Caridina spongicola Zitzler & Cai, 2006

Caridina spongicola Zitzler & Cai, 2006 View in CoL

( Figs. 36–38 View Fig View Fig View Fig ; Table 14)

Caridina spongicola Zitzler & Cai, 2006: 271 View in CoL , Figs. 1-3 View Fig View Fig View Fig . (type locality: outlet bay of Lake Towuti)

Caridina spongicola View in CoL – von Rintelen et al., 2007b: 262, Figs. 1 View Fig , 2008: 2244, Table 1.

Material examined. – Holotype: ovigerous female (eggs without eyes), cl 2.4 mm ( MZB Cru 1559), Lake Towuti , west shore, outlet bay, west of Cape Tokaluku, 02°47.261'S, 121°23.17'E, loc. 119-04, on sponge, coll. K. & T. von Rintelen, 29 Jul.2004. GoogleMaps

Paratypes ( Lake Towuti ) – 3 females (cl 2.0- 2.4 mm) ( MZB Cru 1560); 2 ovigerous females (cl 2.4-2.8 mm) ( MZB Cru 1560) , same data as holotpye; 5 males (cl 1.8-2.3 mm)( MZB Cru 1560) , same data as holotype; 11 females (cl 1.9-2.6 mm)( ZMB 29027, some SEM material), 2 ovigerous females (cl 2.4 mm)( ZMB 29027, some SEM material), Lake Towuti , west shore, outlet bay, west of Cape Tokaluku, 02°47.32'S 121°23.38'E, loc. 52-03, on sponge, coll. K. & T. von Rintelen, 21 Sep.2003 GoogleMaps ; 4 males (cl 1.9-2.1 mm)( ZMB 29027, some SEM material) , same data as previous sample; 9 males (cl 2.1-2.4 mm), 12 females (cl 2.2-2.6 mm), 6 ovigerous females (cl 2.4-2.6 mm)( ZRC 2006.0114 View Materials ), Lake Towuti , west shore, outlet bay, west of Cape Tokaluku, 02°46.277'S 121°21.83'E, loc. 02-05, on sponge, coll. Y. Cai, K. & T. von Rintelen, 3 Jan.2005 GoogleMaps .

Others (Lake Towuti)) – 170 ex. ( MZB Cru 1845, n=75; ZMB 29125, n=95 and several juveniles), same data as paratypes of ZRC 2006.0114 View Materials , loc. 02-05, on sponge ; 23 ex. ( ZMB 29313, n=23 and several juveniles), west shore, outlet bay, 02°47.345'S, 121°23.356'E, loc. 14-05, on sponge, coll. K GoogleMaps . & T. von Rintelen, 9 Jan.2005 ; 12 ex. ( ZMB 29129, n=12 and several juveniles), west shore, outlet bay, 02°47.623'S, 121°22.724'E, loc. 13-05, on sponge, coll. K GoogleMaps . & T. von Rintelen, 9 Jan.2005; ( ZMB 29294, several juveniles) , same data as holotype, loc. 119-04, on sponge GoogleMaps .

Description. – Carapace length 1.8-2.8 mm (n=48). Rostrum ( Figs. 36B View Fig , 37.A View Fig , 38.A View Fig ; Table 14) short, straight and slender, anterior third slightly upturned, reaching to or slightly beyond third segment of antennular peduncle, 0.7-3.0 times as long as carapace (n=48), armed dorsally with 14-25 teeth (including 3-5 teeth posterior to orbital margin), anterior less densely spaced, armed ventrally with 3-15 teeth. Antennal spine situated below inferior orbital angle. Pterygostomial angle broadly rounded. Eyes well developed, anterior end reaching to or beyond half length of basal segment of antennular peduncle. Antennular peduncle 0.8-1.2 times as long as carapace (n=10), second segment 2.0-2.3 times length of third segment, third segment 0.2-0.3 times length of basal segment (n=5). Stylocerite reaching 0.8-0.9 length of basal segment of antennular peduncle (n=5). Scaphocerite ( Fig. 37C View Fig ) slender, 3.5-5.0 times as long as wide (n=8).

