Meroplanktonic hydromedusae of the family Cirrholoveniidae Bouillon, 1984BOUILLON, J. 1984. Révision de la famille des Phialuciidae (Kramp, 1955) (Leptomedusae, Hydrozoa, Cnidaria), avec un essai de classification des Thecatae-Leptomedusae. Indo-Malayan Zoology, 1(1), 1-24. are distinguished from other Leptothecata medusae mainly by the presence of four simple radial canals, marginal cirri, at least four closed statocysts and absence of a gastric peduncle (Bouillon 1999BOUILLON, J. 1999. Hydromedusae. In: BOLTOVSKOY, D. (ed.). South Atlantic zooplankton. Leiden: Backhuys Publishers, pp. 424-512., Bouillon et al. 2006BOUILLON, J., GRAVILI, C., PAGÈS, F., GILI, J. M. & BOERO, F. 2006. An introduction to Hydrozoa. Paris: Publications Scientifiques du Muséum.). The genus Cirrholovenia Kramp, 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259. is to date the sole representative of Cirrholoveniidae, presenting characteristics of the family (Bouillon and Boero 2000BOUILLON, J. & BOERO, F. 2000. Synopsis of the families and genera of the hydromedusae of the world, with a list of the worldwide species. Thalasia Salentina, 24, 47-296., Bouillon et al. 2006BOUILLON, J., GRAVILI, C., PAGÈS, F., GILI, J. M. & BOERO, F. 2006. An introduction to Hydrozoa. Paris: Publications Scientifiques du Muséum., Schuchert 2020SCHUCHERT, P. 2020. WORMS - World register of marine species [online]. Belgium: Flanders Marine Institute. Available at: http://www.marinespecies.org [Accessed: 08/01/2020].
http://www.marinespecies.org... ).

Cirrholovenia was described with the species Cirrholovenia polynemaKramp, 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259. and Cirrholovenia tetranema Kramp, 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259. collected in the Indo-Pacific. The genus was first included in the family Lovenellidae Russell, 1953 (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259.) and later classified as a new family by Bouillon (1984)BOUILLON, J. 1984. Révision de la famille des Phialuciidae (Kramp, 1955) (Leptomedusae, Hydrozoa, Cnidaria), avec un essai de classification des Thecatae-Leptomedusae. Indo-Malayan Zoology, 1(1), 1-24.. Two additional species were described in the genus, Cirrholovenia reticulataXu & Huang, 2004XU, Z. & HUANG, J. 2004. On new species and record of Laingiomedusae and Leptomedusae (Cnidaria, Hydrozoa, Hydroidomedusae) in the Taiwan strait. Journal of Xiamen University (Natural Science), 43(1), 107-114. and Cirrholovenia violaceaGershwin, Zeidler & Davie, 2010GERSHWIN, L., ZEIDLER, W. & DAVIE, P. J. F. 2010. Medusae (Cnidaria) of Moreton Bay, Queensland, Australia. Memoirs of the Queensland Museum, 54(3), 47-108., both in the Western Pacific Ocean (Xu and Huang 2004XU, Z. & HUANG, J. 2004. On new species and record of Laingiomedusae and Leptomedusae (Cnidaria, Hydrozoa, Hydroidomedusae) in the Taiwan strait. Journal of Xiamen University (Natural Science), 43(1), 107-114., Gershwin et al. 2010GERSHWIN, L., ZEIDLER, W. & DAVIE, P. J. F. 2010. Medusae (Cnidaria) of Moreton Bay, Queensland, Australia. Memoirs of the Queensland Museum, 54(3), 47-108.), resulting in four valid species to date (Schuchert 2020SCHUCHERT, P. 2020. WORMS - World register of marine species [online]. Belgium: Flanders Marine Institute. Available at: http://www.marinespecies.org [Accessed: 08/01/2020].
http://www.marinespecies.org... ).

