Notogynaphallia urku, Negrete & Vega Tuesta & Brusa, 2023

Notogynaphallia urku sp. nov.

Material examined

Holotype. MLP He-7982. 28 July 2019, Tarapoto , Peru (- 6.464°S, - 76.352°W); Milton F. Ubeda Olivas coll.; cephalic region: transverse sections (6 µm thick) on 30 slides; anterior region at the level of the ovaries: longitudinal sections (6 µm thick) on 40 slides; posterior region to the ovaries: sagittal sections (8 µm thick) on 88 slides; pre-pharyngeal region: transverse sections (6 µm thick) on 10 slides; pharynx: sagittal sections (8 µm thick) on 75 slides; copulatory apparatus: sagittal sections (8 µm thick) on 90 slides. GoogleMaps

Paratype 1. MLP He-7983 . 7 March 2020, Tarapoto , Peru (- 6.464°S, - 76.352°W); Leyli Vega Tuesta coll GoogleMaps .; cephalic region: transverse sections (6 µm thick) on 28 slides; anterior region at the level of the ovaries: sagittal sections (8 µm thick) on 50 slides; pre-pharyngeal region: transverse sections (6 µm thick) on 10 slides; pharynx: sagittal sections (8 µm thick) on 52 slides; copulatory apparatus: sagittal sections (6 µm thick) on 60 slides.

Paratype 2. MLP He-7984 . 19 February 2020, Tarapoto , Peru (- 6.464°S, - 76.351°W); Leyli Vega Tuesta coll GoogleMaps .; whole specimen preserved in 80% ethanol.

Diagnosis. Species of Notogynaphallia with a colour pattern of the dorsal surface consisting of a median band of melon yellow, on which run two irregular longitudinal stripes formed by tiny jet black dots; cephalic region with two para-median stripes forming a ′V̍; two green beige lateral bands with jet black pigment covering a large part of the lateral bands, in the form of large circular or irregular spots which reach the posterior end of the body; marginal stripes with antique pink pigment; ventral surface ivory with antique pink margins, except in the cephalic region, whose margins are jet black. Monolobulated and trilobulated eyes spreading onto the dorsum, with clear halos. Glandular margin present. Pharynx collar-shaped. Prostatic vesicle intrabulbar, with two regions: a tubular proximal portion, entally forked, and a globose distal portion. Female atrium almost as long as the male one.

Type locality. Tarapoto, Department of San Martín, Peru.

Etymology. The specific name urku , which in the native language Quechua means mountain or hill, is dedicated to Centro Urku, where the specimens of this new species were collected.

Description

External features. Body elongated, broad and flat. Anterior body region gradually narrows towards the rounded anterior tip; posterior portion of the body abruptly narrows, ending in a point ( Figure 1 View Figure 1 (a–d)). When creeping, the maximum length reached ~ 120 mm. After fixation, maximum length was 96–112 mm, maximum width 11–12 mm, and maximum height 2.1–2.4 mm. Mouth and gonopore distance from anterior tip 53–57%, and 68–72% relative to body length.

The colour pattern of the dorsal surface of the specimens ( Figure 1 View Figure 1 (a–c)) consists of a median band of melon yellow (RAL 1028) (~60% of body width), whose outer limits are fuzzy, on which run two irregular longitudinal stripes (~10% of body width each) formed by tiny jet black (RAL 9005) dots. Behind the pharyngeal region, black dots are scarcer and more diffuse, so these stripes are somewhat paler. The cephalic region shows two para-median stripes that arise near the cephalic tip, without connecting to each other; they run backward obliquely forming a ′V̍. On the sides of the median band are two green beige (RAL 1000) lateral bands (~15% of body width each) that merge near the cephalic tip and at the posterior end of the body. In the cephalic region, these lateral bands are externally bordered by minute jet black dots linked together forming a fine stripe. In the body fragment comprising approximately 15– 30% of the body length, the jet black pigment extends to cover a large part of the lateral bands, on which the clear halos of the eyes can be observed (see below). Posteriorly, this black pigment spreads over the lateral bands in the form of large circular or irregular spots that reach the posterior end of the body. Externally to the green beige lateral bands extend fine marginal stripes (~5% of body width each) with antique pink (RAL 3015) pigment.

The ventral surface ( Figure 1 View Figure 1 (d)) is ivory (RAL 1014) with antique pink (RAL 3015) margins, except for the cephalic region, whose margins are jet black (RAL 9005).

