Orbiniella sp., 1954

Orbiniella sp. View in CoL

Fig. 20 View Figure

Material examined. NHMUKANEA 2022.431 , NHMUK ANEA 2022.421 – 430 View Materials (juveniles) , AMW.52198 , AM W.52200, IN2017_ V03 _100; 9 June 2017; off Byron Bay , NSW, Australia, beam trawl, start: 28.05°S 154.08°E, 999 m, end: 28.10°S 154.08°E, 1013 m. GoogleMaps DNA vouchers: NHMUK ANEA 2022.431 ( COI, 16 S) GoogleMaps , NHMUKANEA 2022.433 ( COI, 16 S) , AMW.52198 (16 S) , AMW.52200 (16 S) .

Description. Best preserved specimen NHMUKANEA 2022.431 complete, ~ 9 mm long and 0.7 mm wide for ~95 chaetigers. Specimen AM W.52198 anterior fragment with 15 chaetigers. Specimen AM W.52200 anterior end, with ~40 discernible chaetigers. Body somewhat dorsoventrally flattened throughout, not divided into distinct regions; individual chaetigers narrow, similar throughout; posterior parapodia not dorsally elevated ( Fig. 20A View Figure ). Live specimens not observed, ethanol-preserved specimenstanned ( Fig 20A View Figure ).

Prostomium bluntly conical ( Fig. 20B View Figure ), without appendages, eyes absent. Nuchal organs only detected as lateralpitson prostomium. Peristomium approximatelytwice as long as prostomium, weakly annulated, buttwo achaetous rings likely present.

Parapodia reduced to low mounds from which chaetae emerge; no neuropodialpostchaetal lobes. Branchiae present; absent in anterior-most segments and becoming apparent after approximately 30 segments in adult specimens ( Fig. 20A View Figure ). Branchiae initially small and conical, increasing greatly in lengthtowards posteriorwhere theybecome strap-like, slender and elongated ( Fig. 20C View Figure ); greatly reduced in size again in the few posteriormost chaetigers.

Chaetae include both crenulated capillaries ( Fig. 20D View Figure ) and short acicular spines ( Fig. 20E View Figure ) in both rami; furcate setae absent; no evidence of imbeddedaciculae. Notochaetae as bundles of crenulated capillaries of various lengths throughout; straight slightly serrated spines present from chaetiger 1 (up to 3 per ramus observed). Neurochaetae generally slenderer thannotochaetae composed of crenulated capillaries and up to 3 spines; neuropodial spines slenderer than in notopodial one, distally slightly curved into slender tip. Pygidium with two broad lobes, anal cirri not observed.

Variation. Juveniles ( Fig. 20F View Figure ) small specimens with length of 1.2–4 mm and width of 0.1–0.2 mm, for 20 to ~50 chaetigers, branchiae always present, appearing ~chaetiger 10 regardless of size, parapodial lobes never developed.

Distribution. IN2017_V03, Station 100. Pilot whale carcass, off Byron Bay, New South Wales, Australia in 999–1013 m.

Remarks. Specimens assigned here to Orbiniella sp. are morphologically similar to Orbiniella jamesi sp. nov., but differ in the following characters: neuropodial postchaetal lobes are absent, body is more robust, posterior branchiae are shorter and thicker than in O. jamesi sp. nov. The development and number of neuropodial postchaetal lobes have been suggested to differ among developmental stages in Orbiniidae , but here the differences were observed in specimens of similarlength (7–9 mm) andpossessing similar number of chaetigers (90–95). Anumber of very small juveniles ( Fig. 20F View Figure ) werealsofoundin the samples. However, the molecular results indicate that specimens assigned here to Orbiniella sp. and Orbiniella jamesi sp. nov., as well as juvenile specimens represent the same species ( Fig. 19 View Figure 19 ). Currently, the understanding of developmental stages in Orbiniidae is limited despite some recent advances (see Blake, 2021) and we thus tentatively ascribe the specimens without neuropodial postchaetal lobes to Orbiniella sp. , rather than Orbiniella sp. nov. that has well-developed lobes. Gunton et al. (2021, fig. 18F) assigned a specimen fitting Orbiniellajamesi sp. as described here toan unknown genus of Protoariciinae , butthis placementis atoddswith the molecularphylogeny of thisstudy whichshowsprotoariciines in a more crown position compared to Orbiniella ( Fig. 19 View Figure 19 ).