Hydromedusae are diversified, important predators in marine habitats; information on their distribution is essential for understanding species diversity, biogeographic patterns and marine ecosystem functioning (Tewksbury et al. 2014TEWKSBURY, J. J., ANDERSON, J. G. T., BAKKER, J. D., BILLO, T. J., DUNWIDDIE, P. W., GROOM, M. J., HAMPTON, S. E., HERMAN, S. G., LEVEY, D. J., MACHNICKI, N. J., DEL RIO, C. M., POWER, M. E., ROWELL, K., SALOMON, A. K., STACEY, L., TROMBULAK, S. C. & WHEELER, T. A. 2014. Natural history’s place in science and society. BioScience, 64(4), 300-310., Hays et al. 2018HAYS, G. C., DOYLE, T. K. & HOUGHTON, J. D. R. 2018. A paradigm shift in the trophic importance of jellyfish? Trends in Ecology & Evolution, 33(11), 874-884.). During two cruises characterizing the zooplanktonic communities from the tropical and equatorial Western Atlantic Ocean (Bertrand 2015BERTRAND, A. 2015. ABRACOS cruise, RV Antea. Jean Monnet, CS: French Oceanographic Cruises., Neumann-Leitão et al. 2018NEUMANN-LEITÃO, S., MELO, P. A. M. C., SCHWAMBORN, R., DIAZ, X. F. G., FIGUEIREDO, L. G. P., SILVA, A. P., CAMPELO, R. P. S., MELO JÚNIOR, M., MELO, N. F. A. C., COSTA, A. E. S. F., ARAÚJO, M., VELEDA, D. R. A., MOURA, R. L. & THOMPSON, F. 2018. Zooplankton from a reef system under the influence of the Amazon River plume. Frontiers in Microbiology, 9, 1-15., Tosetto et al. 2019TOSETTO, E. G., NEUMANN-LEITÃO, S. & NOGUEIRA JÚNIOR, M. 2019. Sampling planktonic cnidarians with paired nets: implications of mesh size on community structure and abundance. Estuarine, Coastal and Shelf Science, 220, 48-53.) specimens of C. polynema were observed for the first time on the Western side of the Atlantic Ocean. In the present study, we report these occurrences and provide a detailed review of the global distribution of the species along with some insights into the taxonomy of the group.

Specimens were obtained during the “Camadas Finas III” survey conducted in October, 2012, aboard the research vessel NHo. Cruzeiro do Sul - H38 (DHN/Brazilian Navy) off North Brazil and the “Acoustics along the Brazilian coast (ABRACOS 1)” survey conducted in October 2015, aboard the French R/V ANTEA off Northeast Brazil (Coordinates: 7.5°N, 46.0°W; 8.0°N, 42.0°W; 7.0°N, 38.0°W; 2.0°N, 38.0°W; 3.93°S, 32.52°W). Samples were collected in oblique hauls, using a bongo plankton net with 300 µm mesh and 0.6 m opening, from near bottom to surface over the continental shelf, and 200 m depth to surface in open waters. Material was fixed with 4% formaldehyde buffered with sodium tetraborate (0.5 g L^-1). Specimens were deposited in the Museu de Invertebrados Paulo Young from Universidade Federal da Paraíba (CIPY1121, CIPY 1124, CIPY 1125).

The seven specimens sampled presented a lenticular umbrella ranging from 2.4 to 6 mm wide (Fig. 1 a; b), with thin mesoglea. The velum is broad. Manubrium were large with crenulated lips (Fig. 1 a; b). Only one of the specimens presented gonads, which were still developing along the middle of the four radial canals (Fig. 1 b). The two largest species presented 12 fully developed tentacles with heart-shaped bulbs and about two or three rudimentary bulbs between them (Fig. 1 a; b). Up to eight marginal cirri and one or two closed statocysts distributed between successive tentacles (Fig. 1 c).

Figure 1
Cirrholovenia polynema medusae from North Brazil. (a and b) Oral view. (c) Detail of bell margin showing statocysts and marginal cirri.

