Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov.
Macellicephala gloveri sp. nov. (Figure 2G, Figures 13, 14, and Figure 15A, B, C; Table 2.) Macellicephala sp. in Brasier et al. (2016) [record]. Macellicephala sp. A in Neal et al. (2017) [record]. Material examined. Holotype, NHMUK.2018.211, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO...
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Online Access: | https://dx.doi.org/10.5281/zenodo.5994487 https://zenodo.org/record/5994487 |
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Biodiversity Taxonomy Animalia Annelida Polychaeta Phyllodocida Polynoidae Macellicephala Macellicephala gloveri |
spellingShingle |
Biodiversity Taxonomy Animalia Annelida Polychaeta Phyllodocida Polynoidae Macellicephala Macellicephala gloveri Neal, Lenka Brasier, Madeleine J. Wiklund, Helena Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
topic_facet |
Biodiversity Taxonomy Animalia Annelida Polychaeta Phyllodocida Polynoidae Macellicephala Macellicephala gloveri |
description |
Macellicephala gloveri sp. nov. (Figure 2G, Figures 13, 14, and Figure 15A, B, C; Table 2.) Macellicephala sp. in Brasier et al. (2016) [record]. Macellicephala sp. A in Neal et al. (2017) [record]. Material examined. Holotype, NHMUK.2018.211, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO6 - EBS-3A, collected on 12/03/2008, epibenthic sledge, epi-net, 71°20'51.396''S, 110°0'47.808''W, 478 m depth. Paratype (SEM specimen, on stub): NHMUK.2018.1007, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO4 -EBS-3D, collected on 07/03/2008, epibenthic sledge, epi-net, 74°23'25.836''S, 104°46'4.512''W, 506 m depth. DNA voucher specimens (9 specimens): NHMUK.2018.855, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-1A, collected on 09/03/2008, epibenthic sledge, supra-net, 74°7'3.252''S, 105°50'31.272''W, 1472 m depth (1specimen); NHMUK.2018.1463, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO3 -EBS-1A, collected on 04/03/2008, epibenthic sledge, epi-net, 71°47'42.144''S, 106°13'9.588''W, 500 m depth (1 specimen); NHMUK.2018.1422, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO3 - EBS-1B, collected on 04/03/2008, epibenthic sledge, epi-net, 71°47'30.912''S, 106°12' 49.464''W, 500 m depth (1 specimen); NHMUK.2018.9352 and NHMUK.2018.9353, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-2A, collected on 09/03/2008, epibenthic sledge epi-net, 73°52'46.704''S, 106°19'6.456''W, 1052 m depth (2 specimens); NHMUK.2018.533 and NHMUK.2018.522, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-3D, collected on 10/03/2008, epibenthic sledge, epi-net, 73°58'40.152''S, 107°25'0.372''W, 550 m depth (2 specimens); NHMUK.2018.9351 and NHMUK.2018.9356 Amundsen Sea, Southern Ocean, cruise JR 179, station BIO6 -EBS-2A, collected on 12/03/2008, epibenthic sledge, epi-net, 71°10'29.82''S, 109°51' 14.94''W, 1020 m depth (2 specimens). Additional material examined: Macellicephala aciculata , holotype USNM 17405, Pacific Ocean, Southern California, Albatross station 4352, collected on 14/03/1904. Description (based on holotype and paratype). Medium sized species; holotype with 18 segments (segment 1 = tentacular segment), 13.5 mm long, 2 mm wide excluding parapodia and 5 mm wide including parapodia. Paratype (SEM specimen, on stub) with 18 segments, 13 mm long and 4.8 mm wide including parapodia. Live specimen (Fig. 13A) pink with white prostomium and pink semi-circles present at anterior margin of each prostomial lobe; preserved specimen creamy yellow in colour (Fig. 13B, C). Prostomium bi-lobed, with deep anterior notch; prostomial lobes short (not extended), anteriorly rounded (Figs. 2G and 13D, E). Frontal filaments absent. Eyes absent. Ceratophore of median antenna large, inserted in anterior notch (Fig. 13D, E, Fig. 2G); style of median antenna missing. Palps very long (extending to segment 9), slender, smooth, tapering into slender tips (Fig. 13A, B). Tentaculophores inserted laterally to prostomium, both of equal size, achaetous (Figs. 2G and 13D, E); tentacular styles missing in type specimens. Facial tubercle absent. Everted