Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.

Polycydora intermedia Diez, Sanjuan, Reygel & Artois sp. n. (Fig. 4) Material and distribution in Cuba. Observations on live animals. Five whole mounts, one of which is designated holotype (FMNH http://id.luomus.fi/ KV.604), and ten serially-sectioned specimens collected in Bahía de Gibara (type...

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Main Authors: Diez, Yander L., Hernández, Claudia Sanjuan, Reygel, Patrick, Roosen, Paulien, Artois, Tom
Format: Text
Language:unknown
Published: Zenodo 2018
Subjects:
Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Polycystididae
Polycydora
Polycydora intermedia
Antarctic
Galapagos
Indian
Sickle
Willems
Antarc*
Antarktis*
Online Access:https://dx.doi.org/10.5281/zenodo.5992804
https://zenodo.org/record/5992804
id ftdatacite:10.5281/zenodo.5992804
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Polycystididae
Polycydora
Polycydora intermedia
spellingShingle Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Polycystididae
Polycydora
Polycydora intermedia
Diez, Yander L.
Hernández, Claudia Sanjuan
Reygel, Patrick
Roosen, Paulien
Artois, Tom
Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
topic_facet Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Polycystididae
Polycydora
Polycydora intermedia
description Polycydora intermedia Diez, Sanjuan, Reygel & Artois sp. n. (Fig. 4) Material and distribution in Cuba. Observations on live animals. Five whole mounts, one of which is designated holotype (FMNH http://id.luomus.fi/ KV.604), and ten serially-sectioned specimens collected in Bahía de Gibara (type locality) (March 26, 2017), sublittoral, in coarse sand, 0.6 m depth, salinity 35 ‰. Three whole mounts from Siboney (May 15, 2016 & June 5, 2017), intertidal, upper 10 cm of fine sand with organic matter, salinity 35 ‰. One whole mount from Bueycabón (February 6, 2018), intertidal, upper 10 cm of fine sand, salinity 33 ‰. All reference material in HU (VIII.3.15– VIII.3.32). Etymology. The epithet refers to the fact that the new species is morphologically intermediate between Polycystis and Paulodora . Diagnosis. Species of Polycydora gen. n. with a 75-µm-long prostate stylet type II. The outer stylet is proximally funnel shaped, ±18 µm wide, then is constricted to a tube 4 µm wide. At one-third of its length it shows a 180° turn. Stylet with an asymmetrical distal opening. Description. Living animals 1.5 mm long. Length measured on whole mounts 0.9–1.5 mm ( x̄ = 1.2 mm; n = 4). Translucent, with a pair of eyes. Syncytial epidermis 7 µm thick and ciliated, cilia 6–7 µm long. Two types of vacuoles present in the epidermis: empty ones (support structures) and others filled with small granules. Rhabdites as large as the height of the epidermis, only present in the posterior two-third of the body. Proboscis of the typical polycystidid type (Fig. 4 A–B: pr, Fig. 4C; for a detailed description see Meixner, 1925), 1/5 of the body length, with six pairs of fixator muscles (Fig. 4C: pfix). With four pairs of proboscis retractors (Fig. 4C: pret). Cone retractors well-developed (Fig. 4C: cret). As in most Polycystididae with a pair of ventral integument retractors (Fig. 4C: ir). Proboscis sheath surrounded by an internal circular and an outer longitudinal muscle layer. Without nuclei at the junction between sheath and cone epithelium. Thin dilator muscles are present in the distal half of the proboscis sheath (Fig. 4C: dil). Proboscis opening surrounded by a sphincter (Fig. 4C: sph). Proboscis glands can be observed just caudally from the proboscis: one central large gland producing an eosinophilic fine-grained secretion (Fig. 4C: peg), and surrounding it, coarse-grained basophilic glands (Fig. 4C: pbg). Pharynx located at about 35% (Fig. 4 A–B: ph, Fig. 4D), measuring 153–174 µm in diameter ( x̄ = 162 µm; n = 4). Prepharyngeal cavity (Fig. 4D: ppc) lined with a nucleated epithelium surrounded by an internal layer of circular muscles and an external layer of longitudinal muscles, opening to the outside through the mouth (Fig. 4D: m). Pharynx bulb with the normal polycystidid construction, showing