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Journal articles on the topic 'Dracunculoidea'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 February 2022

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1

SOKOLOV, SERGEY G., ALEXANDER P. KALMYKOV, and SVETLANA V. MALYSHEVA. "Phylogeny of dracunculoid nematodes (Chromadorea: Rhabditida: Spirurina: Dracunculoidea) from some Eurasian freshwater fishes." Zootaxa 4858, no. 4 (October 2, 2020): 521–41. http://dx.doi.org/10.11646/zootaxa.4858.4.3.

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Sets of small ribosomal DNA (SSU rDNA) and large ribosomal DNA (LSU rDNA) sequences were obtained for Philometroides moraveci Vismanis & Yunchis, 1994, Philometra kotlani (Molnár, 1969), Philometra rischta Skrjabin, 1923, Philometra cf. obturans (Prenant, 1886) (Philometridae), Sinoichthyonema amuri (Garkavi, 1972), Agrachanus scardinii (Molnár, 1966), Kalmanmolnaria intestinalis (Dogiel & Bychowsky, 1934) and Skrjabillanus tincae Shigin & Shigina, 1958 (Skrjabillanidae). Phylogenetic analysis of SSU rDNA data shows that dracunculoid nematodes are divided into two well-supported clades designated as Clade I and Clade II, respectively. Clade I includes the type species of the genus Philonema Kuitunen-Ekbaum, 1933, some species from the family Daniconematidae Moravec & Køie, 1987 and two subfamilies of skrjabillanids, Skrjabillaninae Shigin & Shigina, 1958 and Esocineminae Moravec, 2006. Clade II unites species from the families Dracunculidae Stiles, 1907, Micropleuridae Baylis & Daubney, 1926 and Philometridae Baylis & Daubney, 1926. Within the Philometridae, there are several well-supported groups of species, one of which unites freshwater Philometra spp. from the Palearctic cyprinids, identified as P. kotlani, P rischta, P. ovata (Zeder, 1803) and P. cyprinirutili (Creplin, 1825). However, the phylogenetic relationships of most philometrids are unresolved. An analysis of partial SSU and LSU rDNA sequences indicates that there is no direct phylogenetic relationship between Agrachanus Tikhomirova, 1971 (type species Skrjabillanus scardinii Molnár, 1966) and Skrjabillanus Shigin & Shigina, 1958 (type species Sk. tincae), which means that the genus Agrachanus can be resurrected. Our study confirms that Philonematinae Ivashkin, Sobolev & Khromova, 1971 should be elevated to the family rank. We formally establish the family Philonematidae Ivashkin, Sobolev & Khromova, 1971 stat. nov. We also suggest combining the superfamilies Dracunculoidea Stiles, 1907 and Camallanoidea Railliet & Henry, 1915 into the infraorder Camallanomorpha Roberts, Janovy & Nadler, 2013.
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2

Adamson, M. L., G. B. Deets, and G. W. Benz. "Description of male and redescription of female Phlyctainophora squali Mudry and Dailey, 1969 (Nematoda; Dracunculoidea) from elasmobranchs." Canadian Journal of Zoology 65, no. 12 (December 1, 1987): 3006–10. http://dx.doi.org/10.1139/z87-455.

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Coiled globose nematodes identified as Phlyctainophora squali Mudry and Dailey, 1969 (Nematoda; Dracunculoidea) were found associated with ulcer-like and cyst-like lesions on the external surface and in the buccal cavity of 19 of 63 Squalus acanthias, 1 of 21 Heterodontus francisci, 1 of 117 Rhinobatus productus, and 7 of 16 Prionace glauca from the California Bight (northeast Pacific). A single male worm was recovered from one of the cysts in S. acanthias and the present redescription of the species includes the first description of a male Phlyctainophora. Certain characters of the male (i.e., form of cephalic extremity, reduced caudal alae, reduced number of caudal papillae) agree with those of members of the Philometridae; other characters of the male (form of the oesophagus) and female (monodelphy) agree with those of the Guyanemidae. Phlyctainophora is treated as a Dracunculoidea incertae sedis.
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3

Sokolov, S. G. "Redescription of the parasitic nematode (Philometroidesmoraveci, Dracunculoidea, Philometridae)." Зоологический журнал 92, no. 7 (2013): 866–72. http://dx.doi.org/10.7868/s004451341307012x.

