Richalpheus dahabensis, Anker & Dworschak, 2007

Richalpheus dahabensis View in CoL n. sp.

( Figures 1–3 View Figure 1 View Figure 2 View Figure 3 )

Material

Holotype: female, CL 4.6 mm, TL 16.8 mm, NHMW 21600 View Materials , Egypt, Red Sea, Dahab, Laguna , 13 m, bait suction pump, from mound of Glypturus sp. , coll. P. C. Dworschak, 31 October 2005.

Description

Body moderately elongate and slender, slightly compressed laterally, glabrous. Carapace with inconspicuous suture proximal to base of antenna ( Figure 1B View Figure 1 ). Frontal margin broadly rounded, rostrum and orbital teeth absent ( Figure 1A View Figure 1 ). Pterygostomial angle rounded, not protruding ( Figure 1B View Figure 1 ). Cardiac notch deep ( Figure 1E View Figure 1 ). Eyes juxtaposed, completely covered by carapace, not visible in dorsal or lateral view ( Figure 1A, B View Figure 1 ), anteromesial process feebly developed, cornea relatively small.

Antennular peduncle relatively slender, elongate ( Figure 1A View Figure 1 ), dorsoventally somewhat flattened ( Figure 1B View Figure 1 ); first segment about three times as long as wide; dorsomesial carina with row of slender spiniform setae ( Figure 1C View Figure 1 ); ventromesial carina of first segment with strong acute tooth ( Figure 1D View Figure 1 ); stylocerite apressed, with blunt tip reaching slightly past mid-length of first segment ( Figure 1A View Figure 1 ); second segment slightly shorter than visible portion of first segment; lateral flagellum biramous, secondary ramus short, with several groups of aesthetascs ( Figure 1B View Figure 1 ).

Antenna with stout basicerite distally bearing small subacute ventrolateral tooth ( Figure 1B View Figure 1 ); scaphocerite oval-shaped, anterior margin of blade not protruding beyond distolateral tooth, latter minute, subacute, not separated from blade by incision ( Figure 1A View Figure 1 ); carpocerite elongate, moderately robust, slightly overreaching distolateral tooth of scaphocerite, in full extension reaching at most to mid-length of third segment of antennular peduncle ( Figure 1A, B View Figure 1 ).

Mouthparts typical for genus. Mandible ( Figure 2A View Figure 2 ) with bisegmented palp; molar process comparatively small; incisor process with six teeth. Maxillule ( Figure 2B View Figure 2 ) with bilobed palp, both lobes distally with one seta. Maxilla ( Figure 2C View Figure 2 ) with dorsal endite deeply incised; scaphognathite relatively broad. First maxilliped ( Figure 2D View Figure 2 ) with expanded endopod (palp) and caridean lobe; epipod ear-shaped. Second maxilliped ( Figure 2E View Figure 2 ) with elongate epipod; propodus without distinct transverse suture. Third maxilliped ( Figure 2F View Figure 2 ) relatively slender; coxa with large, ear-shaped lateral plate, distally subacutely produced; exopod elongate, with some flexible setae on posterior margin, overreaching distal margin of antepenultimate segment; antepenultimate segment with oblique basal suture near insertion of exopod; penultimate segment almost four times as long as wide; ultimate segment distally tapering, with scarce rows or tufts of setae, some elongate, tip unarmed; arthrobranch large.

First pereiopods (chelipeds) very asymmetrical in shape and unequal in size ( Figure 3 View Figure 3 ), carried flexed ventromesially. Major cheliped ( Figure 3A, B View Figure 3 ) with short unarmed ischium; merus moderately elongate, ventrally slightly depressed, with smooth margins, distally without teeth; carpus very short, plate-shaped ( Figure 3A, B View Figure 3 ); chela enlarged, subcylindrical, smooth; palm depressed ventromesially ( Figure 3A View Figure 3 ) with transverse constriction on distodistal margin ( Figure 3A, B View Figure 3 ); linea impressa absent; adhesive discs conspicuous ( Figure 3A View Figure 3 ); fingers slightly turned mesially, about three-quarters length of palm; dactylus relatively slender, distally curved, cutting edge unarmed ( Figure 3A, B View Figure 3 ); pollex with deep sinus proximally ( Figure 3B View Figure 3 ), tip strongly curved upwards, cutting edge unarmed ( Figure 3A, B View Figure 3 ), proximal portion shallowly depressed ( Figure 3A View Figure 3 ).

Minor cheliped ( Figure 3C–E View Figure 3 ) much smaller than major cheliped, slender; ischium elongate, unarmed; merus elongate, slender, ventrally flattened, margins smooth; carpus very small, cup-shaped ( Figure 3C View Figure 3 ); chela flattened ventromesially ( Figure 3D View Figure 3 ); fingers about twice as long as palm ( Figure 3D View Figure 3 ), finger tips strongly curved distally, crossing ( Figure 3D View Figure 3 ); cutting edges of pollex and dactylus mostly straight, except for, respectively, three and two small, irregular teeth in proximal half ( Figure 3E View Figure 3 ).