the four teeth surrounding the proximal pharynx opening, typical of the family (Fig. 4D: th). Three types of glands open in the distal part of the pharyngeal lumen, which are, from distal to proximal: eosinophilic glands (stained light pink) (Fig. 4D: phg1), basophilic glands with a coarse-grained secretion (stained dark blue-black) (Fig. 4D: phg2), and eosinophilic glands with a fine-grained secretion (stained brownish) (Fig. 4D: phg3). At its distal side the pharynx has a muscular sphincter (Fig. 4D: sph), just distal from the opening of the glands. The musculature of the pharynx consists of an external layer of circular muscles (Fig. 4D: cm), just inside of the septum and a longitudinal muscle (Fig. 4D: lm) layer just outside of it, which is continuous with the longitudinal muscle layer of the prepharyngeal cavity. The pharynx lumen is surrounded by a circular muscle layer and a longitudinal one. Radial muscles run between the internal and the external walls (Fig. 4D: rm). Genital organs situated in the middle section of the body. Testes (Fig. 4B: t) situated caudally to the pharynx. Seminal vesicles (Fig. 4B & 4E: sv) located between the testes and delineated by a thin nucleated epithelium. Both seminal vesicles fuse to form a thin ejaculatory duct (Fig. 4E: ed), covered by circular muscles. The ejaculatory duct runs aside the prostate vesicle, entering the male genital atrium next to the proximal funnel of the prostate stylet type II. Prostate vesicle type II elongated (Fig. 4B & 4E: pv2), 63–77 µm long ( x̄ = 69 µm; n = 4) and 18–30 µm wide ( x̄ = 23 µm; n = 4), filled with an eosinophilic secretion. Prostate vesicle surrounded by two muscular layers: external oblique fibres, and internal longitudinal fibres. Prostate vesicle connected proximally to brownish accessory glands type I (Fig. 4B & 4E: ag1). Prostate stylet type II double walled and sickle shaped (Fig. 4 A–B & 4E: ps2, Fig. 4F), 60–87 µm long ( x̄ = 75 µm; n = 8), with a proximal funnel, 16–21 µm wide ( x̄ = 18 µm; n = 8). Distally from the funnel, the stylet is 4–5 µm wide ( x̄ = 4 µm; n = 8), showing a 180° twist. Male bursa (Fig. 4B & 4E: mb) well developed, surrounded by a thick muscular coat, filled with sperm and separated from its muscular stalk by a sphincter (Fig. 4E: sph). Epithelium with nuclei surrounds the bursal stalk and the male atrium. Bursal stalk entering the common genital atrium (Fig. 4E: cga) dorsally, at the same place as does the male genital atrium. The internal vesicle of the male bursa is surrounded by a tick sheath of syncytial epithelium (Fig. 4E: se) Ovaries kidney shaped (Fig. 4B & 4E: ov) and located in the posterior third of the body. Oocytes organised in a row, diminishing in size from the most distal one to the most proximal one. Paired vitellaria extend at both sides from the middle to the end of the body (Fig. 4 A–B & 4E: vi). Oviducts very short, each receiving a vitelloduct. Both oviducts unite to form a short common female duct type I that enters the common genital atrium caudally. Oviducts and female duct are lined by a nucleated epithelium. Muscles are not well defined around the oviducts and the female duct, however, there seems to be an internal layer of circular muscles and an external layer of longitudinal ones. Large female bursa 50 µm long (measured in one sectioned specimen), contains a central space with sperm and nuclei. It connects to the female duct by a bursal stalk at the junction of the two oviducts. Bursal stalk lined by a nucleated epithelium. Muscle layers are not observable around the female bursa and the stalk. A uterus (Fig. 4E: ut) with nucleated epithelium connects at the anterior side of the common genital atrium. Two rings of glands can be observed at the distal end of the uterus: one coarse-granulated basophilic gland (Fig. 4E: ubg), and one fine-granulated eosinophilic gland (Fig. 4E: ueg) separated from the nucleated epithelium by a dense structure, which could be a thick sphincter (Fig. 4E: x). Common genital atrium opens externally by a common gonopore (Fig. 4E: cg). Discussion. The new species shows all diagnostic features of Polycystididae, the most typical of