Leucaltis clathria Haeckel, 1872
publication ID |
https://doi.org/ 10.11646/zootaxa.4410.2.5 |
publication LSID |
lsid:zoobank.org:pub:03410832-3508-4DE7-A4CF-D0D458E0069A |
DOI |
https://doi.org/10.5281/zenodo.5966597 |
persistent identifier |
https://treatment.plazi.org/id/225F2A0C-FFB4-FFD5-0BFD-2FAE90A1B4E6 |
treatment provided by |
Plazi |
scientific name |
Leucaltis clathria Haeckel, 1872 |
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Leucaltis clathria Haeckel, 1872 View in CoL
( Figures 11–12 View FIGURE11 View FIGURE 12 , Table 11)
Synonyms. Artynas clathria: Haeckel 1872: 159 , Heteropegma nodusgordii: Poléjaeff 1883: 45 , Hanitsch 1895: 209. Leucaltis clathria: Haeckel 1872: 159 , Dendy 1913: 16, Arndt 1940: 46, Borojevic & Peixinho 1976: 1002, Borojevic 1998: 75, Borojevic et al. 2002: 1148, Muricy et al. 2008: 131, Lanna et al. 2009: 13, Muricy et al. 2011: 35, Klautau et al. 2013: 449, Van Soest 2017: 198, Cóndor-Luján et al. 2018: 61.
Material Examined. ( One specimen) UFRJPOR 7671, Le Rocher du Diamant, Martinique (14°26.556' N – 61°2.408' W), collected by F. Azevedo, 25 April 2015, 18.8 m depth. GoogleMaps
Colour. Light pink alive and white in ethanol.
Description. Sponge formed by anastomosed tubes with apical oscula and central atrium ( Figures 11A–B View FIGURE11 ). Each tube has a cortex and atrium. Consistency firm, friable and rough to the touch. Elongated choanocitary chambers. The analysed specimen has many larvae in the choanosome ( Figure 11C View FIGURE11 ).
Skeleton. The cortical skeleton is composed of giant triactines and tetractines ( Figure 11D View FIGURE11 ). The apical actine of the tetractines crosses the choanosome and penetrates the atrium, which becomes hispid ( Figures 11D–E View FIGURE11 ). The sagittal spicules are mainly found surrounding the canals and the atrium ( Figure 11F View FIGURE11 ). The choanosome is also composed of very small regular and sagittal triactines and tetractines ( Figure 11G View FIGURE11 ).
Spicules ( Table 11).
Triactine I: Regular. Very variable in size. Actines are conical with sharp tips ( Figure 12A View FIGURE 12 ). Size: 330.0– 720.0/40.0–75.0 µm.
Tetractine I: Regular. It is similar to triactine I, but larger and thicker ( Figure 12B View FIGURE 12 ). The apical actine of the tetractines is conical, large, thick, straight, smooth with a sharp tip ( Figure 12C View FIGURE 12 ). Size: 420.0–900.0/40.0–120.0 µm.
Triactine II: Regular or sagittal. Actines are cylindrical, with blunt or rounded tips ( Figures 11F View FIGURE11 , 12D View FIGURE 12 ). Size: 52.5–65.0/2.5–5.0 µm (regular), 30.0–67.5/2.5–5.0 µm (sagittal, unpaired actine), 57.5–70.0/2.5–5.0 µm (sagittal, paired actines).
Tetractine II: Regular or sagittal. Actines are cylindrical with blunt or rounded tips ( Figures 11F View FIGURE11 , 12E View FIGURE 12 ). Size: 30.0–62.5/2.5–3.7 µm (regular), 32.5–52.5/2.5–5.0 µm (sagittal, unpaired actine), 37.5–72.5/2.5–5.0 µm (sagittal, paired actine).
Ecology. The analysed specimen was collected at the entrance of a cave, in a shaded environment. No epibionts were found.
Geographical distribution. Atlantic Ocean: U.S.A. Florida ( Haeckel 1872), off Bermuda (Poléjaeff 1883), Panama ( Klautau et al. 2013), Portugal ( Hanitsch 1895; Arndt 1940), Guyana Shelf (Van Soest 2017), Brazil— Pará State, Alagoas State, Ceará State, Rio Grande do Norte State, Sergipe State, Espírito Santo State ( Borojevic & Peixinho 1976; Muricy et al. 2008; 2011, Lanna et al. 2009).
Remarks. For a long time, Leucaltis clathria was considered to be a cosmopolitan species (Poléjaeff 1883; Carter 1886; Dendy 1892, 1893, 1905; Borojevic 1998, Borojevic & Klautau 2000). However, in 2013 Klautau et al. generated DNA sequences of L. clathria from the Caribbean Sea (type locality of this species) and from Australia, and suggested that the specimens from Australia comprised a distinct species. In 2015, Van Soest & De Voogd published a work about calcareous sponges from Indonesia and proposed that Indo-Pacific specimens morphologically similar to L. clathria should be called L. nodusgordii (Poléjaeff, 1883) . Therefore, L. clathria is currently considered to be present only in the Atlantic Ocean, having an amphi-Atlantic distribution.
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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