Steinernema goweni, San-Blas, Ernesto, Morales-Montero, Patricia, Portillo, Edgar, Nermuť, Jiří & Puza, Vladimir, 2016

Steinernema goweni * n. sp.

( Figs. 1–5 View FIGURE 1 View FIGURE 2 View FIGURE 3 View FIGURE 4 View FIGURE 5 )

*specific epithet after Dr. Simon Gowen a British nematologist.

Description. Male, first generation. Measurements of 20 males are given in Table 1 View TABLE 1 . Body curved ventrally posteriorly. Lateral field not seen under light microscopy. Head round and continuous with body ( Fig. 1 View FIGURE 1 A). Face with six labial and four cephalic papillae, gently tapering anteriorly. Amphidial apertures visible with SEM and located posterior to the lateral labial papillae ( Fig. 5 View FIGURE 5 A). Stoma shallow, cuticularised. Excretory pore anterior to nerve ring. Pharynx muscular, cylindrical procorpus, swollen metacorpus, narrow isthmus and distinct basal bulb. Nerve ring surrounding isthmus or anterior part of the basal bulb. Gonad monorchic, testis reflexed comprising germinal zone, growth zone and vas deferens. Males in both generation possess 25 or 27 (in 15% of the specimens) genital papillae comprising 12 or 13 pairs and a single ventral papilla located anterior to cloacal opening. Specimens with twenty five genital papillae visible with light microscopy (12 pairs and one single ventral precloacal papillae) including six subventral precloacal pairs, one pair adanal, one pair cloacal, one pair lateral, one pair postcloacal subdorsal and two subterminal ( Fig. 5 View FIGURE 5 B). Specimens with 27 genital papillae have an extra lateral pair anterior to the cloaca (at the same level than the fourth precloacal papilla) ( Fig. 5 View FIGURE 5 C). Spicules paired, dark brown in colour, head (manubrium) round dorsally directed, calomus (shaft) short, with a prominent ventral arch ( Figs. 1 View FIGURE 1 B, 3D, 3D1). Two visible internal ribs and tapering gradually posteriorly to a point. Velum always present. Gubernaculum boat shaped in lateral view. Cuneus Y-shaped in ventral view ( Figs. 1 View FIGURE 1 C, 3D2). Tail conoid. Phasmids always visible at SEM view and an unknown pore-like structure can be seen at the right of tail tip at SEM view in different specimens ( Fig. 5 View FIGURE 5 D). Mucron absent.

Male, second generation. Similar to first generation males but smaller in many features and proportions ( Table 1 View TABLE 1 ). Gubernaculum boat shaped but, with posterior part variable between tapered, squared and hooked-like ventrally ( Figs. 1 View FIGURE 1 D to 1G)

Female, first generation. Measurements of 20 female are given in Table 1 View TABLE 1 . Lateral field not seen under light microscopy. Head round, continuous with body ( Fig. 2 View FIGURE 2 A). Six labial and 4 cephalic papillae present. Amphidial apertures lateral and at cephalic papillae level. Procorpus cylindrical, metacorpus swollen and isthmus surrounded by nerve ring. Basal bulb distinct. Excretory pore prominent, anterior to nerve ring. Ovaries amphidelphic and reflexed, vulva a transverse slit, around the middle of the body (55%) slightly protruding or not, epitygmata present and pointed posteriorly, varying in size ( Figs. 2 View FIGURE 2 D to 2F), oviduct well developed, spermatheca present and filled with 1 to 4 spermatozoa ( Figs. 1 View FIGURE 1 B, 2G). Post-anal swelling not present or inconspicuous in 20% of specimens ( Figs. 2 View FIGURE 2 B, 2C). Phasmids visible under SEM ( Fig. 4 View FIGURE 4 E). Tail short, with a mucron-like terminus in some specimens ( Figs. 1 View FIGURE 1 B, 1C, 4D).

TABLE 2. Cοmparative mοrphοmetrics οf infective ϳuveniles οf Steinernema goweni n. sp. and related Steinernema spp. frοm the " bicornutum " grοup (in descending οrder οf bοdy length). All measurements are in μm and in the fοrm∶ mean (range).

= maximum bοdy width; EP = distance frοm anteriοr end tο excretοry pοre; NR = distance frοm anteriοr end tο nerve ring; ES = esοphagus length; Τ = tail length; D% = EP⁄ES) × 100; E% = ⁄Τ) × 100

Female, second generation. Similar to first generation females but smaller in many features and proportions ( Table 1 View TABLE 1 ).

Infective juvenile. Measurements of 20 infective juveniles are given in Table 1 View TABLE 1 . Body elongated. Labial region smooth, continuous with body. Cuticule transversely striated. Exsheathed IJ with two horn-like structures on labial region ( Fig. 1 View FIGURE 1 J), very distinct by light microscopy and SEM, four cephalic papillae and amphidial apertures (lateral and located posterior to the horn-like structures) visible with SEM ( Fig. 4 View FIGURE 4 A). Stoma closed. Excretory pore anterior to nerve ring. Procorpus narrow, metacarpus a slightly swollen, distinct but small basal bulb with a distinct valve.

