Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.

Pseudalataspora lophii n. sp. (Figures 10–15) Material studied Host : Lophius piscatorius L. Site of infection : gall bladder Locality, date and depth : (1) 58 ° 51 ˏN, 07° 35 ˏW (NW of Outer Hebrides), 30 March, 2000, 250m; (2) 58 ° 45 ˏN, 07° 49 ˏW (NW of Outer Hebrides), 30 March, 2000, 400m; (3)...

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Main Authors: Afonso-Dias, Isabel, Kalavati, Chaganti, Mackenzie, Ken, Mackenzie, Kevin S.
Format: Text
Language:unknown
Published: Zenodo 2007
Subjects:
Biodiversity
Taxonomy
Animalia
Myxozoa
Myxosporea
Bivalvulida
Alatasporidae
Pseudalataspora
Pseudalataspora lophii
O'Sullivan
North East Atlantic
Northeast Atlantic
Online Access:https://dx.doi.org/10.5281/zenodo.5625783
https://zenodo.org/record/5625783
id ftdatacite:10.5281/zenodo.5625783
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
Myxozoa
Myxosporea
Bivalvulida
Alatasporidae
Pseudalataspora
Pseudalataspora lophii
spellingShingle Biodiversity
Taxonomy
Animalia
Myxozoa
Myxosporea
Bivalvulida
Alatasporidae
Pseudalataspora
Pseudalataspora lophii
Afonso-Dias, Isabel
Kalavati, Chaganti
Mackenzie, Ken
Mackenzie, Kevin S.
Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
topic_facet Biodiversity
Taxonomy
Animalia
Myxozoa
Myxosporea
Bivalvulida
Alatasporidae
Pseudalataspora
Pseudalataspora lophii
description Pseudalataspora lophii n. sp. (Figures 10–15) Material studied Host : Lophius piscatorius L. Site of infection : gall bladder Locality, date and depth : (1) 58 ° 51 ˏN, 07° 35 ˏW (NW of Outer Hebrides), 30 March, 2000, 250m; (2) 58 ° 45 ˏN, 07° 49 ˏW (NW of Outer Hebrides), 30 March, 2000, 400m; (3) 58 ° 29 ˏN, 08° 54 ˏW (NW of Outer Hebrides), 30 March, 2000, 470m; (4) 58 ° 45 ˏN, 08°03ˏW (NW of Outer Hebrides), 30 March, 2000, 700m; (5) 57 ° 20 ˏN, 05° 50 ˏW (Off Skye, Inner Hebrides), March 2004, depth unknown; (6) 57 ° 20 ˏN, 05° 50 ˏW (Off Skye, Inner Hebrides), August, 2004, depth unknown. Prevalence : (1) 3 of 16 (19 %); (2) 14 of 26 (54 %); (3) 1 of 1; (4) 1 of 1; (5) 1 of 2; (6) 1 of 2. Double infections: two host individuals, one each from positions (1) and (2), had double infections of P. lophii and C. lophii. Host length range : (1) 41–64 cm; (2) 45–66 cm; (3) and (4) lengths unknown. Collection number : 2005: 7: 1: 3. Description Trophozoite (Figures 10, 11) disporous, ovoid with a single lobopodium sometimes bifurcating at its tip, which is attached to the wall of the gall bladder. Ectoplasm dense and clearly demarcated. Endoplasm fine, lightly staining. Dimensions, based on 8 fixed specimens: 25.6–35.2 x 14.4 –32.0. Spore (Figures 12, 13, 14, 15,) triangular or rhomboidal with pointed tips in sutural view, flat and curved in valvular view. Sutural line prominent and raised (this feature can be seen in Figure 14, but is obscured in Figures 12 and 13 by the enveloping alate processes). Sporoplasm binucleate. Valve shells drawn out into two delicate broad alate processes that join together at their proximal extremities forming a parachute-like structure over the valves. The valves are often observed folded over with the alate processes covering them (Figure 13). Polar capsules oval, terminal, in close proximity to one another and overlapping in sutural view. Polar filament wide, flat, deeply staining and with only 1.5–2 coils. Dimensions, based on 30 fixed spores, as ranges with means ± SD in parentheses: spore length 7.2 –10.0 (9.8 ± 1.6); spore width, including alate processes 21.6–28.8 (25.9 ± 2.8); spore width, excluding alate processes 16.8–22.6 (18.2 ± 1.2); spore thickness 15.2 – 20.8 (17.5 ± 1.01); polar capsule length: 3.8–5.4 (4.3 ± 0.7); polar capsule width: 3.0–4.0 (3.6 ± 0.2); polar capsule length: spore length = 1: 2.0– 3.2; spore length: spore width = 1: 3.2–4.3. Discussion Pseudalataspora lophii n. sp. differs from the other 11 species of Pseudalataspora described to date in the dimensions of the spore (Table 3) and in having alate processes that cover the spore body. The numbers of coils of the polar filament are not given in the descriptions of most of these species, but the figures indicate that none has less than three, as compared with a maximum of only two coils for P. lophii n. sp. The function of the parachute-like alate processes that cover the spore of P. lophii