Aphanipathes flailum Horowitz & Opresko & Molodtsova & Beaman & Cowman & Bridge 2022, sp. nov

Aphanipathes flailum Horowitz sp. nov. (Figs. 1–2 and 6; Supplementary Table 1) Material examined. Holotype, MTQ G80019, Australia, Coral Sea, Malay Reef, expedition Schmidt Ocean Institute R / V Falkor Seamounts, Canyons, and Reefs of the Coral Sea expedition FK200802, ROV SuBastian dive S0377, collected on August 10, 2020, 17.9076° S, 149.3327° E, 210 m depth, collector Jeremy Horowitz. Diagnosis. Colony forming fronds of long, straight uniserially arranged branches and terminal branchlets that occur mostly on abpolypar side of lower order branches. Terminal branchlets maximum of 10 cm in length, occur midway and more distal on lower order branches, and are spaced mostly 2 cm apart ranging from 0.4 to 3 cm, and have 0.2 to 0.3 mm basal diameters. Spine heights 0.09 to 0.12 mm tall with no noticeable difference in height between polypar and abpolypar spines. Spines subconical, slightly compressed on sides, and blunt apex with numerous tubercles from apex to midway down the spine or to the base. Five to six axial rows of spines can be counted in one view. Polyps round, 1.8 to 2 mm in transverse diameter, in a single row, with three to four polyps counted per cm (seven per 2 cm). Description of holotype. This colony is upright and consists of several parallel broom-like fronds (Fig. 6A), each frond is densely branched to the sixth order with long straight and uniserially arranged branches. One 65 cm frond was collected from the colony for this study (Fig. 6B). Branches begin close to the base of the collected fragment and are uniserial, growing in one row on the upper side of each lower order branch. Branches and terminal branchlets form ~30° distal angles. Branches are long, ranging from 30 to a maximum of 37 cm in length. Terminal branchlets mostly range from 5 to 10 cm in length. Branches and terminal branchlets occur mostly on the abpolypar side of the lower order ramifications. Terminal branchlets occur from about midway along a lower order branch to the branch tip with distances between terminal branchlets being mostly 2 cm; however, in rare cases distances between terminal branchlets can be as small as 0.4 cm or as large as 3 cm. Branch diameter near the base of the collected frond is 3.2 mm in diameter, and terminal branchlet basal diameter ranges from 0.2 to 0.3 mm. Spines on branchlets from 0.2 to 0.23 mm in diameter range from 0.09 to 0.12 mm in height and five to six axial rows of spines can be counted in a side view (Fig. 6C). Average distance between spines in one longitudinal row is 0.4 mm (Fig. 6C). Seven spines can be counted in two mm of one longitudinal row. Spines are subconical with slightly compressed sides and a blunt apex with numerous distinct tubercles (about eight to 12 in one view of one spine) covering from just around the tip of a spine in an inconsistent whorl-like fashion, to midway down the spine, or to almost the base of the spine (Fig. 6D). Tubercles are larger and more distally directed on the distal sides of spines compared to proximal sides, reaching maximum heights of 0.01 mm (Fig. 6E). Polyps are roundish with long sagittal tentacles and distal lateral tentacles are shorter than proximal laterals in preserved state. Polyps are white (from in-situ video footage) to brown (after being preserved) in color, occur in one row, are mostly 1.8 to 2 mm in transverse diameter, and seven polyps can be counted in two cm (Fig. 6F). Comparative diagnosis. This specimen bears resemblance to Aphanipathes sarothamnoides Brook, 1889 and Aphanipathes pedata (Gray 1857) in terms of their fan-like corallums with straight and distally directed branches; however, Ap. flailum sp. nov. has longer branches (25 to 30 vs 15 cm max in both A. sarothamnoides and A. pedata) and longer terminal branchlets (10 cm vs max of 4 and 3.5 cm in A. sarothamnoides and A. pedata, respectively), and a lower polyp density (3.5 to four per cm vs six per cm in A. sarothamnoides and no information on polyp density for the type of A. pedata). Terminal branchlets are also more evenly spaced along lower order branches compared to A. pedata that has terminal branchlets confined mostly to the distal end of the lower order branches. The new species resembles Aphanostichopathes spiessi (Opresko et al. 2021) with regards to ornamentation on the spines where both have tubercles; however, the new species has much shorter spine heights (maximum of 0.12 mm vs maximum of 0.24 mm in Ap. spiessi). Although Ap. flailum sp. nov. has close molecular affinity with Aphanostichopathes cf. paucispina, all species currently in Aphanostichopathes are unbranched while the new species and other species in Aphanipathes are branched. Etymology: In reference to the arrangement of tubercles on the new species’ subconical-shaped spines, which resembles a spiked flail, a medieval weapon. Distribution. Known only from the Coral Sea at 210 m depth. Family Cladopathidae Kinoshita, 1910 Genus Hexapathes Kinoshita, 1910 Diagnosis: Corallum simple or very sparsely branched, and pinnulate. Pinnules in two lateral rows and in one or two anterior rows. Lateral pinnules simple; anterior pinnules simple or subpinnulate. Anterior primary pinnules and subpinnules sometimes nearly as long as lateral pinnules. Spines subequal in size on primary and secondary pinnules. Polyps 3 to 6 mm in transverse diameter. Type Species: Hexapathes heterosticha Kinoshita, 1910 Type Locality: Japan
Published as part of Horowitz, Jeremy, Opresko, Dennis, Molodtsova, Tina N., Beaman, Robin J., Cowman, Peter F. & Bridge, Tom C. L., 2022, Five new species of black coral (Anthozoa; Antipatharia) from the Great Barrier Reef and Coral Sea, Australia, pp. 1-35 in Zootaxa 5213 (1) on pages 13-15, DOI: 10.11646/zootaxa.5213.1.1, http://zenodo.org/record/7350036
{"references":["Brook, G. (1889) Report on the Antipatharia. Report on the scientific results of the voyage of H. M. S. Challenger, 32, 1 - 222.","Gray, J. E. (1857) Synopsis of the families and genera of axiferous zoophytes or barked corals. Proceedings of the Zoological Society of London, 25, 278 - 294. https: // doi. org / 10.1111 / j. 1096 - 3642.1857. tb 01242. x","Opresko, D. M., Bo, M., Stein, D. P., Evankow, A., Distel, D. L. & Brugler, M. R. (2021) Description of two new genera and two new species of antipatharian corals in the family Aphanipathidae (Cnidaria: Anthozoa: Antipatharia). Zootaxa, 4966 (2), 161 - 174. https: // doi. org / 10.11646 / zootaxa. 4966.2.4","Kinoshita, K. (1910) On a New Antipatharian Hexapathes heterosticha, n. gen. and n. sp. Annotationes Zoologicae Japonenses, 7, 231 - 234."]}