Systema Porifera: A Guide to the Classification of Sponges, Edited by John N.A. Hooper and Rob W.M. Van Soest 
? Kluwer Academic/Plenum Publishers, New York, 2002 
Family Tetillidae Sollas, 1886 
Rob W.M. Van Soest1 & Klaus Rutzler2 
'Zoological Museum, University of Amsterdam, P.O. Box 94766, 1090 GT, Amsterdam, Netherlands, (soest@science.uva.nl) 
^ National Museum of Natural History, Smithsonian Institution, Washington DC. 20560, U.S.A. (ruetzler.klaus@nmnh.si.edu) 
Tetillidae Sollas (Demospongiae, Spirophorida) are for the most part globular sponges ('golf ball' sponges) belonging to a small order on 
account of their possession of sigmaspire microscleres and triaene megascleres. The characteristic megasclere is the protriaene, which is 
found in most members of the family with very few exceptions. In addition there are long oxeas and frequently anatriaenes, rarely also 
calthrops or amphitriaenes. The skeletal architecture is strictly radial. Eight valid genera are recognized, differentiated by presence of cor- 
tical structures, specialized pore-sieves, and composition of the spicule complement. Tetillids are common and ubiquitous sponges in all 
oceans and at all depths. 
Keywords: Porifera; Demospongiae; Spirophorida; Tetillidae; Acanthotetilla; Amphitethya; Cinachyra; Cinachyrella; Craniella; 
Fangophilina; Paratetilla; Tetilla. 
DEFINITION, DIAGNOSIS, SCOPE 
Synonymy 
[Lophurellidae] Gray, 1872a. [Casuladae] Gray, 1872a. 
[Tethyina] Carter, 1875b (not Tethyadae Gray, 1848). Tetillidae 
Sollas, 1886a. Tethyopsillidae Lendenfeld, 1903. Tethydae 
Lendenfeld, 1907. Ectyonillidae Ferrer-Hernandez, 1914a. 
Craniellidae de Laubenfels, 1936a. 
Definition 
Spirophorida with sigmaspire microscleres and a radiate 
skeleton of triaenes and oxeas. 
megascleres).  The  family  comprises  more  than  one  hundred 
species distributed over all oceans and habitats. 
Biology 
Tetillids have a preference for sedimented habitats and some 
species possess a root of long spicule bundles to attach them to the 
substrate. Reproductive patterns range from the extrusion of fertilized 
eggs, which fix to the substrate and develop directly, to incubation 
of complete young sponges which are then expelled by localised 
breakdown of the pinacoderm. No free larvae have yet been 
described. 
Remarks 
Diagnosis 
Typically with spherical growth form, often with characteristic 
pits called porocalices containing the inhalant and occasionally also 
exhalant orifices. Cortical region often strengthened by collagen 
fibers and special cortical megascleres, but this region may be thin 
or absent in several genera. Skeleton with tetraxonic and monaxonic 
megascleres (triaenes, huge oxeas) organized in a radiate pattern of 
spicule bundles, often spiralling outwards from the centre of the 
body; oxeas, protriaenes and anatriaenes are most common and 
these often protrude from the surface producing a conulose or hairy 
surface. In sponges provided with porocalices they form a palisade 
of long spicules, protruding far beyond the sponge surface, sur- 
rounding the porefields or oscular apertures, which lie in rounded 
depressions. Microscleres are unique contorted microspined sig- 
maspires. Reproduction is oviparous without a larval stage, or 
viviparous with production of young adults within a parent. 
Scope 
Out of twenty six nominal genera eight are considered valid, 
Acanthotetilla, Amphitethya, Cinachyra, Cinachyrella, Craniella, 
Fangophilina, Paratetilla, Tetilla. They are differentiated on gross 
morphological structure (presence or absence of a cortical region, 
presence or absence of specialized pore areas), and spicule comple- 
ment (possession of calthrops, amphitriaenes or other auxiliary 
Gray (1867a) included sponges of this group under the genus 
name Tethya in a larger Tethyadae comprising a wide range of 
tetractinomorph genera. Carter (1875b) was the first to distinguish 
a separate group (subfamily) for tetillids, but like Gray called the 
group Tethyina. The explanation for this is that at that time there 
was still a great confusion over the identity of Tethya. Lamarck 
(1815) included in his genus Tethya next to T lyncurium 
( = T aurantium) and others, Tethya cranium (Miiller, 1789 as 
Alcyonium). Carter was aware of the great difference between the 
type of Tethya (i.e., T lyncurium) and T cranium (see for example 
Carter, 1872a), but he ignored Schmidt's (1870) proposal to 
employ a separate genus Craniella for Alcyonium cranium. 
Schmidt (1870) included Craniella in his family Ancorinidae along 
with Stelletta and other astrophorid sponges, but Sollas (1886a) 
revived Carter's Tethyina under a different name by erecting the 
family Tetillidae based on Schmidt's (1868) genus Tetilla. In many 
ways this was an unwise choice of type genus, inspired by some 
notion that Tetilla would represent the most primitive of tetillid 
genera. The description of Tetilla euplocamos by Schmidt (1868: 
40, pi. V fig. 10) is insufficient to conclude with certainty what its 
properties were. Selenka (1880: 469) thought to recognize 
Schmidt's species in an intertidal habitat in the Bay of Rio de 
Janeiro, and provided some additional data. Sollas (1888) was able 
to verify from a Schmidt slide that at least protriaenes were pres- 
ent, but apparently this species has no sigmaspires (cf. below). 
Even though protriaenes are of common occurrence in tetillids, 
85 
86 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
they are by no means confined to that group and we have to rely 
on the subtle tetilliform protriaene-type as proof that Tetilla 
euplocamos is a member of what is generally understood as Tetilla 
and the Tetillidae. In summary: we have a type species of the type 
genus of a family lacking the major synapomorphy of the order to 
which the family belongs! Some confidence may be obtained from 
the fact that Tetilla species lacking sigmaspires are not uncommon. 
Despite this dubious type species designation, Sollas' (1888) mono- 
graphic treatment of Tetillidae was followed by most subsequent 
authors with the exception of Lendenfeld (1888, 1903, 1907) and de 
Laubenfels (1936a). Lendenfeld continued to employ Tethya for 
sponges answering to the definition of Craniella, but at least kept 
this in the family Tetillidae. He erected a family Tethyopsillidae for 
sponges without sigmaspires. Lendenfeld's division into Tetillidae 
and Tethyopsillidae was incorrect, since the type of Tetillidae and 
genus Tetilla (T euplocamos) has no sigmaspires and thus would 
belong in Tethyopsillidae, making this family an objective synonym 
of Tetillidae. De Laubenfels (1936a) for the same reason refused to 
accept Tetilla euplocamos as a close relative of Craniella, and 
erected a separate family Craniellidae for the genera possessing sig- 
maspires. Tetilla and Tetillidae were defined as 'Choristida lacking 
microscleres' and an unrelated group of genera was assigned to it. 
Needless to say that neither scheme gained general support. 
Previous reviews 
Sollas (1888), Lendenfeld (1903), Wilson (1925), Topsent 
(1928c), Levi (1973), Rutzler (1987). 
KEY TO GENERA 
(1) Specialized pore-bearing pits ('porocalices') present    2 
No porocalices   6 
(2) Spicules include medium-sized heavily spined oxeas ('megacanthoxeas')    Acanthotetilla 
No megacanthoxeas   3 
(3) Among the megascleres there are short-shafted triaenes with equal-sized rays (calthrops). N.B. these may have bifid cladi but are not 
to be confused with long-shafted amphiclads    Paratetilla 
No calthrops, all triaenes - if present - are long-shafted   4 
(4) In cross section, there is a clear cortical region with special cortical megascleres (short oxeas) and collagenous 
reinforcement    Cinachyra 
In cross section there is no discernible peripheral layer different from that of the interior       5 
(5) Porocalices all similar, undifferentiated morphologically  Cinachyrella 
Porocalices differentiated into a morphologically distinct inhalant and exhalant type  Fangophilina 
(6) Stalked sponges with differently structured stalk and main body; among the megascleres of the stalk there are triaenes with cladi on 
both ends (amphitriaenes, -diaenes, -monaenes, collectively called amphiclads)  Amphitethya 
No amphiclads, if stalked, then it is a thin root-like projection, not a proper stiff stalk    7 
(7) In cross section, there is a clear cortical region with collageneous reinforcement   Craniella 
In cross section there is no discernible peripheral layer different from that of the interior    Tetilla 
ACANTHOTETILLA BURTON, 1959 
Synonymy 
Previous review 
Van Soest (1977b). 
