Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.

Minibiotus pseudostellarus sp. nov. (Table 3, Figs 12–21) http://www.tardigrada.net/register/0023.htm Localities and number of specimens. VI (1), XIV (1), XXI (7 and 1 exuvium), XXV (5 and 1 exuvium) Material examined. Holotype (slide: 2306 / 3), 13 paratypes (slides: 1437 / 1, 1462 / 7, 1472 / 2 an...

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Main Authors: Roszkowska, Milena, Stec, Daniel, Ciobanu, Daniel Adrian, Kaczmarek, Łukasz
Format: Text
Language:unknown
Published: Zenodo 2016
Subjects:
Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Macrobiotidae
Minibiotus
Minibiotus pseudostellarus
Argentina
Diablo
Garganta
Del Diablo
Tronador
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.5281/zenodo.5615700
https://zenodo.org/record/5615700
id ftdatacite:10.5281/zenodo.5615700
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
Macrobiotidae
Minibiotus
Minibiotus pseudostellarus
spellingShingle Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Macrobiotidae
Minibiotus
Minibiotus pseudostellarus
Roszkowska, Milena
Stec, Daniel
Ciobanu, Daniel Adrian
Kaczmarek, Łukasz
Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Macrobiotidae
Minibiotus
Minibiotus pseudostellarus
description Minibiotus pseudostellarus sp. nov. (Table 3, Figs 12–21) http://www.tardigrada.net/register/0023.htm Localities and number of specimens. VI (1), XIV (1), XXI (7 and 1 exuvium), XXV (5 and 1 exuvium) Material examined. Holotype (slide: 2306 / 3), 13 paratypes (slides: 1437 / 1, 1462 / 7, 1472 / 2 and 2306 / 2), two exuviae (slides: 1437 / 1 and 2306 / 3). Description ( measurements and statistics in Table 3 ). Animals: Body length 241–320 µm (Fig. 12), white/ transparent after fixation. Eyes present in all specimens before and after fixation in Hoyer’s medium. Cuticle smooth with pores distributed randomly and not forming any specific design (Fig. 14). Generally two types of pores are present over the entire cuticle: round-shaped (0.3–0.9 µm in diameter) and in the shape of ‘pseudo-stars’ ( i.e. not fully developed ‘stars’ but with 3–4 irregular ‘arms’ and poorly visible incisions) (0.6–2.5 µm distance from the farthest points of arms) (Fig. 14). Moreover, large star-shaped pores (with 5–6 ‘arms’) are present on legs (a single pore on leg I–III and two pores above legs IV (Figs 18–21). Pores around mouth absent. Bucco-pharyngeal apparatus of the Minibiotus type, with the ventral lamina and ten peribuccal papulae. Oral cavity armature absent or not visible under PCM. Pharyngeal bulb oval, with triangular apophyses (very near to first macroplacoid and ca . same size), three macroplacoids and small microplacoid. Macroplacoid length sequence 1 ≤ 2 <3 (Fig. 13). Claws short and robust with obvious accessory points (Figs 15–17). Fine granulation only present on legs IV (Figs 16, 17). Cuticular bars under claws I–III present. Other cuticular thickenings on legs absent. Lunules under claws with smooth margins (Fig. 16). Eggs: Not found. Etymology . The new species is named after the characteristic pores on the cuticle—simulating ( pseudo ) stars ( stellarum ). Type locality . 41 ° 12 ’S, 71 ° 51 ’W, ca . 1,200 m asl: Río Negro, Nahuel Huapi National Park, Bariloche, at the foot of the Tronador volcano, Garganta del Diablo waterfall, moss from rock, 17.01. 