Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.

Adropion afroglacialis sp. nov. Zawierucha, Gąsiorek & Buda Material. Holotype (slide U/8) and paratypes including 35 individuals, one simplex and two exuviae (slides numbers: U/2–9, U/12–13, U/15–20) are deposited in the Department of Animal Taxonomy and Ecology at Adam Mickiewicz Uni...

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Main Authors: Zawierucha, Krzysztof, Gąsiorek, Piotr, Buda, Jakub, Uetake, Jun, Janko, Karel, Fontaneto, Diego
Format: Text
Language:unknown
Published: Zenodo 2018
Subjects:
Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Hypsibiidae
Adropion
Adropion afroglacialis
Antarctic
Mount Stanley
Antarc*
Tardigrade
water bear
Online Access:https://dx.doi.org/10.5281/zenodo.5990440
https://zenodo.org/record/5990440
id ftdatacite:10.5281/zenodo.5990440
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
Eutardigrada
Parachela
Hypsibiidae
Adropion
Adropion afroglacialis
spellingShingle Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Hypsibiidae
Adropion
Adropion afroglacialis
Zawierucha, Krzysztof
Gąsiorek, Piotr
Buda, Jakub
Uetake, Jun
Janko, Karel
Fontaneto, Diego
Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Hypsibiidae
Adropion
Adropion afroglacialis
description Adropion afroglacialis sp. nov. Zawierucha, G&aogon;siorek & Buda Material. Holotype (slide U/8) and paratypes including 35 individuals, one simplex and two exuviae (slides numbers: U/2–9, U/12–13, U/15–20) are deposited in the Department of Animal Taxonomy and Ecology at Adam Mickiewicz University, Pozna&nacute;, Poland. Five paratypes (slides UG.007.01 [U/1] and UG.007.02[U/14], and three paratypes mounted on a SEM stub) are deposited in the Institute of Zoology and Biomedical Research, Jagiellonian University, Kraków, Poland. Type locality. Mount Stanley, Rwenzori Mountains (0°22'31''N, 29°52'40''E; 4790 m asl), Uganda. Etymology. The name afroglacialis means “occurring on an African glacier” and refers to the ecosystem where the new species was found. Description. Body colourless or whitish in vivo as well as in slide mounts (Fig. 2A). Cuticle covered with faint irregular granulation (granules forming small dots), more visible on dorsal side and legs, sometimes poorly visible (Figs. 2B–E), for details see Remarks. Eyes absent in mounted specimens (Figs. 2A, 3A–B). Oral cavity armature not visible under PCM (Figs. 3A–B). Stylet furcae of the Hypsibius - type, unmodified (Figs. 3A–B). Drop-like thickening absent at the junction between the buccal and the pharyngeal tube (Figs. 2A, 3A–B). Annulation of the pharyngeal tube clearly visible in DIC (Fig. 3A) as a single narrow annuli (Fig. 3D). Pharynx with three double rows of macroplacoids, microplacoid and septulum (Figs. 3A–C). The apophyses clearly separated from the 1 st macroplacoids. All macroplacoids clearly separated. Macroplacoid length sequence 2<1<3 (however in five specimens out of twenty four the first macroplacoid is shorter than the second—the difference ranges are 0.1–0.2 µm); macroplacoids bar-shaped, arranged in parallel. All macroplacoids without constrictions (Figs. 3A–C). Microplacoids in the form of small round granules. Elongated septulum present (Figs. 3A–C). Claws of the Hypsibius type, with widened bases and with obvious accessory points on the primary branches (Figs. 4A–E). On the primary branch, at the border between accessory points and primary claw branch, a thick line is visible along entire branch length. Internal and anterior claws usually with two septa dividing the claw into the basal portion, the secondary branch, and the primary branch (Fig. 4C). Claws with poorly visible pseudolunulae (Figs. 4A–D, arrowheads). Bases of all claws smooth. Cuticular bars absent. ......continued on the next page Remarks and differential diagnosis. Granulation is poorly visible or not visible on some individuals, completely undistinguishable in SEM. Granulation is invisible in SEM, but is visible in both PCM and DIC, indicating that it may be comprised of depressions (fossae) covered with cuticle. On the holotype, granulation is visible only in some areas on the dorsal side. Thus, observation of cuticle should be done carefully. In five specimens, the first macroplacoid is shorter than the second; the difference ranges between 0.1–0.2 µm. Currently, the genus Adropion consist of twenty species (Degma et al . 