Hymedesmia (Hymedesmia) humboldti, Salani & Willenz & Fernandez & Hajdu, 2022

Salani, Sula, Willenz, Philippe, Fernandez, Julio C. C. & Hajdu, Eduardo, 2022, Three new Hymedesmia Bowerbank, 1864 (Demospongiae, Poecilosclerida Hymedesmiidae) from the Southeast Pacific (Peru and Chile), Zootaxa 5165 (2), pp. 217-240 : 224

publication ID

https://doi.org/ 10.11646/zootaxa.5165.2.4

publication LSID

lsid:zoobank.org:pub:B0D96EEA-B3FA-4607-8C28-4A19B3027BBF

DOI

https://doi.org/10.5281/zenodo.6831785

persistent identifier

https://treatment.plazi.org/id/03F487E0-FFBA-9B5B-21FA-FF1FCC30D116

treatment provided by

Plazi

scientific name

Hymedesmia (Hymedesmia) humboldti
status

sp. nov.

Hymedesmia (Hymedesmia) humboldti View in CoL sp. nov.

( Figure 5 View FIGURE 5 ; Table 1 View TABLE 1 )

Material examined. Holotype ― MNRJ 12078 View Materials (Vouchers: RBINS – IG 32240 –POR 12078, MHNG 85520 View Materials ), Punta Coles , Ilo, Moquega Region, Peru (17.7S, 71.3808W), depth 13 m, coll. Y. Hooker, Ph. Willenz & M. Rios (06/ XI/2008) GoogleMaps . Paratype ― MNRJ 12144 View Materials (Vouchers: RBINS – IG 32240 –POR 12144, MHNG 85587 View Materials ) , Matarani , Bahia Uncupita, Arequipa Region, Peru (16.8370 S, 72.291W), depth 9 m, coll. Y. Hooker & U. Zanabria (27/ GoogleMaps XI /2008) GoogleMaps .

Additional material. IZUA – POR 175 View Materials (voucher and slides deposited as MNRJ 9254 View Materials ), Punta Choros , La Serena, Chile (29.8166S, 71.28333 W), depth 13 m, coll. E. Hajdu & G. Lobo-Hajdu (21/V/2005) GoogleMaps . MNRJ 9283 View Materials , Mejillones Peninsula , Antofagasta, Chile (23.083 S, 70.433 W), depth 13 m, coll. E. Hajdu & G. Lobo-Hajdu (24/V/2005) GoogleMaps ; MNRJ 14875 View Materials , 14879 View Materials , Isla Damas , Punta Choros, Chile (29.2377S, 71.5197W), depth 10 m, coll. D. Schories (21/ XI/2009) GoogleMaps .

Type locality. Punta Coles , Ilo, Moquega Region, Peru (17.7 S, 71.3808 W) GoogleMaps .

Diagnosis. Hymedesmia (H.) reddish orange in situ, with visible circular porefields and oscules. Acanthostyles I partially spined (153–320 × 6–17 µm), acanthostyles II entirely spined (55–150 × 5–15 µm), (aniso)strongyles (128–275 × 2–8 µm), and arcuate chelae (16–25 µm), abundant at the surface.

Description ( Fig. 5A–B View FIGURE 5 ). Thinly encrusting sponge (0.7–1.5 mm thick) ( Fig. 5A View FIGURE 5 ). The largest individual (IZUA–POR 175) covered an area of 640 cm 2. Surface smooth, completely covered by small, circular porefields (≈ 2 mm in diameter). Some oscules scattered on the surface (0.7–3.0 mm diameter, Fig. 5B View FIGURE 5 ). Consistency very soft and fragile. Color in life is reddish orange ( Fig. 5A–B View FIGURE 5 ), turning to beige when preserved in ethanol.

Skeleton ( Fig. 5C View FIGURE 5 ). Ectosomal skeleton with anisostrongyles forming bundles extending from surface to substrate. Porefield skeleton formed by many unitary strongyles in a mesh, organized as a conical structure. Subectosomal canals less than 0.8 mm in diameter. Subectosomal and choanosomal skeletons overlapping, composed of typical hymedesmioid structure, consisting of a basal layer of spongin with acanthostyles I and II erect on the substratum.Acanthostyles I support the ectosome without piercing it. Isochelae form a scattered layer at the surface, with some found in the choanosome. Incubated larvae present in MNRJ 9524 (≈ 300 µm diameter).

Spicules ( Figs 5D–J View FIGURE 5 ; Table 1 View TABLE 1 ). [Only holotype measurements presented here; for additional data see Table 1 View TABLE 1 ]. Ectosomal anisostrongyles ( Figs 5F–H View FIGURE 5 ), smooth and straight ( Fig. 5F View FIGURE 5 ), with rounded and mucronate ends ( Fig. 5G–H View FIGURE 5 ), 128– 167.9 –186 (± 13.4) × 2.7– 3.8 –5.4 (± 0.6) × 2.7– 3.7 –4.7µm (tyle). Choanosomal acanthostyles I ( Fig. 5D View FIGURE 5 ), acerate tips tapering gradually, rounded base, shaft slightly curved, with spines occupying the basal two thirds of its length, spines mostly slightly curved, those of the base larger than those of the shaft, 153– 215.6 –283 (± 37.2) × 5– 11.3 –13 (± 1.4) µm. Choanosomal acanthostyles II ( Fig. 5E View FIGURE 5 ), straight, tapering gradually, mucronate tip and rounded base, spines spread all over, 88– 107.1 –128 (± 8.7) × 5– 8.3 –10 (± 0.9) µm. Arcuate chelae ( Fig. 5I–J View FIGURE 5 ), one free spatulate ala and two lateral alae semi-fused with the shaft, which is characteristically curved, bow shaped, 19– 21.8 –24 (± 1.3) × 2.8– 2.9 –3.1 (± 0.1) µm.

Ecology. The sponge was epibiont on dead cirripeds, bryozoans, and serpulid polychaetes at 9–13 m depth.

Distribution. Known from Arequipa and Moquega regions in Peru, and from central-northern Chile (Antofagasta and Punta Choros), spanning the latitudes 16.84º to 29.24º S.

Etymology. The specific epithet “ humboldti ”, used as a noun in apposition, refers to the Humboldt current flowing north along most of the Chilean and Peruvian coasts, including all the localities the species was recorded from.

Remarks. This species is quite similar to H. (H.) peruana sp. nov., but has somewhat larger ectosomal tornotes, only two categories of acanthostyles, and more pronouncedly curved chelae concentrated in the ectosome.

RBINS

Royal Belgian Institute of Natural Sciences

IZUA

Universidad Austral de Chile, Instituto de Zoologia

Kingdom

Animalia

Phylum

Porifera

Class

Demospongiae

Order

Poecilosclerida

Family

Hymedesmiidae

Genus

Hymedesmia

SubGenus

Hymedesmia

GBIF Dataset (for parent article) Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF