April 30, 2015 
Lawrence, Kansas, USA
ISSN 1946-0279 (online)
paleo.ku.edu/contributions
Number 13 
Paleontological Contributions
A new rhizangiid genus from the Miocene of North America 
(Sclerangia n. gen.; Florida, USA)
Rosemarie Christine Baron-Szabo and Stephen Douglas Cairns

April 30, 2015 Number 13
Copyright © 2015, The University of Kansas, Paleontological Institute
Paleontological Contributions
A NEW RHIZANGIID GENUS FROM THE MIOCENE OF NORTH AMERICA 
(SCLERANGIA N. GEN.; FLORIDA, USA)
Rosemarie Christine Baron-Szabo1,2* and Stephen Douglas Cairns1
1Department of Invertebrate Zoology, Smithsonian Institution, Washington, DC, USA; 2Senckenberg Research Institute, Frankfurt/Main, 
Germany; e-mail:rosemarie_baronszabo@yahoo.com and Rosemarie.Baron-Szabo@senckenberg.de; CAIRNSS@si.edu
ABSTRACT
The colonial rhizangiid genus Sclerangia n. gen. is described from the Miocene of the USA (Chipola Formation, Florida). 
The new genus is characterized by plocoid to subcerioid polyp integration, cylindrical to subcylindrical or tympanoid coral-
lites, and an endotheca that is generally absent or made of a very small number of vesicular dissepiments. Compared to other 
rhizangiid genera, the new taxon is characterized by rather weakly dentate septa. In addition, the new genus differs from all 
the rhizangiid genera by its consistent encrustation of dead gastropod shells that are inhabited by sipunculid worms. 
Keywords: Chipola Formation, Scleractinia, Thysanus
*Corresponding author.
INTRODUCTION
Based on the holotype CH 4-1a (housed at the Department of 
Geology, FSU) of the species Thysanus vaughani Weisbord, 1971, 
from the Miocene Chipola Formation of Florida, Wells (1972) cre-
ated the rhizangiid genus Symbiangia. In addition, Wells (1972, pl. 
1, fig. 1-8) included seven topotypes in his new genus, all of which 
are housed at the Smithsonian Institution, Washington, DC, under 
USNM I171258-I171264. However, recent investigations by the 
authors of the current work (unpublished data) revealed that the 
holotype of Thysanus vaughani Weisbord differs from six of the 
topotypes in that it 1) represents a flabellate form with intracalicular 
budding; 2) has parathecal structures which appear to be irregularly 
internally thickened by a stereome (not mentioned by Weisbord); 3) 
is reported to have a lamellar columella (see Weisbord, 1971, p. 23); 
and, unlike rhizangiid forms, 4) seems to have less developed septal 
teeth and granules, hence resembling the mussid genus “Thysanus 
Duncan, 1863” (the assumed presence of a stereome in Weisbord’s 
material might, however, distinguish it from “Thysanus Duncan, 
1863”; for key characteristics of “Thysanus” see further down). In 
contrast, six of the topotypes: 1) show rhizangiid structures that are 
developed as in e.g., Arctangia Wells, 1937, Astrangia Milne Edwards 
and Haime, 1848, and Cladangia Milne Edwards and Haime, 1851; 
2) have plocoid to subcerioid corallites produced by extracalicular 
budding; 3) generally lack endothecal dissepiments; and 4) have oc-
casional septoparathecal developments. Therefore, these six topotypes 
are removed from the genus Symbiangia Wells, 1972, and assigned to 
the new genus Sclerangia. The seventh topotype which was originally 
included by Wells (=specimen I171264) is excluded here because its 
septal flanks are smooth or have very delicate ornamentations and 
it has thin, vesicular endothecal dissepiments. 
It should be noted, that the genus “Thysanus Duncan, 1863”, is 
a junior homonym of the hymenopteran genus Thysanus Walker, 
1840. Because, up to now, no replacement taxon has been created 
for Duncan’s genus, here the name is solely used in reference to its 
genus concept as it has an invalid nomenclatural status. “Thysanus 
Duncan, 1863” is characterized by: 1) a flabellate corallum formed 
by intracalicular budding, resulting in polyps arranged in one linear 
series; 2) compact costosepta that have lobate to claviform axial 
edges (especially referring to oldest septa); 3) a parathecal wall; 4) 
fine spiniform granules on the septal flanks, youngest septa often 
nearly smooth; 4) an endotheca consisting of both large and short 
vesicular dissepiments; and 5) a lamellar columella, discontinuous. 
