Kristianides, Salazar-Silva, 2020

Salazar-Silva, Patricia, 2020, Paralbunea dayriti, Zoological Studies (Zool. Stud.) 59 (29), pp. 1-14 : 6-9

publication ID

https://doi.org/ 10.6620/ZS.2020.59-29

persistent identifier

https://treatment.plazi.org/id/8E3187AF-6E79-173B-FF64-FE394F5AFE59

treatment provided by

Felipe

scientific name

Kristianides
status

 

Subfamily Eulagiscinae Pettibone, 1997 View in CoL

Kristianides gen. nov. urn:lsid:zoobank.org:act:7A447D15-D3B3-4F8B-AA02-6CB6813A3EE3

Etymology: The new genus is named to honor the late Dr. Kristian Fauchald, in recognition of his valuable contributions to numerous studies on polychaetes, and especially for his unrestricted support for museums and research on scale worms, one of his favorite polychaete groups.

Gender: Masculine.

Type species: Kristianides cylindricum sp. nov.

Diagnosis: Eulagiscinae , body with many s e g m e n t s. Ve n t r a l l a m e l l a e t h i n, s e m i c i r c u l a r. Prostomium bilobed without cephalic peaks; no facial tubercle; two pair of circular eyes, small, dark; three antennae, median antenna with ceratophore short, inserted frontally with ceratostyle short, slender; lateral antennae with ceratophores indistinct, short, thick, inserted terminally as prostomial continuations, at the same level as median antenna; ceratostyle minute, slender. Palps slender, long. Tentacular segment not visible dorsally; tentaculophores with protruding thick acicula; segment two without nuchal fold. Fifteen pair of elytra on segments 2, 4, 5, 7, 9, 11, 13, 15, 17, 19, 21, 23, 26, 29, 32, last six segments with dorsal cirri. Elytra thin, imbricate, covering dorsum; elytral margin with fringe of thin papillae and elytral surface with sclerotized microtubercles and macrotubercles. Parapodia birramous; notopodia and neuropodia well developed; notochaetae abundant, long, a few thicker and short, mostly slender with long spinous region and tips capillary; neurochaetae of two types, subacicular with rows of long spines, and long bare entire tips; supraacicular neurochaetae with longer spinous region and entire tips.

Remarks: Three subfamilies have been proposed in Polynoidae based on the terminal insertion of the lateral antennae as extensions of prostomium: Lepidonotinae Willey, 1902 , Lepidastheniinae Pettibone, 1989 , and Eulagiscinae Pettibone, 1997 . They have a similar prostomium but differ principally in the shape of parapodia. In Lepidonotinae neuropodia are entire without distinct pre-chaetal and post-chaetal lobes, and short notopodia. In Lepidastheniinae the neuropodia have distinct pre-chaetal and post-chaetal lobes, the acicula is not projected, and notopodia are reduced. Eulagiscinae was defined by having neuropodia and notopodia well developed; both with distinct pre-chaetal and post-chaetal lobes; acicula projected in a longer preacicular lobe and an occipital lobe.

Kristianides View in CoL gen. nov. is characterized by having lateral antennae inserted terminally, as in Lepidonotinae View in CoL and Lepidastheniinae View in CoL , but in Kristianides View in CoL gen. nov., both neuropodia and notopodia bear a projected pointed acicular lobe, corresponding with Eulagiscinae View in CoL after Pettibone 1997. Therefore, this new genus is being referred to the latter subfamily. Kristianides View in CoL gen. nov. differs from the other Eulagiscinae View in CoL genera, Eulagisca McIntosh, 1885 View in CoL and Pareulagisca, Pettibone, 1997 View in CoL , because it lacks of an occipital fold and it has ventral lamellae. Recently Bonifácio and Menot (2019) emended the description of Eulagiscinae View in CoL to include the absence of a nuchald fold, characters observed in the species of Bathymorea Pettibone, 1967. Thus Kristianides View in CoL gen. nov. constitutes the fourth genus of Eulagiscinae View in CoL and differs from the others of this subfamily as shown in key below.

Kristianides View in CoL is also distinguished from other genera of others subfamilies provided with ventral lamellae as is indicated in table 1.

Kristianides cylindricum sp. nov. ( Figs. 4–7 View Fig View Fig View Fig View Fig ) urn:lsid:zoobank.org:act:FA6DF46D-A732-4B65-9705-62BE4C3E02C3

Material examined: Holotype USNM 075622 About USNM , Gulf of Mexico, off Alabama, Mississippi Sound, R / V Mississippi Sound , sta. 581, 30°11'35"N, 088°16'32"W, depth 12.2 m, 29 Oct. 1980, Army Corp of Engineers , coll. GoogleMaps

Description: Holotype USNM 075622 complete. Body with 38 segments, length 1.5 cm, width 2.0 mm without chaetae, pale yellow pale, parapodia long, slender ( Fig. 4a View Fig ), venter markedly segmented ( Fig. 6b View Fig ).

Prostomium bilobed, wider than long, facial tubercle absent, without cephalic peaks ( Fig. 4b View Fig ). Eyes dark, small, on posterior prostomial half, anterior eyes dorsolateral; posterior eyes displaced anteriorly. Median antenna with thick ceratophore, inserted frontally, between prostomial lobes; slender ceratostyle papillated, shorter than prostomium length, tapered into filiform tip. Lateral antennae with stout, short ceratophores, inserted terminally as prolongations of prostomial lobes; ceratostyles thin, surface papillated, shorter than prostomial length. Palps long, thin, papillated, tapered into fine tips. Pharynx not everted.

