis (Steenstrup, in Lütken, 1850) , B. carolinensis ( McCrady, 1859) , B. platygaster ( Haeckel, 1879) , B. rugosa Clarke, 1882 , B. niobe Mayer, 1894 , and B. frondosa Mayer, 1900b . Bougainvillia aberrans Calder, 1993a , a deepwater species differing from the others in having a reduced medusa stage, is added here to these lists.

Significant knowledge gaps exist about the hydroid and medusa stages of several species assigned to Bougainvillia in the western North Atlantic. Both B. longicirra and B. inaequalis are poorly known and based to date solely on their hydroid stages.The validity of the former has been questioned by Fraser (1944), and that of the latter by Deevey (1950). The taxonomic status of each one needs to be explored, although the validity of B. inaequalis was upheld by Calder & Choong (2018). The medusa B. frondosa seems well-founded taxonomically, but its hydroid stage is unknown ( Vannucci & Rees 1961). Meanwhile, attempts at linking the two stages of a given species have sometimes resulted in error or uncertainty. In the original account of B. superciliaris by L. Agassiz (1849), only the medusa stage was described. Later, a hydroid forming a rather large (ca. 5 cm high), erect, irregularly branched, monosiphonic colony was taken to be its polypoid stage (L. Agassiz 1862). That concept of the species, adopted in subsequent publications on hydroids of eastern North America (see synonymy list in Fraser 1944), is amost certainly mistaken, as discussed elsewhere ( Vannucci & Rees 1961; Schuchert 2007; Calder 2017). Life cycle studies by Werner (1961) and others indicate that the hydroid of B. superciliaris is stolonal. The identity of the erect and branched colony described by Agassiz is thus uncertain. In the case of B. carolinensis, McCrady (1859) provided a satisfactory account of the medusa, but the hydroid somewhat tenuously linked to it by him was described simply as having about 12 tentacles and measuring “…about an inch (2.5 cm) or slightly more in height.” That description has been insufficient to distinguish the species. Detailed descriptions of a hydroid thought to be B. carolinensis by Mayer (1910a), Fraser (1944), and others, following an account by A. Agassiz (1865, as Margelis carolinensis ),may well have been based on a different species. The very large hydroid (up to 30 cm high) described by Agassiz was found growing in abundance on Fucus vesiculosus , a boreal algal species that does not occur in warm-temperate Charleston Harbor, South Carolina, where McCrady’s medusa was found. The identity of McCrady’s hydroid thus remains uncertain, as does the one of A. Agassiz. The life cycle of B. carolinensis has yet to be carefully followed in the laboratory, and genetic studies on hydroids and medusae of the species are lacking.

Of the species listed above, reliable characterizations of both hydroid and medusa stages have been described for B. rugosa (Clarke 1881; Calder 1971), B. muscus ( Russell 1953, as B. ramosa ; Calder 1988, 2010; Schuchert 2007), and B. aberrans ( Calder 1993a) , all of which have erect colonies. Complete life cycles are also known for Bougainvillia britannica , with mostly stolonal colonies having unusually long pedicels ( Edwards 1964, 1966), and B. principis , with stolonal colonies ( Edwards 1966). Hydroids of those two species have yet to be identified from the east coast of North America. As for B. platygaster , polyp and medusa buds arise from the manubrium of the medusa ( Kramp 1957, 1959; Schuchert 2007). No polypoid stage is known in B. niobe ( Vannucci & Rees 1961) , another species in which medusa buds are produced on the manubrium.

Given the unsatisfactory state of knowledge of hydroids of Bougainvillia in the western North Atlantic, a description is provided below of a species assigned here to B. rugosa . Meanwhile, genetic evidence does not support monophyly of Bougainvillia , nor of the family Bougainvilliidae as currently constituted ( Mendoza-Becerril et al. 2018a).

