Cordylophora caspia Pallas 1771

Cordylophora caspia (Pallas, 1771) Fig. 1f Tubularia caspia Pallas, 1771: 479. Cordylophora lacustris Wurtz & Roback, 1955: 178.— Mason et al ., 1994: 152. Type locality. "In Mari Caspio…" (Pallas 1771: 479). Material examined. Caloosahatchee River at Fort Myers, on floating dock, <...

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Bibliographic Details
Main Author: Calder, Dale R.
Format: Text
Language:unknown
Published: Zenodo 2019
Subjects:
Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Anthoathecata
Cordylophoridae
Cordylophora
Cordylophora caspia
Myers
Little River
Suwannee River
North Atlantic
Online Access:https://dx.doi.org/10.5281/zenodo.4581830
https://zenodo.org/record/4581830
Description
Summary:Cordylophora caspia (Pallas, 1771) Fig. 1f Tubularia caspia Pallas, 1771: 479. Cordylophora lacustris Wurtz & Roback, 1955: 178.— Mason et al ., 1994: 152. Type locality. "In Mari Caspio…" (Pallas 1771: 479). Material examined. Caloosahatchee River at Fort Myers, on floating dock, <1 m, 22° C, 0.17‰, 02 November 2017, one colony, 0.9 cm high, without gonophores, coll. D. Calder, ROMIZ B4328.— Caloosahatchee River at Fort Myers, on floating dock, <1 m, 20° C, 6‰, 06 February 2018, several colonies, up to 9 mm high, with gonophores, coll. D. Calder, ROMIZ B4329. Remarks. Cordylophora caspia is reported here for the first time from the southwest coast of Florida. The species has been recorded previously from the Escambia River (Wurtz & Roback 1955) and from the Suwannee River system (Mason et al . 1994), both in northern parts of the state. Somewhat inland from the Gulf coast of Florida, colonies of C. caspia were found by Streever (1992) in a flooded cave system at Little River Spring, Suwannee County. When first collected during this study, from the Caloosahatchee River estuary at Fort Myers, Florida (ROMIZ B4328), specimens of C. caspia were dormant. Within 24 hours, however, a hydranth appeared on one of the hydrocauli held in a fingerbowl of brackish water. Colonies are believed to have been inactive at the time due to environmental stresses introduced after passage of Hurricane Irma through south Florida on 11 September 2017. As a result of the storm, heavy freshwater discharge into the river from nearby Lake Okeechobee had been authorized by the United States Army Corps of Engineers to prevent catastrophic flooding in the vicinity. Normal salinities at the location are in the oligohaline (0.5–5‰) to mesohaline (5–18‰) range, but river waters at Fort Myers were still fresh (0.17‰) when the dormant stems and stolons were collected. At the same site a few months later, active colonies with gonophores (ROMIZ B4329) were collected (06 February 2018) in salinities that were somewhat higher (6‰). With still higher salinities (15‰) the following month (29 March 2018), however, neither active nor inactive colonies were found. Remarks on this well-known invasive hydroid, and on the likely existence of cryptic species under the name C. caspia , have been given previously (Folino 2000; Schuchert 2004; Folino-Rorem et al . 2009; Calder 2010). Reported distribution. Gulf coast of Florida. Escambia River, 1.2 miles (1.9 km) from mouth (Wurtz & Roback 1955: 178, as Cordylophora lacustris ).—Suwannee River and Estuary (Mason et al . 1994: 152, as Cordylophora lacustris ). Elsewhere in western North Atlantic. Atlantic and Gulf coasts of North America: widespread in areas of low salinity (see Folino 2000; Folino-Rorem et al . 2009; National Exotic Marine and Estuarine Species Information System: http://invasions.si.edu/nemesis/CH-INV.jsp?Species_name= Cordylophora +caspia). : Published as part of Calder, Dale R., 2019, On a collection of hydroids (Cnidaria, Hydrozoa) from the southwest coast of Florida, USA, pp. 1-141 in Zootaxa 4689 (1) on page 16, DOI: 10.11646/zootaxa.4689.1.1, http://zenodo.org/record/3519047 : {"references": ["Pallas, P. S. (1771) Reise durch verschiedene Provinzen des russischen Reichs. Erster Theil. Kayserliche Academie der Wissenschaften, St. Petersburg, 504 pp.", "Wurtz, C. B. & Roback, S. S. (1955) The invertebrate fauna of some Gulf Coast rivers. Proceedings of the Academy of Natural Sciences of Philadelphia, 107, 167 - 206.", "Mason, W. T. Jr., Mattson, R. A. & Epler, J. H. (1994) Benthic invertebrates and allied macrofauna in the Suwannee River and estuary ecosystem, Florida. Florida Scientist, 57 (4), 141 - 160.", "Streever, W. J. (1992) First record of the colonial cnidarian Cordylophora lacustris within a flooded cave system. National Speleological Society Bulletin, 54, 77 - 78.", "Folino, N. C. (2000) The freshwater expansion and classification of the colonial hydroid Cordylophora (Phylum Cnidaria, Class Hydrozoa). In: Pederson, J. (Ed.), Marine bioinvasions: proceedings of the first national conference, January 24 - 27, 1999. Massachusetts Institute of Technology Sea Grant College Program, Cambridge, Massachusetts, pp. 139 - 144.", "Schuchert, P. (2004) Revision of the European athecate hydroids and their medusae (Hydrozoa, Cnidaria): families Oceanidae and Pachycordylidae. Revue Suisse de Zoologie, 111, 315 - 369. https: // doi. org / 10.5962 / bhl. part. 80242", "Folino-Rorem, N. C., Darling, J. A. & D'Ausilio, C. A. (2009) Genetic analysis reveals multiple cryptic invasive species of the hydrozoan genus Cordylophora. Biological Invasions, 11, 1869 - 1882. https: // doi. org / 10.1007 / s 10530 - 008 - 9365 - 4", "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"]}

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