Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.

3.1 Gieysztoria shantouensis Zhang, Li & Wang, sp. nov. (Figs 1–8) Material examined. Holotype PLA-G0060, ditches in Chengtian, Chaonan, Shantou, Guangdong (23°10'57"N, 116°28'18"E) (Fig. 17), 21 January 2013, coll. Yi-Kui Li. saved in Bouin’s solution and stained by H.E. met...

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Main Authors: Zhang, Hang, Li, Yi-Kui, Wu, Cheng-Chen, Wang, An-Tai
Format: Text
Language:unknown
Published: Zenodo 2014
Subjects:
Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Dalyelliidae
Gieysztoria
Gieysztoria shantouensis
Willems
Tuxen
Brusa
Iceland
Online Access:https://dx.doi.org/10.5281/zenodo.5539689
https://zenodo.org/record/5539689
id ftdatacite:10.5281/zenodo.5539689
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
Dalyelliidae
Gieysztoria
Gieysztoria shantouensis
spellingShingle Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Dalyelliidae
Gieysztoria
Gieysztoria shantouensis
Zhang, Hang
Li, Yi-Kui
Wu, Cheng-Chen
Wang, An-Tai
Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Platyhelminthes
Rhabditophora
Rhabdocoela
Dalyelliidae
Gieysztoria
Gieysztoria shantouensis
description 3.1 Gieysztoria shantouensis Zhang, Li & Wang, sp. nov. (Figs 1–8) Material examined. Holotype PLA-G0060, ditches in Chengtian, Chaonan, Shantou, Guangdong (23°10'57"N, 116°28'18"E) (Fig. 17), 21 January 2013, coll. Yi-Kui Li. saved in Bouin’s solution and stained by H.E. method. Paratypes. PLA-G0061 – PLA-G0066, same data as holotype (PLA-G0061 – PLA-G0063, the whole specimens; PLA-G0064 –PLA- G0066, isolated sclerotic stylets). All materials were deposited in National Zoological Museum, Institute of Zoology, Chinese Academy of Sciences (IZCAS), Beijing, China. Description. Live individual about 1 005–1 340 μ m long, and middle part of bodies up to 280–350 μ m wide. Anterior part of body bluntly rounded, posterior part tapered. Whole body appears spindle-like. Salmon pink pigments distribute under epidermis (Fig. 1). Two reniform eyes locate at back of forebrain near pharynx, space between them about 72 μ m. Barrel-shaped pharynx 170 μ m long and 160 μ m wide. Pocket-like intestinal canal connects to pharynx, with distinct glands in junction (Figs 1–2, 5–6). Reproductive system. Hermaphrodite, with one gonopore. Female reproductive system consists of an ovary, oviducts, uterus, receptaculum seminis, vitellaria, bursa copulatrix, genital atrium and common gonopore. Strip-shaped ovary lies at back of posterior intestine. Oviducts from rear of ovary lead to uterus near rump. Branches of oviducts lead to spherical receptaculum seminis which contains serried sperms. An orange-yellow elliptic egg, with 190 μ m long and 96 μ m wide, often appears inside uterus, both ends of it slightly sharp (Fig. 3). Two vitellaria extend dorsolaterally, with 380 μ m long. Each vitellarium with numerous finger-shaped branches. Vitelloducts from left and right join together at back of intestines, then lead to uteru, and other side of it connects genital atrium. Finger-shaped bursa copulatrix comprises myofibers, and opens into genital atrium through a pore (Figs 5–6). Male reproductive system consists of testes, vas deferens, a vesicula seminalis, a vesicula granulorum, prostate tissues and a sclerotic stylet. Paired oval-shaped testes situated laterally at posterior intestine, with a vas deferens at backend of each testis extending to vesicula seminalis. Double-ball-shaped vesicula seminalis contains serried sperms, covered by a muscular layer. Behind it lies a cylindrical-shaped vesicula granulorum, which comprises eosinophilic granules inside, outside lies prostate cells. Sclerotic stylet, with total length 