2012, coll. Dawid Diduszko. Type depositories. Holotype, 12 paratypes and two exuviae are deposited at the Department of Animal Taxonomy and Ecology, Institute of Environmental Biology, Adam Mickiewicz University in Pozna&nacute;, Umultowska 89, 61–614 Pozna&nacute; (Poland) and one paratype (slide 1472 / 2) is deposited at the Department of Entomology Institute of Zoology Jagiellonian University, Gronostajowa 9, 30–387, Kraków, Poland. Differential diagnosis. By the presence of star-like pores in the cuticle (on the legs), the new species is most similar to Min. constellatus Michalczyk & Kaczmarek 2003 b, Min. eichhorni Michalczyk & Kaczmarek 2004, Min. sidereus Pilato et al . 2003 and Min. vinciguerrae Binda & Pilato 1992, but it differs from all of them by the presence of ‘pseudo-stars’ instead of fully developed stars on dorsal and ventral cuticle. Additionally, new species differs specifically from: Minibiotus constellatus , only recorded from Peru (Michalczyk & Kaczmarek 2003 b), by absence of pores around the mouth, different arrangement of pores on the dorsal side of the body (randomly arranged pores in Min. pseudostellarus sp. nov. vs. two rows of pores along the main axis of the body in Min. constellatus ), the presence of eyes, absence of granulation on legs I–III (granulation present on all legs in Min. constellatus ), different macroplacoid sequence (1 ≤ 2 <3 in Min. pseudostellarus sp. nov . vs. 3 <2 <1 in Min. constellatus ), longer third macroplacoid (2.4 – 3.6 µm in Min. pseudostellarus sp. nov . vs. 1.4 – 1.9 µm in Min. constellatus ), slightly longer macroplacoid row with higher pt (8.7 – 11.0 µm [35.5–38.9] in Min. pseudostellarus sp. nov . vs. 6.7 – 8.6 µm [25.0–35.4] in Min. constellatus ). Minibiotus eichhorni , only recorded from Peru (Michalczyk & Kaczmarek 2004), by different arrangement of pores on the dorsal side of the body (randomly arranged pores in Min. pseudostellarus sp. nov. vs. pores arranged in six transverse bands in Min. eichhorni ), absence of granulation on legs I–III (granulation present on all legs in Min. eichhorni ), shorter external primary and secondary branches of claws III (5.6 – 7.1 µm and 4.4 – 5.5 µm respectively in Min. pseudostellarus sp. nov. vs. 7.6 – 11.4 µm and 5.7 – 8.6 µm in Min. eichhorni ), higher pt of the buccal tube external width ([ 10.2–11.6 ] in Min. pseudostellarus sp. nov. vs. [ 6.9–9.7 ] in Min. eichhorni ), a slightly higher pt of the second macroplacoid length ([ 9.3–11.3 ] in Min. pseudostellarus sp. nov. vs. [ 6.9–9.2 ] in Min. eichhorni ), smaller pt of the external primary branches of claws II ([ 21.7–25.5 ] in Min. pseudostellarus sp. nov. vs. [ 26.9–33.3 ] in Min. eichhorni ), smaller pt of the external primary branches of claws III ([ 22.7–26.8 ] in Min. pseudostellarus sp. nov. vs. [ 29.4–33.3 ] in Min. eichhorni ), and smaller pt of anterior primary and secondary branches of claws IV ([ 26.6–31.7 ] and [ 19.1–22.4 ] in Min. pseudostellarus sp. nov. vs. [ 34.6–41.7 ] and [ 23.1–27.8 ] in Min. eichhorni , respectively). Minibiotus sidereus , only recorded from Ecuador (Pilato et al . 