Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.

Frontonia didieri n. sp. (Figs. 1–3; Table 1) Diagnosis: Marine Frontonia in vivo ca. 100–150 × 45–80 μm, body dorsoventrally slightly flattened. 61–71 somatic, consistently 3 vestibular while 3–5 postoral kineties. Both peniculus 1 and 2 consisting of 4 kinety rows; peniculus 3 three-rowed, extreme...

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Main Authors: Long, Hongan, Song, Weibo, Al-Rasheid, Khaled A. S., Wang, Yangang
Format: Text
Language:unknown
Published: Zenodo 2008
Subjects:
Biodiversity
Taxonomy
Protozoa
Ciliophora
Oligohymenophorea
Hymenostomatida
Frontoniidae
Frontonia
Frontonia didieri
Weddell Sea
White Sea
Weddell
Sandy Beach
Kandalaksha
Antarc*
Antarctica
Kandalaksha Gulf
Online Access:https://dx.doi.org/10.5281/zenodo.5661177
https://zenodo.org/record/5661177
id ftdatacite:10.5281/zenodo.5661177
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
Protozoa
Ciliophora
Oligohymenophorea
Hymenostomatida
Frontoniidae
Frontonia
Frontonia didieri
spellingShingle Biodiversity
Taxonomy
Protozoa
Ciliophora
Oligohymenophorea
Hymenostomatida
Frontoniidae
Frontonia
Frontonia didieri
Long, Hongan
Song, Weibo
Al-Rasheid, Khaled A. S.
Wang, Yangang
Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
topic_facet Biodiversity
Taxonomy
Protozoa
Ciliophora
Oligohymenophorea
Hymenostomatida
Frontoniidae
Frontonia
Frontonia didieri
description Frontonia didieri n. sp. (Figs. 1–3; Table 1) Diagnosis: Marine Frontonia in vivo ca. 100–150 × 45–80 μm, body dorsoventrally slightly flattened. 61–71 somatic, consistently 3 vestibular while 3–5 postoral kineties. Both peniculus 1 and 2 consisting of 4 kinety rows; peniculus 3 three-rowed, extremely different in lengths. One oval macronucleus. Single contractile vacuole centrally-located, with about eight conspicuous collecting canals. Type location: A mesotrophic sandy beach near Qingdao, salinity ca. 12 ‰. Type slides: One holotype with protargol impregnated specimens (slide number: 2007: 5: 17: 1) is deposited in the Natural History Museum, London, UK, and one paratype with silver nitrate impregnated specimens (slide number: 2005110701 - 2) is deposited in the Laboratory of Protozoology, Ocean University of China. Etymology: We dedicate this species to Dr. Pierre Didier, a famous French protozoologist, who has greatly contributed to the ciliate taxonomy and systematics. Description: Size in vivo mostly about 120 × 60 µm, with ratio of length: width about 2: 1. Body shape rather constant, elliptical in outline with both anterior and posterior ends slightly narrow; dorsoventrally flattened about 5: 4 (Figs. 1 A, 1 E; 3 A). Extrusomes spindle-shaped, about 4 µm long, densely arranged (Figs. 1 A; 3 B). Somatic cilia about 7 µm long. Cytoplasm transparent and colourless, usually filled with many large diatoms (up to 50 µm long) (Figs. 1 A, 1 E; 3 E). Macronucleus ellipsoidal, centrally positioned (Figs. 1 C, 1 E, 1 F; 3 H). One contractile vacuole (CV), about 15 µm in diameter, positioned equatorially, with ca. eight long and conspicuous collecting canals (Figs. 1 A; 3 J). CV-pores (CVP) mid-dorsally positioned (Fig. 2 A–D). Movement mostly by gliding back and forth on substrate; when swimming, moderately fast with rotation about the long axis of the cell. Buccal cavity shallow and small, triangular in outline, occupying about 1 / 6 of body length (Figs. 1 A; 3 A– C, 3 G). Buccal apparatus as shown in Figs. 1 C, 1 G and 3 F, 3 K: consistently 3 long vestibular kineties (VK) with densely arranged kinetosomes, extending from anterior level of buccal cavity to about middle level of cell. 3 peniculi (P 1–3) located on left wall of cavity: P 1 and 2 about equally long, positioned close to each other, and each composed of 4 rows of kinetosomes, whereas the posterior ends of those rows in P 1 are conspicuously shortened; peniculus 3 (P 3) consisting of only 3 kineties, of which only the rightmost one is complete, the middle row is about half length and the leftmost one is extremely shortened, i.e. about 1 / 10 length of rightmost one. The paroral membrane (PM) double-rowed, located on right edge of the buccal cavity (Figs. 1 G; 3 F). On average 66 somatic kineties. Both anterior and postoral sutures conspicuously long and extending onto dorsal side (Figs. 1 C, 1 F; 2 A–D). 