Tholoarctus oleseni

Description of Tholoarctus oleseni nov. sp. Diagnosis. Leg sense organs on all legs; very long two-segmented sense organ on first leg. Epicuticular pillars surrounding the secondary clavae very refractive. Enlarged secondary clavae surrounding the external cirrus in both female and male. Stylet shea...

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Main Authors: Jørgensen, Aslak, Boesgaard, Tom M., Møbjerg, Nadja, Kristensen, Reinhardt M.
Format: Text
Language:unknown
Published: Zenodo 2014
Subjects:
Biodiversity
Taxonomy
Greenland
Reinhardt
Kristensen
Fish Rock
Disko Bay
Tardigrade
Online Access:https://dx.doi.org/10.5281/zenodo.5691101
https://zenodo.org/record/5691101
id ftdatacite:10.5281/zenodo.5691101
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
spellingShingle Biodiversity
Taxonomy
Jørgensen, Aslak
Boesgaard, Tom M.
Møbjerg, Nadja
Kristensen, Reinhardt M.
Tholoarctus oleseni
topic_facet Biodiversity
Taxonomy
description Description of Tholoarctus oleseni nov. sp. Diagnosis. Leg sense organs on all legs; very long two-segmented sense organ on first leg. Epicuticular pillars surrounding the secondary clavae very refractive. Enlarged secondary clavae surrounding the external cirrus in both female and male. Stylet sheaths covering half the length of the stylet. Clavate spermatozoa with long flagellum. Type material. The male holotype [ZMUC TAR 1303] from Fish Rock Cave was collected on 11. January 1999. A total of three specimens were recovered from Fish Rock Cave and five from Jim’s Cave (Table 1). Etymology. The name honours Jørgen Olesen for his research on Crustacea in marine caves. Description of the holotype. The holotypic male is 185 µm long. Orientation of the preparation prevented estimating the maximum width, however, the height is 78 µm between the second and third leg pair, measured on the outer epicuticle. The body is thin and elongate with the typical bell-shaped outer epicuticle surrounding the trunk (Fig. 16 A; allotypic female. Fig. 16 E; holotypic male). Internal epicuticle with numerous well developed pillars (Fig. 15). The 14 µm long median cirrus consists of scapus and flagellum. The 13 µm internal cirrus is similar to the median cirrus; however, the transition between scapus and flagellum is more marked in the median cirrus. The 23 µm external cirrus is surrounded by the secondary clava. The 23 µm lateral cirrus is situated close to the primary clava and the two structures share an indistinct common cirrophore and are partially enclosed in a funnel-shaped epicuticular fold. The 6.5 µm short ovoid primary clava has a distinct “van der Land’s organ”. The enlarged secondary clava surrounds the external cirrus nearly closing on itself (Fig. 16 B; allotypic female). The epicuticular pillars surrounding the secondary clava are very refractive. No eye spots were observed. The buccal apparatus is typical of the genus with a 30 µm long buccal tube with two lateral projections at midlength. The stylets are 31 µm long. The long and thin stylet supports (8 µm) articulate with the furcae (Fig. 16 C; allotypic female). Stylet sheaths cover half the length of the stylet. The placoids consist only of a cuticular lining and three small calcified apodemes can be observed in the anterior part of the pharyngeal bulb. Sense organs are present on all four pairs of legs; that of the first leg is 19 µm long and consists of scapus and flagellum. The simple spines on the second and third legs are each 5 µm long. The sense organ on the fourth leg is 17.5 µm long and comprises a prominent cirrophore similar to the primary clava with “van der Land’s organ”, scapus and a long flagellum. It is partially enclosed in a funnel-shaped epicuticular