2009–2017), but from a molecular point of view the genus appears polyphyletic and potentially with cryptic diversity (Bertolani et al . 2014). It is first report of the genus Adropion from Uganda (McInnes et al . 2017). Apart from the peculiar granulation on cuticle, by having three macroplacoids, microplacoid and septulum in the pharynx, the new species is most similar to the following Adropion species: A. gordonense (Pilato, Claxton & Horning, 1991), A. greveni (Dastych, 1984), A. linzhiensis (Li, 2007), and A. onorei (Pilato, Binda, Napolitano & Moncada, 2002), but it specifically differs from: - A. gordonense by clearly smaller pharyngeal apophyses (compare: Fig. 1b in Pilato et al . 1991), and absence of thickened bars under internal claws I–III. - A. greveni by absence of long bars under internal claws I–III, the absence of spines under the claws, and much shorter macroplacoid row and all macroplacoids (macroplacoid row length 7.3–11.4 µm in A. afroglacialis sp. nov. vs 18–24 µm in A. greveni ). - A. linzhiensis by having a less elongated body (compare: Figs. 6 –7 in Li (2007)), a different macroplacoid length sequence (2<1<3 in the new species vs. 1<2<3 in A. linzhiensis ), relatively shorter macroplacoid row ( 36.5–50 % in A. afroglacialis sp. nov. vs 50–57.1 % in A. linzhiensis ), and relatively shorter claws I–IV (external claw secondary branches 15.0–22.6 %, internal + anterior claw primary branches 11.4–25.7 %, and internal claw secondary branches 11.6–21.4 % in A. afroglacialis sp. nov. vs 25.0–37.5 %, 25.0–37.5 %, and 22.6–37.3 % in A. linzhiensis , respectively). - A. onorei by absence of bars under internal claws I–III, and absence of spines under posterior claws IV, the stylet supports inserted more anteriorly on the buccal tube ( 54.5–63.5 % in A. afroglacialis sp. nov. vs 64.2– 65.3 % in A. onorei ), much shorter macroplacoid row (7.3–11.4 µm [ 36.5–50 %] in A. afroglacialis sp. nov. vs 14.9–17.7 µm [ 78.8–84.3 %] in A. onorei ). : Published as part of Zawierucha, Krzysztof, Gąsiorek, Piotr, Buda, Jakub, Uetake, Jun, Janko, Karel & Fontaneto, Diego, 2018, Tardigrada and Rotifera from moss microhabitats on a disappearing Ugandan glacier, with the description of a new species of water bear, pp. 311-328 in Zootaxa 4392 (2) on pages 314-319, DOI: 10.11646/zootaxa.4392.2.5, http://zenodo.org/record/1195435 : {"references": ["Bertolani, R., Guidetti, R., Marchioro, T., Altiero, T., Rebecchi, L. & Cesari, M. (2014) Phylogeny of Eutardigrada: New molecular data and their morphological support lead to the identification of new evolutionary lineages. Molecular Phylogenetics and Evolution, 76, 110 - 126. https: // dx. doi. org / 10.1016 / j. ympev. 2014.03.006", "McInnes, S. J., Michalczyk L. & Kaczmarek, L. (2017) Annotated zoogeography of non - marine Tardigrada. Part IV: Africa. Zootaxa, 4284 (1), 1 - 7. https: // dx. doi. org / 10.11646 / zootaxa. 4284.1.1", "Dastych, H. (1984) The Tardigrada from Antarctic with descriptions of several new species. Acta Zoologica Cracoviensia, 27, 377 - 436.", "Li, X. C. (2007) A new species and a newly recorded species of tardigrade (Eutardigrada: Hypsibiidae) from China (Asia). Proceedings of the Biological Society of Washington, 120, 189 - 196. https: // dx. doi. org / 10.2988 / 0006 - 324 X (2007) 120 [189: ANSAAN] 2.0. CO; 2"]}
format Text
author Zawierucha, Krzysztof
Gąsiorek, Piotr
Buda, Jakub
Uetake, Jun
Janko, Karel
Fontaneto, Diego
author_facet Zawierucha, Krzysztof
Gąsiorek, Piotr
Buda, Jakub
Uetake, Jun
Janko, Karel
Fontaneto, Diego
author_sort Zawierucha, Krzysztof
title Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
title_short Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
title_full Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
title_fullStr Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
title_full_unstemmed Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov.
title_sort adropion afroglacialis zawierucha & gąsiorek & buda & uetake & janko & fontaneto 2018, sp. nov.
