Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.

Higginsarctus shintai gen. et sp. nov. urn:lsid:zoobank.org:act: 599082EE-9564-47C0-9CF9-A1EFD5F71F31 Figs 8–9 Diagnosis (characters uniquely defining the taxon are written in bold) Characterized by flat, comma-shaped secondary clavae . Unilobed, rectangular antero-lateral alae with weakly undulatin...

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Main Authors: Hansen, Jesper G., Kristensen, Reinhardt M.
Format: Text
Language:unknown
Published: Zenodo 2021
Subjects:
Biodiversity
Taxonomy
Animalia
Tardigrada
Heterotardigrada
Arthrotardigrada
Halechiniscidae
Higginsarctus
Higginsarctus shintai
Cupola
Kristensen
Reinhardt
North Atlantic
Online Access:https://dx.doi.org/10.5281/zenodo.5213160
https://zenodo.org/record/5213160
id ftdatacite:10.5281/zenodo.5213160
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
Tardigrada
Heterotardigrada
Arthrotardigrada
Halechiniscidae
Higginsarctus
Higginsarctus shintai
spellingShingle Biodiversity
Taxonomy
Animalia
Tardigrada
Heterotardigrada
Arthrotardigrada
Halechiniscidae
Higginsarctus
Higginsarctus shintai
Hansen, Jesper G.
Kristensen, Reinhardt M.
Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Tardigrada
Heterotardigrada
Arthrotardigrada
Halechiniscidae
Higginsarctus
Higginsarctus shintai
description Higginsarctus shintai gen. et sp. nov. urn:lsid:zoobank.org:act: 599082EE-9564-47C0-9CF9-A1EFD5F71F31 Figs 8–9 Diagnosis (characters uniquely defining the taxon are written in bold) Characterized by flat, comma-shaped secondary clavae . Unilobed, rectangular antero-lateral alae with weakly undulating distal margins without indentations. Unilobed, rectangular medio-lateral alae with weakly undulating distal margins without indentations. Antero-lateral alae and medio-lateral alae similar in size. Bilobed postero-lateral alae with medial pointed identation. Postero-lateral alae larger than antero-lateral alae and medio-lateral alae. Quadrilobed, rectangular caudal ala with 3 arched indentations, 1 medial and 2 lateral. Medial lobes of caudal ala small and rounded, lateral lobes larger, nearly rectangular. Leg sense organs I–III with similar length. Etymology The new species is dedicated to Dr Shinta Fujimoto for his contributions to tardigradology. Material examined Holotype FRANCE • ♀; North Atlantic Ocean, English Channel, Bay of Morlaix, Roscoff; 48°43′ N, 03°54′ W; depth 20–30 m; 15 Mar. 1982; R.M. Kristensen leg.; Dentalium sand; NHMD-293904. Description HABITUS. The holotypic female (Figs 8–9) is 173 µm long from the anterior margin of the head to the posterior margin of the body. The body is ovoid, being broadest (106 µm) at the level between the second and third pair of legs. The dorsal cuticle has three transverse inter-segmental folds: one anterior to the first pair of legs, one between the first and second pair of legs and one between the second and third pair of legs. ALAE. Typical for the genus, eight alae, which are all clearly separated from each other, are present: frontal ala, a pair of antero-lateral alae, a pair of medio-lateral alae, a pair of postero-lateral alae and a single caudal ala (Fig. 8). Both the lateral and caudal alae appear corrugated, having transverse ridges perfectly parallel to each other. The antero-lateral alae and medio-lateral alae are all similar in size and shape being unilobed and rectangular with weakly undulating distal margins without indentations. The postero-lateral alae each have a medial pointed indentation, dividing the ala into two lobes of equal size. The caudal ala has an overall rectangular shape with a deep medial, arched indentation and a pair of lateral, arched indentations dividing the ala into four lobes. The medial lobes are small and rounded