Abyssal fauna of polymetallic nodule exploration areas, eastern Clarion-Clipperton Zone, central Pacific Ocean: Amphinomidae and Euphrosinidae (Annelida, Amphinomida) Author Neal, Lenka Life Sciences Department, Natural History Museum, London SW 7 5 BD, UK Author Wiklund, Helena https://orcid.org/0000-0002-8252-3504 Life Sciences Department, Natural History Museum, London SW 7 5 BD, UK & Department of Marine Sciences, University of Gothenburg, Box 463, 40530 Gothenburg, Sweden & Gothenburg Global Biodiversity Centre, Box 463, 40530 Gothenburg, Sweden Author Gunton, Laetitia M. Australian Museum Research Institute, 1 William Street, Sydney NSW 2010, Australia Author Rabone, Muriel https://orcid.org/0000-0002-8351-2313 Life Sciences Department, Natural History Museum, London SW 7 5 BD, UK Author Bribiesca-Contreras, Guadalupe https://orcid.org/0000-0001-8163-8724 Life Sciences Department, Natural History Museum, London SW 7 5 BD, UK Author Dahlgren, Thomas G. https://orcid.org/0000-0001-6854-2031 Department of Marine Sciences, University of Gothenburg, Box 463, 40530 Gothenburg, Sweden & Gothenburg Global Biodiversity Centre, Box 463, 40530 Gothenburg, Sweden & NORCE Norwegian Research Centre, Bergen, Norway Author Glover, Adrian G. https://orcid.org/0000-0002-9489-074X Life Sciences Department, Natural History Museum, London SW 7 5 BD, UK a.glover@nhm.ac.uk text ZooKeys 2022 2022-12-22 1137 33 74 http://dx.doi.org/10.3897/zookeys.1137.86150 journal article http://dx.doi.org/10.3897/zookeys.1137.86150 1313-2970-1137-33 9407DC6EB6B046AFA9C7F8DDCF542457 038180F7C47A5FCBBD907481025DF21B Euphrosinella georgievae sp. nov. Figs 13A-G , 14A-F , 15A , 16A-G Material examined. NHM_0587, NHMUK ANEA 2022.658, coll. 17/02/2015 , EBS, 12.38624 , -116.54867 , 4202 m , UK-1, http://data.nhm.ac.uk/object/b7a0bf33-0dc4-4f61-90de-35865647a99f; NHM_0777, NHMUK ANEA 2022.659, coll. 20/02/2015 , EBS, 12.38624 , -116.54867 , 4202 m , UK-1, http://data.nhm.ac.uk/object/a8f0e776-d7b6-4ec6-a549-78f40f17d89b; NHM_1737B, NHMUK ANEA 2022.660, coll. 11/03/2015 , EBS, 12.17383 , -117.19283 , 4045 m , OMS, http://data.nhm.ac.uk/object/2784df45-eec0-4151-b12d-11d955985faa; NHM_0910, NHMUK ANEA 2022.661, coll. 23/02/2015 , EBS, 12.57133 , -116.6105 , 4198 m , UK-1, http://data.nhm.ac.uk/object/05dfb32c-fc3a-4028-bf09-3eb840175661; NHM_1134 ( paratype ), NHMUK ANEA 2022.662, coll. 26/02/2015 , EBS, 12.1155 , -117.1645 , 4100 m , OMS, http://data.nhm.ac.uk/object/00590d2b-f952-4c69-8bc2-ac2a408da17a; NHM_1514, NHMUK ANEA 2022.663, coll. 05/03/2015 , EBS, 12.51316667 , -116.491333 , 4252 m , UK-1, http://data.nhm.ac.uk/object/96cb7b69-c0ea-4559-9b57-3abe6af4a4c7; NHM_2391 ( holotype ), NHMUK ANEA 2022.664, coll. 20/02/2015 , EBS, 12.53717 , -116.60417 , 4425 m , UK-1, http://data.nhm.ac.uk/object/1ce8325f-74de-47de-a776-2dc50b8d69ae; NHM_4975, NHMUK ANEA 2022.665, coll. 28/10/2020 , box core, 11.013923 , -116.258737 , 4234 m , NORI-D, http://data.nhm.ac.uk/object/677b7d67-d9cc-4ebd-8d79-cf5da5dc40da; NHM_6087, NHMUK ANEA 2022.666, coll. 14/11/2020 , box core, 10.647709 , -117.226887 , 4183 m , NORI-D, http://data.nhm.ac.uk/object/eebfaecd-5ee2-49d6-be73-51eb91678487; NHM_5802, NHMUK ANEA 2022.667, coll. 11/10/2020 , box core, 10.475094 , -117.384872 , 4306 m , NORI-D, http://data.nhm.ac.uk/object/c0e408e3-91e7-408f-aaef-3be86507105a; NHM_5057, NHMUK ANEA 2022.668, coll. 30/10/2020 , box core, 10.929036 , -116.26351 , 4262 m , NORI-D, http://data.nhm.ac.uk/object/d92b1574-eccb-443c-a15d-b79357360b59; NHM_7235, NHMUK ANEA 2022.669, coll. 14/05/2021 , box core, 10.3773 , -117.1558 , 4302 m , NORI-D, http://data.nhm.ac.uk/object/55637dc0-f9b9-4586-9bfb-7a821c785279; NHM_2908, NHMUK ANEA 2022.670, coll. 20/02/2015 , EBS, 12.53717 , -116.60417 , 4425 m , UK-1, http://data.nhm.ac.uk/object/fba3fab7-ae4b-4415-a73c-a2ba6cd44601. Diagnosis. Holotype (NHMUK ANEA.2022.664) complete (except for tissue sampled for DNA), 4.2 mm long and 1.1 mm wide without chaetae for 15 chaetigers (Fig. 13A ). Paratype (NHMUK ANEA.2022.662) complete (except for tissue sampled for DNA), with 13 chaetigers (Fig. 14A ). Body short, oval, flattened, pale yellow in alcohol (Figs 13A , 14A ). Prostomium longer than wide, with five prostomial appendages (Fig. 15A ). Pair of short slender palps (Figs 13C , 14C, D ); pair of slender lateral antenna (Figs 13C , 14C, D ); median antenna of caruncle with long thick ceratophore and slender cirrus only slightly longer than caruncle (Fig. 13C ). Caruncle as oval lobe reaching to anterior margin of chaetiger 4, mostly free of body wall, with median keel and two pairs of lateral ridges, with median keel slightly thicker than the lateral ones (Fig. 13C, D ). Eyes not observed. Figure 13. Euphrosinella georgievae sp. nov. (holotype, NHMUK ANEA 2022.664) A preserved specimen in lateral views B specimen stained with Shirlastain in lateral view C, D detail of anterior end and prostomium with palps (P), lateral antennae (La), median antenna (Ma), caruncle (Car) and first chaetiger - dorsal cirrus (Dc), lateral cirrus (Lc) and ventral cirrus (Vc) marked by arrows E, F midbody chaetigers in dorsal view with branchiae (Br), dorsal (Dc) and lateral cirri (Lc) marked by arrows G pygidium in distal view. Scale bars: 1 mm. Abbreviations: Ma - median antenna, La - lateral antennae, P - palps, Vc - ventral cirrus, Lc - lateral cirrus, Dc - dorsal cirrus, Car - caruncle, Br - branchiae. Figure 14. Euphrosinella georgievae sp. nov. (paratype NHMUK ANEA.2022.662) A preserved specimen in dorsolateral view B specimen stained with Shirlastain, in dorsolateral view C detail of anterior end in dorsolateral view D detail of prostomium, with palps and lateral antennae E dorsal view of midbody chaetigers, showing branchiae and dorsal cirri F detail of pygidium in distal view. Scale bars: 1 mm. Parapodia biramous, two rami well separated. Parapodia of chaetiger 1 well developed, not reduced, with dorsal, lateral, and ventral cirri (Fig. 13C ). Parapodial appendages of subsequent chaetigers in the following dorsoventral order: dorsal cirrus, branchia, lateral cirrus, ventral cirrus (Fig. 15C ). All cirri as single filaments of various length and thickness with dorsal cirrus longest (extending over three chaetigers in midbody) (Figs 13E , 14E ); lateral cirrus shorter and more stout inserted in the middle of notochaetal bundle (Fig. 13E, F ); ventral cirrus slightly shorter than lateral cirrus, slender. Branchia one per chaetiger, simple (unbranched) cirrus, inserted laterally to dorsal cirrus, very short (ca. 1/2 the length of mid body chaetiger) (Figs 13E, F , 14E , 15C ). Figure 15. Diagrammatic representation of prostomial ( A-C ) and parapodial appendages from mid-body chaetigers ( D, E ) of CCZ-collected Euphrosinidae species (relative lengths preserved, but not drawn to scale) A Euphrosinella georgievae sp. nov. B Euphrosinopsis ahearni sp. nov. C Euphrosinopsis