Porania pulvillus ( O .F. Müller 1776 ), O.F. Muller, 1776

Mah, Christopher L. & Foltz, David W., 2014, New taxa and taxonomic revisions to the Poraniidae (Valvatacea; Asteroidea) with Comments on Feeding Biology, Zootaxa 3795 (3), pp. 327-372 : 346-349

publication ID

https://doi.org/ 10.11646/zootaxa.3795.3.7

publication LSID

lsid:zoobank.org:pub:77AB3EAA-DA13-4C8D-885D-EB9F5F14DE34

DOI

https://doi.org/10.5281/zenodo.6133847

persistent identifier

https://treatment.plazi.org/id/039F453C-9545-8735-FF0B-FBE6FCEFF93A

treatment provided by

Plazi

scientific name

Porania pulvillus ( O .F. Müller 1776 )
status

 

Porania pulvillus ( O.F. Müller 1776) View in CoL

Figure 6 View FIGURE 6 A–F

Asterias pulvillus O.F. Müller 1776: 234 ; 1788: 19, pl. 19

? Asterias equestris Templeton 1836: 237 (non A. equestris Linnaeus 1758 ).

? Asterina pygmaea Verrill 1878: 372 View in CoL ; 1879: 14

Goniaster templetoni Thomson in Forbes 1839: 118, pl. 4, figs. 1, 2; Forbes 1841: 122

Porania gibbosa Gray 1840: 288 View in CoL ; 1866: 16

Porania grandis View in CoL (pt) Verrill 1885: 542, figs 45, 45a

Asteropsis pulvillus Müller & Troschel, 1842: 64 , 128; Lütken, 1857: 71; M. Sars, 1861: 44; Perrier, 1869: 94.

Asteropsis ctenacantha Müller & Troschel 1842: 63 ; Perrier 1869: 94

Porania insignis Verrill 1895: 138 View in CoL –139; 1915: 70 (footnote); Gray et al 1968: 152 –153, fig. 28; Gosner 1971: 581; Franz et al 1981: 397, 398;

Porania pulvillus Norman 1865: 122 View in CoL ; Perrier 1875: 280 (1876: 96); Viguier 1879: pl. 13, figs. 11–15; Sladen 1889: 360; Bell 1891: 3; 1893: 79, pl. 10, figs. 7, 8; Herdman 1895: 69; Perrier 1896: 43; Pearcey 1902: 309; Simpson 1903: 40; Grieg 1907: 34; Koehler 1909: 99; Faran 1913: 16; Grieg 1913: 115; Gemmill 1915: 10, 21, pl.1, fig. 1; Koehler 1921: 41, fig. 30; 1924: 152; Mortensen 1924: 57, figs. 22, 23; 1927: 90, figs. 51, 52; Rivera 1930: 104, fig. 3; Einarsson 1948: 11; Tortonese 1955: 680; Madsen 1959: 169, fig. 6; Jangoux 1982: 149, 151, fig. 4; Gage et al. 1983: 281; A.M. Clark 1984: 42 (pt.); Clark & Downey, 1992: 209; Metaxas & Davis 2005: 1381; Kirby & Lindley 2005: 454 (larval records); Serrano et al. 2011: 429 (checklist).

Porania (Porania) pulvillus pulvillus A.M. Clark 1984 View in CoL : figs. 2B, 5C, 7b, 17A–C, 18A, B; Clark & Downey 1992: 207, 209

Porania (Porania) pulvillus insignis A.M. Clark 1984: 47 View in CoL

? Poranisca pygmaea Verrill 1914b: 19 View in CoL

Type notes. Clark and Downey (1992: 211) indicated a USNM lectotype and three paralectotypes, along with two further paralectotypes at the British Museum for P. insignis . This, however, contradicts Ahearn (1995: 26) who listed the lectotype and 28 paralectotypes (i.e., 26 more than indicated in Clark and Downey 1992). Additionally, at least two of these lots, USNM 7698 and 6349 are correctly identified as Poraniomorpha hispida , having been misidentified as Porania insignis Verrill 1895 .