pharynx with 2 pairs of jaws and 9 pairs of small triangular papillae of equal size (Fig. 13C); each jaw with single fang and smooth margin. Nine pairs of knob-like elytrophores present on segments 2, 4, 5, 7, 9, 11, 13, 15 and 17; elytra missing in type specimens. Cirrigerous segments without dorsal tubercles; distinct dorsal cirrophores elongated, cylindrical to slightly bulbous; styles of dorsal cirri missing. Dorsal ridges appear faintly from segment 3 becoming obvious by segments 5-6, on segments 8-10 forming an oval structure, in segments anterior to segment 8 and posterior to segment 10 forming concentric structures (Fig. 13C, F). In posterior part of body only, similar ridges appear on parapodia of cirrigerous segments; first parapodial ridge lateral to dorsal ridge, second parapodial ridge near base of cirrophore. All ridges appear ciliated and white in colour under light microscope but SEM revealed no ciliation of these structures (Fig. 13F). Parapodia biramous. Notopodia greatly reduced to one stout acicula (Fig. 14A). Neuropodia large (Fig. 14A), elongated, subtriangular to rectangular in shape, with integument covered acicula protruding into slender tip; prechaetal and postchaetal lobes poorly developed. Ventral cirrus inserted basally on segment 2, where very slender and long, approaching tip of neuropodial acicula lobe; inserted medially on subsequent segments where short (much shorter than tip of neuropodial lobe) (Fig. 14A). Notochaetae nearly as stout as neurochaetae; often entirely broken off (observed on only 7 parapodia in holotype), few (about 6 per ramus observed in holotype); very long (exceeding the length of neuropodial acicular lobe) (Fig. 14A); with smooth, translucent basal half of shaft (Fig. 14C); with obvious rose-bush like alternating and interlocking spines on one side only in distal half of shaft (Fig. 14D), distal tip of notochaetae smooth and blunt (Fig. 14 E, F). Neurochaetae short to very long, numerous, translucent, of two forms: either wide and flattened with shallow denticles on both sides throughout most of their lengths (Fig. 14B) or slender, with rounded tip, with distinct rows of dense alternating denticles on both sides (few present and easily overlooked) (Fig. 14B, marked by arrow). Nephridial papillae globular, present at ventral junction of neuropodia and body on segments 10, 11 and 12, inconspicuous in other segments, present from segment 5. Reduced parapodia of segment 18 lateral to pygidium, consisting of notopodia only. Pygidium rounded. Anal cirri not observed. Additional morphological observation: Macellicephala gloveri sp. nov. was represented by 11 specimens in total. While DNA was successfully extracted from all specimens, confirming their identity, their morphological state was often rather poor. For example, the style of median antenna and dorsal cirri are missing in all available specimens. Tentacular styles are missing in type specimens but remained attached in three DNA vouchers: NHMUK.2018.9352 and NHMUK.2018.1463 (on right side only, in both specimens) and NHMUK.2018.855 (on left side only). When the tentacular cirri were observed these were smooth, very slender, both of equal length to palps. Length of palps appears to be variable as these extend to segment 9 in holotype, but are shorter (extending to segment 5) in most DNA voucher specimens, appearing shortest (extending to segment 3) in only 8 mm long DNA voucher specimen NHMUK.2018.9352. Finally, in DNA voucher specimen NHMUK.2018.855, single very small and easily overlooked elytra remained attached on segment 5 (left side only) (Fig. 8C). Elytra are translucent, with smooth margins and sparsely covered by few microtubercules when observed under light microscopy. Remarks. Semi-circular to circular dorsal and parapodial ridges described in Macellicephala gloveri sp. nov. and a closely related species from the Amundsen Sea M. linseae sp. nov. , can also be also found in M. aciculata Moore, 1910. Pettibone (1976) did not re-describe this character in detail; hence a type specimen of M. aciculata (USNM #1740) was examined, although it is in a very