Isophyllia, MILNE EDWARDS & HAIME, 1851

Budd, Ann F., Fukami, Hironobu, Smith, Nathan D. & Knowlton, Nancy, 2012, Taxonomic classification of the reef coral family Mussidae (Cnidaria: Anthozoa: Scleractinia), Zoological Journal of the Linnean Society 166 (3), pp. 465-529 : 499-505

publication ID	https://doi.org/10.1111/j.1096-3642.2012.00855.x
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scientific name	Isophyllia
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GENUS ISOPHYLLIA MILNE EDWARDS & HAIME, 1851 View in CoL A: 87 ( FIGS 9C, D View Figure 9 , 13A–F View Figure 13 , 19A–F View Figure 19 , 23A–F View Figure 23 )

Synonyms: Isophyllastrea Matthai, 1928: 262 [type species: Astraea rigida Dana, 1846: 237 ; pl. 12, fig. 8a–d (by original designation).]

Type species: Oulophyllia ? spinosa Milne Edwards & Haime, 1849: 269, holotype = MNHN-Scle866 ( Fig. 9C, D View Figure 9 ) [= Madrepora sinuosa Ellis & Solander, 1786: 160 ]; by original designation.

Type species locality: ‘Patrie inconnue’ ( Milne Edwards & Haime, 1849: 269) [Recent].

Early descriptions:

1. ‘Polypier massif; multiplication par fissiparité; polypiérites à centres distincts, restant confondus en séries courtes qui sont soudées entre elles latéralement; cloisons fortement dentées, et dont les dents sont subégales; columelle rudimentaire; endothèque très-abondante; épithèque distincte.’ ( Milne Edwards & Haime, 1851a: 87).

2. Original description, Isophyllastrea : ‘Corallum. Massive. Corallites mostly with mono- and di-stomodaeal polyps, those with monostomodaeal ones 10–12 mm in diameter. Colline somewhat thick, faintly grooved above or ridged. Septa thickening towards wall, comparatively narrow, slightly sloping or almost vertical. Septal margins with teeth more or less resembling those in Isophyllia , sides of septa rough or spinulose. Septa meeting in groove on colline or continuous over ridged colline, exsert ends toothed. Columella feebly developed, consisting of loosely interlocking septal trabeculae.’ ( Matthai, 1928: 262).

Subsequent morphological descriptions ( Matthai, 1928 and later): Matthai (1928: 235–248, 262–268); Vaughan & Wells (1943: 192–193, 195–196); Wells (1956: F418, F419); Walton Smith (1971: 92–94);

Zlatarski & Estalella (1982: 177–182); Veron (2000: vol. 3: 36–37).

Diagnosis: Macromorphology: colonial. Intracalicular budding; initially circumoral. Meandroid (uniserial), usually short series (<five centres per series); medium calices (2.5–5 cm) with high relief (> 6 mm); three or more septal cycles, equal; thin, costate coenosteum; costae not confluent; weak continuous columella with trabecular linkage; reduced epitheca; no septal or paliform lobes; abundant endotheca ( Figs 9C, D View Figure 9 , 13A–F View Figure 13 ).

Microstructure: parathecal wall with trabeculothecal elements. Well-developed clusters of calcification centres encircled by concentric rings of fibrous thickening deposits; clusters cross medial lines; reduced thickening deposits ( Fig. 23A–F View Figure 23 ).

Micromorphology: high (> 0.6 mm), widely spaced (1–2 mm), spine-shaped, pointed teeth, regularly arranged; layered (banded) interarea of septal teeth; teeth in major and minor septal cycles similar in size; compact columella, with columellar teeth differing in size and shape from septal teeth; spiky, aligned granules ( Fig. 19A–F View Figure 19 ).

Included species: Isophyllia sinuosa ( Ellis & Solander, 1786: 160) [holotype is from ‘Oceano Indie occidentalis’, and is lost; neotype (herein designated) = SUI102759 View Materials ( FA1134 ), Fig. 13A, B View Figure 13 , Key Largo , Florida] .