The four radial canals, presence of closed statocysts and marginal cirri, and absence of a gastric peduncle assigned the specimens to the family Cirrholovenidae and genus Cirrholovenia (Bouillon et al. 2006BOUILLON, J., GRAVILI, C., PAGÈS, F., GILI, J. M. & BOERO, F. 2006. An introduction to Hydrozoa. Paris: Publications Scientifiques du Muséum.). Among the four currently described species in the genus, C. tetranema differs from present specimens by always having four marginal tentacles and no rudimentary bulbs. Its umbrella typically higher than flatter and cylindrical gonads, occupying almost the whole length of the radial canals, also differ in shape and position from our specimens (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259., Bouillon et al. 2004BOUILLON, J., MEDEL, M. D., PAGÈS, F., GILI, J. M., BOERO, F. & GRAVILI, C. 2004. Fauna of the Mediterranean hydrozoa. Scientia Marina, 68(Suppl 2), 5-438.; Table 1). C. reticulata also was described with only four marginal tentacles. However, this species was described based on a single small specimen (0.8 mm) presenting rudimentary bulbs and reticular papillae on the exumbrella (Xu and Huang 2004XU, Z. & HUANG, J. 2004. On new species and record of Laingiomedusae and Leptomedusae (Cnidaria, Hydrozoa, Hydroidomedusae) in the Taiwan strait. Journal of Xiamen University (Natural Science), 43(1), 107-114.; Table 1), typically present in recently released medusae (Bouillon et al. 2006BOUILLON, J., GRAVILI, C., PAGÈS, F., GILI, J. M. & BOERO, F. 2006. An introduction to Hydrozoa. Paris: Publications Scientifiques du Muséum.). Moreover, considering that only a single small medusa of C. reticulata has been described, it is not known whether the rudimentary bulbs will develop tentacles or remain rudimentary as the medusa grows. Thus, C. reticulata may be a juvenile of another species, a hypothesis that should be tested pending more specimens to be found and/or molecular analyses performed. In any case, the present specimens match with C. polynema, which may have up to 20 marginal tentacles, linear gonads along the middle portion of radial canals and up to eight marginal cirri and two statocysts between adjacent tentacles (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259.; Table 1).

The remaining species of the genus, C. violacea, was described with a short and broad gastric peduncle (Gershwin et al. 2010GERSHWIN, L., ZEIDLER, W. & DAVIE, P. J. F. 2010. Medusae (Cnidaria) of Moreton Bay, Queensland, Australia. Memoirs of the Queensland Museum, 54(3), 47-108.). However, the absence of gastric peduncle is a remarkable characteristic distinguishing Cirrholovenidae from other Leptothecata medusae with closed statocysts such as Lovenellidae, where the genus Cirrholovenia was previously included, and Eirenidae Haeckel, 1879 medusae (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259., Bouillon 1984BOUILLON, J. 1984. Révision de la famille des Phialuciidae (Kramp, 1955) (Leptomedusae, Hydrozoa, Cnidaria), avec un essai de classification des Thecatae-Leptomedusae. Indo-Malayan Zoology, 1(1), 1-24., Bouillon et al. 2006BOUILLON, J., GRAVILI, C., PAGÈS, F., GILI, J. M. & BOERO, F. 2006. An introduction to Hydrozoa. Paris: Publications Scientifiques du Muséum.). This issue was apparently overlooked in the C. violacea description; it seems likely that the species has been included in the wrong family and genus. Among Eirenidae, the genus Phialopsis Torrey, 1909 include species with a short and broad gastric peduncle, more than 8 statocysts and marginal cirri, matching with the description of the specimen classified as C. violacea. Although it differed in the number of marginal structures and shape of the gonads from the other two known species of Phialopsis (Table 1), the description was based on a small and immature individual that could develop into one of these two species. Further analysis of the material is necessary to elucidate this question.