Isthmus present, surrounded by nerve ring. Lateral field with eight ridges evenly spaced at mid-body; beginning with a single line, becoming two ridges splitting into four, then in six and eight (of which submarginal ridges are less distinct), at mid-body ( Fig. 4 View FIGURE 4 B). At this point, 3rd and 6th ridges becoming wider than others which are still present when ridges reduce to six and then forming the last two ridges which continue almost to the tail tip. Lateral field formula 2,4,6,8,6,2. Hyaline portion occupying 57 (45–66) % of tail length ( Fig. 1 View FIGURE 1 I). Phasmids always visible in SEM ( Fig. 4 View FIGURE 4 C) located at one-third of the tail length from the anus.

Diagnosis and relationships. Based on its morphology, S. goweni n. sp. belongs to the “ bicornutum ” group in having two horn-like structures on the labial region of the IJ, and differs from the other eight recognised species in this group by a combination of morphological, morphometric and DNA characters.

Steinernema goweni n. sp. is characterised by morphometrics of its IJ ( Table 1 View TABLE 1 ), with body length of 640 (531– 719) µm, pharynx length of 119 (109–126) µm, a tail of 67 (59–89) µm, c ratio = 9 (6–11) and E% = 77 (48–94). Males of the first generation can be recognised by the shape and size of their spicules 55 (50–57) µm long and gubernaculum 35 (30–40) µm long, and their %D value 42 (28–59), which is the lowest within the “ bicornutum ” group ( Table 3 View TABLE 3 ). The number of genital papillae in males, namely 27 (13 pairs + 1) papillae in 15% of their specimens is distinctive of S. goweni n. sp. As too the male phasmids, which are very distinct in S. goweni n. sp. but have not been reported within the “ bicornutum ” group.

Males of S. goweni n. sp. can be distinguished from S. riobrave by a higher number of genital papillae (25 or 27 from the former vs. 23 from the latter), shorter spicules (55 (50–57) µm vs. 67 (62–75) µm) and gubernaculum (35 (30–40) µm vs. 51(47–56) µm), and lower MBD (100 (85–115) µm vs. 133 (116–159) µm) and GS% (64 (49– 79) vs. 76). Phasmids are prominent in SEM view and have not been reported in S. riobrave . Furthermore, the spicule shape is different in both species; S. goweni n. sp. possesses a rounded manubrium dorsally directed and a velum, but S. riobrave has an elongated, broad and somewhat angular-shaped manubrium and lacks a velum. Infective juveniles of S. goweni n. sp. have a longer tail (67 (59–89) µm vs. 54 (46–59) µm) and a lower %E value (77 (48–94) vs. (105 (93–111)). Females in both generations of S. goweni n. sp. possess epitygmata, whereas females of S. riobrave have no epitygmata. Post anal swelling in S. goweni n. sp. is absent or inconspicuous in 20% of the specimens but second generation females of S. riobrave present a prominent post anal swelling.

Steinernema goweni n. sp. can be distinguished from S. papillatum males by a higher number of genital papillae (25 or 27 vs. 23), the presence of a cloacal papilla, and phasmids. Infective juveniles of both species differ in their length of the tails (67 (59–89) µm vs. 54 (40–78) µm) and the presence of prominent phasmids in S. goweni n. sp. which can be observed by SEM. First generation females of S. goweni n. sp. are shorter than females of S. papillatum (2861 (1836–4479) µm vs. (6728 (3333–12568) µm and have a shorter distance from the anterior end to the excretory pore, 58 (40–88) µm vs. 101 (66–129) µm, and a shorter pharynx (164 (135–188) µm vs. (194 (160– 1242) µm. Post-anal swelling in S. goweni n. sp. is absent or inconspicuous in 20% of the specimens but females of S. papillatum present a prominent post anal swelling in 50% of the specimens.

Steinernema goweni n. sp. can be distinguished from S. bicornutum males by the position of the cloacal papilla (only present in S. goweni n. sp.). The second generation males of S. goweni n. sp. possess spicules with velum and lacks mucron whereas S. bicornutum have spicules without velum and presents mucron. Both species also differ in in the length of spicules (55 (50–57) µm vs. 65 (53–70) µm), gubernaculum (35 (30–40) µm vs. 48 (38–50) µm) and by the SW% value (146 (105–208) µm vs. 222 (218–226) µm). The IJs of S. goweni n. sp. can be recognised from S. bicornutum by having a lower body length (640 (531–719) µm vs. 769 (648–873) µm), by a shorter distance from head to excretory pore (51 (32–58) µm vs. 61 (53–65) µm) and the presence of phasmids.