would appear to be to facilitate the distribution of the spore after release from the host. Lophius spp. are ambush predators that immerse themselves in the substrate with a shuffling motion (Laurensen et al. , 2004). This behaviour would tend to throw myxosporean spores up and away from the infected host and the alate processes would then assist in their further dispersal. Whether this might result in direct infection of other anglerfishes or of an invertebrate alternative host is unknown. Only one marine myxosporean life cycle has so far been shown to require an invertebrate host (Køie et al. , 2004), although actinosporean stages have been found in several species of marine polychaetes and oligochaetes. On the other hand, there is also evidence of direct fish-to-fish transmission of marine myxosporeans (Diamant, 1997; Yasuda et al., 2002). As with the genus Alataspora, Pseudalataspora has been referred to erroneously in the literature as Pseudalatospora or Pseudoalatospora , the latter being the misspelling by Lom & Dykova (1992). Three species of myxosporean are now known to infect the gall bladders of L. piscatorius , while two species are known to infect the gall bladders of L. budegassa. Evidence from the literature and from the present study suggest that these parasites have different endemic areas, which makes them potentially useful candidates as biological tags in population studies of their fish hosts. Recent genetic studies have suggested that stocks of L. piscatorius in the northern part of its distribution are part of a single more or less panmictic reproductive population (O’Sullivan et al., 2006). Parasites, however, can often be used to identify subpopulations of fish distinguished by certain behavioural differences, but which genetic studies may not pick up because there is still a considerable amount of gene flow between them (MacKenzie & Abaunza, 2005). In future studies we plan to examine more anglerfish samples from different parts of their geographical distribution to test if their myxosporean gall bladder parasites can be used to reveal finer details of host population structure. : Published as part of Afonso-Dias, Isabel, Kalavati, Chaganti, Mackenzie, Ken & Mackenzie, Kevin S., 2007, Three new species of Myxosporea (Bivalvulida: Ceratomyxidae: Alatasporidae) from the gall bladders of anglerfishes Lophius spp. (Teleostei: Lophiidae) in the Northeast Atlantic Ocean, pp. 35-46 in Zootaxa 1466 on pages 42-45, DOI: 10.5281/zenodo.176573 : {"references": ["Koie, M., Whipps, C. M. & Kent, M. L. (2004) Ellipsomyxa gobii (Myxozoa: Ceratomyxidae) in the common goby Pomatoschistus microps (Teleostei: Gobiidae) uses Nereis spp. (Annelida: Polychaeta) as invertebrate hosts. Folia Parasitologica, 51, 14 - 18.", "Diamant, A. (1997) Fish to fish transmssion of a marine myxsporean. Diseases of Aquatic Organisms, 30, 99 - 105.", "Yasuda, H., Ooyama, T., Iwata, K., Tun, T., Yokoyama, H. & Ogawa, K. (2002) Fish-to-fish transmission of Myxidium spp. (Myxozoa) in cultured tiger puffer suffering from emaciation disease. Fish Pathology, 37, 29 - 34.", "Lom, J. & Dykova, I. (1992) Protozoan parasites of fishes. Developments in aquaculture and fisheries science, 26. Elsevier Science Publishers B. V., Amsterdam, 315 pp.", "O'Sullivan, M., Wright, P. J., Verspoor, E., Knox, D. & Piertney, S. (2006) Absence of spatial and temporal genetic differentiation at microsatellite loci in north east Atlantic anglerfish (Lophius piscatorius). Journal of Fish Biology, 69 (Suppl. C), 261 (Abstract).", "MacKenzie, K. & Abaunza, P. (2005) Parasites as biological tags. In: Cadrin, S. X., Friedland, K. D. & Waldman, J. R. (Ed.), Stock Identification Methods. Applications in Fisheries Science. Elsevier Academic Press, San Diego, USA, 211 - 216."]}
format Text
author Afonso-Dias, Isabel
Kalavati, Chaganti
Mackenzie, Ken
Mackenzie, Kevin S.
author_facet Afonso-Dias, Isabel
Kalavati, Chaganti
Mackenzie, Ken
Mackenzie, Kevin S.
author_sort Afonso-Dias, Isabel
title Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
title_short Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
title_full Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
title_fullStr Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
title_full_unstemmed Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp.