Monolobulated eyes, uniserially arranged, surround the anterior tip. Immediately behind the anterior tip, they become pluriserial with small clear halos, arranged on the body margins ( Figure 2 View Figure 2 (a)). After one-tenth of the body, eyes are also pluriserial (monolobulated on the margins and dorsally trilobulated), surrounded by noticeable clear halos spreading over the dorsal surface of the body ( Figure 2 View Figure 2 (a–c)). Eyes show their maximum extension at one-third of the body, occupying two lateral bands each with ~35% of body width ( Figure 2 View Figure 2 (a)). They are progressively more dispersed on the dorsum, reaching the posterior end.

Sensory organs, epidermis and body musculature. Sensory pits on the cephalic region, as simple invaginations (40 μm deep), are distributed ventromarginally in a single row on either side of the body. The creeping sole occupies 95–100% of the body width at the prepharyngeal region. Three gland types discharge through the epidermis of the prepharyngeal region: rhabditogen cells with xanthophil secretion, abundant erythrophil glands with fine granular secretion, and less abundant cyanophil glands with fine granular secretion ( Figure 3 View Figure 3 (a–c,e)). Small rhabdites occupy the creeping sole ( Figure 3 View Figure 3 (c)). The glandular margin is composed of two types of glands, discharging fine granules of cyanophil and erythrophil ( Figure 3 View Figure 3 (e)). Glands discharging through the cephalic region are similar to those of the pre-pharyngeal region.

The cutaneous musculature shows the typical three muscle layers of Geoplaninae : circular, diagonal and longitudinal layers, the last one being the thickest and organised in discrete bundles ( Figure 3 View Figure 3 (c)). The ventral musculature (100–125 μm thick) is slightly thicker than the dorsal musculature (90–100 μm thick). The thickness of the cutaneous musculature represents ~9% of the body height. The parenchymatic musculature is composed of three layers, but not forming discrete bundles ( Figure 3 View Figure 3 (b,d)): a dorsal layer with decussate fibres (100–150 μm thick), a supra-intestinal transverse layer (200– 300 μm thick), and a sub-intestinal transverse layer (125–150 μm thick). Additionally, some dorsoventral fibres run among intestinal branches ( Figure 3 View Figure 3 (b)). The cephalic region lacks any muscular-glandular specialisation, and the parenchymatic musculature arrangement is similar to that of the pre-pharyngeal region.

Digestive system. The pharynx is collar-shaped (5–9% of body length) ( Figure 4 View Figure 4 (a,b)). It occupies 60–80% of the pharyngeal pouch (10.6–11 mm in length). The mouth opens in the middle third ( Figure 4 View Figure 4 (b)) or the posterior third of the pharyngeal pouch ( Figure 4 View Figure 4 (a)). The oesophagus is present ( Figure 4 View Figure 4 (a)); oesophagus:pharynx ratio varies from 8% to 13%. The pharynx is lined with cuboidal ciliated epithelium. The outer musculature comprises a longitudinal subepithelial layer (5 μm thick) followed by a circular layer (10–25 μm thick). The pharyngeal lumen is lined with ciliated, columnar epithelium. The inner musculature (125–200 μm thick) is formed by a circular layer interspersed with some longitudinal fibres. Three gland types discharge through the pharyngeal epithelium: abundant glands with fine granular erythrophil and cyanophil secretion, and scarce glands with amorphous erythrophil secretion.

Male reproductive system. The testes are arranged in at least three irregular rows on either side of the body, located among the supra-intestinal parenchymatic muscle fibres ( Figure 3 View Figure 3 (a,b)). They arise behind the ovaries in the holotype (21% relative to body length) and before them in paratype 1 (18% relative to body length). The testes extend posteriorly and reach the level of the root of the pharynx (50–55% relative to body length). The sperm ducts are slightly dorsal to ovovitelline ducts, medially displaced ( Figure 3 View Figure 3 (d)). Laterally to the pharynx, the sperm ducts are dilated and full of spermatozoa, forming spermiducal vesicles. Distally, they are located laterally to the proximal part of the penis bulb. At this point, the sperm ducts̍ lumen decreases, and the ducts turn anterior-medially and traverse the bulb to open into very short (~100–130 μm in length) lateral branches of the proximal region of the prostatic vesicle ( Figure 5 View Figure 5 ). This intrabulbar vesicle consists of a proximal tubular and sinuous portion (proximally bifurcated) (pv 1 in Figures 5 View Figure 5 and 6 View Figure 6 ) and a distal, unpaired portion (pv 2 in Figures 5 View Figure 5 and 6 View Figure 6 ). The latter is somewhat globose with folded walls and opens into the bottom of the male atrium ( Figures 6 View Figure 6 and 8 View Figure 8 (a)). The male atrium is a large chamber, whose lumen is narrow owing to its richly folded walls ( Figures 5 View Figure 5 and 6 View Figure 6 ). It is longer (5.2–6.2 mm) than the female atrium (4.7–5.2 mm).