C. polynema was first described from the Java Sea (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259.), and is widely distributed in tropical and subtropical areas from the Indo-Pacific, mainly between 30°N and 30°S (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259., 1962KRAMP, P. L. 1962. Medusae of Vietnam. Videnskabelige Meddelelser fra Dansk naturhistorisk Forening i København, 124, 305-366., 1965KRAMP, P. L. 1965. The hydromedusae of the Pacific and Indian Oceans. Copenhagen: Carlsberg Foundation’s., Bouillon et al. 1986BOUILLON, J., CLAEREBOUDT, M. & SEGHERS, G. 1986. Hydroméduses de la baie de Hansa (Mer de Bismarck Papouasie Nouvelle-Guinée) Répartition. Indo-Malayan Zoology, 3(2), 105-152., Du et al. 2012DU, F. Y., XU, Z. Z., HUANG, J. Q. & GUO, D. H. 2012. Studies on the medusae (Cnidaria) from the Beibu gulf in the northern South China Sea, with description of three new species. Acta Zootaxonomica Sinica, 37(3), 506-519.; Fig. 2). Occurrences outside this range also were recorded in temperate areas off New Zealand and Chile (Kramp 1965KRAMP, P. L. 1965. The hydromedusae of the Pacific and Indian Oceans. Copenhagen: Carlsberg Foundation’s., Fagetti 1973FAGETTI, E. G. 1973. Medusas de aguas chilenas. Revista de Biología Marina, 15(1), 31-75.; Fig. 2). In the Atlantic Ocean the species was only recorded in St. Helena Bay, South Africa (Buecher and Gibbons 2000BUECHER, E. & GIBBONS, M. J. 2000. Interannual variation in the composition of the assemblages of medusae and ctenophores in St. Helena Bay, Southern Benguela Ecosystem. Scientia Marina , 64(Suppl 1), 123-134., Gibbons and Buecher 2001GIBBONS, M. J. & BUECHER, E. 2001. Short-term variability in the assemblage of medusae and ctenophores following upwelling events in the southern Benguela ecosystem. Marine Ecology Progress Series, 220, 169-177.; Fig. 2), this area is under influence of the Benguela Current, which is partially fed by the Agulhas Current (Pagès and Gili 1992PAGÈS, F. & GILI, J. M. 1992. Influence of Agulhas waters on the population structure of planktonic Cnidarians in the southern Benguela Region. Scientia Marina , 56(2-3), 109-123.), coming from the Indian Ocean, thus the presence of the species could be expected there. In this study, we observed C. polynema in several locations of the tropical western border of the Atlantic Ocean for the first time, confirming the species is present in the Atlantic far beyond the influence of Agulhas Current in South Africa and ubiquitous to all ocean basins.

Figure 2
Global distribution of Cirrholovenia polynema based on this study and published records. The continuous line shows the 250-m isobath, roughly corresponding to the shelf break (generated using Ocean Data View software; Schlitzer, 2007). Data Source: 1 = This study; 2 = (Kramp 1959KRAMP, P. L. 1959. Some new and little-known Indo-Pacific medusae. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 121, 223-259.); 3 = (Kramp 1962KRAMP, P. L. 1962. Medusae of Vietnam. Videnskabelige Meddelelser fra Dansk naturhistorisk Forening i København, 124, 305-366.); 4 = (Kramp 1965KRAMP, P. L. 1965. The hydromedusae of the Pacific and Indian Oceans. Copenhagen: Carlsberg Foundation’s.); 5 = (Michel 1969MICHEL, A. 1969. Plancton du lagon et des abords extérieurs de l’atoll de Mururoa. Cahiers du Pacifique, 13, 81-131.); 6 = (Fagetti 1973FAGETTI, E. G. 1973. Medusas de aguas chilenas. Revista de Biología Marina, 15(1), 31-75.); 7 = (Bouillon et al. 1986BOUILLON, J., CLAEREBOUDT, M. & SEGHERS, G. 1986. Hydroméduses de la baie de Hansa (Mer de Bismarck Papouasie Nouvelle-Guinée) Répartition. Indo-Malayan Zoology, 3(2), 105-152.); 8 = (Du et al. 2012DU, F. Y., XU, Z. Z., HUANG, J. Q. & GUO, D. H. 2012. Studies on the medusae (Cnidaria) from the Beibu gulf in the northern South China Sea, with description of three new species. Acta Zootaxonomica Sinica, 37(3), 506-519.); 9 = (Buecher and Gibbons 2000BUECHER, E. & GIBBONS, M. J. 2000. Interannual variation in the composition of the assemblages of medusae and ctenophores in St. Helena Bay, Southern Benguela Ecosystem. Scientia Marina , 64(Suppl 1), 123-134.); 10 = (Gibbons and Buecher 2001GIBBONS, M. J. & BUECHER, E. 2001. Short-term variability in the assemblage of medusae and ctenophores following upwelling events in the southern Benguela ecosystem. Marine Ecology Progress Series, 220, 169-177.).