title_sort pseudalataspora lophii afonso-dias, kalavati, mackenzie & mackenzie, 2007, n. sp.
publisher Zenodo
publishDate 2007
url https://dx.doi.org/10.5281/zenodo.5625783
https://zenodo.org/record/5625783
long_lat ENVELOPE(-62.152,-62.152,-71.433,-71.433)
geographic O'Sullivan
geographic_facet O'Sullivan
genre North East Atlantic
Northeast Atlantic
genre_facet North East Atlantic
Northeast Atlantic
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spelling ftdatacite:10.5281/zenodo.5625783 2023-05-15T17:38:57+02:00 Pseudalataspora lophii Afonso-Dias, Kalavati, Mackenzie & Mackenzie, 2007, n. sp. Afonso-Dias, Isabel Kalavati, Chaganti Mackenzie, Ken Mackenzie, Kevin S. 2007 https://dx.doi.org/10.5281/zenodo.5625783 https://zenodo.org/record/5625783 unknown Zenodo http://publication.plazi.org/id/FFA1FFAD7C00FFF4FD5BAC4B6021C830 http://zoobank.org/02965D98-BFDE-42B1-BF72-8979B88F72F8 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5281/zenodo.176573 http://publication.plazi.org/id/FFA1FFAD7C00FFF4FD5BAC4B6021C830 https://dx.doi.org/10.5281/zenodo.176576 http://zoobank.org/02965D98-BFDE-42B1-BF72-8979B88F72F8 https://dx.doi.org/10.5281/zenodo.5625784 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Myxozoa Myxosporea Bivalvulida Alatasporidae Pseudalataspora Pseudalataspora lophii Taxonomic treatment article-journal Text ScholarlyArticle 2007 ftdatacite https://doi.org/10.5281/zenodo.5625783 https://doi.org/10.5281/zenodo.176573 https://doi.org/10.5281/zenodo.176576 https://doi.org/10.5281/zenodo.5625784 2022-02-08T12:40:44Z Pseudalataspora lophii n. sp. (Figures 10–15) Material studied Host : Lophius piscatorius L. Site of infection : gall bladder Locality, date and depth : (1) 58 ° 51 ˏN, 07° 35 ˏW (NW of Outer Hebrides), 30 March, 2000, 250m; (2) 58 ° 45 ˏN, 07° 49 ˏW (NW of Outer Hebrides), 30 March, 2000, 400m; (3) 58 ° 29 ˏN, 08° 54 ˏW (NW of Outer Hebrides), 30 March, 2000, 470m; (4) 58 ° 45 ˏN, 08°03ˏW (NW of Outer Hebrides), 30 March, 2000, 700m; (5) 57 ° 20 ˏN, 05° 50 ˏW (Off Skye, Inner Hebrides), March 2004, depth unknown; (6) 57 ° 20 ˏN, 05° 50 ˏW (Off Skye, Inner Hebrides), August, 2004, depth unknown. Prevalence : (1) 3 of 16 (19 %); (2) 14 of 26 (54 %); (3) 1 of 1; (4) 1 of 1; (5) 1 of 2; (6) 1 of 2. Double infections: two host individuals, one each from positions (1) and (2), had double infections of P. lophii and C. lophii. Host length range : (1) 41–64 cm; (2) 45–66 cm; (3) and (4) lengths unknown. Collection number : 2005: 7: 1: 3. Description Trophozoite (Figures 10, 11) disporous, ovoid with a single lobopodium sometimes bifurcating at its tip, which is attached to the wall of the gall bladder. Ectoplasm dense and clearly demarcated. Endoplasm fine, lightly staining. Dimensions, based on 8 fixed specimens: 25.6–35.2 x 14.4 –32.0. Spore (Figures 12, 13, 14, 15,) triangular or rhomboidal with pointed tips in sutural view, flat and curved in valvular view. Sutural line prominent and raised (this feature can be seen in Figure 14, but is obscured in Figures 12 and 13 by the enveloping alate processes). Sporoplasm binucleate. Valve shells drawn out into two delicate broad alate processes that join together at their proximal extremities forming a parachute-like structure over the valves. The valves are often observed folded over with the alate processes covering them (Figure 13). Polar capsules oval, terminal, in close proximity to one another and overlapping in sutural view. Polar filament wide, flat, deeply staining and with only 1.5–2 coils. Dimensions, based on 30 fixed spores, as ranges with means ± SD in parentheses: spore length 7.2 –10.0 (9.8 ± 1.6); spore width, including alate processes 21.6–28.8 (25.9 ± 2.8); spore width, excluding alate processes 16.8–22.6 (18.2 ± 1.2); spore thickness 15.2 – 20.8 (17.5 ± 1.01); polar capsule length: 3.8–5.4 (4.3 ± 0.7); polar capsule width: 3.0–4.0 (3.6 ± 0.2); polar capsule length: spore length = 1: 2.0– 3.2; spore length: spore width = 1: 3.2–4.3. Discussion Pseudalataspora lophii n. sp. differs from the other 11 species of Pseudalataspora described to date in the dimensions of the spore (Table 3) and in having alate processes that cover the spore body. The numbers of coils of the polar filament are not given in the