Taxonomic comments. Synonymy of P. pulvillus insignis: Verrill (1895) did little to justify the separation of P. insignis as a separate taxon from P. pulvillus ( Müller 1776) . Only Clark and Downey (1992: 211) provided clear delineation of P. insignis from P. pulvillus ; these authors argued that P. insignis had a more open abactinal skeleton with mesh area exceeding plate area in larger specimens and with scattered spines present on the actinal surface. However, these characters do not consistently serve to separate the different indicated taxa. In at least one lot ( USNM E50125 View Materials ), there is an individual specimen with both an open reticulate skeleton and a closed, densely arranged skeleton, while others show a more intermediate state between “densely arranged” and “open reticulate” skeletons. The presence of this intermediate state is observed in several individuals from the same locality.

It is argued that character differences between pulvillus and insignis are based on individual variation and/or preservation artifacts. Observation of multiple specimen lots shows more open mesh present in those specimens preserved with fully tumescent coeloms (e.g., Paralectotype USNM 6385, USNM 10552, USNM E08391) versus those with more densely crowded abactinal skeletons ( E50124 View Materials ) with collapsed body coeloms. Furthermore, Hayne and Palmer (2013) showed that subspecies morphological variation in the intertidal Pisaster ochraceus was attributed to phenotypic adaptation to hydrodynamic activity in the environment. Collection stressors, environmental variation and sheer chance may have also contributed to character variation historically used to distinguish subspecies.

Implicit in the morphological separation between P. pulvillus insignis and P. pulvillus has also been an arbitrary distinction between east Atlantic (North American) and west Atlantic (European) populations as two distinct subspecies (e.g. Clark & Downey 1992). As indicated above, morphological distinctions between subspecies were not well-defined and the morphological basis for separation is weak. Specimens that fall within the definition of P. pulvillus are readily identified from the west Atlantic (North America, e.g., USNM E50124 View Materials , 10552), whereas those individuals that fall within the range of P. pulvillus insignis are recorded from the east Atlantic (e.g., USNM E08391 from Scotland).

In addition to these comparisons, at least two paralectotype specimens examined by Verrill are actually specimens of Poraniomorpha suggesting that the “open skeleton” used to distinguish pulvillus from insignis by Clark and Downey (1992) may have been, at least in part, inferred from misidentified material. It is unclear if Downey, Ahearn or A.M. Clark designated these paralectotypes.

Occurrence. North Atlantic Ocean. Eastern Atlantic from Trondheim fjord, Norway to the Skagerrak, North Sea, Shetland Islands and NE Scotland west to Lousy Bank (SW of the Faeroes) and south in the Bay of Biscay to N. Spain. On the Western Atlantic from Nova Scotia to Gulf of Maine south to Cape Hatteras, also Lydonia and Baltimore Canyon. 5– 970 m.

Description. Body weakly stellate R/r=1.5–2.4. Clark and Downey (1992) report a mean R/r of 1.81 in 24 specimens with R>3.0 cm. R up to 7.5 cm. Disk tumescent, rays triangular in outline. Interradial arcs rounded ( Figs 6 View FIGURE 6 A, C). Abactinal, marginal and actinal surface overlain by a thick layer of skin obscuring plate boundaries in wet or certain dried specimens. Skin appears to be more well-developed in deeper-water specimens (e.g., USNM E30689 View Materials , E30687 View Materials , E30690 View Materials ). Pedicellariae not observed.

Abactinal skeleton with round, cylindrical and irregularly lobate or polygonal shaped plates. Some (e.g. USNM paralectotype USNM 6385) show a widely spaced reticulate skeleton (e.g fig. 6D), whereas others showing a densely packed, imbricate skeleton ( Fig. 6 View FIGURE 6 A, F) (e.g., USNM E46649 View Materials ) and/or intermediate character states between these two extremes (e.g., E08391, E50125 View Materials ) with both imbricate and open reticulate skeletons present on a single individual. Although distribution of arrangement varies, plate patterns are consistent in most specimens. Reticulations composed of a central round or polygonal plate with three to five radiating bands, composed of overlapping plates ( Fig. 5 View FIGURE 5 C,D). Papular pores with one to ten pores per region, which are confluent in many of the specimens observed. Open spaces between mesh often include quadrate to irregularly shaped plates present within the patch framed by the reticulate skeleton. Papulae occur throughout these regions flanking the plates. Papulae absent interradially. The more imbricate or close-knit the skeleton is the fewer papulae are observed. Tight knit skeletons with an imbricate, shingle-like appearance ( Fig. 6 View FIGURE 6 F). A series of paired abactinal plates bisects each interradius on the disk extending from the primary circlet to the superomarginal contact ( Fig. 6 View FIGURE 6 A). The surface of this interradial bisector is covered by skin but papulae are absent. Abactinal surface in adults devoid of accessories or other structures, but smaller specimens (R=0.5) show single spines present on plate surface [as indicated by Clark and Downey (1992)]. Anus is encircled by spines, 7–15. Madreporite polygonal to round, flanked by two to five irregularly shaped plates always sitting on the interradial bisector.