halli sp. nov. D Euphrosinella georgievae sp. nov. E Euphrosinopsis ahearni sp. nov. F Euphrosinopsis halli sp. nov. Abbreviations: P - palps, La - lateral antennae, Ma - median antenna, Car - caruncle, E - eyes, DC - dorsal cirrus, LC - lateral cirrus, VC - ventral cirrus, Br - branchiae. All chaetae well developed, but prone to breakage, all bifurcate (Fig. 16A ). Notochaetae in approximately three tiers; differing mainly in their length and thickness with notochaetae of mid tear longest and thickest (Fig. 16B-E ); prongs mostly smooth (Fig. 16B, C, E ) or few with very faint serration (Fig. 16D ); ratio of short to long prong in the short chaetae of anterior tier ranges from 1:3.5-4 (where possible to establish); in long chaetae of mid-tier ratio ranges from 1:4 to 1:5 (where possible to establish). Ringent notochaetae absent. Neurochaetae less numerous and thinner than notochaetae; all bifurcate, of varying lengths, prongs with noticeable serration (Fig. 16F, G ), few prongs appearing smooth. Pygidium with paired anal cirri, resembling cylindrical tube feet (Figs 13G , 14B, F ). Figure 16. Euphrosinella georgievae sp. nov. (specimen NHMUK ANEA.2022.658) A mid body parapodium B notochaeta from anterior tier C notochaeta from mid-tier D notochaeta from posterior tier, detail of serration (insert) E-G examples of neurochaetae. Scale bars: 100 µm ( A, B, E ); 200 µm ( C ); 250 µm ( D ); 50 µm ( F, G ). Molecular information. One specimen, NHMUK ANEA.2022.658, was sequenced for 16S and 18S genes, while the 13 additional specimens were sequenced for 16S only (Table 1 ). There were no identical sequences for 16S on GenBank. In the phylogenetic tree this species falls as a sister taxon to Euphrosinella cf. cirratoformis from Antarctica (Fig. 5B ). Remarks. Euphrosinella georgievae sp. nov. is consistent with the genus Euphrosinella in having five prostomial appendages, caruncle mostly free from body wall and absence of ringent chaetae. Only two valid species in Euphrosinella are currently known as mentioned earlier. A known Pacific species Euphrosinella paucibranchiata can be distinguished by having some branchiae branched, as well as much shallower depth distribution of 1737 m in Santa Cruz Basin. Euphrosinella georgievae sp. nov. is more similar to the Antarctic species E. cirratoformis in having simple unbranched branchiae. The species also share a similar form and length of caruncle and median antenna. However, the two species differ in the following characters: 1. The presence of two pairs of eyes in the Antarctic species, while CCZ specimens are eyeless; 2. Notochaetae arranged in 3 tiers in new species, rather than 2 tiers in the known species and 3. Branchiae are not developed on first chaetiger in E. georgievae sp. nov., whilst they are present in E. cirratoformis . As further evidence, the molecular data suggest that Antarctic specimens identified in a previous study as Euphrosinella cf. cirratoformis (see Brasier et al. 2016 ) are different to the specimens of E. georgievae sp. nov. (Fig. 5B ). Distribution. Central Pacific Ocean, Eastern CCZ, the exploration areas UK-1, OMS, and NORI-D (Fig. 1 ). Etymology. This species is named for Dr. Magdalena Georgieva, who took part in ABYSSLINE expeditions to CCZ. She also collected Bathychloeia cf. sibogae specimens from CCZ used in this study as well as samples from the South Pacific during the RV Investigator cruise used here as a comparative material.