which are the presence of four teeth around the proximal pharynx opening and of three pairs of proboscis fixators (Karling 1964). It lacks the typical features of the subtaxa Gyratricinae [unpaired ovaries; terminal (male) gonopore; unpaired seminal vesicle], Scanorhynchinae (position of external muscles of proboscis sheath inverted), Phonorhynchoidinae (proboscis sheath without circular muscles, subterminal gonopore combined with a very long genital atrium), Psammopolycystidinae (syncytial epidermis) and Typhlopolycystidinae (unpaired ovarium, enlarged proximal dilators of the proboscis sheath, typical seminal receptacle on the bursal stalk) (for details see Tessens et al . 2014 and references therein). Therefore, it can be included in Polycystidinae, a morphologically heterogeneous group, comprising most of the polycystidid taxa for which at this moment no clear apomorphies can be given (see Tessens et al . 2014). The male atrial organs of P. intermedia gen. n. sp. n. include a double-walled prostate stylet type II, found in several representatives of Polycystidinae ( Antiboreorhynchus Karling, 1952, Austrorhynchus Karling, 1952, Cincturorhynchus Evdonin, 1970, Paraustrorhynchus , Phonorhynchus Graff, 1905, Porrocystis Reisinger, 1926, Progyrator Sekera, 1901, and Pygmorhynchus Artois & Schockaert, 1999 (see Artois & Schockaert 2003). In these genera the prostate stylet is connected to a prostate vesicle type II. However, all these genera (except Progyrator and Pygmorhynchus ) include an accessory stylet in the male atrium, a structure lacking in P. intermedia gen. n. sp. n . The prostate vesicle type II of P. intermedia gen. n. sp. n. contains only an eosinophilic secretion, while in the other genera of the subfamily with this kind of prostate vesicle the secretion is basophilic (Artois & Schockaert 2003). Only in species of Gyratrix , Gyratricella Karling, 1955, and Papia Karling, 1956 does the prostate vesicle type II contain an eosinophilic secretion (Artois & Schockaert 2003), but these taxa differ from P. intermedia gen. n. sp. n. by many other diagnostic characters, as they belong to different subfamilies (Tessens et al . 2014). Polycydora intermedia gen. n. sp. n. resembles species of Polycystis as well as of Paulodora . However, representatives of these two genera have a prostate stylet type I and a prostate vesicle type I. The prostate stylet type I in Polycystis is short and wide, with the distal rim of the outer stylet toothed [except in P. gabriellae (Marcus, 1948) Karling, 1952]. In Paulodora the outer stylet is rather elongated and complex, with folds and gutters, probably to drain the sperm. The prostate stylet of P. intermedia gen. n. sp. n . is (probably) of type II, as it is connected to a typical prostate vesicle of type II. It is rather long, but does resemble that of some species of Paulodora (e.g. P . subcontorta Schockaert, 1982) as to its general construction, i.e. with gutter-like folds, but without further ornamentations. Apart from the above-mentioned differences/resemblances in the construction of the stylet, P. intermedia gen. n. sp. n. lacks several of the typical, diagnostic features of the other two genera. Diagnostic features of species of Polycystis lacking in P. intermedia gen. n. sp. n. are the presence of accessory glands type I (also present in species of Paraustrorhynchus ) and a large, asymmetrical, mostly excentric muscle bulb on the stalk of the male bursa (Artois & Schokaert 1998, 2003; Willems et al . 2006). The stalk of the male bursa is heavily muscular in P. intermedia gen. n. sp. n. , but it is never asymmetrical, let alone excentric. Furthermore, the tick syncytial epithelium surrounding the internal vesicle of the male bursa in P. intermedia gen. n. sp. n . is not found in any species of Paulodora or Polycystis . Moreover, most of the species of Polycystis are darkly pigmented (Artois & Schockaert 1999), which is not the case in P. intermedia gen. n. sp. n. . Most species of Paulodora typically have elongated, kidney-shaped ovaries (see Artois & Tessens 2008), as is the case in P. intermedia gen. n. sp. n. , but P. intermedia gen. n. sp. n. lacks