Acanthotetilla Burton, 1959a: 201. Acanthocinachyra Levi, 
1964b: 386. 
Type species 
Acanthotetilla hemisphaerica Burton, 1959a: 201 (by 
monotypy). 
Definition 
Tetillidae with megacanthoxeas as auxiliary megascleres. 
Diagnosis 
Globular, hemispherical or irregularly massive sponges. 
Surface extremely hispid and provided with numerous small-sized 
porocalices. Skeleton radiating bundles of oxeas, protriaenes, ana- 
triaenes and megacanthoxeas, developed into an impenetrable pal- 
isade at the periphery. Internally cavernous with megacanthoxeas 
and sigmaspires as the main spicule complement. Four species are 
known from the Western Indian Ocean and the Caribbean, depth 
range 38-100 m. 
Description of type species 
Acanthotetilla hemisphaerica Burton, 1959a (Fig. 1A-B) 
Synonymy. Acanthotetilla hemisphaerica Burton, 1959a: 201, 
fig. 5; Van Soest, 1977b: 2, pi. I figs a-b, pi. II figs c-d, text-fig. 1. 
Material examined. Holotype: BMNH 1936:3:4:530 - John 
Murray Exped. stat. 45, coast of S Arabia, litothamnion bottom, 
38 m depth. 
Description. Semiglobular (Fig. 1 A), 4?5 cm diameter. Colour 
in alcohol yellowish brown. Surface hispid-bristly due to megascle- 
res projecting 1 mm or more beyond the ectosome. Porocalices 
numerous, 1-2 mm diameter, scattered over the surface. No appar- 
ent oscules. Consistency hard, incompressible. Skeleton radiate, 
forming a tight palisade at the surface. The main megascleres are 
smooth long oxeas and medium-sized megacanthoxeas, but protri- 
aenes and rare anatriaenes are also present. Interiorly, the skeleton 
is less dense, making the choanosome cavernous, with megacan- 
thoxeas and sigmaspires as the main spicule categories present. 
Spicules. Protriaenes, simple, straight, relatively rare, shaft 
1000-2520 X 6-14 u,m, cladi 30-56 u,m; anatriaenes even rarer, 
shaft 1250-1600 X 10 jxm, cladi 55-80 |xm; oxeas, forming the 
bulk of the radiating skeleton, straight, 3000^1400 X 25^10 u,m; 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 87 
Fig. 1. Acanthotetilla spp. A-B, Acanthotetilla hemisphaerica Rurton, 1959a. A, holotype BMNH 1936.3.4.530 (scale 1cm). B, megacanthoxea of holotype 
(scale 50 p,m). C, Acanthotetilla enigmatica (Levi, 1964b as Acanthocinachyra), megacanthoxea (scale 50 p,m). D-H, Acanthotetilla gorgonosclera Van Soest, 
1977b. D, oxea (scale 10 p,m). E, protriaene (scale lOfjun). F, megacanthoxea (scale 50(jL,m). G, detail of same (scale 10 (xm). H, sigmaspire (scale lfjun). 
megacanthoxeas (Fig. IB), thickly spined, spines arranged in irreg- 
ular 'whorls', with points directed towards the centre, 325^-14 X 
40-60 |xm, with 20-25 whorls of spines. Juvenile growth stages of 
the megacanthoxeas are centrotylote smooth oxeas. Distribution 
and ecology. Only recorded from the type locality. 
Remarks. The structure of the skeleton is reminiscent of a 
cortical specialization (impenetrable palisade of oxeas and mega- 
canthoxeas at the surface), but no organic fibrous cortical region has 
been described so far, so this remains undecided. Burton (1959a) 
gave a faulty description of A. hemisphaerica by expressly stating 
that sigmaspires were absent. This induced Levi (1964b) to erect a 
genus Acanthocinachyra for material very similar to Burton's spec- 
imen, but possessing numerous microscleres. The type species (by 
monotypy) Acanthocinachyra enigmatica Levi, 1964b: 386, fig. 2, 
from Inhaca island, Mozambique (material from MNHN re- 
examined, megacanthoxea figured in Fig. 2C) shares most features 
with A. hemisphaerica and since Burton's species (even his own 
preparations) contain numerous sigmaspires, the two genera are 
obvious synonyms. The two type species were kept as separate 
species by Van Soest (1977b), but additional material may bridge 
the few discrepancies and it is predicted that they both belong to the 
same species. A third species from the Western Indian Ocean, 
Acanthocinachyra seychellensis Thomas, 1973: 80, has unusually 
thin and curved megacanthoxeas as well as much smaller smooth 
oxeas, and may indeed be a valid separate species of Acanthotetilla. 
The   fourth   species,  Acanthotetilla   gorgonosclera  Van   Soest, 
1977b: 7 was described from Barbados (see Fig. 2D-H). It has char- 
acters in between A. seychellensis and A. hemisphaerica, and in 
view of its Atlantic occurrence is also considered a valid species. 
AMPHITETHYA LENDENFELD, 1907 
Synonymy 
Amphitethyahendenfeld, 1907: 126. 
Type species 
Amphitethya microsigma Lendenfeld, 1907: 126 (by subsequent 
designation; Riitzler, 1987, confirmed by Hooper & Wiedenmayer, 
1994: 429). 
Definition 
Tetillidae with long-shafted amphiclad triaenes and 
plagiotriaenes. 
Diagnosis 
Globular-stalked sponges with conulose surface, lacking 
porocalices. Small scattered oscules. Skeleton of the main body 
88 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
Fig. 2. Amphitethya microsigma Lendenfeld, 1907. A-D, habit and spicules reproduced from Lendenfeld, pi. XV fig. 19-3. A, habit (scale 1cm). 
B, spicules. C, detail of amphitriaene. D, detail of sigmaspire (sizes see text). E-H, photos of spicules made from slides of one of the types kept in BMNH. 
E, cross section of peripheral region of peduncle (scale 500 p,m). F, plagiotriaene (scale 100 p,m). G-H, amphitriaenes (scale 100 u,m). 
radiate, consisting of oxeas and normal triaenes, and that of the 
stalk longitudinally arranged, consisting of all megascleres includ- 
ing amphiclad triaenes. Cortical region present in stalk and main 
body. Megascleres oxeas, protriaenes, anatriaenes, plagiotriaenes 
and long-shafted amphiclad triaenes. Microscleres sigmaspires. 
Two species, both from Australian waters. 
Recent review 
Riitzler (1987). 
Description of type species 
Amphitethya microsigma Lendenfeld, 1907 (Fig. 2A-H). 
Synonymy. Amphitethya microsigma Lendenfeld, 1907: 
126, pi. XV figs 19-39. 
Material examined. Syntypes: 2MB (not seen) - collected 
by the 'Gazelle' Exped., Dirk Hartog Island, off the NW coast 
of Western Australia, 82-110m depth. BMNH 1908.2.9.33-35 
(not seen) - 3 slides of one of the syntypes, labelled "Valdivia & 
Gazelle Lendenfeld". 