whereas the lateral lobes are larger and nearly rectangular. As in all species of the new genus, the proximal halve of the lateral and caudal alae is internally supported by continuous procuticle which sends out branching processes (ramuli) into the distal halve of the alae. SENSORY ORGANS. The head is not well defined from the body and a complete set of sense organs is present. All the cephalic cirri consist of an hourglass-shaped scapus, a long tubular portion and a protruding flagellum. As in most other species of Florarctinae the scapus of each cirrus appears somewhat outsized, enveloping the internal sensory structures rather than lining them. The internal cirri (51 µm) emerge from the frontal ala at the anterior margin of the head. The external cirri (28 µm) are inserted ventrally and the median cirrus mid-dorsally. Typical for the genus, the primary clava (57 µm) is slightly curved and non-flexible (Fig. 9A). A van der Land’s body is visible inside its base. Primary clava and lateral cirrus arise on the same cirrophore, and a common membrane (extended margin of cirrophore) surrounds the base of primary clava and lateral cirrus. A very large and thick cuticular ring supports the cirrophore internally. The secondary clavae are large, comma-shaped flat sacs (19 µm × 8 µm) flanking the mouth cone (Figs 8, 9C). The leg I sense organ (11 µm) is an unsegmented spine with a slightly swollen base and a terminal tube. The sense organs of leg II (9 µm) and III (9 µm) are unsegmented tapering spines. The fourth leg sense organ (8 µm) is an elongate papilla with a basal van der Land’s body and a terminal pore. The cirrus E (46 µm) has a prominent cirrophorus, scapus and a long tapering flagellum. LEGS, DIGITS AND CLAWS. The legs consist of coxa, femur, tibia and tarsus as found in all species of Florarctinae. A row of numerous cuticular stripes of unknown function marks the transition from femur to tibia (Fig. 8). The external digits are supported by internal hook-shaped peduncles. The external claw is simple and with a calcar. The internal claw has an accessory spine, but no calcar. All the claws are of the same size, however the external claws are thicker basally and the internal claws have an almost straight portion dorsally. An internal partition is evident as a small notch in each claw, dividing the claw in a basal portion and a distal portion. BUCCO- PHARYNGEAL APPARATUS. The mouth cone is large with a terminal, very refractive cupola, through which the distal part of the stylet sheaths, protrude. The buccal tube (Fig. 9A–B) is 48 µm long and thin and has a small refractive bulb anterior to the placoids. The stylets are 50 µm long and very thin, each with a well-developed furca. The placoids are short, thick and slightly curved. REPRODUCTIVE SYSTEM. Consists of a single ovary bearing several small oocytes. The ovary is 62 µm long and is attached dorsally, at the level of the second pair of legs. The gonopore consists of a rosette with six large cells. The two cuticular seminal receptacles each consist of a spheroid vesicle and an S-shaped genital duct (Fig. 8). The cuticle is slightly elevated at each duct opening but does not form a true papilla. The anus is a trilobed cuticular system consisting of two large lateral lobes and a smaller posterior lobe. Ecology and distribution Known only from the type locality. : Published as part of Hansen, Jesper G. & Kristensen, Reinhardt M., 2021, A new genus and five new species of the subfamily Florarctinae (Tardigrada, Arthrotardigrada), pp. 149-184 in European Journal of Taxonomy 762 (1) on pages 163-166, DOI: 10.5852/ejt.2021.762.1461, http://zenodo.org/record/5211787
format Text
author Hansen, Jesper G.
Kristensen, Reinhardt M.
author_facet Hansen, Jesper G.