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4

Appy, R. G., R. C. Anderson, and R. A. Khan. "Ichthyofilaria canadensis n.sp. (Nematoda: Dracunculoidea) from eelpouts (Lycodes spp.)." Canadian Journal of Zoology 63, no. 7 (July 1, 1985): 1590–92. http://dx.doi.org/10.1139/z85-235.

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Ichthyofilaria canadensis n.sp., from the eelpouts Lycodes lavalaei Vladykov and Tremblay, 1936 and Lycodes vahlii Reinhardt, 1838 from the northwest Atlantic off Newfoundland and Labrador, is distinguished from Ichthyofilaria dasycotti Yamaguti, 1935 by its smaller size, the presence of well-developed vulva and vagina, the more anterior extent of the anterior ovary and uterus, and the host and geographic distribution. The first-stage larva is microfilarioid and occurs in the blood of the host.
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5

May-Tec, A. L., A. Martínez-Aquino, M. L. Aguirre-Macedo, and V. M. Vidal-Martínez. "Molecular evidence linking the larval and adult stages of Mexiconema cichlasomae (Dracunculoidea: Daniconematidae) from Mexico, with notes on its phylogenetic position among Dracunculoidea." Journal of Helminthology 93, no. 05 (July 10, 2018): 580–88. http://dx.doi.org/10.1017/s0022149x18000524.

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AbstractWe describe the larval developmental stages and life cycle of the dracunculid nematodeMexiconema cichlasomaein both the intermediate,Argulus yucatanus(Crustacea: Branchiura), and definitive hosts,Cichlasoma urophthalmus(Perciformes: Cichlidae), from the Celestun tropical coastal lagoon, Yucatan, Mexico. The morphological analyses showed significant differences between the total length of L1 found inM. cichlasomaegravid female and L2–L3 inA. yucatanus.This result indicates that theM. cichlasomaelarval development occurs in the intermediate host. We obtained sequences from the small subunit (SSU) ribosomal marker from larval stages ofM. cichlasomaeinA. yucatanusand adult nematodes inC. urophthalmus. Our morphological and molecular results support conspecificity betweenM. cichlasomaelarvae inA. yucatanusand the adult stages inC. urophthalmus. We briefly discuss the phylogenetic position ofM. cichlasomaeamong the Daniconematidae, and provide evidence of the monophyly of the daniconematids associated with branchiurid intermediate hosts. Based on the phylogenetic results, we support the transfer of theMexiconemagenus to the family Skrjabillanidae and do not support the lowering of family Daniconematidae to subfamily.
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6

Moravec, F., M. I. Jiménez-García, and G. Salgado-Maldonado. "New observations onMexiconema cichlasomae(Nematoda: Dracunculoidea) from fishes in Mexico." Parasite 5, no. 3 (September 1998): 289–93. http://dx.doi.org/10.1051/parasite/1998053289.

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7

Frantová, Denisa, Magdaléna Bruňanská, Hans-Peter Fagerholm, and Maria Kihlström. "Ultrastructure of the body wall of female Philometra obturans (Nematoda: Dracunculoidea)." Parasitology Research 95, no. 5 (February 8, 2005): 327–32. http://dx.doi.org/10.1007/s00436-004-1294-2.

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8

Predrag, Cakic, Stojanovski S., Kulisic Zoran, Hristovski N, and Lenhardt Mirjana. "Occurence of Anguillicola crassus, ematoda: Dracunculoidea, in eels of lake Ohrid, Macedonia." Acta veterinaria 52, no. 2-3 (2002): 163–68. http://dx.doi.org/10.2298/avb0203163c.