3–5 postoral kineties (PK) locating posterior to the buccal cavity and ending at the postoral suture (PS) (Fig. 1 C, 1 D, 1 G). Silverline system as in other congeners: quadrangular cortical meshes after silver nitrate impregnation (Fig. 3 D). to be continued. Comparison: Currently, over 40 morphotypes have been included in the genus Frontonia (Bullington 1939; Carey 1992; Dragesco 1960; Dragesco 1972; Dragesco & Dragesco-Kernéis 1986; Foissner et al. 1994; Kahl 1931; Long et al. 2005; Petz et al. 1995; Roque 1961; Roque & Puytorac 1972). Among those, about 27 were reported from fresh water biotopes, whereas F. didieri n. sp. is diagnosed by the unique, conspicuous contractile vacuole collecting canals from living cells (Alekperov 2005; Burkovsky 1970 a, b; Foissner et al. 1994; Long et al. 2005; Petz et al. 1995; Roque 1961; Roque and Puytorac 1972). Considering the body shape, size and the marine habitat, Frontonia didieri n. sp. is similar to F. caneti Dragesco, 1960 and F. vacuolata Dragesco, 1960 though in both forms the detailed structure of the oral apparatus is lacking (Table 2; Dragesco 1960). Nevertheless, F. d i d i e r i n. sp. can be clearly distinguished in vivo from the latter two by its centrally located contractile vacuole with the prominent collecting canals (vs. no collecting canals, CV left and located subcaudally in F. c a n e t i , or located caudally in F. vacuolata ) (Fig. 10 D and 10 Q). Frontonia lynni and F. salmastra Dragesco and Dragesco-Kernéis, 1986 also resemble F. didieri n. sp. with reference to the general morphology (i.e. living cells) and the infraciliature of the buccal apparatus (Fig. 10 I, 10 J, 10 O, 10 P). The new species can be recognized, however, in the presence of the collecting canals (vs. no collecting canals in the latter species), lower number of somatic kineties (61–71 vs. 71–83 in F. lynni , 90–100 in F. salmastra ) and fewer kinety rows in peniculus 3 (3 vs. 4 in F. lynni and F. s a l m a s t r a ) (Table 2). In addition, the dissimilarity of both forms is firmly supported by 18 S rRNA gene sequence data as the sequence of F. didieri differs significantly in 143 nucleotides from that of F. l y n n i (structural similarity 91.8%) (Fig. 11). : Published as part of Long, Hongan, Song, Weibo, Al-Rasheid, Khaled A. S. & Wang, Yangang, 2008, Taxonomic studies on three marine species of Frontonia from northern China: F. didieri n. sp., F. multinucleata n. sp. and F. tchibisovae Burkovsky, 1970 (Ciliophora: Peniculida), pp. 35-50 in Zootaxa 1687 on pages 36-41, DOI: 10.5281/zenodo.180528 : {"references": ["Bullington, W. E. (1939) A study of spiraling in the ciliate Frontonia with a review of the genus and description of two new species. Archiv fur Protistenkunde, 92, 10 - 66.", "Carey, P. G. (1992) Marine interstitial ciliates. Chapman and Hall, London. pp. 351.", "Dragesco, J. (1960) Cilies mesopsammiques littoraux, systematique, morphologie, ecologie. Des Travaux de la Station biologique de Roscoff, 12, 1 - 356.", "Dragesco, J. (1972) Cilies libres de l'Ouganda. Annales de la Faculte des sciences du Cameroun, 9, 87 - 126.", "Dragesco, J. & Dragesco-Kerneis, A. (1986) Cilies libres de l'Afrique intertropicale. Faune Tropicale, 26, 1 - 559.", "Foissner, W., Berger, H. & Kohmann, F. (1994) Taxonomische und okologische Revision der Ciliaten des Saprobiensystems- Band III: Hymenostomata, Prostomatida, Nassulida. I nformationsberichte Bayer. Landesamtes fur Wasserwirtschaft, 1 / 94, 1 - 548.", "Kahl, A. (1931) Urtiere order Protozoa I: Wimpertiere order Ciliata (Infusoria) 2. Holotricha