Placospongia beatrizae, Sandes & Moraes & Muricy, 2024

Sandes, Joana, Moraes, Fernando & Muricy, Guilherme, 2024, Taxonomy of Placospongia Gray, 1867 from Northern and Northeastern Brazil, with description of two new species (Porifera: Demospongiae: Clionaida), Zootaxa 5405 (4), pp. 495-525 : 517-520

publication ID

https://doi.org/ 10.11646/zootaxa.5405.4.2

publication LSID

lsid:zoobank.org:pub:3080C791-0BF8-45E0-940E-CDC796EAAEFD

DOI

https://doi.org/10.5281/zenodo.10619635

persistent identifier

https://treatment.plazi.org/id/89774C02-D936-4CB6-936D-CD7EA50D6071

taxon LSID

lsid:zoobank.org:act:89774C02-D936-4CB6-936D-CD7EA50D6071

treatment provided by

Plazi

scientific name

Placospongia beatrizae
status

sp. nov.

Placospongia beatrizae View in CoL sp. nov. Sandes, Moraes & Muricy urn:lsid:zoobank.org:act:89774C02-D936-4CB6-936D-CD7EA50D6071

( Figs. 4 View FIGURE 4 and 13–14 View FIGURE 13 View FIGURE 14 ; Tables 2–3 View TABLE 2 View TABLE 3 , 6 View TABLE 6 and 7 View TABLE 7 )

Synonyms

Placospongia melobesioides sensu González-Farías (1989) View in CoL ; Mothes et al. 2006: 670 (non Placospongia melobesioides Gray, 1867 View in CoL ).

Placospongia sp. 2 sensu van Soest 2009: 11.

Type material. Holotype: MNRJ 20307 View Materials , Buraco da Raquel , Fernando de Noronha Archipelago, Pernambuco State, Brazil (03º50’2.760”S, 32º23’51.720”W), 0.5–2.0 m depth, colls. Cristiana Castello-Branco & Camille Leal, 21 April 2016 GoogleMaps . Paratype: MNRJ 20304 View Materials , Buraco da Raquel , Fernando de Noronha Archipelago, Pernambuco State, Brazil (03º50’2.760”S, 32º23’51.720”W), 0.5–2.0 m depth, colls. André Bispo & Sula Salani, 21 April 2016 GoogleMaps .

Etymology. The name beatrizae is given in honour of Dr. Beatriz Mothes, who discovered this species in Northern Brazil ( Mothes et al. 2006 as P. melobesioides ), for her great contribution to sponge taxonomy in Brazil.

Diagnosis. Placospongia thinly encrusting, with light brown to reddish brown color. Megascleres are two categories of tylostyles and microscleres are mature selenasters, micro-spheroxyasters, some of which are variable in shape and similar to micro-spirasters and acanthomicrorhabds.

Description ( Fig. 13a–b View FIGURE 13 ). Shape thinly encrusting, with approximately 2.0– 3.5 cm x 1–2 cm x 1–2 mm (length x width x thickness). The surface is smooth, divided into cortical plates of polygonal shape, separated by grooves and ridges with circular openings. The holotype has circular to oval oscules of 1–3 mm in diameter, visible only in vivo ( Fig. 13b View FIGURE 13 ). The external color in vivo is light brown ( Fig. 13a View FIGURE 13 ) to reddish-brown ( Fig. 13b View FIGURE 13 ). In ethanol, the external color is dark brown, the grooves are light brown and the internal color is cream. The consistency is firm.

Skeleton ( Fig. 13c–d View FIGURE 13 ). The cortex measures 500–800 µm thick and is densely packed with selenasters ( Fig. 13c View FIGURE 13 ). Micro-spheroxyasters are scattered through the outer layer of the cortex. Small tylostyles occur in the cortical region together with micro-spheroxyasters, through the aquiferous openings, which are devoid of selenasters ( Fig. 13d View FIGURE 13 ). The choanosomal skeleton is formed by tylostyle tracts 150–310 µm thick that run obliquely or perpendicularly from the substrate to the cortex ( Fig. 13c View FIGURE 13 ). Mature selenasters and immature selenasters are also scattered in the choanosome among the bundles of tylostyle. The micro-spheroxyasters occur abundantly in the choanosome, frequently in groups, lining the choanosomal openings. At the base there is a further layer of selenasters 120–310 µm thick ( Fig. 13c View FIGURE 13 ).

Megascleres ( Fig. 14a–c View FIGURE 14 ; Tab 6 View TABLE 6 ). Two categories of tylostyles. Tylostyles I are large, choanosomal, with blunt ends and rounded tyle: 570–726–940 / 6–9–13 µm, tyle 7–12–15 µm in width ( Fig. 14a–b View FIGURE 14 ). Tylostyles II are small, cortical, with blunt or mucronate ends and rounded tyle: 230–329–470 / 2–5–8 µm, tyle 3–7–10 µm wide ( Fig. 14c View FIGURE 14 ).