fold. Cirrus E is 47.5 µm long and consists of a cirrophore, a corrugated scapus and flagellum. It is contained in an elongated cuticular fold. The legs end in four digits (Fig. 16 D; allotypic female). The external digits in the first leg are 9 µm and the internal digits 14 µm long. The digits on the fourth leg pair are longer with an external and internal digit length of 10 µm and 18 µm, respectively. The internal digits have claws with a strong main hook, a basal accessory hook and a terminal accessory spur. The external digits have simple claws. The dorsal testis is filled with clavate spermatozoa with long flagella and a few developing spermatids (Fig. 15). Surprisingly the two seminal vesicles are not filled with mature spermatozoa, but developing spermatids. The ventral gonopore opens 6.5 µm from the anus. Morphometric data of the holotype of Tholoarctus oleseni nov. sp. is presented in Table 2. Remarks. Tholoarctus oleseni nov. sp. is clearly distinguishable from T. natans due to the presence of leg sense organs on all legs; a feature that has forced us to emend the generic diagnosis. Furthermore, we suggest that Styraconyx testudo D’Addabbo Gallo, Grimaldi de Zio & Morone De Lucia, 1984 and Tholoarctus natans pedunculatus should be the objects of taxonomic revision. In our opinion S. testudo should be transferred to Tholoarctus , and T. n. pedunculatus should be elevated from subspecies to full species (based on the presence of eyes and the type of peduncle in the internal toes). The two-clawed larva had not yet developed the bell formed by the outer epicutle (Fig. 17) and therefore is similar to a Styraconyx Thulin, 1942 species, e.g. Styraconyx qivitoq Kristensen & Higgins, 1984. Furthermore, the claws are simple with only the primary hook, as in the holotypic male. The allotypic female of T. oleseni nov. sp. have claws similar to the female T. natans , i.e. does not have simple claws on the external digits. The external claws are similar in females of T. natans , T. n. pedunculatus , T. oleseni nov. sp. and Styraconyx testudo and consist of an accessory spine, a primary hook and a secondary hook. FIGURE 15. Drawing of the holotypic male of Tholoarctus oleseni nov. sp. (lateral view). Amoebocytes attached to the midgut. Abbreviations: am—amoebocyte; an—anus; bt—buccal tube; cE—cirrus E; ec—external cirrus; go—gonopore; ic—internal cirrus; lc—lateral cirrus; mc—median cirrus; mg—midgut; mo—mouth cone; oe—outer epicuticle; pb—pharyngeal bulb; pc—primary clava; pi—cuticular pillars; sc—secondary clava; se 1–4 —leg sense organs 1–4; st—stylet; sv—seminal vesicle; te—testis. : Published as part of Jørgensen, Aslak, Boesgaard, Tom M., Møbjerg, Nadja & Kristensen, Reinhardt M., 2014, The tardigrade fauna of Australian marine caves: With descriptions of nine new species of Arthrotardigrada, pp. 401-443 in Zootaxa 3802 (4) on pages 431-432, DOI: 10.11646/zootaxa.3802.4.1, http://zenodo.org/record/252490 : {"references": ["D'Addabbo Gallo, M., Grimaldi de Zio, S. & Morone de Lucia, M. R. (1984) Styraconyx testudo n. sp., a new Styraconyxinae of the Mediterranean Sea (Arthrotardigrada: Halechiniscidae). Oebalia, 10, 95 - 103.", "Thulin, G. (1942) Ein neuer mariner Tardigrad. Meddelanden fran Goteborgs Musei Zoologiske Avdeling, 99, 1 - 10.", "Kristensen, R. M. & Higgins, R. P. (1984) Revision of Styracony x (Tardigrada: Halechiniscidae), with description of two new species from Disko Bay, West Greenland. Smithsonian Contributions to Zoology, 391, 1 - 40. http: // dx. doi. org / 10.5479 / si. 00810282.391"]}
format Text
author Jørgensen, Aslak
Boesgaard, Tom M.
Møbjerg, Nadja
Kristensen, Reinhardt M.
author_facet Jørgensen, Aslak
Boesgaard, Tom M.
Møbjerg, Nadja
Kristensen, Reinhardt M.