Description (summary of Lendenfeld's 1907 extensive 
description). Stipitate sponge (Fig. 2A). Main body globular, up to 
4.2 cm in diameter, surface conulose, optically smooth between 
conules. Stalk up to 7 cm long, 1.2 cm in thickness, circular in cross 
section, surface also slightly conulose. Colour in alcohol is coffee- 
brown. In cross section, both the main body and the stalk show 
a distinct cortical layer of about 250 u,m thick, in which only 
microscleres and auxiliary megascleres are found. The amphiclad 
megascleres are confined to the stalk and are found in the subecto- 
somal layer (Fig. 2E). The main skeleton consists of oxeas, packed 
longitudinally in the stalk and in radiating bundles in the main 
body, where they follow a spiral course as is found in many other 
tetillids. Megascleres (Fig. 2B), protriaenes, cladome regular, with 
fusiform shaft, 3000-5000 X 10|xm; anatriaenes, confined to the 
peripheral region of the stalk, 5000-7000 X 10|xm, cladi 15|xm; 
plagiotriaenes (Fig. 2F), confined to the peripheral region of the 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 89 
stalk (Fig. 2E), straight shaft, rounded at the end, 320-1100 X 
13-30 |xm, cladi 50-250 |xm; amphiclad triaenes (Fig. 2C, G-H), 
confined to the peripheral region of the stalk, shaft 160-540 X 
14-30 |xm, cladome usually irregular with cladi of 100-150 p,m, 
mostly with different lengths, or occasionally absent (diaene and 
monaene variations are not uncommon); oxeas, straight, or more 
often curved, smooth, gradually but sharply pointed, 6000-8000 X 
20-60 jjLm. Microscleres sigmaspires (Fig. 2B,D), 10-12X0.5-0.8 
|xm. Distribution and ecology. Dirk Hartog Island, off the coast of 
NW Australia, 82-110 m. 
Remarks. In view of the similarity and the structural position 
they share, the amphiclad triaenes and the plagiotriaenes are very 
likely to be considered as the same spicule type, in which the 
amphiclad condition may or may not have developed. Lendenfeld 
assigned to his genus Amphitethya a second tetillid species with 
amphiclad triaenes, Tethya stipitata Carter, 1886c: 460 (redescribed 
by Sollas (1888: 49) as Tetilla?). This differs in details of spicule 
sizes from A. microsigma, but is otherwise similar and is an 
obvious Amphitethya. The fact that both species assigned to 
Amphitethya are prominently stalked sponges is not emphasized 
here, as root-organs of other tetillids (e.g., Tetilla euplocamos or 
Cinachyra barbata) may be considered homologous to a stalk. A 
further species assigned by Lendenfeld, viz., Tetilla bacca Selenka, 
1867, is considered a member of Paratetilla. Its auxiliary spicules 
are calthrops-like, not amphiclad, although the cladi may be occa- 
sionally bifid. Likewise, assignments of Tetilla merguiensis sensu 
Topsent, 1897a and Paratetilla aruensis Hentschel, 1912 to 
Amphitethya by Wilson (1925) are incorrect. The differences are 
perceived such that the Amphitethya amphitriaene is a derivate of a 
long-shafted triaene (plagiotriaene), whereas the occasional bifid 
Paratetilla auxiliary megasclere derives from equal-rayed 
calthrops-like spicules. 
CINACHYRA SOLLAS, 1886 
Synonymy 
[Cinochyra] Sollas, 1886a: 183 (nomen corrigendum); 
Cinachyra Sollas, 1888: 23. 
Type species 
Cinochyra barbata Sollas, 1886a: 183 (by monotypy). 
Definition 
Tetillidae with cortex reinforced by auxiliary oxeas, with 
flask-shaped porocalices. 
Diagnosis 
Globular sponges with surface covered by numerous porocal- 
ices. Full-grown specimens develop an irregular basal mass as 
wide as the globular upper part, equivalent perhaps to a stalk. 
Porocalices large and deep, flask-shaped, surrounded by a fringe of 
long megascleres. In cross section there is a prominent cortex 
strengthened by special cortical oxeas. Skeleton of the globular 
part radiate, consisting of bundles of oxeas originating in a central 
nucleus and spirally curving outwards toward the periphery, where 
they are mixed with protriaenes. These protrude beyond the 
layer of cortical oxeas and are the cause of the bristly surface. 
Megascleres choanosomal large oxeas, cortical small oxeas, 
protriaenes, and anatriaenes. Microscleres sigmaspires. So far, only 
a single valid species has been recognized with certainty to belong 
to this genus, most records of Cinachyra species concern the genus 
Cinachyrella (cf. below). 
Previous reviews 
Wilson (1925), Rutzler (1987). 
Description of type species 
Cinachyra barbata Sollas, 1886a (Fig. 3A-C). 
Synonymy. Cinochyra barbata Sollas, 1886a: 183; Cinachyra 
barbata Sollas, 1888: 23, pis III, XXXIX. 
Material examined. Syntypes (not seen): BMNH 
1889.1.1.14-19, 107-108 (slides 1894.11.16.37-51) - the type 
series consists of more than 60 syntypes all dredged from the 
shores of Balfour Bay, Kerguelen. 
Description (from Sollas, 1888). Globular sponges (Fig. 3A), 
seated on a dense spicular basal mass; ash-grey in alcohol. Oscules 
inconspicous, scattered. Porocalices large and numerous, up to 
5mm in diameter, scattered over the lateral surfaces, but relatively 
rare on top, and lacking from the basal mass. The porocalices are 
flask-shaped, penetrating deep into the interior. Internally, they are 
smooth-walled and -rimmed, and have a poresieve at the bottom. 
Surface hispid-bristly, with megascleres protruding far beyond the 
ectosome. Size of main body up to 7X8.5X7 cm, size of basal 
mass up to 5 X 10 X7cm. Basal mass apparently a fused root sys- 
tem which gradually expands during growth of an individual, it is 
absent in the smallest collected specimen. In cross section (Fig. 3B) 
the cortical region is visible as a dense peripheral layer, up to 
1.75 mm in thickness, its whitish colour showing off from the yel- 
lowish choanosomal interior. The cortex consists of a distinct 
organic collagenous tissue, reinforced by special cortical oxeas 
strewn at all angles and microscleres. The choanosomal skeleton 
consists of bundles of oxeas issuing from an eccentrically located 
focus and following a spiral course towards the periphery. The 
peripheral bundles contain a mixture of oxeas and triaenes, with the 
latter protruding far beyond the surface. Megascleres (Fig. 3C). 
Protriaenes, occasionally prodiaenes, in two distinct size categories, 
large structural ones, fusiform, shaft up to 13,000 X 30 |xm, cladi up 
to 180X16|xm, and small, sinuous, hair-like, up to 130X4u,m, 
with cladi 16-30 jjim; anatriaenes, occurring only in the basal mass, 
where they function as anchoring spicules, up to 40,000 X 24 u,m, 
cladi up to 215X28 p,m; oxeas, in two distinct size categories, large 
choanosomal ones, sharply pointed, straight or curved, up to 
8000 X 70 jjum; small cortical oxeas, fusiform, bluntly pointed, up to 
900X36|xm. Microscleres sigmaspires, 12-16 pjn. Distribution. 
Kerguelen, Patagonia, Antarctica, sediment-rich bottoms, 45-549 m. 
Remarks. The genus name has been widely used by many 
authors for sponges now recognized to belong in a separate genus 
Cinachyrella Wilson, 1925 (cf. below). This shares the porocalices, 
but lacks any cortical specialization. Sollas (1888) maintains that 
some of the porocalices are exhalant, whereas others are inhalant. 
However, Kirkpatrick (1905) found small, simple oscules separate 
from the complicated porocalices, and similar findings are reported 
by Boury-Esnault & Van Beveren (1982) and Rutzler (1987). 
90 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
Fig. 3. Cinachyra barbata Sollas, 1888, drawing of habit (A), peripheral skeleton in cross section (B), and spicules (C), reproduced from Sollas' pi. Ill) 
(scales see text). 
CINACHYRELLA WILSON, 1925 
Synonymy 
[Psetalia] Gray, 1873c: 234 (nomen oblitum). [Labaria] Gray, 
1873c: 235 (nomen oblitum). Cinachyrella Wilson, 1925: 363. 
Raphidotethya Burton, 1934a: 526. Uliczka de Laubenfels, 1936a: 
174. 