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9

Oliva, M. E., A. S. Borquez, and A. N. Olivares. "Sexual status of Paralabrax humeralis (Serranidae) and infection by Philometra sp. (Nematoda: Dracunculoidea)." Journal of Fish Biology 40, no. 6 (June 1992): 979–80. http://dx.doi.org/10.1111/j.1095-8649.1992.tb02645.x.

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10

Santos, Cláudia Portes, and David I. Gibson. "Nilonema gymnarchi Khalil, 1960 and N. senticosum (Baylis, 1922) (Nematoda: Dracunculoidea): Gondwana relicts?" Systematic Parasitology 67, no. 3 (April 11, 2007): 225–34. http://dx.doi.org/10.1007/s11230-006-9080-4.

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11

Sokolov, S. G., S. E. Frolova, and E. V. Frolov. "The first record of parasitic nematode Clavinema mariae (Dracunculoidea: Philometridae) in gadiform fishes (Osteichthyes: Gadiformes)." Invertebrate Zoology 7, no. 1 (December 2010): 123–32. http://dx.doi.org/10.15298/invertzool.07.2.04.

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12

Blanc, Guillailme, Stéphane Bonneau, Sylvie Biagianti, and Annie J. Petter. "Description of the larval stages ofAnguillicola crassus(Nematoda, Dracunculoidea) using light and scanning electron microscopy." Aquatic Living Resources 5, no. 4 (October 1992): 307–18. http://dx.doi.org/10.1051/alr:1992029.

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13

Sures, B., K. Knopf, and H. Taraschewski. "Development of Anguillicola crassus (Dracunculoidea, Anguillicolidae) in experimentally infected Balearic congers Ariosoma balearicum (Anguilloidea, Congridae)." Diseases of Aquatic Organisms 39 (1999): 75–78. http://dx.doi.org/10.3354/dao039075.

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14

Evans, D. W., and M. A. Matthews. "Anguillicola crassus (Nematoda, Dracunculoidea); first documented record of this swimbladder parasite of eels in Ireland." Journal of Fish Biology 55, no. 3 (September 1999): 665–68. http://dx.doi.org/10.1111/j.1095-8649.1999.tb00707.x.

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15

Petter, A. J., Y. A. Fontaine, and N. Le Belle. "Étude du développement larvaire deAnguillicola crassus(Dracunculoidea, Nematoda) chez un Cyclopidae de la région parisienne." Annales de Parasitologie Humaine et Comparée 64, no. 5 (1989): 347–55. http://dx.doi.org/10.1051/parasite/1989645347.

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16

Sokolov, S., B. Kazakov, and D. Tseitlin. "The finding of the nematode Daniconema anguillae Moravec et Køie, 1987 (Spirurida, Dracunculoidea: Daniconematidae) in Lithuania." Helminthologia 43, no. 1 (March 1, 2006): 57–58. http://dx.doi.org/10.2478/s11687-006-0011-3.

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AbstractThe third-stage larvae of Daniconema anguillae Moravec et Køie, 1987 are found in the eels fins caught from Dringis Lake (Lithuanian National park). The morphology of these larvae is briefly described.
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17

Després, L., M. L. Adamson, and T. E. McDonald. "Development of a diagnostic molecular marker for Philonema spp. (Nematoda; Dracunculoidea) infecting salmonids in British Columbia." Canadian Journal of Fisheries and Aquatic Sciences 52, S1 (August 1, 1995): 129–33. http://dx.doi.org/10.1139/f95-518.