Kristensen, Reinhardt M.
author_sort Hansen, Jesper G.
title Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
title_short Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
title_full Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
title_fullStr Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
title_full_unstemmed Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov.
title_sort higginsarctus shintai hansen & kristensen 2021, gen. et sp. nov.
publisher Zenodo
publishDate 2021
url https://dx.doi.org/10.5281/zenodo.5213160
https://zenodo.org/record/5213160
long_lat ENVELOPE(-70.444,-70.444,-69.347,-69.347)
ENVELOPE(-159.667,-159.667,-86.333,-86.333)
ENVELOPE(177.200,177.200,-84.200,-84.200)
geographic Cupola
Kristensen
Reinhardt
geographic_facet Cupola
Kristensen
Reinhardt
genre North Atlantic
genre_facet North Atlantic
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spelling ftdatacite:10.5281/zenodo.5213160 2023-05-15T17:37:36+02:00 Higginsarctus shintai Hansen & Kristensen 2021, gen. et sp. nov. Hansen, Jesper G. Kristensen, Reinhardt M. 2021 https://dx.doi.org/10.5281/zenodo.5213160 https://zenodo.org/record/5213160 unknown Zenodo http://zenodo.org/record/5211787 http://publication.plazi.org/id/DA41AD017B49FFE5FFC7FFE496557629 http://zoobank.org/43F5C871-A651-47FB-B0A8-29C41EEEEBDD https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5852/ejt.2021.762.1461 http://zenodo.org/record/5211787 http://publication.plazi.org/id/DA41AD017B49FFE5FFC7FFE496557629 https://dx.doi.org/10.5281/zenodo.5211807 https://dx.doi.org/10.5281/zenodo.5211809 http://zoobank.org/43F5C871-A651-47FB-B0A8-29C41EEEEBDD https://dx.doi.org/10.5281/zenodo.5213159 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 Tardigrada Heterotardigrada Arthrotardigrada Halechiniscidae Higginsarctus Higginsarctus shintai Text Taxonomic treatment article-journal ScholarlyArticle 2021 ftdatacite https://doi.org/10.5281/zenodo.5213160 https://doi.org/10.5852/ejt.2021.762.1461 https://doi.org/10.5281/zenodo.5211807 https://doi.org/10.5281/zenodo.5211809 https://doi.org/10.5281/zenodo.5213159 2021-11-05T12:55:41Z Higginsarctus shintai gen. et sp. nov. urn:lsid:zoobank.org:act: 599082EE-9564-47C0-9CF9-A1EFD5F71F31 Figs 8–9 Diagnosis (characters uniquely defining the taxon are written in bold) Characterized by flat, comma-shaped secondary clavae . Unilobed, rectangular antero-lateral alae with weakly undulating distal margins without indentations. Unilobed, rectangular medio-lateral alae with weakly undulating distal margins without indentations. Antero-lateral alae and medio-lateral alae similar in size. Bilobed postero-lateral alae with medial pointed identation. Postero-lateral alae larger than antero-lateral alae and medio-lateral alae. Quadrilobed, rectangular caudal ala with 3 arched indentations, 1 medial and 2 lateral. Medial lobes of caudal ala small and rounded, lateral lobes larger, nearly rectangular. Leg sense organs I–III with similar length. Etymology The new species is dedicated to Dr Shinta Fujimoto for his contributions to tardigradology. Material examined Holotype FRANCE • ♀; North Atlantic Ocean, English Channel, Bay of Morlaix, Roscoff; 48°43′ N, 03°54′ W; depth 20–30 m; 15 Mar. 1982; R.M. Kristensen leg.; Dentalium sand; NHMD-293904. Description HABITUS. The holotypic female (Figs 8–9) is 173 µm long from the anterior margin of the head to the posterior margin of the body. The body is ovoid, being broadest (106 µm) at the level between the second and third pair of legs. The dorsal cuticle has three transverse inter-segmental folds: one anterior to the first pair of legs, one between the first and second pair of legs and one between the second and third pair of legs. ALAE. Typical for the genus, eight alae, which are all clearly separated from each other, are present: frontal ala, a pair of antero-lateral alae, a pair of medio-lateral alae, a pair of postero-lateral alae and a single caudal ala (Fig. 8). Both the lateral and caudal alae appear corrugated, having transverse ridges perfectly parallel to each other. The antero-lateral alae and medio-lateral alae are all similar in size and shape being unilobed and rectangular with weakly undulating distal margins without indentations. The postero-lateral