Males of S. goweni n. sp. can be separated from S. yirgalemense by the length of spicules (55 (50–57) µm vs.

64 (51–77) µm), and gubernaculum (35(30–40) µm vs. 48 (42–54) µm), by absence of mucron in both generations and the presence of the phasmids (not reported in S. yirgalemense ). Second generation females of S. goweni n. sp. can be distinguished from S. yirgalemense by the absence of a mucro.

Steinernema goweni n. sp. males can be distinguished from S. ceratophorum by having smaller spicules (55 (50–57) µm vs. 71 (54–90) µm) and their shape; the manubrium of S. goweni n. sp. is rounded vs. somewhat angular in the latter species. Genital papillae differ in numbers (25 or 27 vs. 23 in S. ceratophorum ) and by the presence of phasmids (not reported in S. ceratophorum ). The IJs of the new species are shorter than IJs than those of S. ceratophorum (640 (531–719) µm vs. 706 (591–800) µm) and have distinct phasmids (not reported in S. ceratophorum ). Females of S. goweni n. sp. exhibit epitygmata, that are absent in S. ceratophorum .

The number of genital papillae in males of S. goweni n. sp. is greater than S. pakistanense (25 or 27 vs. 23). The spicules length of S. goweni n. sp. are shorter than those of S. pakistanense (55 (50–57) µm vs. 68 (62–73) µm) and shape also differ between these two species. IJs from S. goweni n. sp. have longer tails (67 (59–89) µm vs. 58 (53–62) µm.

Males of S. goweni n. sp. can be also differentiated from S. abbasi males by the lower values of SL (55 (50– 57) µm vs. 65 (57–74) µm), GL (35 (30–40) µm vs. (45 (33–50) µm), %D (42 (28–59) vs. 60 (51–68)) and %GS (64 (49–79) vs. 70 (58–85)). IJs of S. goweni n. sp. are longer (640 531–719) µm vs. 541 (496–579) µm). Steinernema goweni n. sp. differs from S. bifurcatum by the presence of a gubernaculum that is bifurcated at both proximal and distal ends. Steinernema goweni n. sp. IJ can be recognized from S. bifurcatum by higher body length (640 ((531–719) µm vs. 521 (460–590) µm). The spicules are different in size (55 (50–57) µm vs. 69 (60–85) µm). Steinernema bifurcatum males also differ from S. goweni n. sp. by presence of mucro.

Type host and locality. The host of this nematode in nature is unknown. Steinernema goweni n. sp. was collected from a sandy loam soil (10°16’53’’N; 70°50’58’’W) close to “El Venado” (Baralt Municipality) a little town that is located in the eastern coast of Maracaibo estuary, in Zulia State ( Venezuela).

Type material. Holotype male (first generation), five paratype males (first generation), five paratype females (first generation) and two slides containing six paratype IJs were deposited in The University of California Riverside Nematode Collection ( UCRNC), CA, USA (Accession numbers: from 31466 to 31478). The rest of the paratypes material remains in the Laboratorio de Protección Vegetal (LPV), at Instituto Venezolano de Investigaciones Científicas, Maracaibo, Venezuela. Living material is available at LPV and at the Institute of Entomology, Branišovská, České Budějovice, Czech Republic.

Molecular characterisation and Phylogenetic analysis. Gel electrophoresis revealed a PCR-product of 964 bp for the ITS-region, comprising the transcribed spacer regions ITS1 and ITS2, the 5.8S rRNA gene and flanking regions of the 18S rRNA and 28S rRNA gene. No sign of the intra-individual variability in the ITS sequence was observed.

Steinernema goweni n. sp. is separated by 148–250 bp from other species in “ bicornutum ” group ( Table 4 View TABLE 4 ). The D2 and D3 expansion fragments of the 28S rRNA gene, generated by PCR, had a 837 bp length and is separated by 51–103 bp from other species in “ bicornutum ” group ( Table 4 View TABLE 4 ).

Phylogenetic analyses of the “ bicornutum ” group based on both ITS and D2D3 regions showed a clear separation of S. goweni n. sp. from other species in the “ bicornutum ” group ( Figs. 6 View FIGURE 6 and 7 View FIGURE 7 ). In both analyses S. goweni n. sp. formed a strongly supported group of American species with S. riobrave but the higher-level topology differed depending on the marker used. In agreement with San-Blas et al. (2015a), in the ITS tree, S. goweni – S. papillatum – S. riobrave formed a group with S. bicornutum – S. ceratophorum and S. abbasi – S. yirgalemense are sister to this clade. In the D2D3 tree, S. goweni – S. papillatum – S. riobrave grouped with S. abbasi – S. bifurcatum – S. yirgalemense . In general, molecular data confirm the status of S. goweni n. sp. as a new species according to the phylogenetic and evolutionary species concept ( Adams, 1998).