publisher Zenodo
publishDate 2018
url https://dx.doi.org/10.5281/zenodo.5990440
https://zenodo.org/record/5990440
long_lat ENVELOPE(-63.665,-63.665,-66.530,-66.530)
geographic Antarctic
Mount Stanley
geographic_facet Antarctic
Mount Stanley
genre Antarc*
Antarctic
Tardigrade
water bear
genre_facet Antarc*
Antarctic
Tardigrade
water bear
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spelling ftdatacite:10.5281/zenodo.5990440 2023-05-15T13:53:47+02:00 Adropion afroglacialis Zawierucha & Gąsiorek & Buda & Uetake & Janko & Fontaneto 2018, sp. nov. Zawierucha, Krzysztof Gąsiorek, Piotr Buda, Jakub Uetake, Jun Janko, Karel Fontaneto, Diego 2018 https://dx.doi.org/10.5281/zenodo.5990440 https://zenodo.org/record/5990440 unknown Zenodo http://zenodo.org/record/1195435 http://publication.plazi.org/id/FFBD9D12277CFFF7FFD49D40FF88FFF4 http://zoobank.org/7FD2CE64-66AB-4555-B8BF-D97A8496D2E0 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4392.2.5 http://zenodo.org/record/1195435 http://publication.plazi.org/id/FFBD9D12277CFFF7FFD49D40FF88FFF4 https://dx.doi.org/10.5281/zenodo.1195439 https://dx.doi.org/10.5281/zenodo.1195441 https://dx.doi.org/10.5281/zenodo.1195443 https://dx.doi.org/10.5281/zenodo.1195437 https://dx.doi.org/10.5281/zenodo.1195447 http://zoobank.org/7FD2CE64-66AB-4555-B8BF-D97A8496D2E0 https://dx.doi.org/10.5281/zenodo.5990441 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 Eutardigrada Parachela Hypsibiidae Adropion Adropion afroglacialis article-journal ScholarlyArticle Taxonomic treatment Text 2018 ftdatacite https://doi.org/10.5281/zenodo.5990440 https://doi.org/10.11646/zootaxa.4392.2.5 https://doi.org/10.5281/zenodo.1195439 https://doi.org/10.5281/zenodo.1195441 https://doi.org/10.5281/zenodo.1195443 https://doi.org/10.5281/zenodo.1195437 https: 2022-04-01T09:01:11Z Adropion afroglacialis sp. nov. Zawierucha, G&aogon;siorek & Buda Material. Holotype (slide U/8) and paratypes including 35 individuals, one simplex and two exuviae (slides numbers: U/2–9, U/12–13, U/15–20) are deposited in the Department of Animal Taxonomy and Ecology at Adam Mickiewicz University, Pozna&nacute;, Poland. Five paratypes (slides UG.007.01 [U/1] and UG.007.02[U/14], and three paratypes mounted on a SEM stub) are deposited in the Institute of Zoology and Biomedical Research, Jagiellonian University, Kraków, Poland. Type locality. Mount Stanley, Rwenzori Mountains (0°22'31''N, 29°52'40''E; 4790 m asl), Uganda. Etymology. The name afroglacialis means “occurring on an African glacier” and refers to the ecosystem where the new species was found. Description. Body colourless or whitish in vivo as well as in slide mounts (Fig. 2A). Cuticle covered with faint irregular granulation (granules forming small dots), more visible on dorsal side and legs, sometimes poorly visible (Figs. 2B–E), for details see Remarks. Eyes absent in mounted specimens (Figs. 2A, 3A–B). Oral cavity armature not visible under PCM (Figs. 3A–B). Stylet furcae of the Hypsibius - type, unmodified (Figs. 3A–B). Drop-like thickening absent at the junction between the buccal and the pharyngeal tube (Figs. 2A, 3A–B). Annulation of the pharyngeal tube clearly visible in DIC (Fig. 3A) as a single narrow annuli (Fig. 3D). Pharynx with three double rows of macroplacoids, microplacoid and septulum (Figs. 3A–C). The apophyses clearly separated from the 1 st macroplacoids. All macroplacoids clearly separated. Macroplacoid length sequence 2<1<3 (however in five specimens out of twenty four the first macroplacoid is shorter than the second—the difference ranges are 0.1–0.2 µm); macroplacoids bar-shaped, arranged in parallel. All macroplacoids without constrictions (Figs. 3A–C). Microplacoids in the form of small round granules. Elongated septulum present (Figs. 3A–C). Claws of the Hypsibius type, with widened bases and with obvious accessory points on the primary branches (Figs. 4A–E). On the primary branch, at the border between accessory points and primary claw branch, a thick line is visible along entire branch length. Internal and anterior claws usually with two septa dividing the claw into the basal portion, the secondary branch, and the primary branch (Fig. 4C). Claws with poorly visible pseudolunulae (Figs. 4A–D, arrowheads). Bases