author_sort Jørgensen, Aslak
title Tholoarctus oleseni
title_short Tholoarctus oleseni
title_full Tholoarctus oleseni
title_fullStr Tholoarctus oleseni
title_full_unstemmed Tholoarctus oleseni
title_sort tholoarctus oleseni
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.5691101
https://zenodo.org/record/5691101
long_lat ENVELOPE(177.200,177.200,-84.200,-84.200)
ENVELOPE(-159.667,-159.667,-86.333,-86.333)
ENVELOPE(-55.631,-55.631,52.167,52.167)
geographic Greenland
Reinhardt
Kristensen
Fish Rock
geographic_facet Greenland
Reinhardt
Kristensen
Fish Rock
genre Disko Bay
Greenland
Tardigrade
genre_facet Disko Bay
Greenland
Tardigrade
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op_rights Open Access
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5281/zenodo.5691101
https://doi.org/10.11646/zootaxa.3802.4.1
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spelling ftdatacite:10.5281/zenodo.5691101 2023-05-15T16:01:04+02:00 Tholoarctus oleseni Jørgensen, Aslak Boesgaard, Tom M. Møbjerg, Nadja Kristensen, Reinhardt M. 2014 https://dx.doi.org/10.5281/zenodo.5691101 https://zenodo.org/record/5691101 unknown Zenodo http://zenodo.org/record/252490 http://publication.plazi.org/id/FFCDFFCFFFA7FFFD68591B0DD61FA000 http://table.plazi.org/id/DF226629FFA4FFFE68CE1B95D7B1A0EF http://zoobank.org/CF479CC3-C014-460D-9C71-3A6C2AB2778B https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3802.4.1 http://zenodo.org/record/252490 http://publication.plazi.org/id/FFCDFFCFFFA7FFFD68591B0DD61FA000 https://dx.doi.org/10.5281/zenodo.252492 http://table.plazi.org/id/DF226629FFA4FFFE68CE1B95D7B1A0EF http://zoobank.org/CF479CC3-C014-460D-9C71-3A6C2AB2778B https://dx.doi.org/10.5281/zenodo.5691100 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Taxonomic treatment article-journal Text ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.5691101 https://doi.org/10.11646/zootaxa.3802.4.1 https://doi.org/10.5281/zenodo.252492 https://doi.org/10.5281/zenodo.5691100 2022-02-08T13:42:09Z Description of Tholoarctus oleseni nov. sp. Diagnosis. Leg sense organs on all legs; very long two-segmented sense organ on first leg. Epicuticular pillars surrounding the secondary clavae very refractive. Enlarged secondary clavae surrounding the external cirrus in both female and male. Stylet sheaths covering half the length of the stylet. Clavate spermatozoa with long flagellum. Type material. The male holotype [ZMUC TAR 1303] from Fish Rock Cave was collected on 11. January 1999. A total of three specimens were recovered from Fish Rock Cave and five from Jim’s Cave (Table 1). Etymology. The name honours Jørgen Olesen for his research on Crustacea in marine caves. Description of the holotype. The holotypic male is 185 µm long. Orientation of the preparation prevented estimating the maximum width, however, the height is 78 µm between the second and third leg pair, measured on the outer epicuticle. The body is thin and elongate with the typical bell-shaped outer epicuticle surrounding the trunk (Fig. 16 A; allotypic female. Fig. 16 E; holotypic male). Internal epicuticle with numerous well developed pillars (Fig. 15). The 14 µm long median cirrus consists of scapus and flagellum. The 13 µm internal cirrus is similar to the median cirrus; however, the transition between scapus and flagellum is more marked in the median cirrus. The 23 µm external cirrus is surrounded by the secondary clava. The 23 µm lateral cirrus is situated close to the primary clava and the two structures share an indistinct common cirrophore and are partially enclosed in a funnel-shaped epicuticular fold. The 6.5 µm short ovoid primary clava has a distinct “van der Land’s organ”. The enlarged secondary clava surrounds the external cirrus nearly closing on itself (Fig. 16 B; allotypic female). The epicuticular pillars surrounding the secondary clava are very refractive. No eye spots were observed. The buccal apparatus is typical of the genus with a 30 µm long buccal tube with two lateral projections at midlength. The stylets are 31 µm long. The long and thin stylet supports (8 µm) articulate with the furcae (Fig. 16 C; allotypic female). Stylet sheaths cover half the length of the stylet. The placoids consist only of a cuticular lining and three small calcified apodemes can be observed in the anterior part of the