Ixodes aragaoi Fonseca, 1935
publication ID |
https://doi.org/ 10.11646/zootaxa.3860.4.4 |
publication LSID |
lsid:zoobank.org:pub:71D61912-99C3-495A-A70B-5D5B7B579F17 |
DOI |
https://doi.org/10.5281/zenodo.6140302 |
persistent identifier |
https://treatment.plazi.org/id/038B879F-4F3F-BF38-598B-FC405C72FF1C |
treatment provided by |
Plazi |
scientific name |
Ixodes aragaoi Fonseca, 1935 |
status |
|
Ixodes aragaoi Fonseca, 1935 View in CoL
Redescription. Male ( Figures 1–6 View FIGURES 1 – 6 ). Gnathosoma : length from palpal apices to posterior margin of basis capituli 488 ± 11 (480–500). Basis capituli rectangular ( Figure 1 View FIGURES 1 – 6 ), width 296 ± 22 (260–320); cornua absent. Ventral basis ( Figure 2 View FIGURES 1 – 6 ) with three transversal lobes, one median, triangular, posteriorly displaced, and two lateral prominent. Palpi short and broad, total length 316 ± 27 (280–340), width 156 ± 9 (140–160); articles II and III similar in length. Hypostome length 288 ± 11 (280–300), width 180 ± 14 (160–200); with medium-sized lateral teeth, pointed, longer than median teeth; posterior crenulations arranged in lateral rows, lateral basal as a lobe, corresponding to nearly 1/3 length of hypostome.
Idiosoma : dorsal surface with long setae irregularly distributed, length from scapular apices to posterior body margin 1,712 ± 44 (1,680–1,760) maximum width 1,072 ± 52 (1,000–1,120). Scutum ( Figure 3 View FIGURES 1 – 6 ) length 1,608 ± 33 (1,560–1,640), width 952 ± 33 (920–1,000); with deep punctations distributed in central region and lateral margins of median region; carinae absent; scapulae rounded; superficial cervical grooves diverging posteriorly. Ventral surface with long numerous setae; pregenital and median plates with punctations larger and deeper than those of other plates; median plate, length 816 ± 26 (780–840), width 636 ± 26 (600–660), with approximately 115 punctations; adanal plates, length 364 ± 17 (340–380), width 232 ± 18 (200–240); anal plate, length 320 ± 14 (300–340), width 264 ± 26 (220–280) ( Figure 4 View FIGURES 1 – 6 ); genital aperture between coxae III; spiracular plates oval with approximately 10 rows of small goblets from macula to posterior margin; macula anterior and eccentric.
Legs: moderately long; coxa I with two spurs, internal spur very long, pointed, exceeding middle of coxa II, external spur very short and rounded, not exceeding of internal spur; coxae II–IV each with short rounded external spurs similar to external of coxa I, internal spurs absent. Tarsus I length 528 ± 18 (520–560) ( Figure 5 View FIGURES 1 – 6 ); Haller’s organ as illustrated ( Figure 6 View FIGURES 1 – 6 ). Tarsus IV length 464 ± 22 (440–500).
Female ( Figures 7–12 View FIGURES 7 – 12 ). Gnathosoma : length from palpal apices to posterior margin of basis capituli 1,020 ± 32 (980–1,060). Basis capituli rectangular ( Figure 7 View FIGURES 7 – 12 ) width 560 ± 24 (520–580); posterior margin slightly concave; porose areas separated, transversally elongated; cornua absent. Ventral basis ( Figure 8 View FIGURES 7 – 12 ) narrowed posterior to auriculae, with straight posterior margin and lateral angles rounded; apparent transverse suture; auriculae short and slightly pointed. Palpi long, total length 800 ± 28 (760–820), width 216 ± 9 (200–220); article II broadly as long as article III, article length in decreasing order II (femur), III (genu), I (trochanter), IV (tibiotarsus). Hypostome length 660 ± 32 (620–700), width 196 ±17 (180–220); long and straight pointed; dental formula 4/4 for most of length, then 3/3 and 2/2 near base, corona with numerous denticles.
Idiosoma : dorsal surface with long setae. Total length from scapular apices to posterior body margin 2,224 ± 193 (2,000–2,400); maximum width 1,624 ± 46 (1,480–1,800). Scutum ( Figure 9 View FIGURES 7 – 12 ) length 1,464 ± 67 (1,360–1,520), width 1,336 ± 67 (1,280–1,440); rounded, with few setae arranged on lateral margins of anterior region, few and deep punctations regularly distributed posteriorly and at lateral margins of median region; superficial cervical grooves; carinae absent; scapulae prominent. Ventral surface with long and numerous setae ( Figure 10 View FIGURES 7 – 12 ); genital aperture between coxae IV; spiracular plate oval with approximately 5–6 rows of small goblets from macula to posterior margin ( Figure 11 View FIGURES 7 – 12 ); macula anterior and eccentric.
Legs: moderately long; coxa I with two spurs, internal spur very long and sharp, similar to male, external spur very short as in male; coxae II–IV each with short and rounded external spurs, diminishing in size, internal spurs absent. Tarsus I 752 ± 27 (740–800), Haller’s organ with opened capsule similar to the male ( Figure 12 View FIGURES 7 – 12 ); tarsus IV 664 ± 26 (620–680).
Measurements of coxa I internal spur of the types of I. pararicinus and I. aragaoi
Except for the coxa I internal spurs of I. pararicinus from Argentina, measured in this study, other measurements were not made for this species because they have already been presented in the original description ( Keirans et al. 1985). The length of the coxa I internal spur, from the posterior seta to the tip, in the male and female, is 163 ± 0.7 (162–164), and 230 ± 0.9 (229–231), respectively. In I. aragaoi the length of the coxa I internal spur, in male and female, is 188 ± 3 (185–191), and 273 ± 2 (270–274), respectively.
Phylogenetic analysis. The 16S rDNA sequences generated in the present study have been deposited in GenBank, and received the following accession numbers: KJ650032 View Materials for I. aragaoi (1 male and 1 female generated identical sequences); KJ650033 View Materials for I. pararicinus from Uruguay; and KJ650031 View Materials for I. fuscipes .
Phylogenetic relationships based on a partial sequence of the mitochondrial 16S rDNA gene ( Figure 13 View FIGURE 13 ) segregated I. pararicinus from Argentina and Uruguay into different branches, with high divergence (8.99%). A similar divergence value was observed between I. pararicinus from Argentina and I. aragaoi (9.23%). However, I. pararicinus from Uruguay and I. aragaoi from Brazil were grouped within the same branch with low divergence values (1.59%).
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.