Sixth abdominal somite 0.5-0.7 times length of carapace (n=48), 1.2-2.3 times as long as fifth somite (n=21), 0.7- cl (mm) 1.8-2.8 2.3 ± 0.3 2.4 48 rl / cl 0.7-3.0 1.6 ± 0.8 1.2 48 n dorsal rostral teeth 14-25 20 ± 2 20 48 n ventral rostral teeth 3-15 6 ± 2 6 48 abds6 / cl 0.5-0.7 0.6 ± 0.1 0.6 48 abds6 / abds5 1.2-2.3 1.9 ± 0.3 1.9 21 abds6 / h tel 0.7-1.0 0.9 ± 0.1 0.9 28 h tel / w tel 2.8-4.1 3.4 ± 0.3 3.4 13 n spines uropodal diaeresis 10-12 11 ± 1 11 12 h ch1 / w ch1 2.3-2.9 2.6 ± 0.2 2.7 20 h ch1 / h ca1 0.8-1.4 1.2 ± 0.1 1.2 48 h ca1 / w ca1 2.5-3.5 2.9 ± 0.3 3.0 20 h ch2 / w ch2 3.0-4.0 3.4 ± 0.3 3.3 20 h ch2 / h ca2 0.7-0.8 0.8 ± 0.0 0.8 46 h ca2 / w ca2 5.9-7.9 6.6 ± 0.5 6.6 20 n spines p3 1-3 2 ± 1 2 7 n spines p5 21-31 26 ±4 27 7

1.0 times length of telson (n=28). Telson ( Fig. 37D,F View Fig ) 2.8- 4.1 times as long as wide (n=13), distal margin rounded, without projection, with 3-4 pairs of spinules and 1 pair of dorsolateral spinules; distal end with 4 pairs of spines, lateral pair distinctly longer than intermediate pairs, median pair shortest. Preanal carina ( Fig. 37B View Fig ) rounded, without spine. Uropodal diaeresis ( Fig. 37E View Fig ) with 10-12 movable spinules (n=12).

Incisor process of mandible ( Fig. 38B View Fig ) ending in irregular teeth, molar process truncated. Lower lacinia of maxillule ( Fig. 38C View Fig ) broadly rounded, upper lacinia elongated, with a number of distinct teeth on inner margin, palp slender. Upper endites of maxilla ( Fig. 38G View Fig ) subdivided, palp elongate, scaphognathite tapering posteriorly. Palp of first maxilliped ( Fig. 38D View Fig ) truncate, ending in triangular shape. Podobranchs of second maxilliped ( Fig. 38F View Fig ) reduced to small lamina. Third maxilliped ( Fig. 38E View Fig ) with ultimate segment slightly shorter than penultimate segment.

Chela and carpus of first pereiopod distinctly stouter and broader than chela and carpus of second pereiopod ( Fig. 37 View Fig K-M); chela of first pereiopod 2.3-2.9 times as long as wide (n=20), 0.8-1.4 times length of carpus (n=48); tips of fingers rounded, without hooks; dactylus 1.2-1.5 times as long as palm (n=5); carpus 2.5-3.5 times as long as wide (n=20), 1.2-1.5 times length of merus (n=5). Chela of second pereiopod 3.0-4.0 times as long as wide (n=20), 0.7-0.8 times length of carpus (n=46); tips of fingers rounded, without hooks, dactylus 1.3-1.7 times as long as palm (n=5); carpus 5.9-7.9 times as long as wide (n=20), 1.4-1.6 times as long as merus (n=5).

Third pereiopod ( Fig. 37 View Fig G-H) slender, dactylus 3.0-5.8 times as long as wide (terminal spine included, without spines of flexor margin; n=5), terminating in one large claw with 1-3 accessory spines on flexor margin (n=7); propodus 11.1-15.0 times as long as wide, 3.3-5.3 times as long as dactylus; carpus 5.0-6.1 times as long as wide, 0.5-0.7 times as long as propodus, 0.5 times as long as merus; merus 8.1-10.0 times as long as wide, bearing 2-4 strong, movable spines on posterior margin of outer surface.

Fifth pereiopod slender ( Fig. 37 View Fig I-J), dactylus 3.5-4.4 times as long as wide (terminal spine included, without spines of flexor margin; n=5), terminating in one large claw with 21-31 accessory spines on flexor margin (n=7); propodus 13.1-15.0 times as long as wide, 3.6-4.5 times as long as dactylus; carpus 4.6-5.9 times as long as wide, 0.4-0.5 times as long as propodus, 0.6 times as long as merus; merus 7.1- 9.0 times as long as wide, bearing 2 strong, movable spines on posterior margin of outer surface.