Type species 
Tetilla hirsuta Dendy, 1889: 75 (by subsequent designation; 
Rutzler, 1987). 
Definition 
Tetillidae with undifferentiated porocalices, without cortex, 
without auxiliary megascleres. 
Diagnosis 
Globular sponges with hispid-bristly surface provided with 
numerous scattered porocalices; oscules inconspicuous. Skeleton 
radiate, consisting of bundles of oxeas issuing from the centre 
and running spirally to the surface. No cortical specialization. 
Megascleres protriaenes, anatriaenes, occasionally plagiotriaenes, 
and dominant large oxeas. Microscleres sigmaspires, which may be 
lacking occasionally, finely spined oxeas and/or raphides occur. 
More than one hundred species distributed in shallow water of 
tropical and subtropical seas. 
Recent review 
Rutzler (1987). 
Description of type species 
Cinachyrella hirsuta (Dendy, 1889). 
Synonymy. Tetilla hirsuta Dendy, 1889: 75; Cinachyra 
hirsuta; Lendenfeld, 1903: 28; Tetilla (Cinachyrella) hirsuta; 
Wilson, 1925: 363. 
Material examined. Lectotype (here designated) (not seen): 
BMNH 1889.1.21.22 - (the larger of the two specimens), 
Rameswaram Island, Gulf of Manaar, Sri Lanka, Thurston collec- 
tion. Paralectotype (not seen): BMNH 1925.11.1.769 - the smaller 
specimen from the same locality. 
Description (from Dendy, 1889). Globular sponge, size up 
to 5 cm in diameter, colour dark grey in alcohol. Surface 'hirsute' 
due to projecting spicules. Porocalices scattered irregularly over 
the body. Some porocalices are hemispherical and shallow, others 
deep and tubular. The floor of the porocalices is alternatively perfo- 
rated by a number of small pores, or some oscular tubes, or is 
devoid of openings. Dendy assumed the porocalices were either 
inhalant or exhalant, but these are not morphologically differenti- 
ated. In cross section there is no special cortical skeleton. The 
choanosomal skeleton consists of stout radiating fibers issuing 
from a dense central nucleus. Megascleres. Protriaenes, often 
of hair-like dimensions, i.e., comparatively thin and short, up to 
460 X 14|xm, cladi 50X7 jjum; anatriaenes similar in dimension, 
slightly shorter; oxeas, fusiform, sharply pointed, up to 3500 X 
42 |xm. Microscleres the usual sigmaspires, up to 22 p,m. 
Choanocyte chambers 20|xm in diameter. Distribution. Known 
only from the type locality. 
Remarks. No images of the type species are currently 
available, but it is likely that it is closely similar to e.g., Cina- 
chyrella apion (Uliczka, 1929 as Cinachyra), as described and 
illustrated by Rutzler & Smith (1992). Their illustrations are 
here reproduced in Fig. 4 (habit and surface characteristics) and 
Fig. 5A (spicules). 
Burton (1934a) attempted to revise a large amount of 
Cinachyrella species (as Cinachyra), arriving at the remarkable con- 
clusion that most tropical representatives are members of a single 
intertropical species to be called Cinachyra australiensis (Carter, 
1886b). Needless to say that such a conclusion is unacceptable. 
The genus Psetalia Gray, 1873c: 234 was erected for type 
species P. globulosa Gray, 1873c: 234 (by monotypy). There are 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 91 
2   mm 
Fig. 4. Cinachyrella apion (Uliczka, 1929), habit and surface characteristics, reproduced from Riitzler & Smith (1992: fig. 6). A, specimen in situ attached 
to alga, showing numerous buds. B, alcohol-preserved specimen. C, close-up of buds. D, close-up of porocalyx. E, close-up of oscule. 
apparently four specimens of this species from Singapore. These are 
globular sponges of up to 6 cm diameter, covered by prominent 
"tubercles each containing a tuft of filamentous spicules". A deep 
concavity is found at the upper surface. It seems clear that this is 
a description of porocalyces, and as its type locality is in the tropics, 
it seems a safe conclusion that it concerns a species of Cinachyrella. 
The name Psetalia is an unused name in the sense of ICZN Article 
23.9 (not used after 1899) and accordingly it is proposed to suppress 
it in favour of the prevailing junior name Cinachyrella. 
The genus Labaria Gray, 1873c: 235 was erected for type 
species Labaria hemisphaerica Gray, 1873c: 235 (by monotypy). 
Like Psetalia, this hemispherical sponge of 5 cm diameter appears 
to be a Cinachyrella, as Gray described structures on the surface - 
"... cylindrical perforations, from the centre of which are emitted 
tufts of elongated filiform spicules..." - which can only be 
porocalices. The name Labaria is an unused name in the sense of 
ICZN Article 23.9 (not used after 1899) and accordingly it is pro- 
posed to suppress it in favour of the prevailing junior name 
Cinachyrella. The name is in any case preoccupied by Labaria 
Carter, 1873c (Hexactinellida, Pheronematidae). 
The genus Raphidotethya Burton, 1934a was erected for type 
species (by monotypy) Raphidotethya enigmatica Burton, 1934a: 
526, fig. 2 (here reproduced as Fig. 5B). The holotype (BMNH 
1930.8.3.27; not examined) is described as a ficiform sponge of 
4.5 X 2 cm, with a thick stalk and a uniformly hispid surface in 
which no pores or oscules were visible. No cortical specialization 
recognizable. The main genus character is the absence of triaenes, 
instead of which there are only oxeas as megascleres, arranged in 
the usual radiating bundles. At the surface and throughout the 
choanosome there are oxeas of 730 X 12 |xm about half the length 
of the choanosomal main oxeas which measure 1400 X 24 |xm. 
Microscleres are sigmaspires apparently in two size categories, 
24 and 9 \ua, and raphides also in two size categories, 30 and 
15|xm. Despite the fact that no porocalices were described, this 
genus is considered a junior synonym of Cinachyrella, as it has no 
conulose surface, is hispid, and lacks a cortex. The absence of tri- 
aenes and the possession of spicule size categories is not of generic 
value, as there is a large diversity in these features among the many 
Cinachyrella species. Moreover, Hooper (pers. comm.) has 
observed specimens possessing triaenes with their cladomes stick- 
ing some distance beyond the surface. This may also have been the 
case for the type specimen. 
The genus Uliczka de Laubenfels, 1936a: 174 was erected 
for type species Cinachyra schistospiculosa Uliczka, 1929: 45, 
figs 27-30 from Barbados (by original designation). This species 
is a commonplace Cinachyrella, assigned to the synonymy of 
Cinachyrella kuekenthali (Uliczka, 1929 as Cinachyra) by Riitzler & 
Smith, 1992:154. It possesses occasional 'split' oxeas, but these are 
obvious artefacts, and certainly not a specific or generic character 
(see also Van Soest & Sass, 1981 and Riitzler & Smith, 1992). 
Wilson (1925) erected Cinachyrella as a subgenus of Tetilla, 
rather than of Cinachyra, thus apparently assuming the lack of 
92 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
c 
B 
Fig. 5. A, Cinachyrella apion (Uliczka, 1929), drawing of spicules, reproduced from Riitzler & Smith (1992: fig. 7). B, Cinachyrella enigmatica (Burton, 
1934a as Raphidotethya), drawing of cross section and spicules reproduced from Burton's fig. 2 (scales see text). 
a cortex is a more important feature than the presence of porocalices. 
The presence or absence of a cortical specialization is of dubious 
phylogenetic significance, as it occurs both in tetillids with poro- 
calices (Cinachyra and Cinachyrella) and in those without 
(Craniella and Tetilla). Moreover, the cortical specialization is also 
used as a discriminatory character in other tetractinomorph groups. 