References

Agassiz, L. (1849) Contributions to the natural history of the Acalephae of North America. Part I. - On the naked-eyed medusae of the shores of Massachusetts, in their perfect state of development. Memoirs of the American Academy of Arts and Sciences, 4, 221 - 316. https: // doi. org / 10.2307 / 25058163

Agassiz, L. (1862) Contributions to the natural history of the United States of America. Vol. IV. Little, Brown, Boston, 380 pp.

Agassiz, A. (1865) Illustrated catalogue of the Museum of Comparative Zoology, at Harvard College. No. II. North American Acalephae. Sever & Francis, Cambridge, Massachusetts, 234 pp.

Allman, G. J. (1863) Notes on the Hydroida. I. On the structure of Corymorpha nutans. II. Diagnoses of new species of Tubularidae obtained, during the autumn of 1862, on the coasts of Shetland and Devonshire. Annals and Magazine of Natural History, Series 3, 11, 1 - 12. https: // doi. org / 10.1080 / 00222936308681369

Calder, D. R. (1971) Hydroids and hydromedusae of southern Chesapeake Bay. Virginia Institute of Marine Science, Special papers in Marine Science, 1, 125 pp.

Calder, D. R. (1988) Shallow-water hydroids of Bermuda: the Athecatae. Royal Ontario Museum, Life Sciences Contributions, 148, 1 - 107. https: // doi. org / 10.5962 / bhl. title. 52225

Calder, D. R. (1993 a) Bougainvillia aberrans (Cnidaria, Hydrozoa), a new species of hydroid and medusa from the upper bathyal zone off Bermuda. Canadian Journal of Zoology, 71, 997 - 1002. https: // doi. org / 10.1139 / z 93 - 132

Calder, D. R. (2010) Some anthoathecate hydroids and limnopolyps (Cnidaria, Hydrozoa) from the Hawaiian archipelago. Zootaxa, 2590 (1), 1 - 91. https: // doi. org / 10.11646 / zootaxa. 2590.1.1

Calder, D. R. (2017) Additions to the hydroids (Cnidaria, Hydrozoa) of the Bay of Fundy, northeastern North America, with a checklist of species reported from the region. Zootaxa, 4256 (1), 1 - 86. https: // doi. org / 10.11646 / zootaxa. 4256.1.1

Calder, D. R. & Choong, H. H. C. (2018) Names of hydroids (Cnidaria, Hydrozoa) established by Charles McLean Fraser (1872 - 1946), excluding those from Allan Hancock Expeditions. Zootaxa, 4487 (1), 1 - 83. https: // doi. org / 10.11646 / zootaxa. 4487.1.1

Clarke, S. F. (1882) New and interesting hydroids from Chesapeake Bay. Memoirs of the Boston Society of Natural History, 3, 135 - 142.

Deevey, E. S. Jr. (1950) Hydroids from Louisiana and Texas, with remarks on the Pleistocene biogeography of the western Gulf of Mexico. Ecology, 31, 334 - 367. https: // doi. org / 10.2307 / 1931490

Edwards, C. (1964) The hydroid of the anthomedusa Bougainvillia britannica. Journal of the Marine Biological Association of the United Kingdom, 44, 1 - 10. https: // doi. org / 10.1017 / S 0025315400024619

Edwards, C. (1966) The hydroid and the medusa Bougainvillia principis, and a review of the British species of Bougainvillia. Journal of the Marine Biological Association of the United Kingdom, 46, 129 - 152. https: // doi. org / 10.1017 / S 0025315400017604

Forbes, E. (1841) Contributions to British actinology. Annals and Magazine of Natural History, 7, 81 - 85. https: // doi. org / 10.1080 / 03745484109442669

Fraser, C. M. (1944) Hydroids of the Atlantic coast of North America. University of Toronto Press, Toronto, 451 pp.

Haeckel, E. (1879) Das System der Medusen. Erster Theil einer Monographie der Medusen. Denkschriften der Medicinisch- Naturwissenschaftlichen Gesellschaft zu Jena, 1, 1 - 360.