the hard, umbrella-shaped "nozzles" at the connection between male bursa and each ovary that are so typical of species of Paulodora (Artois & Schockaert 1998). Moreover, in species of Paulodora the oviducts (mostly) merge with the male bursal tissue, and the ejaculatory duct makes a 270° turn around the prostate vesicle before it ends in the male atrium next to the stylet. In P. intermedia gen. n. sp. n. , the male bursal stalk is free, and the ejaculatory duct runs straight. A typical feature of P. intermedia gen. n. sp. n. is the presence of two bursae, a male and a female one, with the female bursa being large and with a long stalk. In species of Paulodora a female bursa is lacking, whereas in species of Polycystis it is very small (or absent, as in P. gabriellae ) and almost without a stalk. Because of the issues discussed above, the new species cannot unambiguously be placed in any of the existing genera within Polycystididae, and, therefore, the erection of a new genus is warranted. : Published as part of Diez, Yander L., Hernández, Claudia Sanjuan, Reygel, Patrick, Roosen, Paulien & Artois, Tom, 2018, First record of Polycystididae (Platyhelminthes, Kalyptorhynchia) from Cuba, with the description of a new genus and five new species, and remarks and the description of one new species from Panama, pp. 107-125 in Zootaxa 4514 (1) on pages 117-120, DOI: 10.11646/zootaxa.4514.1.9, http://zenodo.org/record/2605858 : {"references": ["Meixner, J. (1925) Beitrag zur Morphologie und zum System der Turbellaria-Rhabdocoela: 1. Die Kalyptorhynchia. Zeitschrift fur Morphologie und Okologie der Tiere, 3, 255 - 343. https: // doi. org / 10.1007 / BF 00408146", "Karling, T. G. (1964) Uber einige neue und ungenugend bekannte Turbellaria Eukalyptorhynchia. Zoologischer Anzeiger, 172, 159 - 183.", "Tessens, B., Janssen, T. & Artois, T. (2014) Molecular phylogeny of Kalyptorhynchia (Rhabdocoela, Platyhelminthes) inferred from ribosomal sequence data. Zoologica Scripta, 43 (5), 519 - 530. https: // doi. org / 10.1111 / zsc. 12066", "Karling, T. G. (1952) Kalyptorhynchia (Turbellaria). Further Zoological Results of the Swedish Antarctic Expedition 1901 - 1903, 4 (9), 1 - 50.", "Evdonin, L. A. (1970) A new genus of Turbellarians from the family Polycystididae. Zoological Journal, 49 (5), 781 - 784.", "Graff, L. von (1905) Marine Turbellarien Orotavas und der Kusten Europas. Zeitschrift fur wissenschaftliche Zoologie, 83, 68 - 148.", "Reisinger, E. (1926) Zur Turbellarienfauna der Antarktis. Deutsche Sudpolar-Expedition Zoologie, 18 (10), 417 - 463.", "Sekera, E. (1901) Uber eine marine Art der Gattung Gyrator Ehrb. Zoologischer Anzeiger, 24, 79 - 81.", "Artois, T. J. & Schockaert, E. R. (1999) Interstitial fauna of the Galapagos: Porrocystidinae (Plathelminthes, Polycystididae). Tropical Zoology, 12, 309 - 324. https: // doi. org / 10.1080 / 03946975.1999.10539397", "Artois, T. J. & Schockaert, E. R. (2003) Primary homology assessment in the male atrial system of the Polycystididae (Platyhelminthes: Eukalyptorhynchia). Zoologischer Anzeiger, 242 (2), 179 - 190. https: // doi. org / 10.1078 / 0044 - 5231 - 00095", "Karling, T. G. (1955) Studien uber Kalyptorhynchien (Turbellaria) 5. Der Verwandtschaftskreis von Gyratrix Ehrenberg. Acta Zoologica Fennica, 88, 1 - 39.", "Karling, T. G. (1956) Morphologisch-histologische Untersuchungen an den mannlichen Atrialorganen der Kalyptorhynchia (Turbellaria). Arkiv for Zoologi, 9 (7), 187 - 279.", "Schockaert, E. R. (1982) Turbellaria from Somalia 2. Kalyptorhynchia. Part 2. Monitore Zoologico Italiano, 18 (2), 81 - 96. https: // doi. org / 10.1080 / 03749444.1982.10736660", "Willems, W. R., Schockaert, E. R. & Artois, T. J. (2006) Report on the Polycystididae (Rhabdocoela, Kalyptorhynchia) from Australia, with the description of twelve new species and six new genera. Hydrobiologia, 563, 329 - 355. https: // doi. org / 10.1007 / s 10750 - 006 - 0041 - 3", "Artois, T. J. & Tessens, B. S. (2008) Polycystididae (Rhabditophora: Rhabdocoela: Kalyptorhynchia) from the Indian Ocean, with the description of twelve species. Zootaxa, 1849, 1 - 27."]}
format Text
author Diez, Yander L.