2003), by stylet supports inserted in a more posterior position ([ 65.6–68.8 in Min. pseudostellarus sp. nov. vs. [ 58.6–58.9 ] in Min. sidereus ), a slightly higher pt of the second macroplacoid length ([ 9.3–11.3 ] in Min. pseudostellarus sp. nov. vs. [ 7.9–9.1 ] in Min. sidereus ), longer macroplacoid row with higher pt (8.7–11.0 µm [ 35.5–38.9 ] in Min. pseudostellarus sp. nov. vs. 5.7–7.9 µm [ 26.6–29.9 ] in Min. sidereus ) and longer placoid row with higher pt (10.4–13.0 µm [ 42.2–46.2 ] in Min. pseudostellarus sp. nov. vs. 6.4–9.6 µm [ 29.9–36.4 ] in Min. sidereus ). Minibiotus vinciguerrae , only recorded from Antarctica (Binda & Pilato 1992), by the lack of oral cavity armature, absence of granulation on legs I–III, short and robust claws (long and slender in Min. vinciguerrae ), different macroplacoid sequence (1 ≤ 2 <3 in Min. pseudostellarus sp. nov . vs. 2 <3 <1 in Min. vinciguerrae ), smaller body size (230–326 µm in Min. pseudostellarus sp. nov. vs. 380–520 µm in Min. vinciguerrae ), shorter buccal tube (23.5–29.3 µm in Min. pseudostellarus sp. nov. vs. 35.1 µm in Min. vinciguerrae (in specimen 520 µm in length)), lower width of the buccal tube (2.5–3.3 µm in Min. pseudostellarus sp. nov. vs. 3.6 µm in Min. vinciguerrae (in specimen 520 µm in length)), smaller first and second macroplacoid (2.2–3.2 µm [ 8.9–10.9 ] and 2.3–3.3 µm respectively in Min. pseudostellarus sp. nov. vs. 4.4 µm [ 12.4 ] and 3.6 µm respectively in Min. vinciguerrae (in specimen 520 µm in length)), smaller microplacoid (1.1–1.5 µm in Min. pseudostellarus sp. nov. vs. 1.9 µm in Min. vinciguerrae (in specimen 520 in length)), shorter macroplacoid and placoid rows (8.7–11.0 and 10.4–13.0 µm respectively in Min. pseudostellarus sp. nov. vs. 13.1 and 15.39 µm in Min. vinciguerrae (in specimen 520 µm in length)) and smaller length and pt values of the external primary branches of claws II, III, IV (5.7–7.3 µm [ 21.7–25.5 ], 5.6–7.1 µm [ 22.7–26.8 ] and 6.7–8.9 µm [ 26.6–31.7 ] respectively in Min. pseudostellarus sp. nov. vs. (12.34 µm [ 35.1 ], 12.63 µm [ 35.9 ] and 14.6 µm [ 41.6 ] respectively in Min. vinciguerrae (in specimen 520 µm in length)). : Published as part of Roszkowska, Milena, Stec, Daniel, Ciobanu, Daniel Adrian & Kaczmarek, Łukasz, 2016, Tardigrades from Nahuel Huapi National Park (Argentina, South America) with descriptions of two new Macrobiotidae species, pp. 243-260 in Zootaxa 4105 (3) on pages 254-257, DOI: 10.11646/zootaxa.4105.3.2, http://zenodo.org/record/266164 : {"references": ["Michalczyk, L. & Kaczmarek, L. (2003 b) Minibiotus constellatus, new species of Tardigrada (Eutardigrada, Macrobiotidae) from Peru. Genus, 14, 295 - 305.", "Michalczyk, L. & Kaczmarek, L. (2004) Minibiotus eichhorni sp. nov., a new species of eutardigrade (Eutardigrada: Macrobiotidae) from Peru. Annales Zoologici, 54, 673 - 676.", "Pilato, G., Binda, M. G. & Lisi, O. (2003) Remarks on some species of tardigrades from South America with description of Minibiotus sidereus n. sp. Zootaxa, 195, 1 - 8.", "Binda, M. G. & Pilato, G. (1992) Minibiotus furcatus, nuova posizione sistematica per Macrobiotus furcatus Ehrenberg, 1859, e descrizione di due nuove specie. Animalia, 19, 111 - 120."]}
format Text
author Roszkowska, Milena
Stec, Daniel
Ciobanu, Daniel Adrian
Kaczmarek, Łukasz
author_facet Roszkowska, Milena
Stec, Daniel
Ciobanu, Daniel Adrian
Kaczmarek, Łukasz
author_sort Roszkowska, Milena
title Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
title_short Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
title_full Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
title_fullStr Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
title_full_unstemmed Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov.
title_sort minibiotus pseudostellarus roszkowska, stec, ciobanu & kaczmarek, 2016, sp. nov.