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We developed a species specific DNA probe based on differential PCR amplification that distinguishes two congeneric nematode parasites of salmonids in British Columbia: Philonema agubernaculum Simon and Simon, 1936, usually parasitic in lake resident rainbow trout, Oncorhynchus mykiss; and P. oncorhynchi Kuitunen-Ekbaum, 1933, parasitic in anadromous sockeye salmon, O. nerka. The region differentially amplified was the D3 expansion domain of the 28S rDNA. Sequences of the two species differ in two parts of the domain, one a single base substitution and the other a three base duplication in P. oncorhynchi. A primer specific to P. oncorhynchi (amplifying P. oncorhynchi, not P. agubernaculum) was defined in the duplication region. Using differential amplification, we showed that sockeye smolts are infected with P. agubernaculum, although returning adults harbour only P. oncorhynchi. This technique could conceivably be used to quantify the frequency of heterologous infections in the wild, before infecting worms are identifiable at the species level based on morphological criteria.
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18

Moravec, František, Jill V. Spangenberg, and Salvatore Frasca, Jr. "SYNGNATHINEMA CALIFORNIENSEN. GEN., N. SP. (NEMATODA: DRACUNCULOIDEA) FROM THE CIRCULATORY SYSTEM OF THE BAY PIPEFISHSYNGNATHUS LEPTORHYNCHUSIN CALIFORNIA." Journal of Parasitology 87, no. 6 (December 2001): 1429–32. http://dx.doi.org/10.1645/0022-3395(2001)087[1429:scngns]2.0.co;2.

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19

Muñoz, Gabriela. "A New Species of Pseudodelphis (Dracunculoidea: Guyanemidae) in the Intertidal Fish Scartichthys viridis (Blenniidae) from Central Chile." Journal of Parasitology 96, no. 1 (February 2010): 152–56. http://dx.doi.org/10.1645/ge-2163.1.

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Braicovich, Paola, František Moravec, and Juan T. Timi. "NEW SPECIES OF MORAVECIA (NEMATODA: DRACUNCULOIDEA) FROM BODY CAVITY OF MARINE PERCIFORM FISH PERCOPHIS BRASILIENSIS IN ARGENTINA." Journal of Parasitology 93, no. 2 (April 2007): 353–56. http://dx.doi.org/10.1645/ge-921r.1.

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21

Charleroy, D., V. Cannaerts, H. Augustijn, L. Grisez, J. H. Boon, and F. Ollevier. "An improved method for artificial infection of the European eel, Anguilla anguilla, with Anguillicola crassus (Nematoda, Dracunculoidea)." Journal of Applied Ichthyology 6, no. 3 (September 1990): 182–88. http://dx.doi.org/10.1111/j.1439-0426.1990.tb00577.x.

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22

Molnár, K., and F. Moravec. "Skrjabillanus cyprini n. sp. (Nematoda: Dracunculoidea) from the scales of common carp Cyprinus carpio (Pisces) from Hungary." Systematic Parasitology 38, no. 2 (October 1997): 147–51. http://dx.doi.org/10.1023/a:1005885810718.

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23

Haenen, O. L. M., and P. van Banning. "Experimental transmission of Anguillicola crassus (Nematoda, Dracunculoidea) larvae from infected prey fish to the eel Anguilla anguilla." Aquaculture 92 (January 1991): 115–19. http://dx.doi.org/10.1016/0044-8486(91)90013-w.

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24

Haenen, O. L. M., T. A. M. van Wijngaarden, M. H. T. van der Heijden, J. Höglund, J. B. J. W. Cornelissen, L. A. M. G. van Leengoed, F. H. M. Borgsteede, and W. B. van Muiswinkel. "Effects of experimental infections with different doses of Anguillicola crassus (Nematoda, Dracunculoidea) on European eel (Anguilla anguilla)." Aquaculture 141, no. 1-2 (May 1996): 41–57. http://dx.doi.org/10.1016/0044-8486(95)01213-3.

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Eberhard, Mark L., and Floy H. Brandt. "The Role of Tadpoles and Frogs as Paratenic Hosts in the Life Cycle of Dracunculus insignis (Nematoda: Dracunculoidea)." Journal of Parasitology 81, no. 5 (October 1995): 792. http://dx.doi.org/10.2307/3283979.