137 μ m, connecting to backend of vesicula granulorum, consists of a closed girdle and 7 spines. Girdle formed by sclerotic collagenous fibers, with height 44 μ m, diameter 70 μ m. Base of each spine connected to a U-shaped muscular layer. Lateral spines appear dagger-shaped, middle ones cynodontshaped. Spines differ in length, shortening from both sides to middle gradually. Outer spine 94 μ m long, and the middle 59 μ m long (Figs 4–7). Stylet of immature individual is not fully sclerotized, with some unsclerotized collagenous fibers around girdle (Fig. 8). © Zoological Systematics , 39(4): 485–495 © Zoological Systematics , 39(4): 485–495 Etymology. The specific name refers to the type locality, Shantou City, Guangdong Province, China. Discussion. Sclerotic stylet is the critical taxonomic character to identify species of genus Gieysztoria . The genus Gieysztoria is divided into two groups, Aequales and Inaequales (Luther, 1955). The stylet of Aequales usually contains a proximal girdle and lateral spines which are similar in size and shape. Species of Inaequales have complicated stylets, and are divided into four subgroups: Fenestratae, Radiatae, Aberrantes, Falcatae (Luther, 1955; Damborenea et al ., 2005; Van Steenkiste et al ., 2012). The proximal girdle of Fenestratae has one or more pores; Radiatae does not have pores, and has actinomorphic stylet; Aberrantes has the stylet irregular (Luther, 1955; Damborenea et al ., 2005). The stylet of the Falcatae is a small thick hook-like spine, which is similar to a raptor’s claw (Van Steenkiste et al. , 2012). By comparing, the new species belongs to Gieysztoria , Inaequales, Aberrantes. Nine species, G . shantouensis Zhang, Li & Wang, sp. nov. , G. oligocentra (Steinböck, 1948), G. papii (Young, 1977), G. pseudodiadema (Noreña-Janssen, 1995), G. shenzhensis (Wang & Wu, 2005b), G. pulchra (Wang & Deng, 2006), G. macrovariata (Weise, 1942), G. macrovariata 9-spinosa (Luther, 1955), G. octospinosa (Luther, 1955) are similar because of the number of the terminal spines of stylet. Among them, the stylet of G. oligocentra , G. papii and G. pseudodiadema have 8, 6 and 8 spines, respectively. However, G. oligocentra and G. papii belongs to Aequales, and G. pseudodiadema and the new species belong to Inaequales. The stylet of G. pseudodiadema is 60–70 μ m long, and the spines are 42 μ m long. The shape of stylet between G. pseudodiadema and the new species is significantly different. And the length of stylet of the new species is 2 times as long as G. pseudodiadema (Luther, 1955; Damborenea et al ., 2005). G. shenzhensis has 8 spines within its stylet, with 4 thick and 4 flagellous spines, actinomorphic, belongs to Radiatae, a subgroup of Inaequales (Luther, 1955), which is significant different with the new species. G. pulchra, G. macrovariata and G. macrovariata 9-spinosa belong to the same subgroup with the new species (Luther, 1955). They have 13, 10 and 9 spines within their stylets, respectively, while the new species has 7 spines within its stylet. The stylet of G. octospinosa is the most similar to the new species. However, its stylet is 55 μ m in length, has 8 sclerotic spines, and spines in the middle are longer than those in the lateral. The stylet of the new species is 137 μ m long in total, has 8 spines, and spines in the middle are shorter than those in the lateral. : Published as part of Zhang, Hang, Li, Yi-Kui, Wu, Cheng-Chen & Wang, An-Tai, 2014, Two new species of the genus Gieysztoria (Rhabdocoela: Dalyelliidae) from China, pp. 485-495 in Zoological Systematics 39 (4) on pages 486-488, DOI: 10.11865/zs.20140402, http://zenodo.org/record/4617380 : {"references": ["Luther, A. 1955. Die Dalyelliiden (Turbellaria, Neorhabdocoela). Eine Monographie. Acta Zoologica Fennica, 87: 1 - 337.", "Damborenea, C., Brusa, F. and Norena, C. 2005. New species of Gieysztoria (Platyhelminthes, Rhabdocoela) from Peruvian Amazon floodplain with description of their stylet ultrastructure. Zoological Science, 22: 1 319 - 1 329.", "Van Steenkiste, N., Tessens, B., Willems, W., Van Mulken, E. and Artois, T. 2012. The \" Falcatae \", a new Gondwanan species group of Gieysztoria (Platyhelminthes: Dalyelliidae), with the description of five new species. Zoologischer Anzeiger, 251 (4): 344 - 356.", "Steinbock, O. 1948. Freshwater turbellaria. In: Frioriksson, A. and Tuxen, S. L. (eds.), The Zoology of Iceland. Vol. II, part 10. America: Munksgaard Copenhagen. 40 pp.", "Young, J. O. 1977. Six new species and records of two established species of Dalyelliidae (Turbellaria: Neorhabdocoela) from freshwater habitats in Kenya, East Africa. Journal of Natural History, 11: 1 - 15. 11 - 12, fig. 6.", "Weise, M. 1942. Die Rhabdocoela und Alloecoela der Kurmark mit besonderer Berucksichtigung des Gebietes von Gross-Berlin. I. Sitz. - ber. Ges. naturf. Freunde, Berlin. pp. 143 - 204. f. 17 - 20."]}
format Text
author Zhang, Hang
Li, Yi-Kui
Wu, Cheng-Chen
Wang, An-Tai
author_facet Zhang, Hang
Li, Yi-Kui
Wu, Cheng-Chen
Wang, An-Tai
author_sort Zhang, Hang
title Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
title_short Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
title_full Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
title_fullStr Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
title_full_unstemmed Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov.
title_sort gieysztoria shantouensis zhang, li & wang 2014, sp. nov.
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.5539689
https://zenodo.org/record/5539689
long_lat ENVELOPE(-63.283,-63.283,-64.950,-64.950)
ENVELOPE(-64.133,-64.133,-65.267,-65.267)
ENVELOPE(-45.517,-45.517,-60.533,-60.533)
geographic Willems
Tuxen
Brusa
geographic_facet Willems
Tuxen
Brusa
genre Iceland
genre_facet Iceland
op_relation http://zenodo.org/record/4617380
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op_doi https://doi.org/10.5281/zenodo.5539689
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spelling ftdatacite:10.5281/zenodo.5539689 2023-05-15T16:53:30+02:00 Gieysztoria shantouensis Zhang, Li & Wang 2014, sp. nov. Zhang, Hang Li, Yi-Kui Wu, Cheng-Chen Wang, An-Tai 2014 https://dx.doi.org/10.5281/zenodo.5539689 https://zenodo.org/record/5539689 unknown Zenodo http://zenodo.org/record/4617380 http://publication.plazi.org/id/E54F064B19013F54FFDBD448FFC7FFA5 http://zoobank.org/088DBEE1-8514-430E-AB05-EFFC0F94BF09 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11865/zs.20140402 http://zenodo.org/record/4617380 http://publication.plazi.org/id/E54F064B19013F54FFDBD448FFC7FFA5 https://dx.doi.org/10.5281/zenodo.4617382 https://dx.doi.org/10.5281/zenodo.4617386 https://dx.doi.org/10.5281/zenodo.4617396 http://zoobank.org/088DBEE1-8514-430E-AB05-EFFC0F94BF09 https://dx.doi.org/10.5281/zenodo.5539688 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 Dalyelliidae Gieysztoria Gieysztoria shantouensis Text Taxonomic treatment article-journal ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.5539689 https://doi.org/10.11865/zs.20140402 https://doi.org/10.5281/zenodo.4617382 https://doi.org/10.5281/zenodo.4617386 https://doi.org/10.5281/zenodo.4617396 https://doi.org/10.5281/zenodo.5539688 2021-11-05T12:55:41Z 3.1 Gieysztoria shantouensis Zhang, Li & Wang, sp. nov. (Figs 1–8) Material examined. Holotype PLA-G0060, ditches in Chengtian, Chaonan, Shantou, Guangdong (23°10'57"N, 116°28'18"E) (Fig. 17), 21 January 2013, coll. Yi-Kui Li. saved in Bouin’s