alae each have a medial pointed indentation, dividing the ala into two lobes of equal size. The caudal ala has an overall rectangular shape with a deep medial, arched indentation and a pair of lateral, arched indentations dividing the ala into four lobes. The medial lobes are small and rounded whereas the lateral lobes are larger and nearly rectangular. As in all species of the new genus, the proximal halve of the lateral and caudal alae is internally supported by continuous procuticle which sends out branching processes (ramuli) into the distal halve of the alae. SENSORY ORGANS. The head is not well defined from the body and a complete set of sense organs is present. All the cephalic cirri consist of an hourglass-shaped scapus, a long tubular portion and a protruding flagellum. As in most other species of Florarctinae the scapus of each cirrus appears somewhat outsized, enveloping the internal sensory structures rather than lining them. The internal cirri (51 µm) emerge from the frontal ala at the anterior margin of the head. The external cirri (28 µm) are inserted ventrally and the median cirrus mid-dorsally. Typical for the genus, the primary clava (57 µm) is slightly curved and non-flexible (Fig. 9A). A van der Land’s body is visible inside its base. Primary clava and lateral cirrus arise on the same cirrophore, and a common membrane (extended margin of cirrophore) surrounds the base of primary clava and lateral cirrus. A very large and thick cuticular ring supports the cirrophore internally. The secondary clavae are large, comma-shaped flat sacs (19 µm × 8 µm) flanking the mouth cone (Figs 8, 9C). The leg I sense organ (11 µm) is an unsegmented spine with a slightly swollen base and a terminal tube. The sense organs of leg II (9 µm) and III (9 µm) are unsegmented tapering spines. The fourth leg sense organ (8 µm) is an elongate papilla with a basal van der Land’s body and a terminal pore. The cirrus E (46 µm) has a prominent cirrophorus, scapus and a long tapering flagellum. LEGS, DIGITS AND CLAWS. The legs consist of coxa, femur, tibia and tarsus as found in all species of Florarctinae. A row of numerous cuticular stripes of unknown function marks the transition from femur to tibia (Fig. 8). The external digits are supported by internal hook-shaped peduncles. The external claw is simple and with a calcar. The internal claw has an accessory spine, but no calcar. All the claws are of the same size, however the external claws are thicker basally and the internal claws have an almost straight portion dorsally. An internal partition is evident as a small notch in each claw, dividing the claw in a basal portion and a distal portion. BUCCO- PHARYNGEAL APPARATUS. The mouth cone is large with a terminal, very refractive cupola, through which the distal part of the stylet sheaths, protrude. The buccal tube (Fig. 9A–B) is 48 µm long and thin and has a small refractive bulb anterior to the placoids. The stylets are 50 µm long and very thin, each with a well-developed furca. The placoids are short, thick and slightly curved. REPRODUCTIVE SYSTEM. Consists of a single ovary bearing several small oocytes. The ovary is 62 µm long and is attached dorsally, at the level of the second pair of legs. The gonopore consists of a rosette with six large cells. The two cuticular seminal receptacles each consist of a spheroid vesicle and an S-shaped genital duct (Fig. 8). The cuticle is slightly elevated at each duct opening but does not form a true papilla. The anus is a trilobed cuticular system consisting of two large lateral lobes and a smaller posterior lobe. Ecology and distribution Known only from the type locality. : Published as part of Hansen, Jesper G. & Kristensen, Reinhardt M., 2021, A new genus and five new species of the subfamily Florarctinae (Tardigrada, Arthrotardigrada), pp. 149-184 in European Journal of Taxonomy 762 (1) on pages 163-166, DOI: 10.5852/ejt.2021.762.1461, http://zenodo.org/record/5211787 Text North Atlantic DataCite Metadata Store (German National Library of Science and Technology) Cupola ENVELOPE(-70.444,-70.444,-69.347,-69.347) Kristensen ENVELOPE(-159.667,-159.667,-86.333,-86.333) Reinhardt ENVELOPE(177.200,177.200,-84.200,-84.200)

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