Cortical specialization is rather easily detected when the cortex is 
thick and strengthened by special cortical megascleres, but remains 
difficult to demonstrate when it is thin and cortical spicules are 
lacking. In the case of Cinachyra, the cortex is well-developed, but 
so far only a single species is known, whereas the bulk of the 
species described as Cinachyra are devoid of a cortex apparently, 
and need to be assigned to Cinachyrella. We maintain here the dis- 
tinction between the two, because Cinachyra barbata differs also 
quite strongly from Cinachyrella hirsuta in spicule sizes and cate- 
gories. A further complication for the use of Cinachyrella is the 
relationship with Fangophilina Schmidt (cf. below). This is main- 
tained as a separate genus of Tetillidae on the strength of the occur- 
rence of clearly morphologically differentiated oscular and ostial 
porocalices. Still, Dendy (1889) examined the bottom of several 
porocalices in C. hirsuta and distinguished oscular and poral types. 
Wilson (1925) described special simple oscules from the 
Philippine specimen he identified as C. hirsuta, and thus casted 
some doubt even though he acknowledged the possibility that 
Dendy may have been right. It is also not quite certain that Dendy's 
and Wilson's material was conspecific, because there is a large size 
discrepancy in the protriaenes recorded from the Indian and 
Philippine specimens. Later on, Riitzler (1987) expressed strong 
doubts about the reality of the specialization of differentiated oscu- 
lar and ostial porocalices, maintaining that all porocalices are 
inhalant and that separate simple oscules remain usually unde- 
tected in most Cinachyra and Cinachyrella. If Riitzler is right and 
the differentiation will be demonstrated to be an artifact, then 
Fangophilina would be a synonym of Cinachyrella. 
CRANIELLA SCHMIDT, 1870 
Synonymy 
Craniella Schmidt, 1870: 66. Tethya of authors (e.g., Carter, 
1872a; Lendenfeld, 1903) (not Tethya Lamarck, 1815). Polyurella 
Gray, 1870b: 312. [Lophurella] Gray, 1872a: 471 (invalid name). 
[Lophiurella] Gray, 1873c: 234 (lapsus). Tethyopsilla Lendenfeld, 
1888: 45. Craniellopsis Topsent, 1913a: 14. 
Type species 
Craniella tethyoides Schmidt, 1870: 66 (by subsequent desig- 
nation; de Laubenfels, 1936a: 175). 
Definition 
Tetillidae without porocalices, with a distinct cortex strength- 
ened by special cortical oxeas. 
Diagnosis 
Globular sponges with conulose but optically smooth surface 
over most of the upper body; at the base there are bundles of 
spicules acting as a root. Oscules few, usually on the top. Ostia in 
sieve-like groups overlying subdermal cavities. In cross section 
there is a distinctly visible cortical layer, which is perhaps divisible 
in a tightly collagenous layer strengthened by radially or confus- 
edly arranged special cortical megascleres, and a less dense outer 
layer in which there are many subdermal cavities. Choanosomal 
skeleton radiating in spiral fashion, with bundles of oxeas originat- 
ing from a central focus and spiralling outwards towards the sur- 
face where they are mixed with protriaenes to protrude in groups 
and push up the ectosome into conical elevations. Megascleres, 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 93 
Fig. 6. Craniella tethyoides Schmidt, 1870. A, BMNH slide of lectotype. B-D, photos of spicules from lectotype (scales 50p,m). B, sigmaspires. 
C, protriaene. D, anatriaenes. 
protriaenes, anatriaenes, choanosomal oxeas, shorter cortical 
oxeas. Microscleres, sigmaspires (may be lost not infrequently). 
About 25 species are recorded from most seas and oceans, often 
from somewhat deeper localities. 
Previous reviews 
Sollas, 1888;Topsent, 1894d; Wilson, 1925. 
Description of type species 
Craniella tethyoides Schmidt, 1870 (Fig. 6A-D). 
Synonymy. Craniella tethyoides Schmidt, 1870: 66, 
pi. VI fig. 9; Sollas, 1888: 54; Tetilla tethyoides; Lendenfeld, 
1903: 25. 
Material examined. Lectotype (here designated): BMNH 
1939.2.10.30 (not seen), slide examined BMNH 1870.5.3.54 - 
labeled in Schmidt's handwriting "Craniella tethyoides n.g. (116), 
Florida 100-230 fathoms" (here reproduced in Fig. 6A), presum- 
able made from the lectotype which was apparently obtained in an 
exchange with MCZ. The latter museum is presumably holding 
a further specimen (here designated paralectotype). Other material. 
BMNH 1870.5.3.55 (slide) - Iceland, mentioned in Schmidt's 
report, and not considered part of the type series as it appears to be 
from a different species. Two further slides from Florida in BMNH 
bearing this name on the labels are likewise not part of the type 
material. 
Description (from Schmidt, 1870, and Sollas, 1888). 
Globular, with conulose surface (where surface membrane is still 
intact). Distinct fibrous cortex strengthened by cortical oxeas 
arranged radially. Choanosomal oxeas robust, forming the bulk of 
the megascleres and protruding beyond the surface. Megascleres. 
Protriaenes (Fig. 6C) present (no size recorded), anatriaenes 
(Fig. 6D) with cladi of 70-90 |xm, cladome 80-110 pim in diameter 
(no length recorded); oxeas in two distinct size categories (no sizes 
recorded). Microscleres (Fig. 6B), sigmaspires up to 35 p.m. 
Distribution. Florida, down to 400 m. 
Remarks. The type species remains ill-known and awaits 
proper redescription from type and fresh material. Nevertheless, the 
combination of the lack of porocalices and a cortical specialization 
is sufficient to recognize the genus as valid and of common occur- 
rence. The genus is similar in many aspects to Tetilla, but this 
genus lacks a cortical specialization. 
The genus Polyurella Gray, 1870b: 312 was erected for type 
species Polyurella schmidtii Gray, 1870b: 312 (by monotypy). 
Gray (1870b) admits himself that this is the same (i.e., a junior 
synonym) as Tetilla (spelled as Tetella (sic)) polyura Schmidt, 
1870: 66, pi. VI fig. 8. This species is here assigned to Craniella on 
account of the presence of a cortical skeleton of smaller oxeas 
(based a.o. on subsequently assigned specimens in the collection of 
ZMA). Gray's (1870b) article was published after the appearance 
of Schmidt's monograph, so Polyurella is a clear junior synonym 
of Craniella Schmidt, 1870. 
The genus [Lophurella] Gray, 1872a: 461 was erected for type 
species Tetilla lophura "Schmidt, table" (Gray's notation). There is 
no record of Tetilla lophura in any of Schmidt's papers; and it is 
also not mentioned in Desqueyroux-Faundez & Stone (1992). We 
must assume this is a misspelling, most likely of Tetilla polyura, 
since the definition of the family [Lophurellidae] Gray, 1872a: 460 
to which this genus is assigned mentions the characteristic numer- 
ous rooting spicules, used by Schmidt to characterize Tetilla 
polyura. This is confirmed also by Gray (1873c: 234), where he 
indicates subsequently that Tetilla polyura is the type of his genus 
[Lophiurella] (sic!). Even so, [Lophurella] is not an available genus 
name as it cannot be unambiguously assigned to a nominal species- 
group taxon (ICZN Art. 12.2.5), which rules out type species 
assignment by indication (pers. comm. by Dr Alice Wells of the 
Australian Biological Resources Survey, Canberra). Likewise, 
[Lophurellidae] Gray, 1872a is unavailable as a family name as it is 
based on an unavailable genus name. 
The genus Tethyopsilla Lendenfeld, 1888 was erected (by 
monotypy) for type species Tethyopsilla steward Lendenfeld, 1888: 
45, to accomodate species lacking sigmaspire microscleres. The 
type (which was recently found to be missing from the 
2MB, and also not located elsewhere, cf. Hooper & Wiedenmayer, 
1994: 431) is described as a small (2cm) spherical sponge, with 
smooth surface and slit-like oscules. There are abundant protri- 
aenes, prodiaenes and promonaenes (up to 2000 X 10 pun), anatri- 
aenes (no size quoted) and oxeas (1500 X 10 pun), no microscleres. 
The genus was made the type of a family Tethyopsillidae apparently 
94 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
originally founded on the possession of irregular protriaenes, but 
later (Lendenfeld, 1903) on the absence of sigmaspires. The poly- 
mastiid genus Proteleia Dendy & Ridley, 1886 was also included 
in this nominal family. The absence or rarity of sigmaspires is 
rather a common phenomenon in unrelated tetillids and not worthy 
of genus or family distinction. Wilson (1925) assigned Tethyopsilla 
to Tetilla, but Lendenfeld (1903) expressly mentions a cortex of 
1.2 mm thickness (admittedly without special cortical oxeas), so it 
seems more appropriate to assign the genus to Craniella. Hooper & 
Wiedenmayer (1994) remarkably assigned T. stewarti to Cinachyra, 
but this seems unlikely in view of the smooth surface and slit-like 
oscules. 
The genus Craniellopsis Topsent, 1913a was likewise erected 
for tetillids possessing a cortex and lacking sigmaspires. Topsent 
(1913a) named three species, of which de Laubenfels (1936a: 171) 
subsequently designated Tetilla zetlandica (Carter, 1872a: 417) as 
the type species. Four syntypes (BMNH 1983.6.14.1^4), as well as 
several slides made from these (fide Hooper & Wiedenmayer, 
1994: 432), are extant but have not been examined for this study. 
This is a common species in the North Atlantic, sharing the two 
size categories of oxeas with C. tethyoides, the smaller category of 
which is concentrated in the cortex. The lack of sigmaspires is con- 
sidered of low importance. Lendenfeld (1903) and de Laubenfels 
(1936a) maintained a separation at the genus and family level 
for species with (Craniellidae de Laubenfels) and without sig- 
maspires (Tetillidae sensu de Laubenfels, Tethyopsillidae 
Lendenfeld) (cf. above). 
FANGOPHILINA SCHMIDT, 1880 
Synonymy 
Fangophilina Schmidt, 1880b: 73. Spongocardium Kirkpatrick, 
1902: 224. 
Type species 
Fangophilina submersa Schmidt, 1880b: 73 (by subsequent 
designation; Rutzler, 1987: 189). 
Definition 
Tetillidae with morphologically distinct exhalant and inhalant 
porocalices positioned laterally, without cortical specialization, 
without auxiliary megascleres. 
Diagnosis 
Globular sponges with hispid surface provided with two large 
porocalices situated laterally. These are differentiated into an exha- 
lant and an inhalant porocalyx. Skeleton radiate, with strongly pro- 
truding megascleres. Cortical specialization absent. Megascleres 
protriaenes, anatriaenes, oxeas. Microscleres sigmaspires. Three 
species have been assigned to this genus, distributed in the 
Caribbean and Indian Ocean. 
Previous reviews 
Lendenfeld (1907); Topsent (1920a); Wilson (1925). 
Description of type species 
Fangophilina submersa Schmidt, 1880b (Fig. 7A). 
Synonymy. Fangophilina submersa Schmidt, 1880b: 73, 
pi. X fig. 3; Topsent, 1920a: 2; Cinachyra submersa; Lendenfeld, 
1903: 28. 
Material examined. Lectotype (here designated) (not seen): 
ZMUS P0160 - dry, Caribbean. Paralectotypes: ZMUS P.0166 - 
dry fragments. Fragments of types: 2MB 6650 (6 slides) - fide 
Desqueyroux-Faundez & Stone, 1992. 
Description (from Schmidt, 1880b and Topsent, 1920a). 
The type redescribed by Topsent represents half of the original 
specimen. It is 3.4cm high and has a diameter of 3.8 cm. It has no 
trace left of the spicular root mentioned in Schmidt's description. 
The surface is hispid and many foreign objects such as 
foraminifera and sand grains have attached to it. At opposite sides 
there are two large porocalices, both with palisade of very long 
spicules protruding up to 1.5 cm above the surrounding sponge sur- 
face. The porocalices are 1-1.5 cm deep and 0.8-1 cm in diameter. 
The left one has a perforated bottomplate, the other shows a few 
slit-like apertures in the bottom and the sides, but is generally with- 
out visible apertures. Schmidt apparently misinterpreted the func- 
tions of both types, but this was corrected by Topsent: the one 
depicted left in Schmidt's drawing (here reproduced as Fig. 7A) 
is the inhalant porocalyx, the other the exhalant porocalyx. The 
spicule palisade is made up of oxeas and protriaenes/prodiaenes. In 
cross section the structure of the sponge - apart from the porocal- 
ices - is radiate, with bundles of oxeas originating from a focal 
point traversing towards the surface. There is no cortical special- 
ization. Megascleres. Protriaenes and prodiaene modifications, 
length not recorded, thickness of shaft up to 20 |xm, cladi up to 400 
|xm long, cladome 130|xm wide; anatriaenes, length not recorded, 
thickness up to 8jjim, cladi up to 47jjim, cladome 27jjim; plagio/ 
orthodiaenes and -monaenes, length not recorded, thickness 25 |xm, 
cladi, sometimes flexuous, up to 420 u,m; oxeas in two size cate- 
gories, largest 25000 X 75 |xm, smallest 900-1500 X 15-30 ^m (the 
latter are found in the choanosome intercrossing the bundles of 
oxeas). Microscleres sigmaspires 15-35 p,m, larger ones often 
elongated, wavy, toxiform. 
Remarks. Although he did not define it, Schmidt (1880b) 
apparently considered Fangophilina to comprise a wider group of 
sponges than only Fangophilina submersa, since he assigned 
Tetilla polyura Schmidt, 1870, Tetilla euplocamos Schmidt, 1868, 
and Tetilla radiata Selenka, 1880 to it in the discussion of the new 
genus. He apparently forgot that Tetilla had been erected earlier by 
himself with Tetilla euplocamos as the type. Thus, we may surmise 
that Fangophilina was intended for at least several tetillids that did 
not share the peculiar porocalyx-specialization of F. submersa. The 
genus is of rather dubious validity, since several authors (e.g., 
Rutzler, 1987) have expressed doubts about the nature of the exha- 
lant porocalyx. Possibly, true oscules have become obscured 
through contraction in preserved state. Still, the fact that several 
species have been described with similar structure is considered 
sufficient to maintain the genus as valid for the time being (there is 
also the consideration, that Fangophilina is senior to Cinachyrella, 
the genus most similar to it). 
Kirkpatrick, 1902, erected Spongocardium for type species 
(by monotypy) Spongocardium gilchristi Kirkpatrick, 1902: 224, 
pi. II fig. 1, pi. Ill fig. 1. This sponge (Fig. 7B) is very similar to 
Schmidt's Fangophilina submersa, with the poral and oscular 
porocalyx in a lateral position. There are a few spicular differences 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 95 
Fig. 7. Fangophilina species. A, Fangophilina submersa Schmidt, 1880b, drawing of cross section of holotype reproduced from Schmidt's pi. X fig. 3 
(scale 1 cm). B-C, Fangophilina gilchristi (Kirkpatrick, 1902 as Spongocardium). B, lectotype and cross section, reproduced from Kirkpatrick's pi. II fig. 1 
(scale 1 cm). C, drawing of spicules from Kirkpatrick's pi. Ill fig. 1 (scale see text). 
(Fig. 7C) (e.g., there are orthotriaenes, 4900 X 35 |xm and a second 
smaller category of protriaenes, 5300 X 31 and 690 X 2 p,m). Other 
measurements are similar, oxeas up to 10mm X 80-100|xm, anatri- 
aenes ditto, sigmaspires 35-45 pjn. However, Topsent's conclusion 
that Spongocardium gilchristi is a junior synonym of Fangophilina 
submersa appears incorrect in view of the considerable differences. 
Later, Kirkpatrick (1905) realized that Schmidt's genus was 
defined on the same characters, and pronounced the two genera 
synonyms. This was followed by Lendenfeld (1907: 157), who 
erected a third species of Fangophilina, F. hirsuta. 
Diagnosis 
Globular sponges with hairy-bristly surface, provided with 
porocalices. Skeleton radiate, with bundles of oxeas originating 
from a central focus and running radially to the surface. Spicules 
protriaenes, anatriaenes, calthrops-like triaenes, oxeas, sig- 
maspires. So far only a single wide-spread Indo-West Pacific 
species is reliably recorded. 