Kramp, P. L. (1957) Hydromedusae from the Discovery collections. Discovery Reports, 19, 1 - 128. https: // doi. org / 10.5962 / bhl. part. 12484

Kramp, P. L. (1959) The hydromedusae of the Atlantic Ocean and adjacent waters. Dana-Report, 46, 1 - 283.

Kramp, P. L. (1961) Synopsis of the medusae of the world. Journal of the Marine Biological Association of the United Kingdom, 40, 1 - 469. https: // doi. org / 10.1017 / S 0025315400007347

Lesson, R. P. (1830) Voyage autour du monde, pendant les annees 1822, 1823, 1824 et 1825. Zoologie. Description des zoophytes echinodermes. Voyage de la Coquille II, II, 20, 155 pp.

Lutken, C. (1850) Nogle Bemaerkninger om Medusernes systematiske Inddeling, navnlig med Hensyn til Forbes's History of Brittish naked-eyed medusae. Videnskabelige Meddelelser fra den Naturhistoriske Forening i KJobenhavn, 1850, 15 - 35.

Mayer, A. G. (1894) Cruise of the Steam Yacht Wild-Duck in the Bahamas, January to April 1893, in charge of Alexander Agassiz. III. An account of some medusae obtained in the Bahamas. Bulletin of the Museum of Comparative Zoology at Harvard College, 25, 235 - 242.

Mayer, A. G. (1900 b) Some medusae from the Tortugas, Florida. Bulletin of the Museum of Comparative Zoology at Harvard College, 37, 13 - 82.

Mayer, A. G. (1910 a) Medusae of the world. Volume I. The hydromedusae. Carnegie Institution of Washington, Publication 109, 1 - 230.

McCrady, J. (1859) Gymnopthalmata of Charleston Harbor. Proceedings of the Elliott Society of Natural History, 1, 103 - 221.

Mendoza-Becerril, M. A., Jaimes-Becerra, A. J., Collins, A. G. & Marques, A. C. (2018 a) Phylogeny and morphological evolution of the so-called bougainvilliids (Hydrozoa, Hydroidolina). Zoologica Scripta, 2018, 1 - 15. https: // doi. org / 10.1111 / zsc. 12291

Russell, F. S. (1953) The medusae of the British Isles. Anthomedusae, Leptomedusae, Limnomedusae, Trachymedusae and Narcomedusae. Cambridge University Press, Cambridge, 530 pp.

Schuchert, P. (2007) The European athecate hydroids and their medusae (Hydrozoa, Cnidaria): Filifera Part 2. Revue Suisse de Zoologie, 114, 195 - 396. https: // doi. org / 10.5962 / bhl. part. 80395

Stechow, E. (1914) Zur Kenntnis neuer oder seltener Hydroidpolypen, meist Campanulariden, aus Amerika und Norwegen. Zoologischer Anzeiger, 45, 120 - 136.

Van Beneden, P. - J. (1844 b) Recherches sur l'embryogenie des tubulaires, et l'histoire naturelle des differents genres de cette famille qui habitent la Cote d'Ostende. Nouveaux Memoires de l'Academie Royale des Sciences et Belles-Lettres de Bruxelles, 17 (6), 1 - 72.

Vannucci, M. & Rees, W. J. (1961) A revision of the genus Bougainvillia (Anthomedusae). Boletim do Instituto Oceanografico, 11 (2), 57 - 100. https: // doi. org / 10.1590 / S 0373 - 55241961000100003

Werner, B. (1961) Morphologie und Lebensgeschichte, sowie Temperaturabhangigkeit der Verbreitung und des jahreszeitlichen Auftretens von Bougainvillia superciliaris (L. Agassiz) (Athecatae-Anthomedusae). Helgolander Wissenschaftliche Meeresuntersuchungen, 7, 206 - 237. https: // doi. org / 10.1007 / BF 01880277