Isophyllia multiflora ( Verrill, 1901: 125) View in CoL [holotype = YPM4009 About YPM , Fig. 13C, D View Figure 13 , Bermuda] .

Isophyllastrea rigida View in CoL ( Dana, 1846: 237, pl. 12, fig. 8a–d) [holotype = YPM4297 About YPM , Fig. 13E, F View Figure 13 , West Indies ] .

Remarks: Milne Edwards & Haime (1849) originally designated Oulophyllia ? spinosa as the type species of Isophyllia based on a specimen in their collection (MNHN-Scle866). As indicated in Matthai (1928: 237), this species has subsequently been synonymized with Isophyllia sinuosa (Ellis & Solander) , the type specimen of which is lost. A neotype (SUI102759, collected in Key Largo, Florida) has been therefore designated for Isophyllia sinuosa .

In the classification system of Vaughan & Wells (1943) and Wells (1956), the genus Isophyllia is distinguished by having a meandroid colony form, and centres with trabecular linkage; colonies form initially by circumoral budding ( Vaughan & Wells, 1943: 192). These authors point out that Isophyllia differs from Symphyllia (its superficially similar Indo-Pacific counterpart), in that Symphyllia has longer series and ·

centres with lamellar linkage. Our observations show Isophyllia differs from Mycetophyllia , in that Mycetophyllia lacks coenosteum and has confluent costosepta, centres with lamellar linkage, and paliform lobes. Isophyllia differs from Indo-Pacific Symphyllia in Isophyllia ’s possession of an epitheca, the shape of their septal teeth and granules, and the fact that teeth in major and minor septal cycles in Symphyllia differ in size and shape.

In the classification system of Vaughan & Wells (1943) and Wells (1956), the monotypic genus Isophyllastrea is similar to Isophyllia in having similarly shaped, large teeth (regular, pointed with circular bases); colonies that form initially by circumoral budding; and short series with trabecular linkage. It is distinguished by having a cerioid colony form and feeble columella ( Vaughan & Wells, 1943: 193, 195– 196). However, our observations show that Isophylllastrea is not truly cerioid because it has coenosteum, like Isophyllia , and columellae in the two taxa are equally developed ( Fig. 23A, B, D, E View Figure 23 ). Moreover, molecular data (cyt b and COI) show that Isophyllia sinuosa and Isophyllastrea rigida are identical (H. Fukami, unpubl. data). Nevertheless Isophyllastrea rigida is distinguished from Isophyllia sinuosa on the basis of microstructure (well-developed concentric rings associated with septal teeth, Fig. 23D–F View Figure 23 ), and micromorphology (smooth interarea of teeth, Fig. 19D–F View Figure 19 ). We feel that the similarities outweigh the differences, and synonymize the genus Isophyllastrea with Isophyllia , as in Zlatarski & Estalella (1982) and Veron (2000) but not Walton Smith (1971) and not Cairns, Hoeksema & Land (1999). We consider the two species to be distinct.

Following Matthai (1928), Walton Smith (1971) recognized three species of Isophyllia + Isophyllastrea ( Isophyllia sinuosa , Isophyllia multiflora , Isophyllastrea rigida ); whereas Zlatarski & Estalella (1982) recognized only one species ( Isophyllia sinuosa ), and Cairns, Hoeksema & Land (1999) recognized two species ( Isophyllia sinuosa , Isophyllastrea rigida ). Veron (2000) recognized Isophyllia sinuosa and Isophyllastrea rigida . The three possible species of Isophyllia recognized herein ( I. sinuosa , I. multiflora , I. rigida ) are distinguished on the basis of number of centres per series, calice width, and number of septa per cm ( Fig. 13 View Figure 13 ). Isophyllia sinuosa and I. multiflora form series (valleys with two or more centres), whereas I. rigida is usually monocentric. Valley widths in I. sinuosa average 20–25 mm, in I. multiflora 12–15 mm, and in I. rigida 10–12 mm. Number of septa per cm range from seven to nine in I. sinuosa , and 11–12 in I. multiflora . I. rigida has 25–30 septa per corallite (more than three septal cycles).