Marginal plates wide, each plate oblong to crescent shaped ( Fig. 6 View FIGURE 6 E). Individual plates interrupted by overlying skin. Superomarginals number 16–36 per interradius (at R=0.5 to 4.7). Inferomarginals similar in shape but more strongly oblong, staggered from superomarginals, forming prominent actinolateral fringe. Individual plates largest interradially, becoming smaller and simpler in shape distally. Each inferomarginal with one to five short, blunt, cylindrical, skin-covered spines on the actinolateral edge. Highest number of spines interradially, but decreasing distally and sometimes lost on distalmost inferomarginals. Individuals from deeper water in the east Atlantic show only one spine per inferomarginal (USNM E30689 View Materials , E30687 View Materials , E30690 View Materials ). Skin obscures boundaries between marginal plates and spine articulation with plates. One to three intermarginal papulae present between marginal plates. On individuals with more imbricate or closed skeletons or smaller specimens (R=~1.0), only a single papulae occurs between plates.

Actinal surface flat. Actinal plates quadrate to rectangular arranged in three to six regular series, which are aligned in a pattern consistent with the inferomarginals ( Fig. 6 View FIGURE 6 B). Actinal surface in adults is devoid of accessories or other structures, covered by thick skin in most although some individuals possess a single spine on distal plates adjacent to the inferomarginals. As indicated in Clark and Downey (1992) single spines occur on the surface of actinal plates on tiny specimens (R= 0.5 cm). Fasciolar channels present from marginals and along actinals extending to adambulacrals, apparently more well developed in individuals with those with thicker skin layers (e.g., USNM E30689 View Materials ).

Adambulacrals covered by thick skin, interrupting direct contact between plates. Furrow spines, one or two, typically two. Single subambulacral spine. More distal plates with second adambulacral spine forming transverse series with the first and the furrow spines ( Fig. 6 View FIGURE 6 B). All furrow spines ensheathed by thick skin. Apical spines on oral plates webbed together. Furrow spines, two to three on oral plates unwebbed, free-standing.

Color in life is deep red, purple to orange. Oral surface is white.