pharyngeal bulb. Sense organs are present on all four pairs of legs; that of the first leg is 19 µm long and consists of scapus and flagellum. The simple spines on the second and third legs are each 5 µm long. The sense organ on the fourth leg is 17.5 µm long and comprises a prominent cirrophore similar to the primary clava with “van der Land’s organ”, scapus and a long flagellum. It is partially enclosed in a funnel-shaped epicuticular fold. Cirrus E is 47.5 µm long and consists of a cirrophore, a corrugated scapus and flagellum. It is contained in an elongated cuticular fold. The legs end in four digits (Fig. 16 D; allotypic female). The external digits in the first leg are 9 µm and the internal digits 14 µm long. The digits on the fourth leg pair are longer with an external and internal digit length of 10 µm and 18 µm, respectively. The internal digits have claws with a strong main hook, a basal accessory hook and a terminal accessory spur. The external digits have simple claws. The dorsal testis is filled with clavate spermatozoa with long flagella and a few developing spermatids (Fig. 15). Surprisingly the two seminal vesicles are not filled with mature spermatozoa, but developing spermatids. The ventral gonopore opens 6.5 µm from the anus. Morphometric data of the holotype of Tholoarctus oleseni nov. sp. is presented in Table 2. Remarks. Tholoarctus oleseni nov. sp. is clearly distinguishable from T. natans due to the presence of leg sense organs on all legs; a feature that has forced us to emend the generic diagnosis. Furthermore, we suggest that Styraconyx testudo D’Addabbo Gallo, Grimaldi de Zio & Morone De Lucia, 1984 and Tholoarctus natans pedunculatus should be the objects of taxonomic revision. In our opinion S. testudo should be transferred to Tholoarctus , and T. n. pedunculatus should be elevated from subspecies to full species (based on the presence of eyes and the type of peduncle in the internal toes). The two-clawed larva had not yet developed the bell formed by the outer epicutle (Fig. 17) and therefore is similar to a Styraconyx Thulin, 1942 species, e.g. Styraconyx qivitoq Kristensen & Higgins, 1984. Furthermore, the claws are simple with only the primary hook, as in the holotypic male. The allotypic female of T. oleseni nov. sp. have claws similar to the female T. natans , i.e. does not have simple claws on the external digits. The external claws are similar in females of T. natans , T. n. pedunculatus , T. oleseni nov. sp. and Styraconyx testudo and consist of an accessory spine, a primary hook and a secondary hook. FIGURE 15. Drawing of the holotypic male of Tholoarctus oleseni nov. sp. (lateral view). Amoebocytes attached to the midgut. Abbreviations: am—amoebocyte; an—anus; bt—buccal tube; cE—cirrus E; ec—external cirrus; go—gonopore; ic—internal cirrus; lc—lateral cirrus; mc—median cirrus; mg—midgut; mo—mouth cone; oe—outer epicuticle; pb—pharyngeal bulb; pc—primary clava; pi—cuticular pillars; sc—secondary clava; se 1–4 —leg sense organs 1–4; st—stylet; sv—seminal vesicle; te—testis. : Published as part of Jørgensen, Aslak, Boesgaard, Tom M., Møbjerg, Nadja & Kristensen, Reinhardt M., 2014, The tardigrade fauna of Australian marine caves: With descriptions of nine new species of Arthrotardigrada, pp. 401-443 in Zootaxa 3802 (4) on pages 431-432, DOI: 10.11646/zootaxa.3802.4.1, http://zenodo.org/record/252490 : {"references": ["D'Addabbo Gallo, M., Grimaldi de Zio, S. & Morone de Lucia, M. R. (1984) Styraconyx testudo n. sp., a new Styraconyxinae of the Mediterranean Sea (Arthrotardigrada: Halechiniscidae). Oebalia, 10, 95 - 103.", "Thulin, G. (1942) Ein neuer mariner Tardigrad. Meddelanden fran Goteborgs Musei Zoologiske Avdeling, 99, 1 - 10.", "Kristensen, R. M. & Higgins, R. P. (1984) Revision of Styracony x (Tardigrada: Halechiniscidae), with description of two new species from Disko Bay, West Greenland. Smithsonian Contributions to Zoology, 391, 1 - 40. http: // dx. doi. org / 10.5479 / si. 00810282.391"]} Text Disko Bay Greenland Tardigrade DataCite Metadata Store (German National Library of Science and Technology) Greenland Reinhardt ENVELOPE(177.200,177.200,-84.200,-84.200) Kristensen ENVELOPE(-159.667,-159.667,-86.333,-86.333) Fish Rock ENVELOPE(-55.631,-55.631,52.167,52.167)

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