solution and stained by H.E. method. Paratypes. PLA-G0061 – PLA-G0066, same data as holotype (PLA-G0061 – PLA-G0063, the whole specimens; PLA-G0064 –PLA- G0066, isolated sclerotic stylets). All materials were deposited in National Zoological Museum, Institute of Zoology, Chinese Academy of Sciences (IZCAS), Beijing, China. Description. Live individual about 1 005–1 340 μ m long, and middle part of bodies up to 280–350 μ m wide. Anterior part of body bluntly rounded, posterior part tapered. Whole body appears spindle-like. Salmon pink pigments distribute under epidermis (Fig. 1). Two reniform eyes locate at back of forebrain near pharynx, space between them about 72 μ m. Barrel-shaped pharynx 170 μ m long and 160 μ m wide. Pocket-like intestinal canal connects to pharynx, with distinct glands in junction (Figs 1–2, 5–6). Reproductive system. Hermaphrodite, with one gonopore. Female reproductive system consists of an ovary, oviducts, uterus, receptaculum seminis, vitellaria, bursa copulatrix, genital atrium and common gonopore. Strip-shaped ovary lies at back of posterior intestine. Oviducts from rear of ovary lead to uterus near rump. Branches of oviducts lead to spherical receptaculum seminis which contains serried sperms. An orange-yellow elliptic egg, with 190 μ m long and 96 μ m wide, often appears inside uterus, both ends of it slightly sharp (Fig. 3). Two vitellaria extend dorsolaterally, with 380 μ m long. Each vitellarium with numerous finger-shaped branches. Vitelloducts from left and right join together at back of intestines, then lead to uteru, and other side of it connects genital atrium. Finger-shaped bursa copulatrix comprises myofibers, and opens into genital atrium through a pore (Figs 5–6). Male reproductive system consists of testes, vas deferens, a vesicula seminalis, a vesicula granulorum, prostate tissues and a sclerotic stylet. Paired oval-shaped testes situated laterally at posterior intestine, with a vas deferens at backend of each testis extending to vesicula seminalis. Double-ball-shaped vesicula seminalis contains serried sperms, covered by a muscular layer. Behind it lies a cylindrical-shaped vesicula granulorum, which comprises eosinophilic granules inside, outside lies prostate cells. Sclerotic stylet, with total length 137 μ m, connecting to backend of vesicula granulorum, consists of a closed girdle and 7 spines. Girdle formed by sclerotic collagenous fibers, with height 44 μ m, diameter 70 μ m. Base of each spine connected to a U-shaped muscular layer. Lateral spines appear dagger-shaped, middle ones cynodontshaped. Spines differ in length, shortening from both sides to middle gradually. Outer spine 94 μ m long, and the middle 59 μ m long (Figs 4–7). Stylet of immature individual is not fully sclerotized, with some unsclerotized collagenous fibers around girdle (Fig. 8). © Zoological Systematics , 39(4): 485–495 © Zoological Systematics , 39(4): 485–495 Etymology. The specific name refers to the type locality, Shantou City, Guangdong Province, China. Discussion. Sclerotic stylet is the critical taxonomic character to identify species of genus Gieysztoria . The genus Gieysztoria is divided into two groups, Aequales and Inaequales (Luther, 1955). The stylet of Aequales usually contains a proximal girdle and lateral spines which are similar in size and shape. Species of Inaequales have complicated stylets, and are divided into four subgroups: Fenestratae, Radiatae, Aberrantes, Falcatae (Luther, 1955; Damborenea et al ., 2005; Van Steenkiste et al ., 2012). The proximal girdle of Fenestratae has one or more pores; Radiatae does not have pores, and has actinomorphic stylet; Aberrantes has the stylet irregular (Luther, 1955; Damborenea et al ., 2005). The