Microscleres ( Fig. 14d–k View FIGURE 14 ; Tab. 6 View TABLE 6 ). Mature selenasters are circular to oval, with all spines fused, forming irregular or polygonal plates: total size 32–55–88 / 20–54–73 µm, hilum 7–14 µm in diameter ( Fig. 14d View FIGURE 14 ). Four types of immature selenasters: (I) straight, slender, rugose and spiny, with spines scattered throughout the shaft: 12–17–20 / 2–5–8 µm ( Fig. 14e View FIGURE 14 ); ( II) elongate, stout, straight or slightly bent axis densely spined, with spines short and clustered: 19–20–22 / 9–10–11 µm (n=4) ( Fig. 14f View FIGURE 14 ); ( III) elongate, stout, with large and numerous spines: 22–25–28 / 12–15–15 µm ( Fig. 14g View FIGURE 14 ); ( IV) oval, stout, with spines very closely set, but still recognizable in their individuality: 32–36–40 / 22–25–28 µm ( Fig. 14h View FIGURE 14 ). Micro-spheroxyasters are small, with smooth rays ( Fig. 14i View FIGURE 14 ), variable in shape: some have a spiral axis, similar to micro-spirasters ( Fig. 14j View FIGURE 14 ), and others have an elongated center, similar to acanthomicrorhabds ( Fig. 14k View FIGURE 14 ): 1–2–4 µm in diameter.

Habitat. In Fernando de Noronha Archipelago, this species occurs under boulders in tide pools, 0.5–2.0 m depth (present study). The material from Amapá State described by Mothes et al. (2006) was dredged from 76 m depth on a sandy/detritic bottom.

Geographical distribution ( Fig. 4 View FIGURE 4 ; Tab. 2 View TABLE 2 ). Gulf of Mexico (González-Farías 1989 as Placospongia melobesioides ). Brazil: Amapá State, Northern Brazil ( Mothes et al. 2006 as Placospongia melobesioides ) and Fernando de Noronha Archipelago, Pernambuco State, Northeastern Brazil (present study).

Taxonomic remarks. Placospongia beatrizae sp. nov. is defined by the combination of two categories of tylostyles, round to oval mature selenasters, and micro-spheroxyasters variable in shape, some being similar to micro-spirasters and others similar to acanthomicrorhabds. Spirasters and spherasters are absent.

The new specimens from Fernando de Noronha share the same spicule categories with those from Amapá State, Northern Brazil ( Mothes et al. 2006 as P. melobesioide s) and Gulf of Mexico (González-Farías 1989 as P. melobesioide s) ( Tab. 6 View TABLE 6 ). Although Mothes et al. (2006) considered the micro-spirasters as an immature stage of selenasters, their shape, size and position in the skeleton indicate that the micro-spirasters are variations of the micro-spheroxyasters, as in the new species. The sizes of most spicule types are also similar in both populations, but there is some uncertainty about the size of the selenasters of the Amapá specimen. In the text of the description, Mothes et al. (2006) stated that the selenasters measure 70–90–111 / 26–36–48 µm, but the scale bar in their Fig. 15 (op. cit., p. 672) indicated sizes between 46–52–57 / 28–41–46 µm, more similar to those of specimens from Fernando de Noronha Archipelago ( Tab. 6 View TABLE 6 ). Although the real size of the selenasters from the Amapá specimen of Mothes et al. (2006) remains to be verified, we consider that it is cospecific with the specimens from Fernando de Noronha Archipelago herein described as a new species P. beatrizae sp. nov. ( Tab. 7 View TABLE 7 ).

Placospongia melobesioides sensu stricto was first described from Borneo (Pacific Ocean) and it differs from the new species by its variable color (but mainly dark brown to purple), often branching shape, large size (up to more than 50 cm wide), and by the presence of spherasters, although these spicules are rare and could be absent in most specimens ( Gray 1867; Becking 2013). In addition, the smaller tylostyles of P. melobesioides View in CoL often have acerate ends, and its micro-spheroxyasters (called ‘spherules’ by Becking 2013) are uniform and do not show the variations to micro-spirasters or to acanthomicrorhabds seen in the new species ( Tab. 3 View TABLE 3 ; Becking 2013).

Van Soest (2009) first proposed that P. melobesioides sensu Mothes et al. (2006) View in CoL could be an undescribed species, which he named Placospongia sp. 2 , due to the absence of spherasters, but supposed that P. melobesioides sensu González-Farías (1989) View in CoL from the Gulf of Mexico could be P. cristata View in CoL , despite the absence of spherasters. David-Colón et al. (2023) argued that the spherasters could be lost in transverse sections of some specimens for being too superficial, and considered these records tentatively as a synonym of P. cristata View in CoL . However, our re-examination of the holotype of P. cristata View in CoL showed that its spherasters are abundant and occur in both the ectosome and choanosome, being thus unlikely that they could be lost during sectioning. Thus, we also consider that P. melobesioides sensu González-Farías (1989) View in CoL from the Gulf of Mexico is cospecific with P. beatrizae sp. nov. ( Tab. 7 View TABLE 7 ).

Placospongia beatrizae sp. nov. and Placospongia cristata are very similar, sharing the presence of two categories of tylostyles, rounded mature selenasters, and presence of micro-spheroxyasters. They differ mainly by the absence of spherasters in the new species. In addition, the tylostyles and selenasters of the new species attain larger sizes, and the shape of immature selenasters and micro-spheroxyasters is more variable in the new species than in P. cristata ( Tab. 3 View TABLE 3 ).

Kingdom

Animalia

Phylum

Porifera

Class

Demospongiae

SubClass

Heteroscleromorpha

Order

Clionaida

Family

Placospongiidae

Genus

Placospongia

Loc

Placospongia beatrizae

Sandes, Joana, Moraes, Fernando & Muricy, Guilherme 2024
2024
Loc

Placospongia sp. 2

Soest, R. W. M. van 2009: 11
2009
Loc

Placospongia melobesioides sensu González-Farías (1989)

Mothes, B. & Campos, M. A. & Lerner, C. B. & Silva, C. M. 2006: 670
2006
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