bad condition. The neuropodia of M. aciculata are oblique, tapering into slender tip with protruding acicula medially forming prechaetal and postchatel lobes. The neuropodia of M. gloveri sp. nov. are truncated, almost rectangular, with poorly developed prechaetal and postchaetal lobes. The stout notochaetae of M. aciculata appear to possess spines on both sides but in M. gloveri sp. nov. the alternating spines are confined to one side of the notochaeta only. Based on morphological examination alone, the specimens from the Amundsen Sea were assumed to belong to one species. Subsequent molecular work [see Brasier et al. (2016)] revealed the presence of two distinct clades, suggesting presence of two species. Upon closer re-examination, some chaetal differences were observed in representatives of the two clades leading to erection of a second species as Macellicepala linseae sp. nov. The chaetal differences are as follows (see comparative Fig. 15): notochaetae in M. gloveri sp. nov. shaft is smooth, translucent while in M. linseae sp. nov. it is straw-coloured and distinctly horizontally striated (Fig. 15B and E). Further, notochaetae appear to be more numerous (~6), relatively slender and very long in M. gloveri sp. nov. (Fig. 15A), while in M. linseae sp. nov. these are stouter, short and fewer in numbers (usually only one or two observed) (Fig. 15D). Both species have two forms of neurochaete. The numerous, wide and flattened chaetae are very similar in both species. However, the additional few, slender neurochaetae appear to be different. In M. gloveri sp. nov. the serration is more dense, while in M. linseae sp. nov. the serration is more widely spaced (see Fig. 15C and F). As with notochaetae, neurochaetae are more numerous in M. gloveri sp. nov. Unfortunately, chaetae are susceptible to damage in both species and notochaetae in particular are often completely broken off, complicating the differentiation between these species. The differences observed are subtle and require careful observation but can be detected when specimens in good condition are available. It is possible that additional characters may be derived from elytra, which have unfortunately not been preserved in any of the specimens of M. linseae sp. nov. examined and only single observation of elytra was made for specimen of M. gloveri sp. nov. Molecular Information. COI and 16S were sequenced by Brasier et al. (2016), while 18S (1731 bp) was obtained in this study (Table 1). Based on COI, this species was closest to Macellicephala linseae sp. nov. with K2P distance 0.12 and uncorrected 'p' distance 0.11. Etymology. This species is named after Dr. Adrian Glover from the Natural History Museum, London who collected the polychaetes during the BIOPEARL II project and managed subsequent work on the polychaete material [see Neal et al. (2012); Neal et al. (2014); Brasier et al. (2016); Neal et al. (2017)]. Distribution. Amundsen Sea, including Pine Island Bay at shelf and slope depths of 500–1072 m. : Published as part of Neal, Lenka, Brasier, Madeleine J. & Wiklund, Helena, 2018, Six new species of Macellicephala (Annelida: Polynoidae) from the Southern Ocean and south Atlantic with re-description of type species, pp. 1-34 in Zootaxa 4455 (1) on pages 23-26, DOI: 10.11646/zootaxa.4455.1.1, http://zenodo.org/record/1456911 : {"references": ["Brasier, M. J., Wiklund, H., Neal, L., Jeffreys, R., Linse, K., Ruhl, H. & Glover, A. G. (2016) DNA barcoding uncovers cryptic diversity in 50 % of deep-sea Antarctic polychaetes. Royal Society Open Science, 3 (11), 160432. https: // doi. org / 10.1098 / rsos. 160432", "Neal, L., Linse, K., Brasier, M. J., Sherlock, E. & Glover, A. G. (2017) Comparative marine biodiversity and depth zonation in the Southern Ocean: evidence from a new large polychaete dataset from Scotia and Amundsen seas. Marine Biodiversity, 1 - 21. https: // doi. org / 10.1007 / s 12526 - 017 - 0735 - y", "Moore, J. P. (1910) The polychaetous annelids dredged by the U. S. S. '' Albatross' ' off the coast of Southern California in 1904: II. Polynoidae, Aphroditidae and Segaleonidae. Proceedings of