au\u03b2er den im 1. Teil behandelten Prostomata. Die Tierwelt Deutschlands, 21, 181 - 398.", "Long, H., Song, W., Gong, J., Hu, X., Ma, H., Zhu, M. & Wang, M. (2005) Frontonia lynni n. sp., a new marine ciliate (Protozoa, Ciliophora, Hymenostomatida) from Qingdao, China. Zootaxa, 1003, 57 - 64.", "Petz, W., Song, W. & Wilbert, N. (1995) Taxonomy and ecology of the ciliate fauna (Protozoa, Ciliphora) in the endopagial and pelagial of the Weddell Sea, Antarctica. Stapfia, 40, 1 - 223.", "Roque, M. (1961) Recherches sur les infusoires cilies: les hymenostomes peniculiens. Bulletin Biologique de la France et de la Belgique, 95, 431 - 519.", "Roque, M. & de Puytorac, P. (1972) Frontonia canadensis sp. nov. (Cilie Hymenostome Peniculien). Naturaliste Canadien, 99, 411 - 416.", "Alekperov, I. (2005) An atlas of the free living ciliates (Classes Kinetofragminophora, Colpodea, Oligohymenophora, Polyhymenophora). Borchali Publishing House, Baku (in Russian).", "Burkovsky, I. V. (1970 a) The ciliates of the mesopsammon of the Kandalaksha Gulf (White Sea). I. Acta Protozoologica, 7, 475 - 489.", "Burkovsky, I. V. (1970 b) The ciliates of the mesopsammon of the Kandalaksha Gulf (White Sea). II. Acta Protozoologica, 8, 47 - 65."]}
format Text
author Long, Hongan
Song, Weibo
Al-Rasheid, Khaled A. S.
Wang, Yangang
author_facet Long, Hongan
Song, Weibo
Al-Rasheid, Khaled A. S.
Wang, Yangang
author_sort Long, Hongan
title Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
title_short Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
title_full Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
title_fullStr Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
title_full_unstemmed Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp.
title_sort frontonia didieri long, song, al-rasheid & wang, 2008, n. sp.
publisher Zenodo
publishDate 2008
url https://dx.doi.org/10.5281/zenodo.5661177
https://zenodo.org/record/5661177
long_lat ENVELOPE(-55.731,-55.731,49.917,49.917)
ENVELOPE(32.417,32.417,67.133,67.133)
geographic Weddell Sea
White Sea
Weddell
Sandy Beach
Kandalaksha
geographic_facet Weddell Sea
White Sea
Weddell
Sandy Beach
Kandalaksha
genre Antarc*
Antarctica
Kandalaksha Gulf
Weddell Sea
White Sea
genre_facet Antarc*
Antarctica
Kandalaksha Gulf
Weddell Sea
White Sea
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op_rights Open Access
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5281/zenodo.5661177
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spelling ftdatacite:10.5281/zenodo.5661177 2023-05-15T13:48:20+02:00 Frontonia didieri Long, Song, Al-Rasheid & Wang, 2008, n. sp. Long, Hongan Song, Weibo Al-Rasheid, Khaled A. S. Wang, Yangang 2008 https://dx.doi.org/10.5281/zenodo.5661177 https://zenodo.org/record/5661177 unknown Zenodo http://publication.plazi.org/id/38754471FFC85372FF8C904CDE7D4E5A http://table.plazi.org/id/189ADD97FFCB5371FF1B90D5DC394F7A https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5281/zenodo.180528 http://publication.plazi.org/id/38754471FFC85372FF8C904CDE7D4E5A https://dx.doi.org/10.5281/zenodo.180529 https://dx.doi.org/10.5281/zenodo.180530 https://dx.doi.org/10.5281/zenodo.180531 https://dx.doi.org/10.5281/zenodo.180538 https://dx.doi.org/10.5281/zenodo.180539 http://table.plazi.org/id/189ADD97FFCB5371FF1B90D5DC394F7A https://dx.doi.org/10.5281/zenodo.5661178 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Protozoa Ciliophora Oligohymenophorea Hymenostomatida Frontoniidae Frontonia Frontonia didieri Taxonomic treatment article-journal Text ScholarlyArticle 2008 ftdatacite https://doi.org/10.5281/zenodo.5661177 https://doi.org/10.5281/zenodo.180528 https://doi.org/10.5281/zenodo.180529 https://doi.org/10.5281/zenodo.180530 https://doi.org/10.5281/zenodo.180531 https://doi.org/10.5281/zenodo.180538 https://doi.or 2022-02-08T13:14:21Z Frontonia didieri n. sp. (Figs. 1–3; Table 1) Diagnosis: Marine Frontonia in vivo ca. 100–150 × 45–80 μm, body dorsoventrally slightly flattened. 