stylet of the Falcatae is a small thick hook-like spine, which is similar to a raptor’s claw (Van Steenkiste et al. , 2012). By comparing, the new species belongs to Gieysztoria , Inaequales, Aberrantes. Nine species, G . shantouensis Zhang, Li & Wang, sp. nov. , G. oligocentra (Steinböck, 1948), G. papii (Young, 1977), G. pseudodiadema (Noreña-Janssen, 1995), G. shenzhensis (Wang & Wu, 2005b), G. pulchra (Wang & Deng, 2006), G. macrovariata (Weise, 1942), G. macrovariata 9-spinosa (Luther, 1955), G. octospinosa (Luther, 1955) are similar because of the number of the terminal spines of stylet. Among them, the stylet of G. oligocentra , G. papii and G. pseudodiadema have 8, 6 and 8 spines, respectively. However, G. oligocentra and G. papii belongs to Aequales, and G. pseudodiadema and the new species belong to Inaequales. The stylet of G. pseudodiadema is 60–70 μ m long, and the spines are 42 μ m long. The shape of stylet between G. pseudodiadema and the new species is significantly different. And the length of stylet of the new species is 2 times as long as G. pseudodiadema (Luther, 1955; Damborenea et al ., 2005). G. shenzhensis has 8 spines within its stylet, with 4 thick and 4 flagellous spines, actinomorphic, belongs to Radiatae, a subgroup of Inaequales (Luther, 1955), which is significant different with the new species. G. pulchra, G. macrovariata and G. macrovariata 9-spinosa belong to the same subgroup with the new species (Luther, 1955). They have 13, 10 and 9 spines within their stylets, respectively, while the new species has 7 spines within its stylet. The stylet of G. octospinosa is the most similar to the new species. However, its stylet is 55 μ m in length, has 8 sclerotic spines, and spines in the middle are longer than those in the lateral. The stylet of the new species is 137 μ m long in total, has 8 spines, and spines in the middle are shorter than those in the lateral. : Published as part of Zhang, Hang, Li, Yi-Kui, Wu, Cheng-Chen & Wang, An-Tai, 2014, Two new species of the genus Gieysztoria (Rhabdocoela: Dalyelliidae) from China, pp. 485-495 in Zoological Systematics 39 (4) on pages 486-488, DOI: 10.11865/zs.20140402, http://zenodo.org/record/4617380 : {"references": ["Luther, A. 1955. Die Dalyelliiden (Turbellaria, Neorhabdocoela). Eine Monographie. Acta Zoologica Fennica, 87: 1 - 337.", "Damborenea, C., Brusa, F. and Norena, C. 2005. New species of Gieysztoria (Platyhelminthes, Rhabdocoela) from Peruvian Amazon floodplain with description of their stylet ultrastructure. Zoological Science, 22: 1 319 - 1 329.", "Van Steenkiste, N., Tessens, B., Willems, W., Van Mulken, E. and Artois, T. 2012. The \" Falcatae \", a new Gondwanan species group of Gieysztoria (Platyhelminthes: Dalyelliidae), with the description of five new species. Zoologischer Anzeiger, 251 (4): 344 - 356.", "Steinbock, O. 1948. Freshwater turbellaria. In: Frioriksson, A. and Tuxen, S. L. (eds.), The Zoology of Iceland. Vol. II, part 10. America: Munksgaard Copenhagen. 40 pp.", "Young, J. O. 1977. Six new species and records of two established species of Dalyelliidae (Turbellaria: Neorhabdocoela) from freshwater habitats in Kenya, East Africa. Journal of Natural History, 11: 1 - 15. 11 - 12, fig. 6.", "Weise, M. 1942. Die Rhabdocoela und Alloecoela der Kurmark mit besonderer Berucksichtigung des Gebietes von Gross-Berlin. I. Sitz. - ber. Ges. naturf. Freunde, Berlin. pp. 143 - 204. f. 17 - 20."]} Text Iceland DataCite Metadata Store (German National Library of Science and Technology) Willems ENVELOPE(-63.283,-63.283,-64.950,-64.950) Tuxen ENVELOPE(-64.133,-64.133,-65.267,-65.267) Brusa ENVELOPE(-45.517,-45.517,-60.533,-60.533)

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