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Haenen, OLM, L. Grisez, D. De Charleroy, C. Belpaire, and F. Ollevier. "Experimentally induced infections of European eel Anguilla angutila with Anguillicola crassus (Nematoda, Dracunculoidea) and subsequent migration of larvae." Diseases of Aquatic Organisms 7 (1989): 97–101. http://dx.doi.org/10.3354/dao007097.

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27

DEWI, KARTIKA, and HARRY W. PALM. "Two new species of philometrid nematodes (Nematoda: Philometridae) in Epinephelus coioides (Hamilton, 1822) from the South Bali Sea, Indonesia." Zootaxa 3609, no. 1 (January 25, 2013): 49–59. http://dx.doi.org/10.11646/zootaxa.3609.1.3.

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Based on light and scanning electron microscopy, two new species of philometrid nematodes, Spirophilometra endangae sp. nov. and Philometra epinepheli sp. nov. (Nematoda: Dracunculoidea: Philometridae) are described from Epinephelus coioides (Hamilton, 1822) (Perciformes: Serranidae) from the South Bali Sea, Indonesia. Spirophilometra endangae sp. nov. was isolated from the fins of E. coioides. The new species can be distinguished from the most closely related S. eichleri Parukhin, 1971 by a larger total body length and the site of infection in the host. The new species differs from S. centropomi (Caballero, 1974) also in the larger body size of the gravid females and the site of infection in the host. S. en-dangae sp. nov. differs from S. pacifica (Moravec, Santana-Pineros, Gonzales-Solis & Torres-Huerta, 2007) in the struc-ture and arrangement of the spines on the middle part of the body, the infection site of the worm, the type host and the zoogeographical host distribution. Philometra epinepheli sp. nov. differs from all other Philometra spp. congeners so far recorded from Ephinepelus groupers in the total body length and the site of infection. This is the first opercula-infecting species of Philometra described from the fish family Serranidae.
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Adamson, Martin L., and Janine N. Caira. "Lockenloia sanguinis n. gen., n. sp. (Nematoda: Dracunculoidea) from the Heart of a Nurse Shark, Ginglymostoma cirratum, in Florida." Journal of Parasitology 77, no. 5 (October 1991): 663. http://dx.doi.org/10.2307/3282695.

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Bennett, Shannon N., and Martin L. Adamson. "PREVALENCE, INTENSITY, AND DIFFERENTIAL DEVELOPMENT OF PSEUDODELPHIS OLIGOCOTTI (NEMATODA: DRACUNCULOIDEA) IN SYMPATRIC FISH HOSTS OF THE NORTHEASTERN PACIFIC COAST." Journal of Parasitology 90, no. 4 (August 2004): 678–84. http://dx.doi.org/10.1645/ge-244r.

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Brugni, Norma, and Gustavo Viozzi. "Pseudodelphis limnicola sp. n. (Dracunculoidea: Guyanemidae) from the heart of Percichthys trucha (Perciformes: Percichthyidae) in Patagonian Andean lakes (Argentina)." Folia Parasitologica 53, no. 2 (June 1, 2006): 134–38. http://dx.doi.org/10.14411/fp.2006.017.

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Junker, Kerstin, and Yasen Mutafchiev. "Micropleura huchzermeyeri n. sp. (Camallanida: Dracunculoidea: Micropleuridae) from the Nile crocodile, Crocodylus niloticus Laurenti (Reptilia: Crocodylidae), in South Africa." Systematic Parasitology 94, no. 7 (July 11, 2017): 785–95. http://dx.doi.org/10.1007/s11230-017-9742-4.

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NADLER, S. A., R. A. CARRENO, H. MEJÍA-MADRID, J. ULLBERG, C. PAGAN, R. HOUSTON, and J. P. HUGOT. "Molecular phylogeny of clade III nematodes reveals multiple origins of tissue parasitism." Parasitology 134, no. 10 (May 17, 2007): 1421–42. http://dx.doi.org/10.1017/s0031182007002880.