In the current paper, the material (USNM I171258-I171263) 
that was formerly considered as topotypes of the type species of the 
Paleontological Contributions, number 132
rhizangiid genus Symbiangia Wells, 1972, is used as the basis for 
the new genus Sclerangia, with the holotype USNM I171263 and 
the paratypes USNM I171258-I171262. 
Genus SCLERANGIA, new genus
Type species.—Sclerangia floridana n. sp., here designated.
Etymology.—Combination of the word stem scler- [Greek, meaning 
hard; also the root of Scleractinia] with the ending –angia [Greek, 
meaning small vessel or container (referring to shape of the coral-
lites)]; the latter is commonly used for rhizangiid genera. 
Diagnosis.—Corallum colonial, plocoid to subcerioid. Budding 
extracalicular. Colonies always encrust shells of dead gastropods that 
are inhabited by sipunculids. Corallites cylindrical to subcylindrical 
or tympanoid. Costosepta have spiniform and rounded granules 
laterally, developed as in e.g., Arctangia Wells, 1937, Astrangia Milne 
Edwards and Haime, 1848, and Cladangia Milne Edwards and 
Haime, 1851. Axial edges of all septa coarsely dentate. Costae short 
or absent. Columella spongy-papillose or formed by irregularly shaped 
trabecular segments. Paliform structures irregularly present before all 
septa. Endotheca generally absent or made of a very small number 
of vesicular dissepiments. Wall parathecal and septoparathecal. 
Comparison.—The new genus is closely related to Astrangia Milne 
Edwards and Haime, 1848, and Cladangia Milne Edwards and 
Haime, 1851 but, in Astrangia, the wall is septoparathecal and is 
incomplete, ramose colonies are formed, and endothecal dissepiments 
occur throughout the colony. In Cladangia subramose and fasciculate 
types of polyp integration occur, extra- and intracalicular budding 
types are present, endothecal dissepiments occur throughout the 
colony, and more solid wall structures (septothecal-septoparathecal) 
are developed. 
Sclerangia floridana, new species
Figure 1. 1–5
Holotypus.—USNM I171263.
Etymology.—Refers to the location from which the material was 
collected (Florida, USA).
Locus typicus.—Calhoun County, Florida, USA.
Stratum typicum.—Chipola Formation, Miocene. 
Diagnosis.—As for genus.
Discription.—Corallites are shallow, 3.0–4.5 mm in diameter, 
and rounded to subpolygonal in outline. Costosepta are developed 
in 3 complete cycles in 6 systems. In some corallites, septa of the 
incipient 4th cycle are present. Septa of the first two cycles (S1–S2) 
are subequal or irregularly alternate in length and thickness. In some 
corallites, S1 are slightly longer than S2. Trabecular prolongations 
of axial edges of S1–S2 generally reach the corallite center where 
they fuse with the columella. Septa of the 3rd cycle are generally 
significantly shorter, often spine-like. 
Material.—Five paratypes USNM I171258-I171262.
Comparison.—Monotypic.
Figure 1. 1–5. Sclerangia floridana n. gen, and sp., Miocene, Chipola Formation, Calhoun County, Florida, United States; 1, 2. holotype, USNM 
I171263; upper surface of colony (1) and close-up of 1 (2); 3-5, paratypes USNM I171260 (3), USNM I171259 (4), and USNM I171258 (5) (scale 
bars: 1, 4 = 2.5 mm; 2, 3, 5 = 2 mm). 
Baron-Szabo and Cairns—new rhizangiid genus Sclerangia 3
ACKNOWLEDGMENTS
We would like to thank two anonymous reviewers for their 
helpful and encouraging reviews. We are grateful to Robert Ford 
(SI) for preparing the scans of the material used in this work and 
to Nancy Budd (University of Iowa) for helpful discussions on coral 
taxonomy. As a Research Associate of the Smithsonian Institution 
(SI) Washington, DC, USA, and an Honorary Researcher at the 
Research Institute Senckenberg, Frankfurt, Germany, the author 
RCBS would like to express her deep appreciation for the continu-
ing support from these institutions. 
REFERENCES 
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