61–71 somatic, consistently 3 vestibular while 3–5 postoral kineties. Both peniculus 1 and 2 consisting of 4 kinety rows; peniculus 3 three-rowed, extremely different in lengths. One oval macronucleus. Single contractile vacuole centrally-located, with about eight conspicuous collecting canals. Type location: A mesotrophic sandy beach near Qingdao, salinity ca. 12 ‰. Type slides: One holotype with protargol impregnated specimens (slide number: 2007: 5: 17: 1) is deposited in the Natural History Museum, London, UK, and one paratype with silver nitrate impregnated specimens (slide number: 2005110701 - 2) is deposited in the Laboratory of Protozoology, Ocean University of China. Etymology: We dedicate this species to Dr. Pierre Didier, a famous French protozoologist, who has greatly contributed to the ciliate taxonomy and systematics. Description: Size in vivo mostly about 120 × 60 µm, with ratio of length: width about 2: 1. Body shape rather constant, elliptical in outline with both anterior and posterior ends slightly narrow; dorsoventrally flattened about 5: 4 (Figs. 1 A, 1 E; 3 A). Extrusomes spindle-shaped, about 4 µm long, densely arranged (Figs. 1 A; 3 B). Somatic cilia about 7 µm long. Cytoplasm transparent and colourless, usually filled with many large diatoms (up to 50 µm long) (Figs. 1 A, 1 E; 3 E). Macronucleus ellipsoidal, centrally positioned (Figs. 1 C, 1 E, 1 F; 3 H). One contractile vacuole (CV), about 15 µm in diameter, positioned equatorially, with ca. eight long and conspicuous collecting canals (Figs. 1 A; 3 J). CV-pores (CVP) mid-dorsally positioned (Fig. 2 A–D). Movement mostly by gliding back and forth on substrate; when swimming, moderately fast with rotation about the long axis of the cell. Buccal cavity shallow and small, triangular in outline, occupying about 1 / 6 of body length (Figs. 1 A; 3 A– C, 3 G). Buccal apparatus as shown in Figs. 1 C, 1 G and 3 F, 3 K: consistently 3 long vestibular kineties (VK) with densely arranged kinetosomes, extending from anterior level of buccal cavity to about middle level of cell. 3 peniculi (P 1–3) located on left wall of cavity: P 1 and 2 about equally long, positioned close to each other, and each composed of 4 rows of kinetosomes, whereas the posterior ends of those rows in P 1 are conspicuously shortened; peniculus 3 (P 3) consisting of only 3 kineties, of which only the rightmost one is complete, the middle row is about half length and the leftmost one is extremely shortened, i.e. about 1 / 10 length of rightmost one. The paroral membrane (PM) double-rowed, located on right edge of the buccal cavity (Figs. 1 G; 3 F). On average 66 somatic kineties. Both anterior and postoral sutures conspicuously long and extending onto dorsal side (Figs. 1 C, 1 F; 2 A–D). 3–5 postoral kineties (PK) locating posterior to the buccal cavity and ending at the postoral suture (PS) (Fig. 1 C, 1 D, 1 G). Silverline system as in other congeners: quadrangular cortical meshes after silver nitrate impregnation (Fig. 3 D). to be continued. Comparison: Currently, over 40 morphotypes have been included in the genus Frontonia (Bullington 1939; Carey 1992; Dragesco 1960; Dragesco 1972; Dragesco & Dragesco-Kernéis 1986; Foissner et al. 1994; Kahl 1931; Long et al. 2005; Petz et al. 1995; Roque 1961; Roque & Puytorac 1972). Among those, about 27 were reported from fresh water biotopes, whereas F. didieri n. sp. is diagnosed by the unique, conspicuous contractile vacuole collecting canals from living cells (Alekperov 2005; Burkovsky 1970 a, b; Foissner et al. 1994; Long et al. 2005; Petz et al. 1995; Roque 1961; Roque and Puytorac 1972). Considering the body shape, size and the marine habitat, Frontonia didieri n. sp. is similar to F. caneti Dragesco, 1960 and F. vacuolata Dragesco, 1960 though in both forms the detailed structure of the oral apparatus is lacking (Table 2; Dragesco 1960). Nevertheless, F. d i d i e r i n. sp. can be clearly distinguished