Gigantorhynchus echinodiscus ( Diesing, 1851 )

Gomes, Ana Paula Nascimento, Cesário, Clarice Silva, Olifiers, Natalie, Bianchi, Rita de Cassia, Jr., Arnaldo Maldonado & Vilela, Roberto do Val, 2019, New morphological and genetic data of Gigantorhynchus echinodiscus (Diesing, 1851) (Acanthocephala: Archiacanthocephala) in the giant anteater Myrmecophaga tridactyla Linnaeus, 1758 (Pilosa: Myrmecophagidae), International Journal for Parasitology: Parasites and Wildlife 10, pp. 281-288 : 283-284

publication ID

https://doi.org/ 10.1016/j.ijppaw.2019.09.008

persistent identifier

https://treatment.plazi.org/id/C3120A29-FF89-FFDF-FF92-D24DFDE0F9C3

treatment provided by

Felipe

scientific name

Gigantorhynchus echinodiscus ( Diesing, 1851 )
status

 

3.2. Redescription of Gigantorhynchus echinodiscus ( Diesing, 1851) View in CoL

( Figs. 1–17 View Figs View Figs View Fig )

General: Body of medium size, narrow, and pseudo segmented ( Fig. 8 View Figs ). Sexual dimorphism present, females larger than males. Proboscis cylindrical ( Figs. 1 View Figs , 7 View Figs and 12 View Fig ), similar in both sexes, armed with 18 hooks ( Figs. 12 and 14 View Fig ), arranged in two rows of hooks that present a root that bifurcated anterior and posteriorly ( Figs. 1 View Figs , 7 View Figs and 14 View Fig ). First row with six robust hooks; second row with 12 hooks in pairs, smaller than first row ( Figs. 2 View Figs and 14 View Fig ). Measurement of the hooks and root: from the tip of the hook to the root, total length of the hook; and total length of the root: six hooks of the first row measuring 0.16–0.23 (0.20); 0.12–0.18 (0.15); 0.11–0.16 (0.14). The 12 hooks of the second row measured 0.18–0.19 (0.18); 0.11–0.13 (0.12); 0.11–0.12 (0.11). The crown is separated from numerous small-rootless spines by a slight space without hooks ( Fig. 12 View Fig ). Twenty-one to 23 small-rootless spines arranged in longitudinal rows 0.05–0.08 (0.07) ( Figs. 1, 2 View Figs , 12 and 13 View Fig ). One lateral papilla located in the base of the neck on each side with a slightly elevated border and a central pore ( Figs. 1 View Figs , 13 and 15 View Fig ). After the proboscis, there is a small region without pseudo segmentation in both sexes. Lemnisci long and filiform ( Fig. 3 View Figs ).

Male (nine specimens): Body 45.29–14.80 (31.53) long and 0.99–0.53 (0.78) wide. Proboscis and neck 0.65–0.45 (0.55) long, 0.30–0.55 (0.45) wide, with 18 apical hooks followed by 21–23 small rootless spines arranged on longitudinal rows. After the proboscis, a region without segmentation, 2.24–3.21 (2.72) long ( Fig. 8 View Figs ). Proboscis receptacle 0.48–0.64 (0.57) long, 0.21–0.32 (0.26) wide ( Fig. 1 View Figs ). Lemnisci 8.02–20.30 (14.87) (n = 3) long, reaching the middle of the trunk and sometimes bent on themselves ( Fig. 8 View Figs ). Two ellipsoid testes, narrow, and in tandem; anterior testis 1.63–2.71(2.25) long, 0.26–0.32 (0.29) wide; posterior testis 1.61–2.66 (2.13) long, 0.26–0.39 (0.29) wide ( Fig. 4 View Figs ). Eight cement glands in pairs, the group measuring 0.98–2.13(1.61) long and 0.45–0.76 (0.60) wide ( Figs. 4 View Figs and 9 View Figs ), followed by ejaculatory duct, 0.82–1.42 (0.97) long. Posterior end after the anterior testes without a segmentation region and measuring 5.45–8.53 (6.83), with smooth surface and a copulatory bursa at the end ( Figs. 4 View Figs , 9 View Figs , 16 and 17 View Fig ).

Female (six specimens): Body 102.79–52.92 (75.45) long, 0.79–1.13 (0.85) wide. Proboscis and neck 0.49–0.71 (0.55) long, 0.46–0.53 (0.48) wide. Proboscis receptacle 0.63–0.74 (0.70) long, 0.23–0.31 (0.27) wide ( Fig. 1 View Figs ). Lemnisci long, 13.23 mm long (n = 1) ( Fig. 8 View Figs ). Gonopore subterminal and vagina has sinuous lateral region in “guitar” format ( Figs. 5 View Figs and 10 View Figs ). Uterine bell to genital pore including the vagina, uterus, and uterine bell 0.69–0.97 (0.86) long (n = 5) ( Fig. 5 View Figs ). Eggs ellipsoid, with three membranes 0.059 –0.069 (0.064) long, 0.04–0.03 (0.036) wide (n = 26; Figs. 6 View Figs and 11 View Figs ).

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