Hernández, Claudia Sanjuan
Reygel, Patrick
Roosen, Paulien
Artois, Tom
author_facet Diez, Yander L.
Hernández, Claudia Sanjuan
Reygel, Patrick
Roosen, Paulien
Artois, Tom
author_sort Diez, Yander L.
title Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
title_short Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
title_full Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
title_fullStr Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
title_full_unstemmed Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n.
title_sort polycydora intermedia diez & hernández & reygel & roosen & artois 2018, sp. n.
publisher Zenodo
publishDate 2018
url https://dx.doi.org/10.5281/zenodo.5992804
https://zenodo.org/record/5992804
long_lat ENVELOPE(-66.783,-66.783,-68.867,-68.867)
ENVELOPE(-63.283,-63.283,-64.950,-64.950)
geographic Antarctic
Galapagos
Indian
Sickle
Willems
geographic_facet Antarctic
Galapagos
Indian
Sickle
Willems
genre Antarc*
Antarctic
Antarktis*
genre_facet Antarc*
Antarctic
Antarktis*
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op_doi https://doi.org/10.5281/zenodo.5992804
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spelling ftdatacite:10.5281/zenodo.5992804 2023-05-15T13:53:47+02:00 Polycydora intermedia Diez & Hernández & Reygel & Roosen & Artois 2018, sp. n. Diez, Yander L. Hernández, Claudia Sanjuan Reygel, Patrick Roosen, Paulien Artois, Tom 2018 https://dx.doi.org/10.5281/zenodo.5992804 https://zenodo.org/record/5992804 unknown Zenodo http://zenodo.org/record/2605858 http://publication.plazi.org/id/4E21FFBEE352B15EE60493065517FF99 http://zoobank.org/C4BCDC9D-BCB2-4DF0-8EFB-7DBC61CB3E4 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4514.1.9 http://zenodo.org/record/2605858 http://publication.plazi.org/id/4E21FFBEE352B15EE60493065517FF99 https://dx.doi.org/10.5281/zenodo.2605866 http://zoobank.org/C4BCDC9D-BCB2-4DF0-8EFB-7DBC61CB3E4 https://dx.doi.org/10.5281/zenodo.5992805 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Platyhelminthes Rhabditophora Rhabdocoela Polycystididae Polycydora Polycydora intermedia article-journal ScholarlyArticle Taxonomic treatment Text 2018 ftdatacite https://doi.org/10.5281/zenodo.5992804 https://doi.org/10.11646/zootaxa.4514.1.9 https://doi.org/10.5281/zenodo.2605866 https://doi.org/10.5281/zenodo.5992805 2022-04-01T09:01:06Z Polycydora intermedia Diez, Sanjuan, Reygel & Artois sp. n. (Fig. 4) Material and distribution in Cuba. Observations on live animals. Five whole mounts, one of which is designated holotype (FMNH http://id.luomus.fi/ KV.604), and ten serially-sectioned specimens collected in Bahía de Gibara (type locality) (March 26, 2017), sublittoral, in coarse sand, 0.6 m depth, salinity 35 ‰. Three whole mounts from Siboney (May 15, 2016 & June 5, 2017), intertidal, upper 10 cm of fine sand with organic matter, salinity 35 ‰. One whole mount from Bueycabón (February 6, 2018), intertidal, upper 10 cm of fine sand, salinity 33 ‰. All reference material in HU (VIII.3.15– VIII.3.32). Etymology. The epithet refers to the fact that the new species is morphologically intermediate between Polycystis and Paulodora . Diagnosis. Species of Polycydora gen. n. with a 75-µm-long prostate stylet type II. The outer stylet is proximally funnel shaped, ±18 µm wide, then is constricted to a tube 4 µm wide. At one-third of its length it shows a 180° turn. Stylet with an asymmetrical distal opening. Description. Living animals 1.5 mm long. Length measured on whole mounts 0.9–1.5 mm ( x̄ = 1.2 mm; n = 4). Translucent, with a pair of eyes. Syncytial epidermis 7 µm thick and ciliated, cilia 6–7 µm long. Two types of vacuoles present in the epidermis: empty ones (support structures) and others filled with small granules. Rhabdites as large as the height of the epidermis, only present in the posterior two-third of the body. Proboscis of the typical polycystidid type (Fig. 4 A–B: pr, Fig. 4C; for a detailed description see Meixner, 1925), 1/5 of the body length, with six pairs of