Second pereiopod relatively short, moderately slender ( Figure 2G View Figure 2 ); ischium about threequarters length of merus; carpus four-segmented, segment ratio approximately 4/1/1/2 ( Figure 2G View Figure 2 ); chela with fingers shorter than palm; distoventral portion of palm, pollex and dactylus with dense rows or tufts of setae ( Figure 2G, H View Figure 2 ). Third pereiopod robust ( Figure 2I View Figure 2 ), flattened mesially; ischium unarmed; merus about three times as long as wide; ventral and dorsal margins convex, unarmed; carpus much shorter and more slender than merus, with slender distoventral spiniform seta; propodus as long as carpus, with two spiniform setae on ventral margin and one distal spiniform seta near articulation with dactylus ( Figure 2I View Figure 2 ); dactylus more than half propodus length, simple, feebly curved, somewhat flattened on one side (almost subspatulate; Figure 2J View Figure 2 ). Fourth pereiopod generally similar to third pereiopod. Fifth pereiopod shorter and much more slender than third and fourth pereiopods ( Figure 2K View Figure 2 ); ischium unarmed; merus at least four times as long as wide, with straight margins; carpus shorter than merus, unarmed; propodus as long as merus, without spiniform setae on ventral margin, distally with four rows of setae ( Figure 2L View Figure 2 ); dactylus similar to that of third and fourth pereiopods, slightly more curved ( Figure 2L View Figure 2 ).

First to fifth pleomeres with rounded posteroventral angles; sixth pleomere with posteroventral angle separated from rest of pleomere by complete suture, forming feebly articulated plate ( Figure 1F View Figure 1 ); preanal plate with median groove, posteriorly rounded. Female second pleopod with slender appendix masculina; male second pleopod unknown.

Uropods distinctly exceeding telson ( Figure 1G View Figure 1 ); lateral lobe of protopod (sympodite) distally with two blunt or subacute lobes ( Figure 1G, H View Figure 1 ); endopod distinctly longer than exopod; exopod posterolaterally truncate, subrectangular ( Figure 1G, H View Figure 1 ); diaeresis laterally sinuous, mesially deeply incised and with large triangular tooth near mesial margin of exopod ( Figure 1G, H View Figure 1 ); distolateral spiniform seta slender, not reaching distal margin of exopod ( Figure 1H View Figure 1 ).

Telson moderately slender, about twice as long as wide at base, distally tapering ( Figure 1G View Figure 1 ); dorsal surface pitted, with two pairs of strong slender spiniform setae inserted in deep pits, first pair situated close to lateral margin, anterior to mid-length of telson, second pair situated at some distance from lateral margin, posterior to mid-length of telson ( Figure 1G View Figure 1 ); posterior margin rounded medially, with two pairs of posterolateral spiniform setae, lateral very short, mesial at least seven times longer, slender ( Figure 1G View Figure 1 ); margin between mesial spiniform setae with at least seven (probably eight) setae; anal tubercles present, moderately developed. Gill/exopod formula typical for genus: 5 pleurobranchs (P1–5), 0 podobranch, 1 arthrobranch (Mxp3), 0 mastigobranchs (strap-like epipods), 0 setobranchs, 3 exopods (Mxp1–3).

Size

The holotype is 4.6 mm CL and 16.8 mm TL.

Colour pattern

Pale whitish, semitransparent.

Etymology

The specific name refers to the type locality, Dahab , Egypt .

Type locality

Dahab, Gulf of Aqaba, Red Sea, Egypt.

Distribution

Presently known only from the type locality in the northern Red Sea .

Habitat

Subtidal sandy bottom with few coral patches, depth 10–13 m, in burrow of the callianassid mudshrimp, Glypturus sp. Burrows of Glypturus can be recognized by characteristic volcano-shaped mounds (with a diameter of 10 cm or more, sometimes with a small hole or a shallow crater on the top), and nearby funnels (more than 10 cm in diameter at surface, more than 10 cm deep). The host was not collected, but the most likely candidate is G. laurae (de Saint Laurent, 1984) [according to Sakai (1999) G. laurae is a junior synonym of G. armatus (A. Milne Edwards, 1870) , an opinion with which we do not agree].