of all claws smooth. Cuticular bars absent. ......continued on the next page Remarks and differential diagnosis. Granulation is poorly visible or not visible on some individuals, completely undistinguishable in SEM. Granulation is invisible in SEM, but is visible in both PCM and DIC, indicating that it may be comprised of depressions (fossae) covered with cuticle. On the holotype, granulation is visible only in some areas on the dorsal side. Thus, observation of cuticle should be done carefully. In five specimens, the first macroplacoid is shorter than the second; the difference ranges between 0.1–0.2 µm. Currently, the genus Adropion consist of twenty species (Degma et al . 2009–2017), but from a molecular point of view the genus appears polyphyletic and potentially with cryptic diversity (Bertolani et al . 2014). It is first report of the genus Adropion from Uganda (McInnes et al . 2017). Apart from the peculiar granulation on cuticle, by having three macroplacoids, microplacoid and septulum in the pharynx, the new species is most similar to the following Adropion species: A. gordonense (Pilato, Claxton & Horning, 1991), A. greveni (Dastych, 1984), A. linzhiensis (Li, 2007), and A. onorei (Pilato, Binda, Napolitano & Moncada, 2002), but it specifically differs from: - A. gordonense by clearly smaller pharyngeal apophyses (compare: Fig. 1b in Pilato et al . 1991), and absence of thickened bars under internal claws I–III. - A. greveni by absence of long bars under internal claws I–III, the absence of spines under the claws, and much shorter macroplacoid row and all macroplacoids (macroplacoid row length 7.3–11.4 µm in A. afroglacialis sp. nov. vs 18–24 µm in A. greveni ). - A. linzhiensis by having a less elongated body (compare: Figs. 6 –7 in Li (2007)), a different macroplacoid length sequence (2<1<3 in the new species vs. 1<2<3 in A. linzhiensis ), relatively shorter macroplacoid row ( 36.5–50 % in A. afroglacialis sp. nov. vs 50–57.1 % in A. linzhiensis ), and relatively shorter claws I–IV (external claw secondary branches 15.0–22.6 %, internal + anterior claw primary branches 11.4–25.7 %, and internal claw secondary branches 11.6–21.4 % in A. afroglacialis sp. nov. vs 25.0–37.5 %, 25.0–37.5 %, and 22.6–37.3 % in A. linzhiensis , respectively). - A. onorei by absence of bars under internal claws I–III, and absence of spines under posterior claws IV, the stylet supports inserted more anteriorly on the buccal tube ( 54.5–63.5 % in A. afroglacialis sp. nov. vs 64.2– 65.3 % in A. onorei ), much shorter macroplacoid row (7.3–11.4 µm [ 36.5–50 %] in A. afroglacialis sp. nov. vs 14.9–17.7 µm [ 78.8–84.3 %] in A. onorei ). : Published as part of Zawierucha, Krzysztof, Gąsiorek, Piotr, Buda, Jakub, Uetake, Jun, Janko, Karel & Fontaneto, Diego, 2018, Tardigrada and Rotifera from moss microhabitats on a disappearing Ugandan glacier, with the description of a new species of water bear, pp. 311-328 in Zootaxa 4392 (2) on pages 314-319, DOI: 10.11646/zootaxa.4392.2.5, http://zenodo.org/record/1195435 : {"references": ["Bertolani, R., Guidetti, R., Marchioro, T., Altiero, T., Rebecchi, L. & Cesari, M. (2014) Phylogeny of Eutardigrada: New molecular data and their morphological support lead to the identification of new evolutionary lineages. Molecular Phylogenetics and Evolution, 76, 110 - 126. https: // dx. doi. org / 10.1016 / j. ympev. 2014.03.006", "McInnes, S. J., Michalczyk L. & Kaczmarek, L. (2017) Annotated zoogeography of non - marine Tardigrada. Part IV: Africa. Zootaxa, 4284 (1), 1 - 7. https: // dx. doi. org / 10.11646 / zootaxa. 4284.1.1", "Dastych, H. (1984) The Tardigrada from Antarctic with descriptions of several new species. Acta Zoologica Cracoviensia, 27, 377 - 436.", "Li, X. C. (2007) A new species and a newly recorded species of tardigrade (Eutardigrada: Hypsibiidae) from China (Asia). Proceedings of the Biological Society of Washington, 120, 189 - 196. https: // dx. doi. org / 10.2988 / 0006 - 324 X (2007) 120 [189: ANSAAN] 2.0. CO; 2"]} Text Antarc* Antarctic Tardigrade water bear DataCite Metadata Store (German National Library of Science and Technology) Antarctic Mount Stanley ENVELOPE(-63.665,-63.665,-66.530,-66.530)

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