fixator muscles (Fig. 4C: pfix). With four pairs of proboscis retractors (Fig. 4C: pret). Cone retractors well-developed (Fig. 4C: cret). As in most Polycystididae with a pair of ventral integument retractors (Fig. 4C: ir). Proboscis sheath surrounded by an internal circular and an outer longitudinal muscle layer. Without nuclei at the junction between sheath and cone epithelium. Thin dilator muscles are present in the distal half of the proboscis sheath (Fig. 4C: dil). Proboscis opening surrounded by a sphincter (Fig. 4C: sph). Proboscis glands can be observed just caudally from the proboscis: one central large gland producing an eosinophilic fine-grained secretion (Fig. 4C: peg), and surrounding it, coarse-grained basophilic glands (Fig. 4C: pbg). Pharynx located at about 35% (Fig. 4 A–B: ph, Fig. 4D), measuring 153–174 µm in diameter ( x̄ = 162 µm; n = 4). Prepharyngeal cavity (Fig. 4D: ppc) lined with a nucleated epithelium surrounded by an internal layer of circular muscles and an external layer of longitudinal muscles, opening to the outside through the mouth (Fig. 4D: m). Pharynx bulb with the normal polycystidid construction, showing the four teeth surrounding the proximal pharynx opening, typical of the family (Fig. 4D: th). Three types of glands open in the distal part of the pharyngeal lumen, which are, from distal to proximal: eosinophilic glands (stained light pink) (Fig. 4D: phg1), basophilic glands with a coarse-grained secretion (stained dark blue-black) (Fig. 4D: phg2), and eosinophilic glands with a fine-grained secretion (stained brownish) (Fig. 4D: phg3). At its distal side the pharynx has a muscular sphincter (Fig. 4D: sph), just distal from the opening of the glands. The musculature of the pharynx consists of an external layer of circular muscles (Fig. 4D: cm), just inside of the septum and a longitudinal muscle (Fig. 4D: lm) layer just outside of it, which is continuous with the longitudinal muscle layer of the prepharyngeal cavity. The pharynx lumen is surrounded by a circular muscle layer and a longitudinal one. Radial muscles run between the internal and the external walls (Fig. 4D: rm). Genital organs situated in the middle section of the body. Testes (Fig. 4B: t) situated caudally to the pharynx. Seminal vesicles (Fig. 4B & 4E: sv) located between the testes and delineated by a thin nucleated epithelium. Both seminal vesicles fuse to form a thin ejaculatory duct (Fig. 4E: ed), covered by circular muscles. The ejaculatory duct runs aside the prostate vesicle, entering the male genital atrium next to the proximal funnel of the prostate stylet type II. Prostate vesicle type II elongated (Fig. 4B & 4E: pv2), 63–77 µm long ( x̄ = 69 µm; n = 4) and 18–30 µm wide ( x̄ = 23 µm; n = 4), filled with an eosinophilic secretion. Prostate vesicle surrounded by two muscular layers: external oblique fibres, and internal longitudinal fibres. Prostate vesicle connected proximally to brownish accessory glands type I (Fig. 4B & 4E: ag1). Prostate stylet type II double walled and sickle shaped (Fig. 4 A–B & 4E: ps2, Fig. 4F), 60–87 µm long ( x̄ = 75 µm; n = 8), with a proximal funnel, 16–21 µm wide ( x̄ = 18 µm; n = 8). Distally from the funnel, the stylet is 4–5 µm wide ( x̄ = 4 µm; n = 8), showing a 180° twist. Male bursa (Fig. 4B & 4E: mb) well developed, surrounded by a thick muscular coat, filled with sperm and separated from its muscular stalk by a sphincter (Fig. 4E: sph). Epithelium with nuclei surrounds the bursal stalk and the male atrium. Bursal stalk entering the common genital atrium (Fig. 4E: cga) dorsally, at the same place as does the male genital atrium. The internal vesicle of the male bursa is surrounded by a tick sheath of syncytial epithelium (Fig. 4E: se) Ovaries kidney shaped (Fig. 4B & 4E: ov) and located in the posterior third of the body. Oocytes organised in a row, diminishing in size from the most distal one to the most proximal one. Paired vitellaria extend at both sides from the middle to the end of the body (Fig. 4 A–B & 4E: vi). Oviducts very short, each receiving a vitelloduct. Both oviducts unite to form a short common female duct type I that enters the common genital atrium caudally. Oviducts and female duct are lined by a nucleated epithelium. Muscles are not well defined around the oviducts and the female duct, however, there seems to be an internal layer of circular muscles and an external layer of longitudinal ones. Large female bursa 50 µm long (measured in one sectioned specimen), contains a central space with sperm and nuclei. It connects to the female duct by a bursal stalk at the junction of the two oviducts. Bursal stalk lined by a nucleated epithelium. Muscle layers are not observable around the female bursa and the stalk. A uterus (Fig. 4E: ut) with nucleated epithelium connects at the anterior side of the common genital atrium. Two rings of glands can be observed at the distal end of the uterus: one coarse-granulated basophilic gland (Fig. 4E: ubg), and one fine-granulated eosinophilic gland (Fig. 4E: ueg) separated from the nucleated epithelium by a dense structure, which could be a thick sphincter (Fig. 4E: x). Common genital atrium opens externally by a common gonopore (Fig. 4E: cg). Discussion. The new species shows all diagnostic features of Polycystididae, the most typical of which are the presence of four teeth around the proximal pharynx opening and of three pairs of proboscis fixators (Karling 1964). It lacks the typical features of the subtaxa Gyratricinae [unpaired ovaries; terminal (male) gonopore; unpaired seminal vesicle], Scanorhynchinae (position of external muscles of proboscis sheath inverted), Phonorhynchoidinae (proboscis sheath without circular muscles, subterminal gonopore combined with a very long genital atrium), Psammopolycystidinae (syncytial epidermis) and Typhlopolycystidinae (unpaired ovarium, enlarged proximal dilators of the proboscis sheath, typical seminal receptacle on the bursal stalk) (for details see Tessens et al . 2014 and references therein). Therefore, it can be included in Polycystidinae, a morphologically heterogeneous group, comprising most of the polycystidid taxa for which at this moment no clear apomorphies can be given (see Tessens et al . 2014). The male atrial organs of P. intermedia gen. n. sp. n. include a double-walled prostate stylet type II, found in several representatives of Polycystidinae ( Antiboreorhynchus Karling, 1952, Austrorhynchus Karling, 1952, Cincturorhynchus Evdonin, 1970, Paraustrorhynchus , Phonorhynchus Graff, 1905, Porrocystis Reisinger, 1926, Progyrator Sekera, 1901, and Pygmorhynchus Artois & Schockaert, 1999 (see Artois & Schockaert 2003). In these genera the prostate stylet is connected to a prostate vesicle type II. However, all these genera (except Progyrator and Pygmorhynchus ) include an accessory stylet in the male atrium, a structure lacking in P. intermedia gen. n. sp. n . The prostate vesicle type II of P. intermedia gen. n. sp. n. contains only an eosinophilic secretion, while in the other genera of the subfamily with this kind of prostate vesicle the secretion is basophilic (Artois & Schockaert 2003). Only in species of Gyratrix , Gyratricella Karling, 1955, and Papia Karling, 1956 does the prostate vesicle type II contain an eosinophilic secretion (Artois & Schockaert 2003), but these taxa differ from P. intermedia gen. n. sp. n. by many other diagnostic characters, as they belong to different subfamilies (Tessens et al . 