the Academy of Natural Sciences of Philadelphia, 62, 328 - 402, pls. XXVIII - XXXIII.", "Pettibone, M. H. (1976) Revision of the Genus Macellicephala McIntosh and the Subfamily Macellicephalinae Hartmann- Schroder (Polychaeta, Polynoidae). Smithsonian Contributions to Zoology, 229, 1 - 71.", "Neal, L., Barnich, R., Wiklund, H. & Glover, A. G. (2012) A new genus and species of Polynoidae (Annelida, Polychaeta) from Pine Island Bay, Amundsen Sea, Southern Ocean-a region of high taxonomic novelty. Zootaxa, 3542, 80 - 88.", "Neal, L., Wiklund, H., Muir, A. I., Linse, K. & Glover, A. G. (2014) The identity of juvenile Polynoidae (Annelida) in the Southern Ocean revealed by DNA taxonomy, with notes on the status of Herdmanella gracilis Ehlers sensu Augener. Memoirs of Museum Victoria, 71, 203 - 216. https: // doi. org / 10.24199 / j. mmv. 2014.71.16"]} |
format |
Text |
author |
Neal, Lenka Brasier, Madeleine J. Wiklund, Helena |
author_facet |
Neal, Lenka Brasier, Madeleine J. Wiklund, Helena |
author_sort |
Neal, Lenka |
title |
Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
title_short |
Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
title_full |
Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
title_fullStr |
Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
title_full_unstemmed |
Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. |
title_sort |
macellicephala gloveri neal & brasier & wiklund 2018, sp. nov. |
publisher |
Zenodo |
publishDate |
2018 |
url |
https://dx.doi.org/10.5281/zenodo.5994487 https://zenodo.org/record/5994487 |
long_lat |
ENVELOPE(-109.085,-109.085,59.534,59.534) ENVELOPE(-102.000,-102.000,-74.750,-74.750) ENVELOPE(168.683,168.683,-77.517,-77.517) ENVELOPE(167.217,167.217,-77.483,-77.483) |
geographic |
Antarctic Southern Ocean Amundsen Sea Pacific Island Bay Pine Island Bay McIntosh Fang |
geographic_facet |
Antarctic Southern Ocean Amundsen Sea Pacific Island Bay Pine Island Bay McIntosh Fang |
genre |
Amundsen Sea Antarc* Antarctic Pine Island Bay Southern Ocean |
genre_facet |
Amundsen Sea Antarc* Antarctic Pine Island Bay Southern Ocean |
op_relation |
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op_rights |
Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess |
op_rightsnorm |
CC0 |
op_doi |
https://doi.org/10.5281/zenodo.5994487 https://doi.org/10.11646/zootaxa.4455.1.1 https://doi.org/10.5281/zenodo.1456913 https://doi.org/10.5281/zenodo.1456935 https://doi.org/10.5281/zenodo.1456937 https://doi.org/10.5281/zenodo.1456939 https: |
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ftdatacite:10.5281/zenodo.5994487 2023-05-15T13:23:56+02:00 Macellicephala gloveri Neal & Brasier & Wiklund 2018, sp. nov. Neal, Lenka Brasier, Madeleine J. Wiklund, Helena 2018 https://dx.doi.org/10.5281/zenodo.5994487 https://zenodo.org/record/5994487 unknown Zenodo http://zenodo.org/record/1456911 http://publication.plazi.org/id/FF84D97CA326695DFFF3FFADFFAB244E http://zoobank.org/70E92EDF-E11B-40A7-9573-0AC9F10E623E https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4455.1.1 http://zenodo.org/record/1456911 http://publication.plazi.org/id/FF84D97CA326695DFFF3FFADFFAB244E https://dx.doi.org/10.5281/zenodo.1456913 https://dx.doi.org/10.5281/zenodo.1456935 https://dx.doi.org/10.5281/zenodo.1456937 https://dx.doi.org/10.5281/zenodo.1456939 https://dx.doi.org/10.5281/zenodo.1456925 http://zoobank.org/70E92EDF-E11B-40A7-9573-0AC9F10E623E https://dx.doi.org/10.5281/zenodo.5994486 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Annelida Polychaeta Phyllodocida Polynoidae Macellicephala Macellicephala gloveri article-journal ScholarlyArticle Taxonomic treatment Text 2018 ftdatacite https://doi.org/10.5281/zenodo.5994487 https://doi.org/10.11646/zootaxa.4455.1.1 https://doi.org/10.5281/zenodo.1456913 https://doi.org/10.5281/zenodo.1456935 https://doi.org/10.5281/zenodo.1456937 https://doi.org/10.5281/zenodo.1456939 https: 2022-04-01T09:01:06Z Macellicephala gloveri sp. nov. (Figure 2G, Figures 13, 14, and Figure 15A, B, C; Table 2.) Macellicephala sp. in Brasier et al. (2016) [record]. Macellicephala sp. A in Neal et