in vivo from the latter two by its centrally located contractile vacuole with the prominent collecting canals (vs. no collecting canals, CV left and located subcaudally in F. c a n e t i , or located caudally in F. vacuolata ) (Fig. 10 D and 10 Q). Frontonia lynni and F. salmastra Dragesco and Dragesco-Kernéis, 1986 also resemble F. didieri n. sp. with reference to the general morphology (i.e. living cells) and the infraciliature of the buccal apparatus (Fig. 10 I, 10 J, 10 O, 10 P). The new species can be recognized, however, in the presence of the collecting canals (vs. no collecting canals in the latter species), lower number of somatic kineties (61–71 vs. 71–83 in F. lynni , 90–100 in F. salmastra ) and fewer kinety rows in peniculus 3 (3 vs. 4 in F. lynni and F. s a l m a s t r a ) (Table 2). In addition, the dissimilarity of both forms is firmly supported by 18 S rRNA gene sequence data as the sequence of F. didieri differs significantly in 143 nucleotides from that of F. l y n n i (structural similarity 91.8%) (Fig. 11). : Published as part of Long, Hongan, Song, Weibo, Al-Rasheid, Khaled A. S. & Wang, Yangang, 2008, Taxonomic studies on three marine species of Frontonia from northern China: F. didieri n. sp., F. multinucleata n. sp. and F. tchibisovae Burkovsky, 1970 (Ciliophora: Peniculida), pp. 35-50 in Zootaxa 1687 on pages 36-41, DOI: 10.5281/zenodo.180528 : {"references": ["Bullington, W. E. (1939) A study of spiraling in the ciliate Frontonia with a review of the genus and description of two new species. Archiv fur Protistenkunde, 92, 10 - 66.", "Carey, P. G. (1992) Marine interstitial ciliates. Chapman and Hall, London. pp. 351.", "Dragesco, J. (1960) Cilies mesopsammiques littoraux, systematique, morphologie, ecologie. Des Travaux de la Station biologique de Roscoff, 12, 1 - 356.", "Dragesco, J. (1972) Cilies libres de l'Ouganda. Annales de la Faculte des sciences du Cameroun, 9, 87 - 126.", "Dragesco, J. & Dragesco-Kerneis, A. (1986) Cilies libres de l'Afrique intertropicale. Faune Tropicale, 26, 1 - 559.", "Foissner, W., Berger, H. & Kohmann, F. (1994) Taxonomische und okologische Revision der Ciliaten des Saprobiensystems- Band III: Hymenostomata, Prostomatida, Nassulida. I nformationsberichte Bayer. Landesamtes fur Wasserwirtschaft, 1 / 94, 1 - 548.", "Kahl, A. (1931) Urtiere order Protozoa I: Wimpertiere order Ciliata (Infusoria) 2. Holotricha au\u03b2er den im 1. Teil behandelten Prostomata. Die Tierwelt Deutschlands, 21, 181 - 398.", "Long, H., Song, W., Gong, J., Hu, X., Ma, H., Zhu, M. & Wang, M. (2005) Frontonia lynni n. sp., a new marine ciliate (Protozoa, Ciliophora, Hymenostomatida) from Qingdao, China. Zootaxa, 1003, 57 - 64.", "Petz, W., Song, W. & Wilbert, N. (1995) Taxonomy and ecology of the ciliate fauna (Protozoa, Ciliphora) in the endopagial and pelagial of the Weddell Sea, Antarctica. Stapfia, 40, 1 - 223.", "Roque, M. (1961) Recherches sur les infusoires cilies: les hymenostomes peniculiens. Bulletin Biologique de la France et de la Belgique, 95, 431 - 519.", "Roque, M. & de Puytorac, P. (1972) Frontonia canadensis sp. nov. (Cilie Hymenostome Peniculien). Naturaliste Canadien, 99, 411 - 416.", "Alekperov, I. (2005) An atlas of the free living ciliates (Classes Kinetofragminophora, Colpodea, Oligohymenophora, Polyhymenophora). Borchali Publishing House, Baku (in Russian).", "Burkovsky, I. V. (1970 a) The ciliates of the mesopsammon of the Kandalaksha Gulf (White Sea). I. Acta Protozoologica, 7, 475 - 489.", "Burkovsky, I. V. (1970 b) The ciliates of the mesopsammon of the Kandalaksha Gulf (White Sea). II. Acta Protozoologica, 8, 47 - 65."]} Text Antarc* Antarctica Kandalaksha Gulf Weddell Sea White Sea DataCite Metadata Store (German National Library of Science and Technology) Weddell Sea White Sea Weddell Sandy Beach ENVELOPE(-55.731,-55.731,49.917,49.917) Kandalaksha ENVELOPE(32.417,32.417,67.133,67.133)

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