Pachypygus exilis, Kim & Boxshall, 2020
publication ID |
https://doi.org/ 10.11646/megataxa.4.1.1 |
DOI |
https://doi.org/10.5281/zenodo.5828396 |
persistent identifier |
https://treatment.plazi.org/id/03C487CB-EF2C-3AB5-FCEF-FE54FDDDF8C7 |
treatment provided by |
Plazi |
scientific name |
Pachypygus exilis |
status |
sp. nov. |
Pachypygus exilis sp. nov.
( Figs. 82 View FIGURE 82 , 83 View FIGURE 83 )
Typematerial. Holotype (intact ♀, MNHN-IU-2014- 21241 ) and paratype (♀, dissected) from the compound ascidian Aplidium nadaense (Nishikawa, 1980) (MNHN-IT-2008-576 = MNHNA 1 / APL.B/407), CRRFOCDN 5743-A, Brooker Channel, Calvados Island Chain, Louisiade Archipelago, Papua New Guinea (11°03.09’S, 152°28.62’E), depth 7 m, 01 June 1998. GoogleMaps
Additionalmaterial. 1 ♀ (dissected) from Aplidium lineatum Monniot F. & Monniot C., 1996 , North Sulawesi, Indonesia, OCDN 1447-I.
Etymology. The specific name is from the Latin exil (= small), referring to the relatively small body size of the new species.
Descriptionoffemale. Body ( Fig. 82A View FIGURE 82 ) relatively small and stout, bilaterally compressed, and flexed ventrally. Body length 1.55 mm. Posterolateral corners of cephalosome produced into small nipple-like processes. Brood pouch tapering in posterior quarter towards blunt tip.Urosome ( Fig.82B View FIGURE 82 ) 6-segmented, distinctlynarrowing posteriorly: fifth pedigeroussomite 233 μm wide, distinct butnot articulatedfrom brood pouch. Genital somitemuch widerthan long, 71×180 μm; 4 freeabdominalsomites 91×144, 98×122, 85×91, and 40×69 μm, respectively. Anal somite small, lacking posteroventral protuberance. Caudalramus ( Fig. 82C View FIGURE 82 ) about 2.8 timeslongerthan wide (62×22 μm), armed with 4 distal claws and 2 setae; claws subequalin length and thickness, 13, 12, 11, and 11 μm long; 2 setae as long as greatest width of ramus, positioned at 49% and 67% of ramus length.
Rostrum ( Fig. 82D View FIGURE 82 ) 94×82 μm, slightly longerthan wide, tapering strongly in distal half, but with nearly parallel lateral margins proximally. Antennule ( Fig. 82E View FIGURE 82 ) 9-segmented; first 2 segments broad; secondsegment elongate, about twice as long as wide; armature formula 3, 16 (2 setae omitted in Fig 82E View FIGURE 82 ), 6, 4+aesthetasc, 5, 2+aesthetasc, 2, 2+aesthetasc, and 7+aesthetasc; all setae naked. Antenna ( Fig. 82F View FIGURE 82 ) slender, 4-segmented; coxa, basis, and first endopodal segment unarmed; basis and first endopodal segment subequal in length; compound distal endopodal segment about 3.6 times longer than wide (87×24 μm) and about 1.3 timeslongerthan first endopodal segment, armedwith 8 setae (arranged as 3, 2, and 3) plus terminal claw, more than half as long as segment.
Labrum ( Fig. 82G View FIGURE 82 ) with posterolateral prominences ornamented with setules laterally and spinules distally; smallposteromedianlobebearing spinules. Mandible ( Fig. 82H View FIGURE 82 ) with 5 teeth and 2 small setae on coxal gnathobase; basis with 1 seta on medial margin and tuft of setules proximally on outer margin; exopod unsegmented, armed with 5 setae, outermost seta distinctly longer than other 4; endopod with 4 and 10 setae on first and second segments, respectively. Paragnath ( Fig. 83A View FIGURE 83 ) as usual for genus. Maxillule ( Fig. 82I View FIGURE 82 ) with 10 setaeon arthrite, otherwise setation as in P. papillosus sp. nov. Maxilla ( Fig. 83B View FIGURE 83 ) as usual for genus. Maxilliped ( Fig. 82J View FIGURE 82 ) with 9, 1, and 3 setae on first to third segments, respectively; articulation incomplete between first and second segments.
Legs 1–4 ( Fig. 83 View FIGURE 83 C–G) with 3-segmented rami. Inner coxal seta well-developed in legs 1 and 2, lacking in legs 3 and 4. Outer seta on basis large and pinnate in leg 1, small and naked in legs 2–4. Inner distal spine on basis of leg 1 longer than first endopodal segment, with spinulose margins. First to third endopodal segments of leg 1 ( Fig. 83D View FIGURE 83 ) with 6, 3 or 4, and 2 or 3 sensillae, respectively, on anterior surface. First exopodal segment of legs 2–4 about 3 times longer than wide. Third exopodal segment of legs 2–4 about 2.5 timeslongerthan wide. Armatureformula for legs 1–4 as in P. papillosus sp. nov.
Leg 5 ( Fig. 83H View FIGURE 83 ) protopod longer than wide, armed with 1 seta at outer distal corner and ornamented with row of spinules distally near base of exopod; free exopodal segment about 3.9 timeslongerthan wide (101×26 μm), armed with 1 small spine and 1 naked seta distally, ornamented with 4 or 5 rows of small spinules on medial surface.
Male. Unknown.
Remarks. Pachypygus exilis sp. nov. most closely resembles P. papillosus sp. nov. as both have paired posterolateral processes on the corners of the dorsal shield of the cephalosome. Both also have 3 setae on the third segment of the maxilliped and share the identical armature formula for legs 1–4. They differ in: (1) the size of the posterolateral processes on the cephalosome, which are small in the new species but large in P. papillosus sp. nov.; (2) the unusually elongate second segment of the antennule is rectangular in the new species, compared to tapering in P. papillosus sp. nov.; and (3) the second endopodal segment of the mandible is armed with 10 setae in the new species, compared to only 9 setae in P. papillosus sp. nov. The most conspicuous difference, however, is that the new species lacks any papillate ornamentation on the body surface, in contrast to the highly ornate P. papillosus sp. nov.
MNHNA |
Museum National d'Histoire Naturelle |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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