Previous reviews 
Rutzler(1987). 
PARATETILLA DENDY, 1905 Description of type species 
Synonymy 
Paratetilla Dendy, 1905: 97. 
Type species 
Tethya merguiensis Carter, 1883a: 366 (by subsequent desig- 
nation; de Laubenfels, 1936a: 175). This is generally considered a 
junior synonym of Stelletta bacca Selenka, 1867. 
Definition 
Tetillidae with porocalices, with megascleres including 
calthrops-like short-shafted triaenes. 
Paratetilla bacca (Selenka, 1867) (Fig. 8A-C). 
Synonymy. Stelletta bacca Selenka, 1867: 569, figs 14-15; 
Paratetilla bacca; Hooper & Wiedenmayer, 1994: 433, with addi- 
tional synonyms. Tethya merguiensis Carter, 1883a: 366, pi. XV 
figs 6-8; Tetilla merguiensis; Sollas, 1888: 14. Tetilla ternatensis 
Kieschnick, 1896: 527. Paratetilla cineriformis Dendy, 1905: 97, 
pi. Ill fig. 7. 
Material examined. Type material: not located - Samoa. Type 
material of T. merguiensis. IM (presumed) - Burma (=Myanmar). 
Other material. ZMA specimens - Indonesia, 'Siboga' and 'Snellius 
IF collections (subjectively assigned to this species). 
Description (based on Carter, 1883a and Selenka, 1867). 
Globular (Fig. 8B), size 2-3 cm diameter (larger in subsequently 
recorded specimens), surface uniformly hispid due to projecting 
96 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
Fig. 8. Paratetilla bacca (Selenka, 1880) (scales see text). A, drawing of spicules reproduced from Selenka, 1867: fig. 15, as Stelletta). B-C, drawing of 
habit (B) and spicules (C) of Tetilla merguiensis Carter, 1883a: pi. XV figs 6-8, considered a junior synonym. 
megascleres, with numerous larger apertures, 0.5-1 cm diameter, 
scattered evenly over the surface in Selenka's specimen, concen- 
trated in the median region in Carter's specimen. Both authors 
interpret these as exhalant, but it is obvious they are porocalices. 
Colour: black-brown (according to Carter). In cross section there is 
no cortex (Selenka mentions a thin cortical layer containing a layer 
of calthrops, but this is simply the peripheral region), and the skele- 
ton is radiate, with bundles of oxeas issuing from a central focus. 
Megascleres (Fig. 8A, C; sizes combined from data and drawings 
of Selenka, Carter, Sollas and Dendy). Protriaenes, up to 3500 X 15 
(Jim, cladi up to 90u,m; anatriaenes 3500 X 15p,m, cladi 60|xm; 
calthrop-like short-shafted triaenes (Selenka: 'vierzackige Sterne'; 
Carter: 'zone-spicule', Sollas: 'orthotriaenes'), cladi 100-200 u,m 
(Carter gives l/56th of an inch, which would be 450 |xm, clearly 
in excess of the sizes found in other recorded specimens); oxeas, 
up to 7000 X 42 |xm. A smaller category of oxeas is mentioned by 
Carter (1883a) and Dendy (1905 as Paratetilla cineriformis). 
Microscleres sigmaspires (not recorded by Selenka), ll-17|xm. 
Distribution and ecology. Widespread Indo-West Pacific (Samoa, 
Myanmar, Indonesia, NE Australia, Sri Lanka), reefs, and deeper 
water, down to +200 m. 
Remarks. Riitzler (1987) nominated Paratetilla cineri- 
formis Dendy, 1905 as the type species, but this was superseded by 
de Laubenfels' (1936a) previous nomination of Tethya merguiensis 
as the type. Since this species was mentioned by Dendy as a 
species of Paratetilla, de Laubenfels' designation is valid. All 
described tetillid species with calthrop-like short-shafted triaenes 
appear to be referable to a single widespread species, Paratetilla 
bacca (cf. synonymy in Hooper & Wiedenmayer, 1994). If this is 
confirmed in comparative studies, the validity of this genus is dubi- 
ous, because the possession of the genus character is then limited 
to  a  single  species,  which  in  all  other  aspects  conforms  to 
Cinachyrella. The calthrop-like short-shafted triaenes are probably 
derived from plagiotriaenes, which are occasionally recorded in 
Cinachyrella (cf. Riitzler, 1987; Riitzler & Smith, 1993), and thus 
could be interpreted as a species rather than a genus character. 
TETILLA SCHMIDT, 1868 
Synonymy 
[Dactylella] Gray, 1872a: 461 (nomen oblitum). [Casula] 
Gray, 1872a: 461 (nomen oblitum). Tetilla Schmidt, 1868: 40. 
Chrotella Sollas, 1886a: 181. Spiretta Lendenfeld, 1888: 42. 
Trachygellius Topsent, 1894c: 8. Ectyonilla Ferrer-Hernandez, 
1914a: 452. Kaira de Laubenfels, 1936a: 175. 
Type species 
Tetilla euplocamos Schmidt, 1868: 40 (by monotypy). 
Definition 
Tetillidae without porocalices, without cortical specialization, 
without auxiliary megascleres. 
Diagnosis 
Globular sponges with conulose or uniformly hispid surface, 
with few oscules, usually situated at the top. Usually with spicule 
strands at the base, acting as root system. Surface without porocal- 
ices. In cross section, there is no visible cortex. The skeleton is spi- 
rally radiate, with bundles of oxeas originating from a central focus 
Porifera ? Demospongiae ? Spirophorida ? Tetillidae 97 
Fig. 9. Tetilla euplocamos Schmidt, 1868. A, drawing of type and protriaene reproduced from Schmidt, 1868: pi. V fig. 10 (sizes see text). B, BMNH slide 
of type. C-D, photos of spicules from BMNH slide. C, oxeas and bundle of small? protriaenes (scale 100 (xm). D, protriaene (arrow) (scale 100 p,m). 
and radiating in a spiral manner to the surface. At the periphery, 
these bundles of oxeas become mixed with triaenes, predominantly 
protriaenes. Microscleres sigmaspires (absent in the type species). 
About 50 species have been described from all parts of the world 
oceans, mostly from deeper localities. Since many authors did not 
distinguish between Tetilla and Craniella, the actual number of 
species may be less. 
Previous reviews 
Sollas (1888); Rutzler (1987). 
Description of type species 
Tetilla euplocamos Schmidt, 1868 (Fig. 9A-D) 
Synonymy. Tetilla euplocamos Schmidt, 1868: 40, pi. V 
fig. 10; Selenka, 1880: 469, pi. 27 fig. 5. 
Material examined. Holotype (not seen): MZUS P0206 - 
Desterro, Bay of Rio de Janeiro, intertidal, coll. F. Mullen Slide of 
the holotype (examined; Fig. 9B): BMNH 1868.3.2.32 - bearing 
Schmidt's handwriting, labeled "Desterro/Tetilla euplocamos Sch 
1868". Fragment 2MB 7165 - (see Desqueyroux-Faundez & 
Stone, 1992). 
Description (from Schmidt, 1868). Pear-shaped (Fig. 9A), 
with long root ('Nadelschopf'). No cortex. Surface finely hispid. 
In cross section the choanosomal skeleton consists of bundles of 
oxeas originating from a core spiralling outwards toward the sur- 
face, where they mix with triaenes. The latter protrude beyond the 
surface and cause a fine downy pelt of spicules. Megascleres. 
Protriaenes (Fig. 9A, no size recorded), apparently no anatriaenes; 
oxeas 2300 X 22 |xm. No sigmaspires were detected in the slide, nor 
recorded by Schmidt or others. Some spicules are here illustrated 
(Fig. 9C, D) in photos made from the BMNH slide. Distribution 
and ecology. Known only from type locality. 
Remarks. For no apparent reason, Sollas (1888) changed 
euplocamos into euplocamus. The species remains ill-known. 