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SUMMARYMolecular phylogenetic analyses of 113 taxa representing Ascaridida, Rhigonematida, Spirurida and Oxyurida were used to infer a more comprehensive phylogenetic hypothesis for representatives of ‘clade III’. The posterior probability of multiple alignment sites was used to exclude or weight characters, yielding datasets that were analysed using maximum parsimony, likelihood, and Bayesian inference methods. Phylogenetic results were robust to differences among inference methods for most high-level taxonomic groups, but some clades were sensitive to treatments of characters reflecting differences in alignment ambiguity. Taxa representing Camallanoidea, Oxyurida, Physalopteroidea, Raphidascarididae, and Skrjabillanidae were monophyletic in all 9 analyses whereas Ascaridida, Ascarididae, Anisakidae, Cosmocercoidea, Habronematoidea, Heterocheilidae, Philometridae, Rhigonematida and Thelazioidea were never monophyletic. Some clades recovered in all trees such as Dracunculoidea and Spirurina included the vast majority of their sampled species, but were non-monophyletic due to the consistent behaviour of one or few ‘rogue’ taxa. Similarly, 102 of 103 clade III taxa were strongly supported as monophyletic, yet clade III was paraphyletic due to the grouping of Truttaedacnitis truttae with the outgroups. Mapping of host ‘habitat’ revealed that tissue-dwelling localization of nematode adults has evolved independently at least 3 times, and relationships among Spirurina and Camallanina often reflected tissue predilection rather than taxonomy.
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DEWI, KARTIKA, and HARRY W. PALM. "Philometrid nematodes (Philometridae) of marine teleosts from Balinese waters, Indonesia, including the description of Philometra damriyasai sp. nov." Zootaxa 4341, no. 4 (November 1, 2017): 577. http://dx.doi.org/10.11646/zootaxa.4341.4.10.

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Based on light and scanning electron microscopy, one new species of philometrid nematodes, Philometra damriyasai sp. nov. (Nematoda: Dracunculoidea: Philometridae) from the body cavity of Tylerius spinosissimus (Regan, 1908) (Tetraodontiformes, Tetraodontidae), and five known species are reported in different marine teleosts from South Bali, Indonesia. The new species can be distinguished from the most closely related P. javensis Moravec, Walter & Juniar, 2012 by the absence of sclerotized denticles on the cuticle of the anterior oesophageal lobes of the mouth and smaller larvae. Philometra nemipteri Luo, 2001 of Nemipterus japonicus (Bloch, 1791), P. otolithi Moravec & Manoharan, 2013 of Otolithes ruber (Bloch & Schneider, 1801) (both from gonads) and Philometroides marinus Moravec & Buron, 2009 from the body cavity of Rachycentron canadum (Linnaeus, 1766) are reported for the first time from Indonesian waters, thus extending their range of distribution into the tropical Indo-Pacific Ocean. Philometra lobotidis Moravec, Walter & Yuniar, 2012 from the body cavity of Lobotes surinamensis (Bloch, 1790) and P. ocularis Moravec, Ogawa, Suzuki, Miyaki & Donai, 2002 from the eye cavity of Variola louti (Forsskål, 1775) represent new geographical records, and Philometra sp. was recorded for the first time from Cephalopholis sexmaculata (Rüppell, 1830). A total of 14 philometrids have been so far identified from marine fishes in Indonesia.
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Adamson, M. L., and Myron Roth. "Prevalence and Intensity of Pseudodelphis oligocotti n. gen., n. sp. (Dracunculoidea; Guyanemidae) in the Tidepool Sculpin, Oligocottus maculosus (Scorpaeniformes; Cottidae)." Journal of Parasitology 76, no. 4 (August 1990): 509. http://dx.doi.org/10.2307/3282830.