al. (2017) [record]. Material examined. Holotype, NHMUK.2018.211, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO6 - EBS-3A, collected on 12/03/2008, epibenthic sledge, epi-net, 71°20'51.396''S, 110°0'47.808''W, 478 m depth. Paratype (SEM specimen, on stub): NHMUK.2018.1007, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO4 -EBS-3D, collected on 07/03/2008, epibenthic sledge, epi-net, 74°23'25.836''S, 104°46'4.512''W, 506 m depth. DNA voucher specimens (9 specimens): NHMUK.2018.855, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-1A, collected on 09/03/2008, epibenthic sledge, supra-net, 74°7'3.252''S, 105°50'31.272''W, 1472 m depth (1specimen); NHMUK.2018.1463, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO3 -EBS-1A, collected on 04/03/2008, epibenthic sledge, epi-net, 71°47'42.144''S, 106°13'9.588''W, 500 m depth (1 specimen); NHMUK.2018.1422, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO3 - EBS-1B, collected on 04/03/2008, epibenthic sledge, epi-net, 71°47'30.912''S, 106°12' 49.464''W, 500 m depth (1 specimen); NHMUK.2018.9352 and NHMUK.2018.9353, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-2A, collected on 09/03/2008, epibenthic sledge epi-net, 73°52'46.704''S, 106°19'6.456''W, 1052 m depth (2 specimens); NHMUK.2018.533 and NHMUK.2018.522, Amundsen Sea, Southern Ocean, cruise JR 179, station BIO5 -EBS-3D, collected on 10/03/2008, epibenthic sledge, epi-net, 73°58'40.152''S, 107°25'0.372''W, 550 m depth (2 specimens); NHMUK.2018.9351 and NHMUK.2018.9356 Amundsen Sea, Southern Ocean, cruise JR 179, station BIO6 -EBS-2A, collected on 12/03/2008, epibenthic sledge, epi-net, 71°10'29.82''S, 109°51' 14.94''W, 1020 m depth (2 specimens). Additional material examined: Macellicephala aciculata , holotype USNM 17405, Pacific Ocean, Southern California, Albatross station 4352, collected on 14/03/1904. Description (based on holotype and paratype). Medium sized species; holotype with 18 segments (segment 1 = tentacular segment), 13.5 mm long, 2 mm wide excluding parapodia and 5 mm wide including parapodia. Paratype (SEM specimen, on stub) with 18 segments, 13 mm long and 4.8 mm wide including parapodia. Live specimen (Fig. 13A) pink with white prostomium and pink semi-circles present at anterior margin of each prostomial lobe; preserved specimen creamy yellow in colour (Fig. 13B, C). Prostomium bi-lobed, with deep anterior notch; prostomial lobes short (not extended), anteriorly rounded (Figs. 2G and 13D, E). Frontal filaments absent. Eyes absent. Ceratophore of median antenna large, inserted in anterior notch (Fig. 13D, E, Fig. 2G); style of median antenna missing. Palps very long (extending to segment 9), slender, smooth, tapering into slender tips (Fig. 13A, B). Tentaculophores inserted laterally to prostomium, both of equal size, achaetous (Figs. 2G and 13D, E); tentacular styles missing in type specimens. Facial tubercle absent. Everted pharynx with 2 pairs of jaws and 9 pairs of small triangular papillae of equal size (Fig. 13C); each jaw with single fang and smooth margin. Nine pairs of knob-like elytrophores present on segments 2, 4, 5, 7, 9, 11, 13, 15 and 17; elytra missing in type specimens. Cirrigerous segments without dorsal tubercles; distinct dorsal cirrophores elongated, cylindrical to slightly bulbous; styles of dorsal cirri missing. Dorsal ridges appear faintly from segment 3 becoming obvious by segments 5-6, on segments 8-10 forming an oval structure, in segments anterior to segment 8 and posterior to segment 10 forming concentric structures (Fig. 13C, F). In posterior part of body only, similar ridges appear on parapodia of cirrigerous segments; first parapodial ridge lateral to dorsal ridge, second parapodial ridge near base of cirrophore. All ridges appear ciliated and white in colour under light microscope but SEM revealed no ciliation of these structures (Fig. 13F). Parapodia biramous. Notopodia greatly reduced to one stout acicula (Fig. 14A). Neuropodia large (Fig. 14A), elongated, subtriangular to rectangular in shape, with integument covered acicula protruding into slender tip; prechaetal and postchaetal lobes