Four of the five specimens were collected in tropical open ocean up to 1000 km away from the coast (surface temperature ranging from 28 to 29.6°C and surface salinity ranging from 32.78 to 36.08) and one around the Fernando de Noronha Archipelago (26.6°C surface temperature and 36.2 surface salinity). As a meroplanktonic species, many occurrences of C. polynema were over the continental shelf (Kramp 1962KRAMP, P. L. 1962. Medusae of Vietnam. Videnskabelige Meddelelser fra Dansk naturhistorisk Forening i København, 124, 305-366., 1965KRAMP, P. L. 1965. The hydromedusae of the Pacific and Indian Oceans. Copenhagen: Carlsberg Foundation’s., Gibbons and Buecher 2001GIBBONS, M. J. & BUECHER, E. 2001. Short-term variability in the assemblage of medusae and ctenophores following upwelling events in the southern Benguela ecosystem. Marine Ecology Progress Series, 220, 169-177.), where benthic hydroids may easily find substrates for their development. Yet, its presence in offshore areas slightly away from the shelf break and around oceanic islands is not unusual (Kramp 1965KRAMP, P. L. 1965. The hydromedusae of the Pacific and Indian Oceans. Copenhagen: Carlsberg Foundation’s., Michel 1969MICHEL, A. 1969. Plancton du lagon et des abords extérieurs de l’atoll de Mururoa. Cahiers du Pacifique, 13, 81-131.), suggesting the species can potentially inhabit this environment (probably driven by currents) reaching new areas for polyp settlement, and it would justify its wide distribution in tropical and subtropical areas around the world.

Knowledge regarding zooplankton biodiversity in general and cnidarians in particular from the waters off North and Northeast Brazil is scarce (Oliveira et al. 2016OLIVEIRA, O. M. P., MIRANDA, T. P., ARAUJO, E. M., AYÓN, P., CEDEÑO-POSSO, C. M., CEPEDA-MERCADO, A. A., CÓRDOVA, P., CUNHA, A. F., GENZANO, G. N., HADDAD, M. A., MIANZAN, H. W., MIGOTTO, A. E., MIRANDA, L. S., MORANDINI, A. C., NAGATA, R. M., NASCIMENTO, K. B., NOGUEIRA JÚNIOR, M., PALMA, S., QUIÑONES, J., RODRIGUEZ, C. S., SCARABINO, F., SCHIARITI, A., STAMPAR, S. N., TRONOLONE, V. B. & MARQUES, A. C. 2016. Census of Cnidaria (Medusozoa) and Ctenophora from South American marine waters. Zootaxa, 4194(1), 1-256., Boltovskoy and Valentin 2018BOLTOVSKOY, D. & VALENTIN, J. L. 2018. Overview of the history of biological oceanography in the Southwestern Atlantic, with emphasis on plankton. In: HOFFMEYER, M. S., SABATINI, M. E., BRANDINI, F. P., CALLIARI, D. L. & SANTINELLI, N. H. (eds.). Plankton ecology of the Southwestern Atlantic. New York: Springer Science/Business Media, pp. 3-34.). Thus, the current report contributes not only to the understanding of local biodiversity, but also for and adequate comprehension of global biogeographic and diversity patterns.

ACKNOWLEDGEMENTS

We are grateful to the support of Brazilian National Institute of Science and Technology for Tropical Marine Environments, Brazilian Research Network on Global Climate Change, European Integrated CARBOCHANGE for funding the survey Camadas Finas 3 and the French oceanographic fleet for funding the survey ABRAÇOS 1 and to the officers, crew and scientific team of the Camadas Finas 3 and ABRAÇOS 1 research projects for their contributions to the success of the operations. The present study was not possible without the support of all members from LABZOO and other laboratories from UFPE and UFRPE. We thank the CNPq (Brazilian National Council for Scientific and Technological Development), which provided a PhD scholarship to EGT (grant 140897/2017-8) and a Research Scholarship to SNL. This work is a contribution to the LMI TAPIOCA (www.tapioca.ird.fr).

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