Thoracodelphys tertius, Kim & Boxshall, 2020
publication ID |
https://doi.org/ 10.11646/megataxa.4.1.1 |
DOI |
https://doi.org/10.5281/zenodo.5699875 |
persistent identifier |
https://treatment.plazi.org/id/03C487CB-EEF6-3B9F-FF4D-FBEFFDACFCC8 |
treatment provided by |
Plazi |
scientific name |
Thoracodelphys tertius |
status |
sp. nov. |
Thoracodelphys tertius sp. nov.
( Figs. 280 View FIGURE 280 , 281 View FIGURE 281 )
Typematerial. Holotype (intact ♀, MNHN-IU-2014- 21346 ) , paratypes (2 intact ♀♀, MNHN-IU-2014-21347), anddissectedparatype (1 ♀, figured) from Symplegma brakenhielmi (Michaelsen, 1904) (MNHN-IT-2008- 8440 = MNHN S1/ SYM /12), Côte sud de Grande Terre, Saint François, Guadeloupe, Stn 18. Monniot coll., 25 December 1980.
Etymology. The specific name is derived from the Latin terti (=third), as the new species is the third to be discovered in the genus.
Description of female. Body ( Fig. 280A View FIGURE 280 ) dorsoventrally depressed, comprising inflated prosome and small free urosome: body length 1.65 mm. Prosome stout, unsegmented, 1.27 mm long, gradually broadening towards posterior end and tapering anteriorly, in dorsal view. Cephalosome small, fused with metasome, with plane of fusion discernible only by lateral incision: entire metasome forming brood pouch, incorporating fused fifth pedigeroussomite.Freeurosome( Fig.280B View FIGURE 280 )5-segmented, graduallynarrowingposteriorly: genitalsomite 63×178 μm; 4 abdominalsomites 73×135, 64×120, 49×109, and 63×100 μm, respectively. Caudal rami slender, widely separated from each other; each ramus ( Fig. 280C View FIGURE 280 ) about 5.1 times longerthan wide (132×26 μm): armed with 6 setae, outer proximal and dorsal setae located at 38 and 76% of ramus length, respectively; 4 distalsetae short, subequal in length, 3 spiniform and bluntly tipped.
Rostrum short, widerthan long, withrounded apex. Antennule ( Fig. 280D View FIGURE 280 ) small, stout, 112 μmlong, 7- segmented, and stronglytapering from second to distal segments; compound second segment subdivided by 2 incomplete anterior suture lines; armatureformula 3, 14+spine, 8, 4+aesthetasc, 1, 4+aesthetasc, and 7+aesthetasc; spine on second segment spinulose; all setae naked, many large; 2 larger setaeonfirst segment especially large, longerthan entire antennule. Antenna ( Fig. 280E View FIGURE 280 ) 4-segmented; coxa unarmed; basis 50×32 μm, bearing 1 small setae near outer distal corner; first endopodal segment 47×32 μm, unarmed; compound distal endopodal segment 59×22 μm, about 2.7 times longerthan wide: armedwith 7 setae (arranged as 2, 2, and 3 with distal seta as long as terminal claw) plus large terminal claw, about 45 μm long, 0.76 times as long as segment.
Labrum ( Fig. 280F View FIGURE 280 ) strongly tapering, with narrow, setulose posterior margin and naked posteromedian lobe. Mandible ( Fig. 280G View FIGURE 280 ) with 5 teeth and 1 small seta on coxal gnathobase; distalmost tooth acutely pointed, with minutespinulesalongproximal margin: basiswith 1 setaat mediodistal corner; exopod with 5 setae, distalmost about half length of other 4 setae; endopod obscurely articulated from basis, armed with 2 and 5 setae on first and second segments, respectively. Maxillule ( Fig. 280H View FIGURE 280 ) bearing 8 setaeon arthrite, 1 on coxal endite; 2 on epipodite, 3 on basis, 3 on exopod, and 2 on endopod; proximal setaon basis small, less than half length of distal setae. Maxilla ( Fig. 281A View FIGURE 281 ) 5-segmented; syncoxa with 9 setae arranged as 3, 1, 2, and 3 on first to fourth endites, respectively; basis with 3 setae, distal seta less than half length of middle seta; endopod 3-segmented with 1, 1, and 3 setae on first to third segments, respectively. Maxilliped ( Fig. 280I View FIGURE 280 ) unsegmented with oblique distal margin, armed with 7 setae on medial margin and 1 seta at outer corner.
Legs 1–4 ( Fig. 281 View FIGURE 281 B-E) biramous with 3-segmented exopods and 2-segmented endopods. Inner seta absent on coxa of legs 1–4. Inner distal spine on leg 1 basis 34 μm long, spinulose along margins. First exopodal segment of legs 1–4 bearing outer spine. Second exopodal segment bearing large, spiniform outer distal process, that of leg 4 bifurcate, but that of leg 3 simple or bifurcate. First and second exopodal segments of leg 4 lacking inner seta. First endopodal segment unarmed in legs 1 and 4. Armature formula for legs 1–4 as follows:
Coxa | Basis | Exopod | Endopod | |
---|---|---|---|---|
Leg 1 | 0-0 | 1-I | I-1; 1-1; 3, 1, 4 | 0-0; 1, 2, 3 |
Leg 2 | 0-0 | 1-0 | I-1; 1-1; 3, 1, 5 | 0-1; 1, 3, 4 |
Leg 3 | 0-0 | 1-0 | I-1; 1-1; 2, 1, 5 | 0-1; 1, 3, 4 |
Leg 4 | 0-0 | 1-0 | I-0; 1-0; 2, 1, 5 | 0-0; 1, 3, 0 |
Leg 5 ( Fig. 281F View FIGURE 281 ) represented by 2 small lobes; outer (protopodal) lobe rounded with 1 seta; inner (exopodal) lobe strongly tapering, shorter than wide, not articulated at base, armed with 1 vestigial inner seta and 1 larger outer apical seta.
Male. Unknown.
Remarks. The two previously known species of Thoracodelphys together with the six new species described herein all exhibit the same setation on the mandibular endopod and on the endopods of legs 1–4. In contrast, the setation of the mandibular exopod and of the first and second exopodal segments of legs 2–4 varies with species. The first exopodal segments of legs 2–4 of T. tertius sp. nov. each bear an outer spine, unlike the two already described species, T. chelipus and T. uniseta , each of which carries an outersetaon this segment. Theabsence of an anterodistal process on the first exopodal segment of legs 2–4, the 7-segmented antennule (6-segmented in T. chelipus and T. uniseta ), and the possession of 7 medial setae (6 in these two species) on the maxilliped are also distinguishing features of this new species.
MNHN |
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.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
|
Genus |