The lining epithelium of the sperm ducts is cuboidal and ciliated, surrounded by a circular muscle layer (5 μm thick). The distal part of the spermiducal vesicles is lined with ciliated, columnar epithelium, covered by circular and oblique fibres (25 μm thick). The proximal region of the prostatic vesicle, both paired and unpaired, is lined with ciliated, columnar epithelium, which receives a fine granular, weakly stained erythrophil secretion ( Figure 7 View Figure 7 (a–d)). The epithelium of the distal part of the vesicle, ciliated and columnar, is pierced by abundant coarse, granular, heavily stained erythrophil secretion ( Figure 7 View Figure 7 (a,b,e,f)). The muscle coat of the prostatic vesicle (40–60 µm thick) is composed of interwoven longitudinal, circular, and oblique fibres. The male atrium is mostly lined with non-ciliated columnar epithelium, although some parts exhibit cuboidal epithelium ( Figure 7 View Figure 7 (g,h)). Two types of glands open through the surface of the male atrium: cells with fine granular erythrophil secretion ( Figure 7 View Figure 7 (g)) and cells with fine granular cyanophil secretion ( Figure 7 View Figure 7 (h)). The muscle coat of the male atrium (25–100 µm thick) includes, in some parts, a circular layer with a subjacent longitudinal layer, but in other regions, the circular fibres are interspersed with some longitudinal muscle fibres. The thick muscular penis bulb (~500–600 µm thick) that surrounds the male atrium and the prostatic vesicle consists of longitudinal, oblique and circular intermingled fibres ( Figures 5 View Figure 5 , 6 View Figure 6 , and 7(a,b)).

Female reproductive system. The ovaries are oval-elongate in shape ( Figure 8 View Figure 8 (a,b)), three or four times longer than wide. In the holotype, they are located at a distance from the anterior tip of 15% relative to body length (paratype 1 at 20%). The ovaries are found immediately above the nerve plate ( Figure 8 View Figure 8 (b)). The ovovitelline ducts arise dorsally from the median third of the ovaries ( Figure 8 View Figure 8 (b)). They run posteriorly above the sub-intestinal parenchymatic muscle layer ( Figure 3 View Figure 3 (d)). After running laterally to the distal portion of the female atrium ( Figures 5 View Figure 5 and 8 View Figure 8 (c)), the ovovitelline ducts gradually ascend to finally turn to the sagittal plane ( Figure 5 View Figure 5 ). They dorsally converge in a short common ovovitelline duct (250–300 µm in length), posteroventrally inclined or slightly vertical ( Figures 5 View Figure 5 , 6 View Figure 6 (b), and 8(e,f)), to open into a female canal (~500 µm in length). The female canal turns anteroventrally and opens into the female atrium, which is a long oval-elongate cavity with highly folded walls that reduce its lumen ( Figures 5 View Figure 5 , 6 View Figure 6 , and 8(e,f)).

The ovovitelline ducts, in the pre-pharyngeal region, are lined with ciliated, cuboidal epithelium, followed by a thin muscle coat (5 µm thick) consisting of intermingled longitudinal and circular fibres ( Figure 3 View Figure 3 (d)). Their distal portions are lined with ciliated, columnar epithelium and coated with the same arrangement of muscle (~20 µm thick) ( Figure 8 View Figure 8 (c,d)). Abundant shell glands, with coarse granular erythrophil secretion (heavily stained in paratype 1), open into the distal sections of the ovovitelline ducts as well as the common ovovitelline duct ( Figures 5 View Figure 5 , 6 View Figure 6 , and 8(d–f)). The latter and the female canal are lined with columnar, ciliated epithelium followed by circular and some oblique and longitudinal interspersed muscle fibres (20–25 µm thick). The female canal receives abundant fine granular erythrophil secretion and scarce fine cyanophil granules ( Figure 8 View Figure 8 (e,f)). The lining epithelium of the female atrium is columnar and non-ciliated, receiving abundant fine granular cyanophil secretion and scarce granular erythrophil secretion from glands whose cell bodies are located in the parenchyma surrounding the atrium ( Figure 8 View Figure 8 (c)). The female atrium is wrapped in a thick subepithelial muscle coat (~50–100 µm thick) ( Figure 6 View Figure 6 ), which consists of circular fibres with some interspersed longitudinal and oblique ones. This muscle coat is independent of the muscular bulb that envelops the male atrium and the prostatic vesicle. There is no common muscle coat. Vitellaria are scarce in the holotype and abundant in paratype 1. However, both specimens are mature.