Material examined. West Atlantic (North America). USNM E46642 View Materials Off southwestern part of Browns Bank, Nova Scotia 42º32’N 66º25’W, 229 m. Coll. R/V Albatross IV (1 dry spec. R=6.1, r=3.2); USNM E46644 View Materials Off southern part of Browns Bank, Nova Scotia. 42º12’N, 65º28’W, 113 m, Coll. R/V Albatross IV (2 dry specs. R= 2.2, r=1.0; R=2.4, r=1.0); USNM E46649 View Materials South of Browns Bank, Nova Scotia. 42º13’N 65º42’W, 229 m. Coll. R/V Albatross IV (5 dry specs. R=4.0, r=1.8; R=2.5, r=1.4; R=2.1, r=1.1; R=1.9, r=1.0; R=1.9, r=0.9); USNM E46650 View Materials South of Browns Bank 42º16’N 65º44’W, 216 m. Coll. R/V Albatross IV (2 dry specs. R=2.2, r=1.2: R=4.9, r=2.4); USNM E46701 View Materials South of Browns Bank, Nova Scotia 42º02’N 65º47’W, 256 m. Coll. R/V Albatross IV (2 dry specs. R=4.3, r=2.5; R=2.8, r=1.6); USNM E30687 View Materials Lydonia Canyon 40º21’40”N 67º39’51”W, 818 m, Coll. R/V Alvin (1 dry spec. R=5.6, r=2.8); USNM E30689 View Materials Lydonia Canyon 40º21’52”N 67º39’31”W, 607 m, Coll. R/V Alvin (1 dry spec. R=5.0, r=2.9); USNM E30704 View Materials Baltimore Canyon 38°9’39”N 73°48’13”W, 307 m. coll. DSRV Alvin (1 dry spec. R=6.9, r=3.0); USNM E30690 View Materials Baltimore Canyon 38°9’56”N 73°51’46”W, 500 m. coll. DSRV Johnson Sea Link (1 dry spec. R=5.7, r=3.1); USNM E50124 View Materials , North of Cape Hatteras, North Carolina. (5 dry specs. R=3.7, r=1.5; R=3.9, r=2.1; R=4.5, r=2.5; R=3.7, r=2.7; R=3.0, r=1.0); USNM E50125 View Materials East of Virginia Beach, North Atlantic. 36°40’N 74°40’, 335 m. Coll. RV Columbus Iselin. (3 dry specs. R=4.5, r=2.6; R=4.0, r=2.2; R=4.1, r=2.2). USNM 18496 Paralectotype- Porania insignis , Norfolk Virginia. 37º03’20”N, 74º31’40”W, 190 m. (1 dry spec. R=0.9, r=0.5 and fragments). East Atlantic (Europe). USNM 0 8391 Millport, Firth of Clyde, Scotland. Coll. J.L. Parkhurst. (1 dry spec. R=4.1, r=3.3); USNM E15952 Bay of Biscay, 47°40’N, 5° W, 119 m. Coll. J. Allen, WHOI. (1 dry spec. R=3.0, r=2.5); MNHN no #. Celtic Sea 51º22’N, 11º 42’W, 738– 803 m. Coll. Cosel aboard N. O. Thalassa , PROCELT 1, st. K 196 (1 dry spec. R=4.9, r=3.7) MNHN no #. Celtic Sea 51º48’N, 11º 37’W, 304– 307m. Coll. Cosel aboard N. O. Thalassa , PROCELT 1, st. K 19 (1 dry spec. R=4.1, r=2.5). MNHN no #. Gofe de Gascogne 44º07’N, 4º04’W, 590– 970 m. coll C. Cabioch aboard N. O. Thalassa st. W393 (1 dry spec. R=3.1, r=1.8) (arms upturned)

USNM

Smithsonian Institution, National Museum of Natural History

WHOI

Woods Hole Oceanographic Institution

MNHN

Museum National d'Histoire Naturelle

Kingdom

Animalia

Phylum

Echinodermata

Class

Asteroidea

Order

Valvatida

Family

Poraniidae

Genus

Porania

Loc

Porania pulvillus ( O .F. Müller 1776 )

Mah, Christopher L. & Foltz, David W. 2014
2014
Loc

Porania (Porania) pulvillus pulvillus

Clark 1992: 207
1992
Loc

Porania (Porania) pulvillus insignis

Clark 1984: 47
1984
Loc

Poranisca pygmaea

Verrill 1914: 19
1914
Loc

Porania insignis

Franz 1981: 397
Gosner 1971: 581
Gray 1968: 152
Verrill 1895: 138
1895
Loc

Porania grandis

Verrill 1885: 542
1885
Loc

Asterina pygmaea

Verrill 1878: 372
1878
Loc

Porania pulvillus

Serrano 2011: 429
Metaxas 2005: 1381
Kirby 2005: 454
Clark 1992: 209
Clark 1984: 42
Gage 1983: 281
Jangoux 1982: 149
Madsen 1959: 169
Tortonese 1955: 680
Einarsson 1948: 11
Rivera 1930: 104
Mortensen 1924: 57
Koehler 1921: 41
Gemmill 1915: 10
Faran 1913: 16
Grieg 1913: 115
Koehler 1909: 99
Grieg 1907: 34
Simpson 1903: 40
Pearcey 1902: 309
Perrier 1896: 43
Herdman 1895: 69
Bell 1891: 3
Sladen 1889: 360
Perrier 1875: 280
1875
Loc

Asteropsis pulvillus Müller & Troschel, 1842 : 64

Perrier 1869: 94
Sars 1861: 44
Lutken 1857: 71
Muller 1842: 64
1842
Loc

Asteropsis ctenacantha Müller & Troschel 1842 : 63

Perrier 1869: 94
Muller 1842: 63
1842
Loc

Porania gibbosa

Gray 1840: 288
1840
Loc

Goniaster templetoni

Forbes 1841: 122
Forbes 1839: 118
1839
Loc

Asterias equestris

Templeton 1836: 237
1836
Loc

Asterias pulvillus O .F. Müller 1776 : 234

Muller 1776: 234
1776
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