Tentacular segment not visible dorsally; tentaculophores without chaetae; aciculae thick protruding. Tentacular cirri thin; long, almost palps length; surface papillated; tapering into filiform tips. Segment two without nuchal lobe ( Fig. 4b View Fig ).

Fifteen pairs of elytrophores on segments 2, 4, 5, 7, 9, 11, 13, 15, 17, 19, 21, 23, 26, 29, 32; first 12 pairs alternate with one dorsal cirri, except on segments 4 and 5; last six segments with dorsal cirri. Elytra translucent, imbricated, covering dorsum. Elytral margin with fringe of long, abundant papillae ( Fig. 5d View Fig ). Elytral surface with microtubercles and macrotubercles ( Fig. 5a–c, e View Fig ), and filiform papillae with globular tips ( Fig. 5e– f View Fig ). Microtubercles conical, amber in color ( Fig. 5f View Fig ); macrotubercles cylindrical-conical, amber in color ( Fig. 5e–g View Fig ).

Dorsal tubercles inconspicuous; elytrophores rounded. Dorsal cirri long, extended beyond neurochaetal tips ( Fig. 7a View Fig ), surface with short papillae; cirrophore cylindrical, long; ventral cirri short, papillated, tip filiform.

Parapodia biramous, separated from each other, almost as long as body width. Notopodia well developed, acicular lobe projected. Neuropodia long with distinct pre-chaetal and post-chaetal lobes; pre-chaetal lobe projected like an acicular lobe, post-chaetal lobe shorter ( Fig. 7a–b View Fig ).

Notochaetae more abundant than neurochaetae ( Fig. 7a–c View Fig ). First two notopodia with notochaetae thicker, short, curved, blunt tips, with a few capillary notochaetae; from third notopodia notochaetae longer; some shorter curved, lateral wit rows of inconspicuous spines, tips short ( Fig. 7d View Fig ); mostly longer spinous with capillary tips ( Fig. 7e View Fig ). Neurochaetae thicker than notochaetae; subacicular neurochaetae with rows of spines, tips entire, long, curved ( Fig. 7h–i View Fig ); supraacicular neurochaetae ( Fig. 7f View Fig ) longer, slender, spinous region long, spines long, tips capillary ( Fig. 7g View Fig ).

Pygidium with terminal anus; anal cirri lost. Ventral lamellae from segment 3, thin, depressed, wide, semicircular, with a bilobed appearance ( Fig. 6a–c View Fig ).

Type locality: Alabama, Mississippi Sound (30°11'35"N, 088°16'32"W).

Distribution: Only known from the type locality.

Etymology: The species is named after the shape of elytral macrotubercles, being cylindrical.

Remarks: Kristianides cylindricum n. sp. was previously identified as Phyllohartmania taylori Pettibone, 1961 because it has ventral lamellae, but in P. taylori the lateral antennae have ceratophores inserted ventrally, while in Kristianides they are inserted terminally, as prolongations of the prostomial lobes.

Lagisca lamellifera ( Marenzeller, 1879) View in CoL was described with ventral lamellae, but its prostomium has cephalic peaks, and lateral antennae inserted ventrally on distinct ceratophores. Moore (1910) considered that the ventral lamellae referred to by von Marenzeller in L. lamellifera View in CoL are not diagnostic, because they appear under certain conditions of preservation in many species. For Uschakov (1982), the ventral lamellae may only be present on large specimens of Gastrolepidia clavigera Schmarda, 1861 View in CoL and might have a reproductive function, but Hanley (1989) found that their presence was not size-dependent. In Branchinotogluma Pettibone, 1985 View in CoL the ventral lamellae and presence of long nephridial papillae are regarded as indicative of sexual dimorphism in males ( Zhang et al. 2018b); as indicated above, this dimorphism has been documented in polynoids, mainly from hydrothermal vents ( Glover et al. 2005).

The new species can be distinguished by the combination of their prostomium, ornamentation of its elytra, presence of a pair of ventral lamellae laterally on each segment, which are not frequent in the species of Polynoidae View in CoL .

R

Departamento de Geologia, Universidad de Chile

V

Royal British Columbia Museum - Herbarium

Kingdom

Animalia

Phylum

Annelida

Class

Polychaeta

Order

Phyllodocida

Family

Polynoidae

Loc

Kristianides

Salazar-Silva, Patricia 2020
2020
Loc

Kristianides

Salazar-Silva 2020
2020
Loc

Kristianides

Salazar-Silva 2020
2020
Loc

Kristianides

Salazar-Silva 2020
2020
Loc

Kristianides

Salazar-Silva 2020
2020
Loc

Kristianides

Salazar-Silva 2020
2020
Loc

Kristianides cylindricum

Salazar-Silva 2020
2020
Loc

Eulagiscinae

sensu Pettibone 1997
1997
Loc

Eulagiscinae

sensu Pettibone 1997
1997
Loc

Pareulagisca

, Pettibone 1997
1997
Loc

Eulagiscinae

sensu Pettibone 1997
1997
Loc

Eulagiscinae

sensu Pettibone 1997
1997
Loc

Lepidastheniinae

Pettibone 1989
1989
Loc

Branchinotogluma

Pettibone 1985
1985
Loc

Lepidonotinae

Willey 1902
1902
Loc

Eulagisca

McIntosh 1885
1885
Loc

Gastrolepidia clavigera

Schmarda 1861
1861
Loc

Polynoidae

Kinberg 1856
1856
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