publisher Zenodo
publishDate 2016
url https://dx.doi.org/10.5281/zenodo.5615700
https://zenodo.org/record/5615700
long_lat ENVELOPE(-57.289,-57.289,-63.799,-63.799)
ENVELOPE(-67.667,-67.667,-67.183,-67.183)
ENVELOPE(-57.317,-57.317,-63.800,-63.800)
ENVELOPE(-62.917,-62.917,-64.317,-64.317)
geographic Argentina
Diablo
Garganta
Del Diablo
Tronador
geographic_facet Argentina
Diablo
Garganta
Del Diablo
Tronador
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation http://zenodo.org/record/266164
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op_doi https://doi.org/10.5281/zenodo.5615700
https://doi.org/10.11646/zootaxa.4105.3.2
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https://doi.org/10.5281/zenodo.5615699
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spelling ftdatacite:10.5281/zenodo.5615700 2023-05-15T14:02:23+02:00 Minibiotus pseudostellarus Roszkowska, Stec, Ciobanu & Kaczmarek, 2016, sp. nov. Roszkowska, Milena Stec, Daniel Ciobanu, Daniel Adrian Kaczmarek, Łukasz 2016 https://dx.doi.org/10.5281/zenodo.5615700 https://zenodo.org/record/5615700 unknown Zenodo http://zenodo.org/record/266164 http://publication.plazi.org/id/FFD87E2EFE456A47E46CFF81E33AFFAE http://zoobank.org/B0FEF435-9EBF-4C91-AFDB-6F616848FD44 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4105.3.2 http://zenodo.org/record/266164 http://publication.plazi.org/id/FFD87E2EFE456A47E46CFF81E33AFFAE https://dx.doi.org/10.5281/zenodo.266169 https://dx.doi.org/10.5281/zenodo.266170 https://dx.doi.org/10.5281/zenodo.266171 http://zoobank.org/B0FEF435-9EBF-4C91-AFDB-6F616848FD44 https://dx.doi.org/10.5281/zenodo.5615699 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Tardigrada Eutardigrada Parachela Macrobiotidae Minibiotus Minibiotus pseudostellarus Taxonomic treatment article-journal Text ScholarlyArticle 2016 ftdatacite https://doi.org/10.5281/zenodo.5615700 https://doi.org/10.11646/zootaxa.4105.3.2 https://doi.org/10.5281/zenodo.266169 https://doi.org/10.5281/zenodo.266170 https://doi.org/10.5281/zenodo.266171 https://doi.org/10.5281/zenodo.5615699 2022-02-08T12:40:44Z Minibiotus pseudostellarus sp. nov. (Table 3, Figs 12–21) http://www.tardigrada.net/register/0023.htm Localities and number of specimens. VI (1), XIV (1), XXI (7 and 1 exuvium), XXV (5 and 1 exuvium) Material examined. Holotype (slide: 2306 / 3), 13 paratypes (slides: 1437 / 1, 1462 / 7, 1472 / 2 and 2306 / 2), two exuviae (slides: 1437 / 1 and 2306 / 3). Description ( measurements and statistics in Table 3 ). Animals: Body length 241–320 µm (Fig. 12), white/ transparent after fixation. Eyes present in all specimens before and after fixation in Hoyer’s medium. Cuticle smooth with pores distributed randomly and not forming any specific design (Fig. 14). Generally two types of pores are present over the entire cuticle: round-shaped (0.3–0.9 µm in diameter) and in the shape of ‘pseudo-stars’ ( i.e. not fully developed ‘stars’ but with 3–4 irregular ‘arms’ and poorly visible incisions) (0.6–2.5 µm distance from the farthest points of arms) (Fig. 14). Moreover, large star-shaped pores (with 5–6 ‘arms’) are present on legs (a single pore on leg I–III and two pores above legs IV (Figs 18–21). Pores around mouth absent. Bucco-pharyngeal apparatus of the Minibiotus type, with the ventral lamina and ten peribuccal papulae. Oral cavity armature absent or not visible under PCM. Pharyngeal bulb oval, with triangular apophyses (very near to first macroplacoid and ca . same size), three macroplacoids and small microplacoid. Macroplacoid length sequence 1 ≤ 2 <3 (Fig. 13). Claws short and robust with obvious accessory points (Figs 15–17). Fine granulation only present on legs IV (Figs 16, 17). Cuticular bars under claws I–III present. Other cuticular thickenings on legs absent. Lunules under claws with smooth margins (Fig. 16). Eggs: Not found. Etymology . The new species is named after the characteristic pores on the cuticle—simulating ( pseudo ) stars ( stellarum ). Type locality . 