2014). Polycydora intermedia gen. n. sp. n. resembles species of Polycystis as well as of Paulodora . However, representatives of these two genera have a prostate stylet type I and a prostate vesicle type I. The prostate stylet type I in Polycystis is short and wide, with the distal rim of the outer stylet toothed [except in P. gabriellae (Marcus, 1948) Karling, 1952]. In Paulodora the outer stylet is rather elongated and complex, with folds and gutters, probably to drain the sperm. The prostate stylet of P. intermedia gen. n. sp. n . is (probably) of type II, as it is connected to a typical prostate vesicle of type II. It is rather long, but does resemble that of some species of Paulodora (e.g. P . subcontorta Schockaert, 1982) as to its general construction, i.e. with gutter-like folds, but without further ornamentations. Apart from the above-mentioned differences/resemblances in the construction of the stylet, P. intermedia gen. n. sp. n. lacks several of the typical, diagnostic features of the other two genera. Diagnostic features of species of Polycystis lacking in P. intermedia gen. n. sp. n. are the presence of accessory glands type I (also present in species of Paraustrorhynchus ) and a large, asymmetrical, mostly excentric muscle bulb on the stalk of the male bursa (Artois & Schokaert 1998, 2003; Willems et al . 2006). The stalk of the male bursa is heavily muscular in P. intermedia gen. n. sp. n. , but it is never asymmetrical, let alone excentric. Furthermore, the tick syncytial epithelium surrounding the internal vesicle of the male bursa in P. intermedia gen. n. sp. n . is not found in any species of Paulodora or Polycystis . Moreover, most of the species of Polycystis are darkly pigmented (Artois & Schockaert 1999), which is not the case in P. intermedia gen. n. sp. n. . Most species of Paulodora typically have elongated, kidney-shaped ovaries (see Artois & Tessens 2008), as is the case in P. intermedia gen. n. sp. n. , but P. intermedia gen. n. sp. n. lacks the hard, umbrella-shaped "nozzles" at the connection between male bursa and each ovary that are so typical of species of Paulodora (Artois & Schockaert 1998). Moreover, in species of Paulodora the oviducts (mostly) merge with the male bursal tissue, and the ejaculatory duct makes a 270° turn around the prostate vesicle before it ends in the male atrium next to the stylet. In P. intermedia gen. n. sp. n. , the male bursal stalk is free, and the ejaculatory duct runs straight. A typical feature of P. intermedia gen. n. sp. n. is the presence of two bursae, a male and a female one, with the female bursa being large and with a long stalk. In species of Paulodora a female bursa is lacking, whereas in species of Polycystis it is very small (or absent, as in P. gabriellae ) and almost without a stalk. Because of the issues discussed above, the new species cannot unambiguously be placed in any of the existing genera within Polycystididae, and, therefore, the erection of a new genus is warranted. : Published as part of Diez, Yander L., Hernández, Claudia Sanjuan, Reygel, Patrick, Roosen, Paulien & Artois, Tom, 2018, First record of Polycystididae (Platyhelminthes, Kalyptorhynchia) from Cuba, with the description of a new genus and five new species, and remarks and the description of one new species from Panama, pp. 107-125 in Zootaxa 4514 (1) on pages 117-120, DOI: 10.11646/zootaxa.4514.1.9, http://zenodo.org/record/2605858 : {"references": ["Meixner, J. (1925) Beitrag zur Morphologie und zum System der Turbellaria-Rhabdocoela: 1. Die Kalyptorhynchia. Zeitschrift fur Morphologie und Okologie der Tiere, 3, 255 - 343. https: // doi. org / 10.1007 / BF 00408146", "Karling, T. G. (1964) Uber einige neue und ungenugend bekannte Turbellaria Eukalyptorhynchia. 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(2006) Report on the Polycystididae (Rhabdocoela, Kalyptorhynchia) from Australia, with the description of twelve new species and six new genera. Hydrobiologia, 563, 329 - 355. https: // doi. org / 10.1007 / s 10750 - 006 - 0041 - 3", "Artois, T. J. & Tessens, B. S. (2008) Polycystididae (Rhabditophora: Rhabdocoela: Kalyptorhynchia) from the Indian Ocean, with the description of twelve species. Zootaxa, 1849, 1 - 27."]} Text Antarc* Antarctic Antarktis* DataCite Metadata Store (German National Library of Science and Technology) Antarctic Galapagos Indian Sickle ENVELOPE(-66.783,-66.783,-68.867,-68.867) Willems ENVELOPE(-63.283,-63.283,-64.950,-64.950)

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