Remarks

Richalpheus dahabensis View in CoL n. sp. differs from R. palmeri View in CoL , the type species and the only other species of Richalpheus View in CoL , by the absence of a shallow fossa on the pollex of the major chela (cf. Figure 3 A View Figure 3 and Anker and Jeng 2006, Figure 4h); the more slender tooth on the mesioventral carina of the first segment of the antennular peduncle (cf. Figure 1D View Figure 1 and Anker and Jeng 2006, Figure 2d View Figure 2 ); the somewhat shorter merus of the third pereiopod: less than three times as long as wide (at widest point) in R. dahabensis View in CoL n. sp. versus at least three and a half times in R. palmeri View in CoL (cf. Figure 2I View Figure 2 and Anker and Jeng 2006, Figure 6a); the longer exopod and penultimate segment of the third maxilliped (cf. Figure 2F View Figure 2 and Anker and Jeng 2006, Figure 3f View Figure 3 ); and the distolateral tooth of scaphocerite being much smaller and not having a deep incision separating it from the blade, as in R. palmeri View in CoL (cf. Figure 1 A View Figure 1 and Anker and Jeng 2006, Figure 2a, f View Figure 2 ). Furthermore, R. dahabensis View in CoL n. sp. appears to have a more distinct articulated plate on the sixth pleomere (see Figure 1F View Figure 1 ) than does R. palmeri View in CoL , which has only an inconspicuous suture separating the posteroventral angle from the rest of the pleomere (cf. Anker and Jeng 2006, Figure 2g View Figure 2 ).

Discussion

Anker et al. (2006b) provided the only exhaustive phylogenetic treatment of the Alpheidae . Richalpheus palmeri (described at about the same time in 2006) was not included in this analysis, although in a short note added in the proof Anker et al. (2006b) stated that Richalpheus plainly belongs to the leptalpheoid lineage, together with Amphibetaeus , Leptalpheus , and Fenneralpheus (clade ALF in Anker et al. 2006b).

The combination of morphological characters of R. palmeri and R. dahabensis n. sp. corroborates the position of Richalpheus within the ALF clade (see Anker et al. 2006b). However, the incomplete set of characters for Amphibetaeus jousseaumei , a species not collected again since its original description, with only the major cheliped remaining as lectotype (see Anker and Jeng, 2006; Anker et al. 2006b), and the morphological diversity within Leptalpheus sensu lato ( Anker et al. 2006a; A. Anker, personal observation), make it difficult to propose a more resolved topography of the clade ALF. Three most likely possibilities are: (1) Richalpheus and Amphibetaeus as sister genera opposed to the sister genera Fenneralpheus and Leptalpheus ; (2) Amphibetaeus forming a sister clade to all the remaining three leptalpheoid genera, with Richalpheus forming a sister clade to the Fenneralpheus – Leptalpheus clade; (3) Amphibetaeus forming a sister clade to all the remaining three leptalpheoid genera, with Richalpheus embedded somewhere within the Fenneralpheus – Leptalpheus clade. Only a formal cladistic treatment of the clade ALF, based on morphological and/or molecular characters, may elucidate the position of Richalpheus within the ALF clade.

Coutière’s (1899) observations of the behaviour of Amphibetaeus jousseaumei (Coutière, 1896) suggest that the fossa/tooth system on the major chela is most probably nonfunctional; at least, these shrimps do not produce an audible snap, unlike the true snapping shrimps (mostly species of Alpheus Fabricius, 1798 and Synalpheus Bate, 1888 ). The presence of an apparently non-functional fossa/tooth system on the major chela of Amphibetaeus jousseaumei and Richalpheus palmeri , and its absence in Richalpheus dahabensis n. sp., suggest at least two possible evolutionary scenarios. The first is that the fossa/tooth system evolved independently in two related leptalpheoid lineages: in Amphibetaeus and within Richalpheus (in R. palmeri ). This hypothesis is supported by some structural differences between the fossa/tooth systems of A. jousseaumei and R. palmeri ( Anker and Jeng 2006) . The other, in our opinion less likely, scenario is that the fossa/tooth system evolved once in the common ancestor of Amphibetaeus and Richalpheus , and became secondarily reduced in R. dahabensis n. sp. (and eventually also in Fenneralpheus and Leptalpheus ). For a more detailed discussion of alpheid tooth/fossa systems and their evolution see Anker et al. (2006b).

The above comparison between R. dahabensis n. sp. and R. palmeri raises some doubts about the development of the articulated plate on the sixth pleomere as a character of generic importance. The presence or absence of this plate has been widely used in alpheid generic diagnoses since Coutière’s studies (e.g. Holthuis 1993). It is true that in the vast majority of the currently recognized alpheid genera, the presence or absence of this plate is clear and consistent (A. Anker, personal observation). However, in Richalpheus , as well as in two other genera, Nennalpheus Banner and Banner, 1981 and Salmoneus Holthuis, 1955 , the development (or at least the external distinctiveness) of the articulated plate appears to be variable ( Banner and Banner 1981; A. Anker, personal observation). Furthermore, according to Anker et al. (2006b), this plate appears to have evolved multiple times within the Alpheidae and may have been the subject of reversals (fused again with the rest of the pleomere).