41 ° 12 ’S, 71 ° 51 ’W, ca . 1,200 m asl: Río Negro, Nahuel Huapi National Park, Bariloche, at the foot of the Tronador volcano, Garganta del Diablo waterfall, moss from rock, 17.01. 2012, coll. Dawid Diduszko. Type depositories. Holotype, 12 paratypes and two exuviae are deposited at the Department of Animal Taxonomy and Ecology, Institute of Environmental Biology, Adam Mickiewicz University in Pozna&nacute;, Umultowska 89, 61–614 Pozna&nacute; (Poland) and one paratype (slide 1472 / 2) is deposited at the Department of Entomology Institute of Zoology Jagiellonian University, Gronostajowa 9, 30–387, Kraków, Poland. Differential diagnosis. By the presence of star-like pores in the cuticle (on the legs), the new species is most similar to Min. constellatus Michalczyk & Kaczmarek 2003 b, Min. eichhorni Michalczyk & Kaczmarek 2004, Min. sidereus Pilato et al . 2003 and Min. vinciguerrae Binda & Pilato 1992, but it differs from all of them by the presence of ‘pseudo-stars’ instead of fully developed stars on dorsal and ventral cuticle. Additionally, new species differs specifically from: Minibiotus constellatus , only recorded from Peru (Michalczyk & Kaczmarek 2003 b), by absence of pores around the mouth, different arrangement of pores on the dorsal side of the body (randomly arranged pores in Min. pseudostellarus sp. nov. vs. two rows of pores along the main axis of the body in Min. constellatus ), the presence of eyes, absence of granulation on legs I–III (granulation present on all legs in Min. constellatus ), different macroplacoid sequence (1 ≤ 2 <3 in Min. pseudostellarus sp. nov . vs. 3 <2 <1 in Min. constellatus ), longer third macroplacoid (2.4 – 3.6 µm in Min. pseudostellarus sp. nov . vs. 1.4 – 1.9 µm in Min. constellatus ), slightly longer macroplacoid row with higher pt (8.7 – 11.0 µm [35.5–38.9] in Min. pseudostellarus sp. nov . vs. 6.7 – 8.6 µm [25.0–35.4] in Min. constellatus ). Minibiotus eichhorni , only recorded from Peru (Michalczyk & Kaczmarek 2004), by different arrangement of pores on the dorsal side of the body (randomly arranged pores in Min. pseudostellarus sp. nov. vs. pores arranged in six transverse bands in Min. eichhorni ), absence of granulation on legs I–III (granulation present on all legs in Min. eichhorni ), shorter external primary and secondary branches of claws III (5.6 – 7.1 µm and 4.4 – 5.5 µm respectively in Min. pseudostellarus sp. nov. vs. 7.6 – 11.4 µm and 5.7 – 8.6 µm in Min. eichhorni ), higher pt of the buccal tube external width ([ 10.2–11.6 ] in Min. pseudostellarus sp. nov. vs. [ 6.9–9.7 ] in Min. eichhorni ), a slightly higher pt of the second macroplacoid length ([ 9.3–11.3 ] in Min. pseudostellarus sp. nov. vs. [ 6.9–9.2 ] in Min. eichhorni ), smaller pt of the external primary branches of claws II ([ 21.7–25.5 ] in Min. pseudostellarus sp. nov. vs. [ 26.9–33.3 ] in Min. eichhorni ), smaller pt of the external primary branches of claws III ([ 22.7–26.8 ] in Min. pseudostellarus sp. nov. vs. [ 29.4–33.3 ] in Min. eichhorni ), and smaller pt of anterior primary and secondary branches of claws IV ([ 26.6–31.7 ] and [ 19.1–22.4 ] in Min. pseudostellarus sp. nov. vs. [ 34.6–41.7 ] and [ 23.1–27.8 ] in Min. eichhorni , respectively). Minibiotus sidereus , only recorded from Ecuador (Pilato et al . 