poorly developed. Ventral cirrus inserted basally on segment 2, where very slender and long, approaching tip of neuropodial acicula lobe; inserted medially on subsequent segments where short (much shorter than tip of neuropodial lobe) (Fig. 14A). Notochaetae nearly as stout as neurochaetae; often entirely broken off (observed on only 7 parapodia in holotype), few (about 6 per ramus observed in holotype); very long (exceeding the length of neuropodial acicular lobe) (Fig. 14A); with smooth, translucent basal half of shaft (Fig. 14C); with obvious rose-bush like alternating and interlocking spines on one side only in distal half of shaft (Fig. 14D), distal tip of notochaetae smooth and blunt (Fig. 14 E, F). Neurochaetae short to very long, numerous, translucent, of two forms: either wide and flattened with shallow denticles on both sides throughout most of their lengths (Fig. 14B) or slender, with rounded tip, with distinct rows of dense alternating denticles on both sides (few present and easily overlooked) (Fig. 14B, marked by arrow). Nephridial papillae globular, present at ventral junction of neuropodia and body on segments 10, 11 and 12, inconspicuous in other segments, present from segment 5. Reduced parapodia of segment 18 lateral to pygidium, consisting of notopodia only. Pygidium rounded. Anal cirri not observed. Additional morphological observation: Macellicephala gloveri sp. nov. was represented by 11 specimens in total. While DNA was successfully extracted from all specimens, confirming their identity, their morphological state was often rather poor. For example, the style of median antenna and dorsal cirri are missing in all available specimens. Tentacular styles are missing in type specimens but remained attached in three DNA vouchers: NHMUK.2018.9352 and NHMUK.2018.1463 (on right side only, in both specimens) and NHMUK.2018.855 (on left side only). When the tentacular cirri were observed these were smooth, very slender, both of equal length to palps. Length of palps appears to be variable as these extend to segment 9 in holotype, but are shorter (extending to segment 5) in most DNA voucher specimens, appearing shortest (extending to segment 3) in only 8 mm long DNA voucher specimen NHMUK.2018.9352. Finally, in DNA voucher specimen NHMUK.2018.855, single very small and easily overlooked elytra remained attached on segment 5 (left side only) (Fig. 8C). Elytra are translucent, with smooth margins and sparsely covered by few microtubercules when observed under light microscopy. Remarks. Semi-circular to circular dorsal and parapodial ridges described in Macellicephala gloveri sp. nov. and a closely related species from the Amundsen Sea M. linseae sp. nov. , can also be also found in M. aciculata Moore, 1910. Pettibone (1976) did not re-describe this character in detail; hence a type specimen of M. aciculata (USNM #1740) was examined, although it is in a very bad condition. The neuropodia of M. aciculata are oblique, tapering into slender tip with protruding acicula medially forming prechaetal and postchatel lobes. The neuropodia of M. gloveri sp. nov. are truncated, almost rectangular, with poorly developed prechaetal and postchaetal lobes. The stout notochaetae of M. aciculata appear to possess spines on both sides but in M. gloveri sp. nov. the alternating spines are confined to one side of the notochaeta only. Based on morphological examination alone, the specimens from the Amundsen Sea were assumed to belong to one species. Subsequent molecular work [see Brasier et al. (2016)] revealed the presence of two distinct clades, suggesting presence of two species. Upon closer re-examination, some chaetal differences were observed in representatives of the two clades leading to erection of a second species as Macellicepala linseae sp. nov. The chaetal differences are as follows (see comparative Fig. 15): notochaetae in M. gloveri sp. nov. shaft is smooth, translucent while in M. linseae sp. nov. it is straw-coloured and distinctly horizontally striated (Fig. 15B and E). Further, notochaetae appear to be more numerous (~6), relatively slender and very long in