descriptions of most of these species, but the figures indicate that none has less than three, as compared with a maximum of only two coils for P. lophii n. sp. The function of the parachute-like alate processes that cover the spore of P. lophii would appear to be to facilitate the distribution of the spore after release from the host. Lophius spp. are ambush predators that immerse themselves in the substrate with a shuffling motion (Laurensen et al. , 2004). This behaviour would tend to throw myxosporean spores up and away from the infected host and the alate processes would then assist in their further dispersal. Whether this might result in direct infection of other anglerfishes or of an invertebrate alternative host is unknown. Only one marine myxosporean life cycle has so far been shown to require an invertebrate host (Køie et al. , 2004), although actinosporean stages have been found in several species of marine polychaetes and oligochaetes. On the other hand, there is also evidence of direct fish-to-fish transmission of marine myxosporeans (Diamant, 1997; Yasuda et al., 2002). As with the genus Alataspora, Pseudalataspora has been referred to erroneously in the literature as Pseudalatospora or Pseudoalatospora , the latter being the misspelling by Lom & Dykova (1992). Three species of myxosporean are now known to infect the gall bladders of L. piscatorius , while two species are known to infect the gall bladders of L. budegassa. Evidence from the literature and from the present study suggest that these parasites have different endemic areas, which makes them potentially useful candidates as biological tags in population studies of their fish hosts. Recent genetic studies have suggested that stocks of L. piscatorius in the northern part of its distribution are part of a single more or less panmictic reproductive population (O’Sullivan et al., 2006). Parasites, however, can often be used to identify subpopulations of fish distinguished by certain behavioural differences, but which genetic studies may not pick up because there is still a considerable amount of gene flow between them (MacKenzie & Abaunza, 2005). In future studies we plan to examine more anglerfish samples from different parts of their geographical distribution to test if their myxosporean gall bladder parasites can be used to reveal finer details of host population structure. : Published as part of Afonso-Dias, Isabel, Kalavati, Chaganti, Mackenzie, Ken & Mackenzie, Kevin S., 2007, Three new species of Myxosporea (Bivalvulida: Ceratomyxidae: Alatasporidae) from the gall bladders of anglerfishes Lophius spp. (Teleostei: Lophiidae) in the Northeast Atlantic Ocean, pp. 35-46 in Zootaxa 1466 on pages 42-45, DOI: 10.5281/zenodo.176573 : {"references": ["Koie, M., Whipps, C. M. & Kent, M. L. (2004) Ellipsomyxa gobii (Myxozoa: Ceratomyxidae) in the common goby Pomatoschistus microps (Teleostei: Gobiidae) uses Nereis spp. (Annelida: Polychaeta) as invertebrate hosts. Folia Parasitologica, 51, 14 - 18.", "Diamant, A. (1997) Fish to fish transmssion of a marine myxsporean. Diseases of Aquatic Organisms, 30, 99 - 105.", "Yasuda, H., Ooyama, T., Iwata, K., Tun, T., Yokoyama, H. & Ogawa, K. (2002) Fish-to-fish transmission of Myxidium spp. (Myxozoa) in cultured tiger puffer suffering from emaciation disease. Fish Pathology, 37, 29 - 34.", "Lom, J. & Dykova, I. (1992) Protozoan parasites of fishes. Developments in aquaculture and fisheries science, 26. Elsevier Science Publishers B. V., Amsterdam, 315 pp.", "O'Sullivan, M., Wright, P. J., Verspoor, E., Knox, D. & Piertney, S. (2006) Absence of spatial and temporal genetic differentiation at microsatellite loci in north east Atlantic anglerfish (Lophius piscatorius). Journal of Fish Biology, 69 (Suppl. C), 261 (Abstract).", "MacKenzie, K. & Abaunza, P. (2005) Parasites as biological tags. In: Cadrin, S. X., Friedland, K. D. & Waldman, J. R. (Ed.), Stock Identification Methods. Applications in Fisheries Science. Elsevier Academic Press, San Diego, USA, 211 - 216."]} Text North East Atlantic Northeast Atlantic DataCite Metadata Store (German National Library of Science and Technology) O'Sullivan ENVELOPE(-62.152,-62.152,-71.433,-71.433)

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