Acarnus microxeatus, Nascimento & Pinheiro, 2023
publication ID |
https://doi.org/ 10.11646/zootaxa.5293.3.5 |
publication LSID |
lsid:zoobank.org:pub:7A0F8C73-B94D-4FAE-A0D9-FFC3D86104E8 |
DOI |
https://doi.org/10.5281/zenodo.7982802 |
persistent identifier |
https://treatment.plazi.org/id/AD5A87C8-0C2D-FFCE-FF66-FE79C609FD04 |
treatment provided by |
Plazi |
scientific name |
Acarnus microxeatus |
status |
sp. nov. |
Acarnus microxeatus View in CoL sp. nov.
( Figs 2–3 View FIGURE 2 View FIGURE 3 , Tables 1–2 View TABLE 1 View TABLE 2 )
Type Material. Holotype. UFPEPOR 2986— Serrambi Beach (8°33’37.7”S 35°00’22.0”W, Ipojuca, Pernambuco State, Brazil), 12 august 2022, Col. Nascimento, E.F., Dias, A., Pinheiro, U., intertidal. GoogleMaps
Paratypes. UFPEPOR 2981— Serrambi Beach (8°33’37.7”S 35°00’22.0”W, Ipojuca , Pernambuco State, Brazil) GoogleMaps , 12 august 2022, Col. Nascimento, E.F., Dias, A., Pinheiro, U., intertidal. UFPEPOR 2987, 2988— Serrambi Beach (8°33’37.7”S 35°00’22.0”W, Ipojuca , Pernambuco State, Brazil) GoogleMaps , 12 august 2022, Col. Nascimento, E.F., Dias, A., Pinheiro, U., intertidal. UFPEPOR 4332— Ponta do Meirim (09º32’32.22”S 35º36’49.80”W) GoogleMaps Maceió , Alagoas State, Brazil), 30 january 2010, Col. Correia, M.D., depth 0.5 m .
Diagnosis. Acarnus with two categories of cladotylotes, tylotes, styles, three categories of toxas, acanthoxeas and smooth microxeas.
Description ( Fig. 2A View FIGURE 2 ). Thickly encrusting sponge with dimensions (2.0 x 1.5 x 1.1 cm (length x width x thickness)). Compressible and easily friable consistency. Hispid surface, with subdermal gaps and rounded oscule (0.3 cm diameter). Color orange in life, but beige in alcohol.
Skeleton ( Fig. 2B View FIGURE 2 ). Choanosomal skeleton plumoreticulated forming main tracts ascending to surface interconnected by renieroid isotropic tracts, both cored by choanosomal styles and tylotes; renieroid component of skeleton dominates skeletal structure; choanosomal tracts echinated by cladotylotes, particularly at nodes, microxeas found tangentially arranged in the ectosome and, other microscleres scattered in the choanosome.
Spicules ( Fig. 3 View FIGURE 3 ). Tylotes, terminally microspined, 190– 211 –249/2– 3.1 –5 μm. Styles, long, lightly curved, with smooth base, 374– 395.9 –424/12– 21.1 –30 μm. Cladotylotes I, larger, smooth and straight to lightly curved shaft, base with well-defined rounded tyle, cladome with long spines, length 141– 244 –293 μm, shaft width 5– 9.8 –12 μm, cladome width 17– 33.5 –44 μm. Cladotylotes II, smaller, heavily spined with recurved spines at the base and lightly curved shaft, base with depressed (flattened), lobed tyles, length 90– 96.1 –105 μm, shaft width 2– 3.1 –5 μm, cladome width 12– 12.6 –15 μm. Palmate isochelae, 10– 10.7– 12 μm. Toxas I, accolada, 222– 435.6 –656 μm. Toxas II, thin, deeply curved, 50– 128.9 –313 μm. Toxas III, oxhorn, thick deeply curved, 35– 55.2 –80 μm. Acanthoxeas, heavily spined shafts, 61– 77.7 –98/2– 3.4 –5 μm. Microxeas, smooth, lightly curved with hastate and acerate ends, 29– 52.4 –202/5– 7.8 –12 μm.
Distribution. Alagoas and Pernambuco States, Northeast Brazil.
Etymology. The species name refers to the presence of smooth microxeas, one of the characteristic microsclere categories of this species.
Ecology. Ophiuroids were found on some specimens.
Remarks. In Acarnidae , the presence of microxea microscleres in the spicule set is observed only in Acheliderma Topsent, 1892 , where they are elongated and diamond-shaped. The presence of smooth microxea in Acarnus microxeatus sp. nov. is a new character for this genus. Both genera are similar and share tylotes, styles, acanthostyles and toxas in their spicule set. However, Acheliderma differs by the absence of cladotylotes. Additionally, Acarnus microxeatus sp. nov. presents fusiform microxea instead of the elongated diamond-shaped ones seen in Acheliderma . The presence of acanthose microscleres is observed in several genera of Acarnidae . Acheliderma , Dolichacantha Hentschel, 1914 , Megaciella Hallmann, 1920 and Paracornulum Hallmann, 1920 all have acanthostyles. Wigginsia de Laubenfels, 1953 and Zyzzya Laubenfels, 1936 have acanthostrongyles, and Acanthorhabdus Burton, 1929 has acanthorhabds. Only Cornulella Dendy, 1922 shares acanthoxea with Acarnus microxeatus sp. nov., but differs from Acarnus by the absence of cladotylotes, and the fistular habit ( Aguilar-Camacho et al. 2013, Van Soest et al. 1994, Hooper 2002).
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References. (1) van Soest, Hooper & Hiemstra, 1991; (2) Aguilar-Camacho, Carballo & Cruz-Barraza, 2013; (3) Lévi, 1998; (4) Dendy, 1896.
The new species fits best in the “souriei” group, due to the presence of acanthose spicules (here acanthoxeas) in its spicule set. We emphasize that Acarnus microxeatus sp. nov. differs from all congeners by having microxeas and acanthoxeas as microscleres ( Figs 3I and 3G View FIGURE 3 , respectively). Acarnus primigenius , A. radovani , A. souriei and A. tener present only one category of cladotylotes with spined shaft and base with recurved spines, differing from A. microxeatus sp. nov. which has two categories of cladotylotes, the largest one, with a smooth shaft and rounded lobed base ( Fig. 3D View FIGURE 3 ). Additionally, all these species, mentioned above, have styles with a microspined and/or rough head, in contrast to the totally smooth head of styles in A. microxeatus sp. nov. ( Table 2 View TABLE 2 ). The new species presents three categories of toxas, differing from A. caledoniensis , A. guentheri , A. levii , A. michoacanensis , A. peruanus and A. tener that have two categories, and A. primigenius , that has only one category. Furthermore, A. caledoniensis has two categories of acanthostyles and is spherical in shape, while Acarnus microxeatus sp. nov. has one category of acanthostyles and is thickly encrusting. Acarnus bicladotylotus and A. nicoleae differ from A. microxeatus sp. nov. by having larger tylotes (143–404 μm and 119–380 μm, respectively against 190– 211 –249 μm) and also for having smaller accolada toxas (150–250 μm and 140–330 μm, respectively against 222– 435.6 –656 μm) ( Tables 1 View TABLE 1 and 2 View TABLE 2 ). Additionally, none of these species of Acarnus have acanthoxea and smooth microxea as the new species do ( Table 1 View TABLE 1 , 2 View TABLE 2 , 3 View TABLE 3 and 4).
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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