References

Cairns SD, Hoeksema BW, Land J. 1999. Appendix: list of extant stony corals. Atoll Research Bulletin 459: 13 - 46.

Dana JD. 1846. Zoophytes. U. S. Exploring Expedition 1838 - 1842 7: 1 - 740, pl. 1 - 61.

Ehrenberg CG. 1834. Die Corallenthiere des rothen Meeres physiologisch Untersucht und systematisch Verzeichnet. Beitrage zur physiologischen Kenntniss der Corallenthiere im allgemeinen und besonders des rothen Meeres, nebst einem Versuche zur physiologischen Systematik derselben. Koniglichen Akademie Der Wissenschaften Berlin, Abhandlungen 1832: 225 - 380.

Ellis J, Solander DC. 1786. The natural history of many curious and common zoophytes. London: Benjamin White & Son. 208 pp., 63 pls.

Esper EJC. 1795. Fortsetzungen der pflanzenthiere. Vol. 1. Nurnberg: Raspeschen Buchhandlung, 65 - 116.

Houttuyn M. 1772. Natuurlyke historie of uitvoerige beschryving ver dieren, planten en mineraalen, volgens het samenstel van den heer Linnaeus. Amsterdam: De erven van F. Houttuyn. 614 pp., pl. 126 - 138.

Laborel J. 1967. A revised list of Brazilian scleractinian corals and description of a new species. Postilla 107: 1 - 14.

Linnaeus C. 1758. Systema Naturae per regna tria naturae, secundum Classes, Ordines, Genera, Species, cum characteribus, differentiis, sonymis, locis. Tomus I. Regnum Animale. Holmiae, Editio Decima, Reformata. 824 pp.

Matthai G. 1928. A monograph of the recent meandroid Astraeidae. Catalogue of the Madreporarian Corals in the British Museum (Natural History) 7: 1 - 288, pl. 1 - 72.

Milne Edwards H, Haime J. 1849. Recherches sur les polypiers. Quatrieme memoire. Monographie des astreides (1). Tribu II. Astreens (Astreinae). Annales Des Sciences Naturelles, Serie 3, Zoologie 11: 233 - 312.

Milne Edwards H, Haime J. 1851 a. Monographie des polypiers fossiles des terrains paleozoiques precedee d'un tableau general de la classification des polypes. Museum National D'histoire Naturelle, Paris, Archives 5: 1 - 502. 20 pls.

Ortmann AE. 1890. Die Morphologie des Skeletts des Steinkorallen in Beziehung zur Koloniebildung. Zeitschrift Fur Wissenschaftliche Zoologie, Leipzig 50: 278 - 316.

Pallas PS. 1766. Elenchus zoophytorum. Hagae-Comitum: Apud Petrum van Cleef. 451 pp.

Vaughan TW, Wells JW. 1943. Revision of the suborders, families, and genera of the Scleractinia. Geological Society of America Special Paper 104: 1 - 363. pl. 1 - 51.

Veron JEN. 2000. Corals of the world, 3 vols. Townsville, Qld: Australian Institute of Marine Science.

Verrill AE. 1868. Notes on the Radiata in the Museum of Yale College, with descriptions of new genera and species. No. 4. Notice of the corals and echinoderms collected by Prof. C. F. Hartt, at the Abrolhos Reefs, Province of Bahia, Brazil, 1867. Connecticut Academy of Arts and Science, Transactions 1: pt 2, art. V: 351 - 371.

Verrill AE. 1901. Variations and nomenclature of Bermudian, West Indian, and Brazilian reef corals, with notes on various Indo-Pacific corals. Connecticut Academy of Arts and Sciences Transactions 11: pt. 1, art. 3: 63 - 168. pl. 10 - 35.

Walton Smith FG. 1971. Atlantic reef corals. Coral Gables, FL: University of Miami Press. pl. 94 - 185.

Wells JW. 1956. Scleractinia. In: Moore RC, ed. Treatise on invertebrate paleontology, vol. F. Lawrence, KS: Geological Society of America and University of Kansas Press, F 328 - F 444.

