Glyptogidiella omanica, Vonk, Ronald & Jaume, Damià, 2010

Glyptogidiella omanica View in CoL sp. nov.

( Figs. 2–6 View FIGURE 2 View FIGURE 3 View FIGURE 4 View FIGURE 5 View FIGURE 6 )

Material examined. None of 10 specimens known display oostegites, penile papillae or any other trait indicative of gender. All collected by Jan H. Stock and co-workers.

Halban area, Wadi Taww (stations nos. 96–37, 96–48, 96–51, 96–52 and 96–67 of Stock et al., 1997). UTM coordinates 0604748/2606459. Several probes with Bou-Rouch pump on dry gravel banks of wadi, with pipe placed between 50 cm and 1 m below sediment surface. Conductivity range: 557–581 microS; temperature range: 28.3–28.7 ºC. Holotype 1.85 mm, completely dissected and mounted on single slide [ZMA-206.071]. Paratypes: Seven specimens, of which one damaged and not measured; rest 1.81, 1.48 (juvenile?), 1.70, 1.15 (juvenile?), 1.56 and 1.83 mm; all preserved in single ethanol vial [ZMA-206.072]. Collected 28 March 1996. Accompanying fauna: Omangidiella parvidactyla (Bogidiellidae) ; Isopoda; Thermosbaenacea; Cyclopidae ; Ostracoda; Chironomid larvae; Acari; Gastropoda; Oligochaeta.

Additional material: Nizwa, Al-Gumor (station no. 96–32 of Stock et al., 1997). UTM coordinates 0554894/2537653. Rectangular, shady open well with diesel pump. Conductivity: 743 microS; temperature: 28.3 ºC. Two specimens 1.88 and 1.70 mm, preserved in single ethanol vial [ZMA-206-073]. Collected with Cvetkov net, 26 March 1996.

Diagnosis. As for the genus.

Description. Body ( Fig. 2 View FIGURE 2 ) up to 1.88 mm long, compact, unpigmented, eyeless. Some portions of body integument micro-sculptured as shown in some figures. Head ( Fig. 3 View FIGURE 3 A) with faint rostrum and with welldeveloped, slender lateral lobe. Tergites of pleonites and urosomites unarmed, lacking robust setae. Epimeral plates ( Figs. 2 View FIGURE 2 ; 6A) unarmed, with rounded posterodistal corners.

Antennule ( Fig. 3 View FIGURE 3 A) short, about as long as head and first pereonite combined; relative length of peduncle segments as 100: 50: 30. Main flagellum clearly shorter than peduncle, 7-articulate, some articles provided with long aesthetasc. Accessory flagellum 2-articulate.

Antenna ( Fig. 3 View FIGURE 3 A) about as long as antennule. Peduncle segments I and II completely fused into composite segment displaying slender gland cone; relative length of segments III-V as 30: 53: 100. Flagellum as long as peduncle segment V, 5-articulate; short aesthetasc present on articles 2 and 5.

Labrum ( Fig. 3 View FIGURE 3 B) with shallow concave distal margin. Paragnaths with well-developed inner lobes ( Fig. 3 View FIGURE 3 F).

Left mandible ( Fig. 3 View FIGURE 3 B, E) with incisor broader than long; cutting edge hardly denticulated. Lacinia as large as incisor; distal margin provided with seven rounded dentices. Spine row consisting of three welldeveloped setulose elements plus two setulose bulges; two reduced setulose processes placed intercalated between three main setulose elements as figured. Molar process with armature and ornamentation reduced to short simple seta on distal margin aside of ordinary long molar seta.

Right mandible ( Fig. 3 View FIGURE 3 B, D) with incisor cutting edge more sharply denticulated than left counterpart. Lacinia smaller than incisor, bifid, each branch with multi-denticulated distal margin; denticles rounded. Spine row as figured; molar process almost symmetrical to left counterpart but with setae more reduced.

Mandibular palp ( Fig. 3 View FIGURE 3 B) 3-segmented, relative length of segments as 24: 100: 70; segments I and II unarmed, segment III with three unequal simple setae distally and with patch of densely-set long spinules on anterior surface ( Fig. 3 View FIGURE 3 C).

