Tracheloraphis, DRAGESCO, 1960

GENUS TRACHELORAPHIS DRAGESCO, 1960 View in CoL View at ENA

TRACHELORAPHIS SIMILIS RAIKOV & KOVALEVA, 1968

( FIGS 6 View Figure 6 , 7 View Figure 7 ; TABLE 1)

This species was reported by Raikov & Kovaleva (1968) and no redescriptions have been made since then. Furthermore, in the original report it was insufficiently described and no details about the live morphology, or drawings, are available. Hence, an improved definition and a redescription, based mainly on the Chinese population, are presented here.

Improved diagnosis: Body size in vivo 800–1500 × 20– 40 μm; 13–16 and 18–21 somatic kineties on head and trunk, respectively; two nuclear groups, each of which is composed of about four macronuclei and two micronuclei; glabrous stripe corresponding to area occupied by five or six somatic kineties; cortical granules yellowish and c. 0.5 μm in diameter.

Deposition of voucher material: A voucher slide with protargol-impregnated specimens is deposited in the Laboratory of Protozoology, Ocean University of China (No. YY2012121301).

Redescription based on the Chinese population: Fully extended cells about 1200 × 30 μm in vivo; body flexible and contractile with cross-section elliptical; cell distinctly tripartite, with neck, tail and trunk regions ( Figs 6A View Figure 6 , 7A View Figure 7 ). Head conspicuously claviform; tail wedgeshaped ( Figs 6A, B View Figure 6 , 7A, C View Figure 7 ). Endoplasm greyish and opaque due to multiple refractile inclusions ( Figs 6B, C View Figure 6 , 7B–D View Figure 7 ). Two nuclear groups, each of which contains about four macronuclei, 9–15 μm in diameter, and two micronuclei, c. 4–5 μm in diameter ( Figs 6A, C, H View Figure 6 , 7B, G, I, J View Figure 7 ). Small yellowish cortical granules, c. 0.5 μm in diameter, distributed between ciliary rows and in glabrous stripe ( Figs 6D View Figure 6 , 7E, F View Figure 7 ). Locomotion by gliding between sand grains and organic debris.

Cell surface densely ciliated with unciliated zone, glabrous stripe, about as wide as five or six somatic kineties ( Figs 6E, G, H View Figure 6 , 7G, H, L View Figure 7 ). Entire infraciliature consisting of dikinetids with cilia about 10 μm long ( Figs 6G, H View Figure 6 , 7G View Figure 7 ). About 15 and 19 somatic kineties on head and trunk, respectively. Anterior and posterior secant system formed on left side of glabrous stripe where some kineties abut to bristle kinety ( Figs 6F, H View Figure 6 , 7L View Figure 7 ). Oral ciliature consisting of circumoral kinety, which is interrupted by three inserted brosse kineties ( Figs 6E–H View Figure 6 , 7H, L View Figure 7 ).

Remarks: Based on the original description given by Raikov & Kovaleva (1968), this species has an elongated spindle-shaped body, a pointed tail that forms a slight hook and a glabrous stripe as wide as six kineties. Given these characteristics, this Guangzhou population corresponds well to the original report. Raikov & Kovaleva (1968) describe Tracheloraphis similis as colourless but provide no information on its cortical granules. Based on our study, however, this species has yellowish cortical granules but they are so small (c. 0.5 μm in diameter) that the whole cell looks colourless at low magnification. The other minor differences between these two populations are the body length in vivo (600–800 μm vs. 800–1500 μm in Guangzhou population) and the number of somatic kineties (16 vs. 13–16 on head, 18–21 on trunk in Guangzhou population). These differences are probably populationdependent because these values overlap with each other. Consequently, we identified the Guangzhou isolate as a population of T. similis .

MOLECULAR PHYLOGENY BASED ON SSU RRNA GENE SEQUENCES

The length (bp), GC content and GenBank accession numbers of the two species are as follows: Trachelolophos quadrinucleatus sp. nov. – 1554, 47.04%, KT361660 View Materials ; Tracheloraphis similis – 1628, 47.91%, KT361661 View Materials .

The resulting topologies generated using ML and BI are generally concordant and thus only a single topology with support values generated from both analyses is presented ( Fig. 8 View Figure 8 ). As described in previous studies ( Yan et al., 2013, 2015), the family Trachelocercidae is a monophyletic group (88% ML, 1.00 BI), being a sister clade to the family Kentrophoridae (87% ML, 1.00 BI). Within Trachelocercidae , the genus Apotrachelocerca occupies a basal position. The topology then separates into two clades: Kovalevaia and Trachelolophos form one clade with low support (22% ML, 0.52 BI), while Prototrachelocerca , Trachelocerca and Tracheloraphis form the other clade with high support (98% ML, 1.00 BI).

Tracheloraphis View in CoL and Trachelocerca View in CoL are not monophyletic as Tracheloraphis similis View in CoL branches sister to Prototrachelocerca View in CoL with full support and three populations of Tracheloraphis huangi fall within the Trachelocerca View in CoL clade. The SSU rRNA gene sequence of Tracheloraphis sp. ( L31520 View Materials ) was reported by Hirt et al. (1995), but without information on the morphology. It was only when Foissner & Dragesco (1996a) described the shape and structure of the oral ciliature that the generic classification based on morphology became clear. We therefore suggest that this sequence should be treated as a generic classification of an unknown environmental sequence within Trachelocercidae View in CoL .

With or without Tracheloraphis sp. ( L31520 View Materials ), however, the hypothesis that Tracheloraphis View in CoL is monophyletic is rejected by the AU test (P = 3e-033, <0.05 or P = 5e- 004, <0.05), while the hypothesis that Trachelocerca View in CoL is monophyletic is not rejected (P = 0.209,> 0.05). A fuller picture of the relationship between Trachelocerca View in CoL and Tracheloraphis View in CoL will only be possible once more phylogenetic analyses based on multiple genetic and morphogenetic studies become available. Thus, further research needs to be performed focusing on these aspects.