Schmidt's description is casual and short and subsequent speci- 
mens from the same area identified under this name (Selenka, 
1880) are only presumably conspecific. Nevertheless, there are 
many species of tetillids sharing the characters described by 
Schmidt, and the genus is considered clear and unequivocal. 
The genus Dactylella Gray, 1872a: 461 was erected for type 
species Tethya dactyloidea Carter, 1869a: 15, figs \-A from the SE 
coast of Arabia (by original designation). This is undoubtedly a 
member of Tetillidae, because Carter described a radiate structure 
and oxeas and protriaenes as megascleres. No certainty exists about 
the presence of sigmaspires, because Carter had "given away the 
specimen" (to Dr Bowerbank, cf Carter, 1871e: 103). In view of 
the absence of clear porocalyces and apparent lack of a cortical 
skeleton, this is likely to be a Tetilla. Since the name Dactylella 
predates Tetilla it needs to be suppressed as an unused name in the 
sense of ICZN Article 23.9. The name Tetilla has been frequently 
used in the past 50 years by many authors, and thus fulfils the 
demands for continued usage under Article 23.9. The name 
Dactylella has not been used for a tetillid sponge after its original 
proposal, although subsequently, [Dactylella] was also used by 
Thiele, 1898 for type species Dactylella hilgendorfi Thiele, 1898: 
56, pi. 4 fig. 8, pi. 5 fig. 25, pi. 8 fig. 41a-b. This is a sponge of the 
family Dictyonellidae, and the name is now considered preoccu- 
pied, and replaced by Lipastrotethya de Laubenfels, 1954. 
The genus Casula Gray, 1872a: 461 was erected, in Casuladae 
Gray, 1872a: 461, for Tethya casula Carter, 1871e: 99, pi. IV from 
South Africa (by monotypy). The description of Carter leaves no 
doubt that this is a Tetilla, probably considerably damaged during 
98 Porifera ? Demospongiae ? Spirophorida ? Tetillidae 
collection giving rise to the rather strange schematic drawing of the 
habit in his fig. 1. In its turn this induced Gray (1872a) to empha- 
size in his definition of the family Casuladae, that the sponge is 
free-living and has a "funnel-shaped expansion or disc formed of 
elongated spicules united together". Spiculation include protri- 
aenes up to 10 mm, oxeas up to 5 mm, and sigmaspires of 14 p.m. 
Since the family group name Casuladae Gray, 1872a is an unused 
name in the sense of ICZN Article 23.9 (not used after 1899), it is 
here suppressed in favour of Tetillidae (used many times by many 
authors in the past 50 years). 
The genus Chrotella Sollas, 1886a was erected for type 
species Chrotella simplex Sollas, 1886a: 181; Sollas, 1888: 17, 
pi. II figs. 1^1 (by subsequent designation by Sollas, 1888: cxxv), 
South Australia, 274 m. The type series (BMNH 1889.1.1.12, with 
slides BMNH 1894.11.16.27-32, not examined) consists of four 
cream-coloured subspherical specimens of up to 2 cm in diameter. 
Oscules small, pores in sieve-like areas overlying subdermal 
spaces, surface uniformly pilose. Sollas records a cortex but neither 
his detailed description nor his drawings show a clear cortical spe- 
cialization. There are many subdermal cavities but no peripheral 
collagenous region, nor cortical spicules. Megascleres are protri- 
aenes, with rhabds of up to 3400 X 20 |xm, cladi up to 158 X 16 p,m; 
anatriaenes up to 5300 X 16 |xm, cladi up to 47 X 12 |xm; oxeas up 
to 3000 X 24 p.m. Microscleres sigmaspires 12 p.m. The characters 
of C. simplex appear to overlap with those of Tetilla and accord- 
ingly it is considered a junior synonym. 
The genus Spiretta Lendenfeld, 1888: 42 was erected for type 
species Spiretta raphidiophora Lendenfeld, 1888: 43 (subsequent 
designation herein, lectotype in AM G9076, designation herein, with 
a small fragment in BMNH 1886.8.27.634, here designated paralec- 
totype). The description of Lendenfeld makes it likely that this is a 
species of Tetilla, and Lendenfeld admitted as much himself at a later 
date (Lendenfeld, 1903). Although he mentions a 'cortex' this was 
apparently used to indicate the peripheral skeleton, rather than a real 
cortex. The species has an unusual spiculation by its complement of 
styles of 600 X 70 p,m, small choanosomal oxeas of 240 X 20 |xm, 
and ectosomal strongyles of 400 X 3 p,m. Furthermore there are radi- 
ating oxeas 3000-4000 X 50 p,m, anatriaenes 1000 X 10p,m, sig- 
maspires 14p,m; apparently no protriaenes. Spiretta was relegated 
into synonymy with Cinachyra by Burton (1934a: 524), as he 
assumed that the apertures of the type specimen represented 'col- 
lapsed porocalices'. This synonymy assignment was followed by 
Hooper & Wiedenmayer (1994: 430). Conversely, we prefer here to 
consider Spiretta raphidiophora a member of the genus Tetilla on 
account of the absence of clear porocalices and lack of cortex. 
The genus Trachygellius Topsent, 1894c: 8 was erected for 
type species Trachya globosa Carter, 1886a: 121 from shallow 
water off Port Phillip Head, Victoria (by original designation). This 
is a yellow globular sponge with a short stalk and uneven surface. 
Oscules in a group around the top. The species is described by 
Carter (1886a) as having a skeleton that is radiate with a "thick der- 
mis". Spicules are reported to be oxeas of 4250 X 36 p.m, and sig- 
maspires of 8 p,m. Topsent (1894c) erected this genus in a footnote 
discussing the genus Gellius (Haplosclerida), assuming apparently 
that the microscleres of T globosa were true sigmas. However, it is 
clear from Carter's description that they are sigmaspires and that 
T. globosa belongs to Tetilla or possibly Craniella, and in view of 
the fact that special cortical oxeas were not reported, it is here con- 
sidered a junior synonym of Tetilla. This assumption has been 
recently verified by re-examination of the type material (slides AM 
G2751-2) by J.N.A. Hooper (courtesy of Dr Penny Berents, AMS), 
confirming its allocation to Tetilla and not to Craniella. 
The genus Ectyonilla Ferrer-Hernandez, 1914a: 452 was 
erected for type species Tetilla truncata Topsent, 1892a: 36, 
pi. VIII fig. 7 from the NW coast of Spain (by original designation). 
The genus was assigned to a new family Ectyonillidae defined as 
"Sigmatophora with a skeleton of Axinellidae". The holotype is 
housed in MOM (not examined). According to Topsent's descrip- 
tion, this is a fragment of a definite Tetilla, with a radiate skeleton 
of styles of 1200p,m instead of oxeas (probably oxea-derived), and 
anatriaenes and protriaenes. No microscleres. The styles are 
unusual, but have nothing in common with those of Axinellidae. 
It is clear that it is a commonplace tetillid, and we assign it to the 
synonymy of Tetilla on account of the absence of special cortical 
megascleres. 
The genus Kaira de Laubenfels, 1936a: 175 was erected for 
type species (by original designation) Tethya hebes Lendenfeld, 
1907: 98, pi. XVI figs 19-38 from NW Australia (type 2MB 768 
(not examined), with fragment BMNH 1908.9.24.66). This species 
was assigned into synonymy with Cinachyra australiensis (Carter, 
1886b: 127 as Tethya cranium var. australiensis) by Burton 
(1934a: 524), followed by Hooper & Wiedenmayer (1994: 430), 
because both possessed rugose small oxeas. However, several dis- 
crepancies between the descriptions of australiensis and hebes are 
apparent (presence of plagiotriaenes and anatriaenes in the latter). 
Moreover, Lendenfeld's specimen possessed only a single lateral 
oscule and no other apertures, whereas C. australiensis, which is 
an obvious representative of Cinachyrella, has abundant porocal- 
ices. Until fresh material has been found, we prefer to consider 
Tethya hebes a member of Tetilla.