Maxillule ( Fig. 3 View FIGURE 3 G) basal endite (= outer plate) with two out of 6 slender robust setae simple. Endopodite (= palp) with two unequal simple setae distally.

Maxilla ( Fig. 3 View FIGURE 3 H) reduced, outer plate with 4+1 simple setae distally, inner plate bearing four.

Maxilliped ( Fig. 3 View FIGURE 3 I, J) basal endite (= inner plate) weakly armed, with single short robust seta distally; ischial endite (= outer plate) with two. Nail with extremely reduced unguis. Other armature on limb as figured. Coxal plates ( Fig. 2 View FIGURE 2 ) progressively shorter towards posterior from coxa I to IV. Coxa V ( Fig. 5 View FIGURE 5 C) hypertrophied, 1.6 times broader than long, ovoid, evenly rounded. Coxal plates VI–VII much broader than long, strongly produced posteriorly, lacking anteroventral lobe; coxa VI with slender simple seta on tip ( Fig. 5 View FIGURE 5 D); coxa VII with robust seta on homologous position ( Fig. 4 View FIGURE 4 C).

Coxal gills simple, provided with long stalk ( Figs. 2 View FIGURE 2 ; 5B–D).

Gnathopod I ( Fig. 4 View FIGURE 4 A) larger than G2, all segments with posteromedial margin covered with patch of spinules; those comprising patch on merus and carpus much longer than rest. Carpal lobe pointed, guarding almost entirely posterior margin of propodus. Propodus stout, subchelate, 1.9 times longer than broad, broadest at level of palm angle; palm margin strongly oblique, slightly concave beside palm angle, latter with short flagellate robust seta as only armature; relevant armature along palm margin reduced to short robust seta similar to that on palm angle plus more slender flagellate seta placed in between. Nail not reaching palm angle, with unguis completely incorporated into dactylus; latter with two notches on posterior margin.

Gnathopod II ( Fig. 4 View FIGURE 4 B) slender, each segment provided with patch of spinules on posteromedial margin as in G1, but with additional patch along medial surface of propodus running subparallel to anterior margin of segment. Propodus long and slender (2.4 times longer than broad), narrow, not broader than carpus, subchelate with palm margin strongly oblique; anterior and posterior margins parallel; armature on palm angle reduced to long and stout flagellate seta; relevant armature on palm margin reduced to stout flagellate bifid seta plus shorter flagellate robust seta placed as figured. Nail as in G1.

Pereopods progressively longer towards posterior ( Fig. 2 View FIGURE 2 ). P3 to P6 hardly armoured, with slender, nonexpanded basis; dactylus completely incorporated into unguis. P3 and P4 ( Fig. 5 View FIGURE 5 A, B) bearing pair of stout setae curved at tip on posterodistal corner of propodus; these setae reduced in P5–P7 ( Figs. 5 View FIGURE 5 C, D; 4C). Pereopod VII ( Fig. 4 View FIGURE 4 C) longest, differing from preceding P5–P 6 in display of expanded basis; latter lacking both posterodorsal and posteroventral lobes; anterior and posterior margin of segment armed with 2 and 3–4 stout robust setae, respectively. Pereopod remarkable also in display of long (more than twice length of nail) and stiff simple seta on distal margin of propodus; in addition, there is additional long and stiff seta placed about midway of medial margin of segment, plus long penicillate seta (as long as nail) on distal margin.

Pleopods ( Fig. 6 View FIGURE 6 A, B) similar, each with exopodite shorter than protopod. Protopod provided with 2 retinacles. Exopodite 3-articulate, none of marginal setae on articles modified.

Uropods I-III biramous, each with exopodite clearly shorter than endopodite. Uropod I clearly longer than U2; U3 almost as long as U1. Uropods I–II ( Fig. 6 View FIGURE 6 C, D) similar in armature and ornamentation: Each with protopod about as long as endopodite, bearing one posterodistal flagellate robust seta at each side; exopodite with four unequal robust setae, and endopodite with three robust setae plus slender simple seta distally; both rami ending into pointed process; one specimen, by exception, displays basofacial robust seta on peduncle of U1. Uropod III ( Fig. 6 View FIGURE 6 E) with protopod more than twice length of rami, armature consisting of short flagellate robust seta on posterodistal corner of outer margin and long flagellate robust seta on anterodistal margin of segment; exceptionally, one of specimens displayed slender simple seta on posterodistal corner of medial margin of left uropod; exopodite with three robust setae distally, endopodite bearing only one.