Endopod of male first pleopod ( Fig.38H View Fig ) elongated triangular, 2.0-2.8 times as long as proximally wide (n=5), without appendix interna, appendix interna of male second pleopod ( Fig. 38I View Fig ) not reaching end of appendix masculina.

Ovigerous females with 12- 18 eggs (n= 4 females); egg size 0.8-0.9 x 0.4-0.6 mm (n=53, eggs with and without eyes).

Distribution. – Caridina spongicola is endemic to Lake Towuti and so far only known from the outlet bay, where its sponge host occurs ( Fig. 36A View Fig ; Zitzler & Cai, 2006).

Biology and ecology. – During an extensive substrate specific sampling in the Malili lake system in 2003, 2004, and 2005, Caridina spongicola was exclusively found on a currently undescribed freshwater sponge of the suborder Spongillina . It grows in the outlet of lake Towuti at depths of 2-5 (-10)m. The shrimps either occur on the sponge or dwell inside its oscula (Zitzler & Cai, 2006; von Rintelen et al., 2007b).

A preliminary gut content analysis was carried out to investigate the shrimp’s diet (Zitzler & Cai, 2006). According to these authors, none of the six dissected guts contained traces of poriferean spicules. The spicules are presumably too big (0.2-0.3 mm) to be consumed by the shrimp. On the other hand, a variety of diatoms, which possibly accumulate on or within the sponge, were found in the guts. These findings suggest that the shrimp does not feed on sponge tissue and thus does not parasitize its host. Instead, it appears to be a commensal using the sponge’s cavities as shelter and the inherent accumulation of diatoms as a food supply (Zitzler & Cai, 2006).

Colour pattern. – Carapace with three transversal dark brown bands ( Fig.36 View Fig C-D), first two usually joined at dorsal surface to form a n-shaped band in lateral view. Anterior part of cephalothorax, antennular peduncle, bases of antennae and posterior rostrum similarly pigmented, whereas anterior rostrum, antennae and distal antennules mostly unpigmented. First and second pereiopods white with brown bands, abdomen with a conspicuous white stripe expanding laterally along each side, dorsally densely covered with dark brown bands except for a white patch on third sternum, ventrally uniformly brown. Uropods with a characteristic brown band on distal endopods, endopods and exopods with white-pigmented tips, respectively. Pleopods and telson colourless. Eggs usually dark brown. This colour pattern remains visible even if the shrimp is under stress, the intensity of the colour merely fades (compare Zitzler & Cai, 2006; von Rintelen et al., 2007b). In a few specimens, the colour pattern resembled C. glaubrechti , but the majority was observed to be as mentioned above.

Taxonomic remarks. – The rostrum of C. spongicola displays a high degree of variation within the populations ( Fig. 36B View Fig ; compare Zitzler & Cai, 2006), similarly to many other species from the Malili lakes. However, certain qualitative characters, i.e. the general shape or the arrangement of the rostral teeth, are constant not only in C. spongicola , but in all other ancient lake species (e.g. Schenkel, 1902; Woltereck 1937a, b; Cai & Wowor, 2007).

The colour morph of the majority of living specimens closely resembles C. woltereckae , and both species can easily be confused in the field, although C. woltereckae is a typical rock dweller and has a much wider distribution. C. spongicola is generally smaller (carapace length 1.8- 2.8, median 2.4 vs. 2.4-3.8, median 2.8 in C. woltereckae ) and has a shorter rostrum (reaching to or slightly beyond third segment of antennular peduncle vs. reaching beyond end of scaphocerite in C. woltereckae ). Its smaller size (cl 1.8-2.8 mm, median 2.4) also distinguishes C. spongicola from most of the other lake species apart from C. loehae and C. parvula . From these, it differs by a longer rostrum (reaching to or slightly beyond third segment of antennular peduncle vs. shorter in the other species), a different shape of the rostrum (more slender and fragile in C. loehae and distinctly stouter in C. parvula ), and a different number of spines on the dactylus of the fifth pereiopod (21-31, median 27 vs. 12-16, median 16 in C. loehae vs. 34-39, median 37 in C. parvula ).

In the molecular phylogeny ( Figs. 63-64 View Fig View Fig ), C. spongicola appears within an unresolved clade of the rock dwellers C. striata , C. glaubrechti , and C. woltereckae (compare von Rintelen et al., 2007b), although C. spongicola differs in morphology and choice of habitat (sponge) from the other species (for example its generally smaller size and a shorter rostrum vs. rostrum reaching beyond end of scaphocerite in the rock dwellers).