2003), by stylet supports inserted in a more posterior position ([ 65.6–68.8 in Min. pseudostellarus sp. nov. vs. [ 58.6–58.9 ] in Min. sidereus ), a slightly higher pt of the second macroplacoid length ([ 9.3–11.3 ] in Min. pseudostellarus sp. nov. vs. [ 7.9–9.1 ] in Min. sidereus ), longer macroplacoid row with higher pt (8.7–11.0 µm [ 35.5–38.9 ] in Min. pseudostellarus sp. nov. vs. 5.7–7.9 µm [ 26.6–29.9 ] in Min. sidereus ) and longer placoid row with higher pt (10.4–13.0 µm [ 42.2–46.2 ] in Min. pseudostellarus sp. nov. vs. 6.4–9.6 µm [ 29.9–36.4 ] in Min. sidereus ). Minibiotus vinciguerrae , only recorded from Antarctica (Binda & Pilato 1992), by the lack of oral cavity armature, absence of granulation on legs I–III, short and robust claws (long and slender in Min. vinciguerrae ), different macroplacoid sequence (1 ≤ 2 <3 in Min. pseudostellarus sp. nov . vs. 2 <3 <1 in Min. vinciguerrae ), smaller body size (230–326 µm in Min. pseudostellarus sp. nov. vs. 380–520 µm in Min. vinciguerrae ), shorter buccal tube (23.5–29.3 µm in Min. pseudostellarus sp. nov. vs. 35.1 µm in Min. vinciguerrae (in specimen 520 µm in length)), lower width of the buccal tube (2.5–3.3 µm in Min. pseudostellarus sp. nov. vs. 3.6 µm in Min. vinciguerrae (in specimen 520 µm in length)), smaller first and second macroplacoid (2.2–3.2 µm [ 8.9–10.9 ] and 2.3–3.3 µm respectively in Min. pseudostellarus sp. nov. vs. 4.4 µm [ 12.4 ] and 3.6 µm respectively in Min. vinciguerrae (in specimen 520 µm in length)), smaller microplacoid (1.1–1.5 µm in Min. pseudostellarus sp. nov. vs. 1.9 µm in Min. vinciguerrae (in specimen 520 in length)), shorter macroplacoid and placoid rows (8.7–11.0 and 10.4–13.0 µm respectively in Min. pseudostellarus sp. nov. vs. 13.1 and 15.39 µm in Min. vinciguerrae (in specimen 520 µm in length)) and smaller length and pt values of the external primary branches of claws II, III, IV (5.7–7.3 µm [ 21.7–25.5 ], 5.6–7.1 µm [ 22.7–26.8 ] and 6.7–8.9 µm [ 26.6–31.7 ] respectively in Min. pseudostellarus sp. nov. vs. (12.34 µm [ 35.1 ], 12.63 µm [ 35.9 ] and 14.6 µm [ 41.6 ] respectively in Min. vinciguerrae (in specimen 520 µm in length)). : Published as part of Roszkowska, Milena, Stec, Daniel, Ciobanu, Daniel Adrian & Kaczmarek, Łukasz, 2016, Tardigrades from Nahuel Huapi National Park (Argentina, South America) with descriptions of two new Macrobiotidae species, pp. 243-260 in Zootaxa 4105 (3) on pages 254-257, DOI: 10.11646/zootaxa.4105.3.2, http://zenodo.org/record/266164 : {"references": ["Michalczyk, L. & Kaczmarek, L. (2003 b) Minibiotus constellatus, new species of Tardigrada (Eutardigrada, Macrobiotidae) from Peru. Genus, 14, 295 - 305.", "Michalczyk, L. & Kaczmarek, L. (2004) Minibiotus eichhorni sp. nov., a new species of eutardigrade (Eutardigrada: Macrobiotidae) from Peru. Annales Zoologici, 54, 673 - 676.", "Pilato, G., Binda, M. G. & Lisi, O. (2003) Remarks on some species of tardigrades from South America with description of Minibiotus sidereus n. sp. Zootaxa, 195, 1 - 8.", "Binda, M. G. & Pilato, G. (1992) Minibiotus furcatus, nuova posizione sistematica per Macrobiotus furcatus Ehrenberg, 1859, e descrizione di due nuove specie. Animalia, 19, 111 - 120."]} Text Antarc* Antarctica DataCite Metadata Store (German National Library of Science and Technology) Argentina Diablo ENVELOPE(-57.289,-57.289,-63.799,-63.799) Garganta ENVELOPE(-67.667,-67.667,-67.183,-67.183) Del Diablo ENVELOPE(-57.317,-57.317,-63.800,-63.800) Tronador ENVELOPE(-62.917,-62.917,-64.317,-64.317)

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