Telson ( Fig. 6 View FIGURE 6 F) with convex lateral margins. Armature consisting of flagellate robust seta plus simple seta subdistally at each side; pair of penicillate setules placed dorsolaterally at each side as figured.

Etymology. Species named after the Sultanate of Oman (Arabian Peninsula), the type locality of the species.

Remarks. The new taxon from Oman fits well in the Bogidiellidae sensu lato based on the combined display of a distinct carpal lobe on the first gnathopod, reduced pleopodal rami and unsegmented exopodite of third uropod. But the reduced rami of the third uropod and the modified coxal plate of pereopod V are remarkable autapomorphies of Glyptogidiella that impedes its accomodation in the restricted diagnosis of the family as presented by Koenemann & Holsinger (1999). In fact, the enlarged coxal plate V is a feature not reported in any other amphipod. Another remarkable feature of Glyptogidiella allowing its distinction from any other bogidiellid at first glance is the expanded basis of pereopod VII.

Glyptogidiella View in CoL shares the presence of 6 robust setae on the basal endite (= outer plate) of the maxillule with the other two Bogidiellid species found in Oman, Stockigidiella aequimana Iannilli, Holsinger, Ruffo & Vonk, 2006 View in CoL and Omangidiella parvidactyla Iannilli, Holsinger, Ruffo & Vonk, 2006 View in CoL (see Iannilli et al., 2006). This is a rare feature within the Bogidiellidae ( Koenemann & Holsinger, 1999) View in CoL , but it is also noted in such far away genera as Mexigidiella Stock, 1981 View in CoL , from Mexico and Haiti, and Racovella Jaume, Gràcia & Boxshall, 2007 View in CoL from the Balearic Islands ( Jaume et al., 2007). At this moment, no affinities based on character comparison can be suggested for the new taxon.

Hydrological conditions in the underground of arid coastal areas are complex, variable and often influenced by groundwater extraction for human use. Natural conditions may have produced, over prolonged periods, a rich and biodiverse stygofauna in these ecosystems, but recent anthropogenic developments are changing the habitat characteristics. Regarding the local biogeography, we should distinguish between natural conditions that shaped the stygofaunal community over long periods of climatic stability, and environmental changes that occurred over the last decades due to large-scale groundwater extraction. For instance, Al- Mushikhi (2002) showed that in the Eastern Batinah region, where Wadi Taww is located and where Glyptogidiella View in CoL and Omangidiella View in CoL are found, the annual balance of groundwater in 1999 consisted of 21 % seawater intrusion as compared with 0.3 % in 1973. In the coastal region of North Oman groundwater pumping exceeds annual precipitation by one third, causing storage depletion and ensuing water table drop and concurrent intrusion of seawater ( Kacimov et al., 2009). Of course, other large fluctuations in hydrological conditions have played a role in the recent past. Only 6000 years ago, the sea level in the region was about 2 m higher ( Bernier et al., 1995); this might have enabled marine fossorial fauna to colonize the interstitial of alluvial deposits and the open pores of limestone cavities. In this respect it is noteworthy that exceptionally large coxal plates —such as the extraordinary coxa V of Glyptogidiella— is the type of feature encountered in some benthic marine amphipods, but not in groundwater forms. Large, shield-like coxal plates, although not the fifth, are seen in members of several amphipod families, such as Stenothoidae View in CoL , Thaumatelsonidae View in CoL or Nihotungidae View in CoL ( Krapp-Schickel & Koenemann 2006; Barnard & Karaman, 1991). The habitus of Glyptogidiella View in CoL is not typical for a dweller of a true interstitial niche, with its short antennae, large coxal plate and short and stubby rami on the third uropod. This could not be the primary habitat of the new taxon: The underground of wadis might contain interstices of larger size and could also be in contact with karstic hollows, as discussed earlier by Magniez & Stock (2000) in commenting on the presence of large sized isopods (11 mm) in Wadi Taww.