Wells JW. 1973. New and old scleractinian corals from Jamaica. Bulletin of Marine Science 23: 16 - 58.

Zlatarski VN, Estalella NM. 1982. Les Scleractiniaires de Cuba avec des donnees sur les organismes associes. Sofia: Editions de l'Academie bulgare des Sciences.

Figures

Figure 9. Type specimens of type species of genera in the subfamily Mussinae. A, B, genus Mussa Oken, 1815; Madrepora angulosa Pallas, 1766; neotype (designated herein) = YPM9035, Lime Cay, Port Royal, Jamaica. C, D, genus Isophyllia Milne Edwards & Haime, 1851a; Oulophyllia? spinosa Milne Edwards & Haime, 1849 [= Isophyllia sinuosa (Ellis & Solander)]; holotype = MNHN-scle866, unknown locality. E, F, genus Mycetophyllia Milne Edwards & Haime, 1848; Mycetophyllia lamarckiana Milne Edwards & Haime, 1849; holotype = MNHN-scle910, unknown locality. G, H, genus Scolymia Haime, 1852; Madrepora lacera Pallas, 1766; neotype (designated herein) = YPM9036, Rio Bueno, Jamaica.

Figure 13. Isophyllia macromorphology. Isophyllia is distinguished by short, uniserial valleys; coenosteum; and trabecular linkage between centres. The three species differ in number of centres per series, calice width, and number of septa per cm. A, B, Isophyllia sinuosa (Ellis & Solander, 1786); neotype (designated herein) = SUI102759 (FA1134), Key Largo, Florida, USA. C, D, Isophyllia multiflora (Verrill, 1901); holotype = YPM4009, Bermuda. E, F, Isophyllia rigida (Dana, 1846); holotype = YPM4297, West Indies.

Figure 19. Isophyllia and Mycetophyllia micromorphology (scanning electron microscopy): left column, wall; middle column, mid-septum; right column, columella. Isophyllia and Mycetophyllia have high (> 0.6 mm), widely spaced (1–2 mm), spine-shaped teeth; a horizontally layered interarea of septal teeth; and fine granules on the sides of teeth. A–C, Isophyllia sinuosa (Ellis & Solander, 1786); figured specimen = SUI102757 (FA1014), Bocas del Toro, Panama. D–F, Isophyllia rigida (Dana, 1846); figured specimen = SUI102753 (FA1074), Bocas del Toro, Panama. G–I, Mycetophyllia lamarckiana (Milne Edwards & Haime, 1849); figured specimen = SUI102773 (FA1133), Discovery Bay, Jamaica. J–L, Mycetophyllia aliciae (Wells, 1973); figured specimen = SUI102769 (FA1006), Bocas del Toro, Panama. M–O, Mycetophyllia danaana? (Milne Edwards & Haime, 1849); figured specimen = SUI102771 (FA1002), Bocas del Toro, Panama.

Figure 23. Isophyllia and Mycetophyllia microstructure (transverse thin section): left column, wall; middle column, mid-septum; right column, close-up of clusters. Both Isophyllia and Mycetophyllia have parathecal walls (w) with trabeculothecal elements, well-developed clusters of calcification centres (c) that cross medial lines, and reduced thickening deposits. A–C, Isophyllia sinuosa (Ellis & Solander, 1786); figured specimen = SUI102757 (FA1014), Bocas del Toro, Panama. D–F, Isophyllia rigida (Dana, 1846); figured specimen = SUI102752 (FA1009), Bocas del Toro, Panama. G–I, Mycetophyllia lamarckiana (Milne Edwards & Haime, 1849); figured specimen = SUI102773 (FA1133), Discovery Bay, Jamaica. J–L, Mycetophyllia aliciae (Wells, 1973); figured specimen = SUI102768 (FA1005), Bocas del Toro, Panama. M–O, Mycetophyllia danaana? (Milne Edwards & Haime, 1849); figured specimen = SUI102771 (FA1002), Bocas del Toro, Panama.