M. gloveri sp. nov. (Fig. 15A), while in M. linseae sp. nov. these are stouter, short and fewer in numbers (usually only one or two observed) (Fig. 15D). Both species have two forms of neurochaete. The numerous, wide and flattened chaetae are very similar in both species. However, the additional few, slender neurochaetae appear to be different. In M. gloveri sp. nov. the serration is more dense, while in M. linseae sp. nov. the serration is more widely spaced (see Fig. 15C and F). As with notochaetae, neurochaetae are more numerous in M. gloveri sp. nov. Unfortunately, chaetae are susceptible to damage in both species and notochaetae in particular are often completely broken off, complicating the differentiation between these species. The differences observed are subtle and require careful observation but can be detected when specimens in good condition are available. It is possible that additional characters may be derived from elytra, which have unfortunately not been preserved in any of the specimens of M. linseae sp. nov. examined and only single observation of elytra was made for specimen of M. gloveri sp. nov. Molecular Information. COI and 16S were sequenced by Brasier et al. (2016), while 18S (1731 bp) was obtained in this study (Table 1). Based on COI, this species was closest to Macellicephala linseae sp. nov. with K2P distance 0.12 and uncorrected 'p' distance 0.11. Etymology. This species is named after Dr. Adrian Glover from the Natural History Museum, London who collected the polychaetes during the BIOPEARL II project and managed subsequent work on the polychaete material [see Neal et al. (2012); Neal et al. (2014); Brasier et al. (2016); Neal et al. (2017)]. Distribution. Amundsen Sea, including Pine Island Bay at shelf and slope depths of 500–1072 m. : Published as part of Neal, Lenka, Brasier, Madeleine J. & Wiklund, Helena, 2018, Six new species of Macellicephala (Annelida: Polynoidae) from the Southern Ocean and south Atlantic with re-description of type species, pp. 1-34 in Zootaxa 4455 (1) on pages 23-26, DOI: 10.11646/zootaxa.4455.1.1, http://zenodo.org/record/1456911 : {"references": ["Brasier, M. J., Wiklund, H., Neal, L., Jeffreys, R., Linse, K., Ruhl, H. & Glover, A. G. (2016) DNA barcoding uncovers cryptic diversity in 50 % of deep-sea Antarctic polychaetes. Royal Society Open Science, 3 (11), 160432. https: // doi. org / 10.1098 / rsos. 160432", "Neal, L., Linse, K., Brasier, M. J., Sherlock, E. & Glover, A. G. (2017) Comparative marine biodiversity and depth zonation in the Southern Ocean: evidence from a new large polychaete dataset from Scotia and Amundsen seas. Marine Biodiversity, 1 - 21. https: // doi. org / 10.1007 / s 12526 - 017 - 0735 - y", "Moore, J. P. (1910) The polychaetous annelids dredged by the U. S. S. '' Albatross' ' off the coast of Southern California in 1904: II. Polynoidae, Aphroditidae and Segaleonidae. Proceedings of the Academy of Natural Sciences of Philadelphia, 62, 328 - 402, pls. XXVIII - XXXIII.", "Pettibone, M. H. (1976) Revision of the Genus Macellicephala McIntosh and the Subfamily Macellicephalinae Hartmann- Schroder (Polychaeta, Polynoidae). Smithsonian Contributions to Zoology, 229, 1 - 71.", "Neal, L., Barnich, R., Wiklund, H. & Glover, A. G. (2012) A new genus and species of Polynoidae (Annelida, Polychaeta) from Pine Island Bay, Amundsen Sea, Southern Ocean-a region of high taxonomic novelty. Zootaxa, 3542, 80 - 88.", "Neal, L., Wiklund, H., Muir, A. I., Linse, K. & Glover, A. G. (2014) The identity of juvenile Polynoidae (Annelida) in the Southern Ocean revealed by DNA taxonomy, with notes on the status of Herdmanella gracilis Ehlers sensu Augener. Memoirs of Museum Victoria, 71, 203 - 216. https: // doi. org / 10.24199 / j. mmv. 2014.71.16"]} Text Amundsen Sea Antarc* Antarctic Pine Island Bay Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Antarctic Southern Ocean Amundsen Sea Pacific Island Bay ENVELOPE(-109.085,-109.085,59.534,59.534) Pine Island Bay ENVELOPE(-102.000,-102.000,-74.750,-74.750) McIntosh ENVELOPE(168.683,168.683,-77.517,-77.517) Fang ENVELOPE(167.217,167.217,-77.483,-77.483) |