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Moravec, Frantisek, Jill V. Spangenberg, and Salvatore Frasca. "Syngnathinema californiense n. gen., n. sp. (Nematoda: Dracunculoidea) from the Circulatory System of the Bay Pipefish Syngnathus leptorhynchus in California." Journal of Parasitology 87, no. 6 (December 2001): 1429. http://dx.doi.org/10.2307/3285314.

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Negreiros, Luciano P., Marcos Tavares-Dias, Carina Elisei, Luiz E. R. Tavares, and Felipe B. Pereira. "First description of the male of Philometroides acreanensis and phylogenetic assessment of Philometridae (Nematoda: Dracunculoidea) suggest instability of some taxa." Parasitology International 69 (April 2019): 30–38. http://dx.doi.org/10.1016/j.parint.2018.10.010.

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Moravec, F., and B. Skoríkková. "Amphibians and larvae of aquatic insects as new paratenic hosts of Anguillicola crassus (Nematoda: Dracunculoidea), a swimbladder parasite of eels." Diseases of Aquatic Organisms 34 (1998): 217–22. http://dx.doi.org/10.3354/dao034217.

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Münderle, M., H. Taraschewski, B. Klar, CW Chang, JC Shiao, KN Shen, JT He, SH Lin, and WN Tzeng. "Occurrence of Anguillicola crassus (Nematoda: Dracunculoidea) in Japanese eels Anguilla japonica from a river and an aquaculture unit in SW Taiwan." Diseases of Aquatic Organisms 71 (July 25, 2006): 101–8. http://dx.doi.org/10.3354/dao071101.

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Ribu, Dalisay L., and Robert J. G. Lester. "Moravecia australiensis n. g., n. sp. (Dracunculoidea: Guyanemidae) from the gills of the green porcupine fish Tragulichthys jaculiferus (Cuvier) in Australia." Systematic Parasitology 57, no. 1 (January 2004): 59–65. http://dx.doi.org/10.1023/b:sypa.0000010686.36122.98.

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Taraschewski, H., F. Moravec, T. Lamah, and K. Anders. "Distribution and morphology of two helminths recently introduced into European eel populations: Anguillicola crassus (Nematoda, Dracunculoidea) and Paratenuisentis ambiguus (Acanthocephala, Tenuisentidae)." Diseases of Aquatic Organisms 3 (1987): 167–76. http://dx.doi.org/10.3354/dao003167.

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W., Aragort, Álvarez F., Iglesias R., Leiro J., and Sanmartín M. "Histodytes microocellatus gen. et sp. nov. (Dracunculoidea: Guyanemidae), a parasite of Raja microocellata on the European Atlantic coast (north-western Spain)." Parasitology Research 88, no. 10 (October 1, 2002): 932–40. http://dx.doi.org/10.1007/s00436-002-0669-5.

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Sokolov, S. G., and B. E. Kazakov. "Redescription of the male of Philometra rischta Skrjabin, 1923 (Nematoda: Dracunculoidea: Philometridae) and notes on morphology of the female of this species." Invertebrate Zoology 4, no. 1 (April 2008): 151–60. http://dx.doi.org/10.15298/invertzool.04.2.04.

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Silva-Souza, Ângela Teresa, and Aurélia Saraiva. "Ecological Data of Travassosnema travassosi travassosi (Dracunculoidea: Guyanemidae) from the Humour of the Eyes of Acestrorhynchus lacustris from Tibagi River, Paraná, Brazil." Memórias do Instituto Oswaldo Cruz 97, no. 1 (January 2002): 51–52. http://dx.doi.org/10.1590/s0074-02762002000100007.

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Moravec, František, and Kazuya Nagasawa. "New data on the morphology of Philonema oncorhynchi Kuitunen-Ekbaum, 1933 (Nematoda: Dracunculoidea) from the abdominal cavity of Pacific salmon (Oncorhynchus spp.)." Systematic Parasitology 43, no. 1 (May 1999): 67–74. http://dx.doi.org/10.1023/a:1006181528423.

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Székely, C., K. Molnár, and OZ Rácz. "Radiodiagnostic method for studying the dynamics of Anguillicola crassus (Nematoda: Dracunculoidea) infection and pathological status of the swimbladder in Lake Balaton eels." Diseases of Aquatic Organisms 64 (2005): 53–61. http://dx.doi.org/10.3354/dao064053.

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Cantatore, Delfina M. P., Paolo Merella, and Juan T. Timi. "Males of Ichthyofilaria argentinensis Incorvaia, 1999 and I. bergensis (Wulker, 1930) (Dracunculoidea: Guyanemidae): new morphological aspects and emendation of the generic diagnosis." Folia Parasitologica 57, no. 4 (December 1, 2010): 289–94. http://dx.doi.org/10.14411/fp.2010.035.

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Haenen, O. L. M., P. van Banning, and W. Dekker. "Infection of eel Anguilla anguilla (L.) and smelt Osmerus eperlanus (L.) with Anguillicola crassus (Nematoda, Dracunculoidea) in the Netherlands from 1986 to 1992." Aquaculture 126, no. 3-4 (October 1994): 219–29. http://dx.doi.org/10.1016/0044-8486(94)90038-8.

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Costa, Hélio Martins de Araújo, Narcisa Imaculada Brant Moreira, and Carmen Lúcia de Oliveira. "Travassosnema gen. n. with the description of T. travassosi sp. n. (Dracunculoidea, Guyanemidae) parasite of Acestrorhynchus lacustris Reinhardt, 1874 (Characidae) from Três Marias Reservoir, MG, Brazil." Memórias do Instituto Oswaldo Cruz 86, no. 4 (December 1991): 437–39. http://dx.doi.org/10.1590/s0074-02761991000400011.

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BONNEAU, S., G. BLANC, and A. J. PETTER. "Étude sur la biologie des premiers stades larvaires d'Anguillicola crassus (Nematoda, Dracunculoidea) : spécificité de l'hôte intermédiaire et influence de la température sur la durée du développement." Bulletin Français de la Pêche et de la Pisciculture, no. 320 (1991): 1–6. http://dx.doi.org/10.1051/kmae:1991010.

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Ikram, R. M., A. Tanveer, Z. Ata, and M. Saqib. "Dormancy studies on Euphorbia dracunculoides and Astragalus spp.: major weeds of arid areas." Planta Daninha 32, no. 4 (December 2014): 747–53. http://dx.doi.org/10.1590/s0100-83582014000400009.

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Abstract:
The aim of this study was to examine the dormancy behavior of Euphorbia dracunculoides and Astragalus spp., weeds of arid chickpea. The dormancy breaking treatments were: Gibberalic acid (GA3) and Thiourea each at 50, 100, 150, 200, 250, and 300 ppm and Potassium nitrate (KNO3) at 5,000, 10,000, 15,000, 20,000, 25,000, and 30,000 ppm (24 h soaking). Germination (G) percentage and germination energy (GE) of E. dracunculoides was maximum (89 and 22, respectively) at 250 ppm concentration of GA3 and 81.50 and 11.50 at 15000 ppm concentration of KNO3. Thiourea at 250 and 300 ppm resulted in maximum G percentage (51) and GE (25.50) of E. dracunculoides, whereas the G percentage and GE of Astragalus spp. were maximum (28 and 19, respectively) at the lowest concentration of GA3 (50 ppm). On the other hand, 5000 ppm and 150 ppm concentration of KNO3 and Thiourea showed maximum GE (19.5) and G percentage (28) of Astragalus spp., respectively. Overall, effective dormancy breaking chemical against E. dracunculoides was GA3 (250 ppm) while in Astragalus spp. none of chemicals showed very impressive results. These results showed that both weeds' seeds have dormancy in their habit. Hot water treatment and the above mentioned chemicals (best concentrations) when used with 4, 8, and 12 hours soaking showed ineffective results.
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