No CrossRef data available.
Article contents
Metazoan parasites of some meso- and bathypelagic fish from the Perdido region, southern Gulf of Mexico
Published online by Cambridge University Press: 05 September 2022
Abstract
We present a preliminary taxonomic survey of the metazoan parasites from meso- and bathypelagic fish hosts from the Perdido region, western Gulf of Mexico. In total, 187 individual fish were collected, belonging to five families and 12 species: Cyclothone acclinidens, Cyclothone alba, Cyclothone braueri, Cyclothone pallida, Cyclothone pseudopallida, Cyclothone sp., Manducus maderensis (Gonostomatidae), Notolychnus valdiviae (Myctophidae), Dibranchus atlanticus (Ogcocephalidae), Peristedion greyae (Peristediidae), Sternoptyx pseudobscura (Sternoptychidae), and Chauliodus sloani (Stomiidae). The metazoan parasites collected were the digenean Lethadena profunda from Cyclothone sp., four tetraphillidean larval cestodes from C. acclinidens, Cyclothone sp., C. sloani and P. greyae, a species of Echeneibotrium from D. atlanticus, a species of Anisakis from C. sloani, and the nematode Mooleptus rabuka from C. alba. Four of the parasite species found had already been previously recorded for the northern Gulf of Mexico. Additionally, we report two parasites not recorded before for meso- or bathypelagic fish in the entire Gulf of Mexico: M. rabuka from C. alba and Cyclothone sp.; and the copepods of the family Pennellidae from Cyclothone sp. and P. greyae.
- Type
- Research Article
- Information
- Journal of the Marine Biological Association of the United Kingdom , Volume 102 , Issue 6 , September 2022 , pp. 391 - 401
- Copyright
- Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of Marine Biological Association of the United Kingdom
References
Andres, MJ, Peterson, MS and Overstreet, RM (2016) Endohelminth parasites of some midwater and benthopelagic stomiiform fishes from the northern Gulf of Mexico. Gulf and Caribbean Research 27, 11–19.Google Scholar
Baylis, HA (1923) An ascarid from the sperm-whale. Annals & Magazine of Natural History 9, 211–217.CrossRefGoogle Scholar
Bonnevie, K (1916) Mitteilungen iiber Pteropoden. 1. Beobachtungen uber den Geschlechtsapparat von Cuviera columnella Rang. Jenaische Zeitschrift für Medizin und Naturwissenschaft 54, 245–276.Google Scholar
Boxshall, GA (1986) A new genus and two new species of Pennellidae (Copepoda: Siphonostomatoida) and an analysis of evolution within the family. Systematic Parasitology 8, 215–225.CrossRefGoogle Scholar
Boxshall, GA (1998) Host specificity in copepod parasites of deep-sea fishes. Journal of Marine Systems 15, 215–223.CrossRefGoogle Scholar
Boxshall, GA (2000) Parasitic copepods (Copepoda: Siphonostomatoida) from deep-sea and mid-water fishes. Systematic Parasitology 47, 173–181.CrossRefGoogle ScholarPubMed
Boxshall, GA and Halsey, SH (2004) An Introduction to Copepod Diversity. London: The Ray Society.Google Scholar
Boxshall, GA and Walter, TC (2012) Pennellidae Burmeister, 1835. In Walter TC and Boxshall GA, World of Copepods Database. Accessed through: World Register of Marine Species. Available at http://www.marinespecies.org/aphia.php?p=taxdetails&id=135532 on 2017-12-06.Google Scholar
Brian, A (1908) Note préliminaire sur les Copépodes parasites des poisons provenant des campagnes scientifiques de S.A.S. le Prince Albert 1er de Monaco ou déposés dans les collections du Musée océanographique. Bulletin de l'Institut-Océanographique de Monaco 110, 1–19.Google Scholar
Bush, A, Lafferty, K, Lotz, J and Shostak, A (1997) Parasitology meets ecology on its own terms: Margolis et al., revisited. Journal of Parasitology 83, 575–583.CrossRefGoogle Scholar
Camacho, E (1958) Studies of larval and adult forms of certain Echeneibothrium cestodes. Master's thesis, University of Southern California, Los Angeles, USA.Google Scholar
Campana-Rouget, J and Biocca, E (1955) Une nouvelle èspece d’Anisakis chez un phoque mediterranéen. Annals of Parasitology 30, 477–480.Google Scholar
Campbell, RA (1977) New tetraphyllidean and trypanorhynch cestodes from deep-sea skates in the western North Atlantic. Proceedings of the Helminthological Society of Washington 44, 191–197.Google Scholar
Campbell, RA, Haedrich, RL and Munroe, TA (1980) Parasitism and ecological relationships among deep-sea benthic fishes. Marine Biology 57, 301–313.CrossRefGoogle Scholar
Carpenter, KE (2002 a) The Living Marine Resources of the Western Central Atlantic. Volume 1: Introduction, Mollusks, Crustaceans, Hagfishes, Sharks, Batoid Fishes, and Chimaeras. FAO Species Identification Guide for Fishery Purposes and American Society of Ichthyologists and Herpetologists Special Publication No. 5. Rome: FAO, pp. 1–600.Google Scholar
Carpenter, KE (2002 b) The Living Marine Resources of the Western Central Atlantic. Volume 2: Bony Fishes Part 1 (Acipenseridae to Grammatidae). FAO Species Identification Guide for Fishery Purposes and American Society of Ichthyologists and Herpetologists Special Publication No. 5. Rome: FAO, pp. 601–1374.Google Scholar
Carpenter, KE (2002 c) The Living Marine Resources of the Western Central Atlantic. Volume 3: Bony Fishes Part 2 (Opistognathidae to Molidae), Sea Turtles and Marine Mammals. FAO Species Identification Guide for Fishery Purposes and American Society of Ichthyologists and Herpetologists Special Publication No. 5. Rome: FAO, pp. 1375–2127.Google Scholar
Cavallero, S, Ligas, A, Bruschic, F and D'Amelio, S (2012) Molecular identification of Anisakis spp. from fishes collected in the Tyrrhenian Sea (NW Mediterranean). Veterinary Parasitology 187, 563–566.CrossRefGoogle Scholar
Cavallero, S, Nadler, SA, Paggi, L, Barros, NB and D'Amelio, S (2011) Molecular characterization and phylogeny of anisakid nematodes from cetaceans from southeastern Atlantic coasts of USA, Gulf of Mexico, and Caribbean Sea. Parasitology Research 108, 781–792.CrossRefGoogle ScholarPubMed
Cherel, Y and Boxshall, GA (2004) Sarcotretes (Copepoda: Pennellidae) parasitizing myctophid fishes in the Southern Ocean: new information from seabird diet. Journal of Parasitology 90, 1288–1292.CrossRefGoogle ScholarPubMed
Ching, HL (1960) Studies on three hemiuroid cercariae from Friday Harbor, Washington. Journal of Parasitology 46, 663–670.CrossRefGoogle ScholarPubMed
CNH (2015) Comision Nacional de Hidrocarburos. Plan Quinquenal de Licitaciones para la Exploración y Extracción de Hidrocarburos. Available at https://www.gob.mx/cnh (Accessed 26 March 2018).Google Scholar
Collard, SB (1970) Some aspects of host-parasite relationships in mesopelagic fishes. In Snieszko, SF (ed.), A Symposium of the American Fisheries Society on Diseases of Fishes and Shellfishes. Washington, DC: American Fisheries Society (Special Publications American Fisheries Society No. 5), pp. 41–56.Google Scholar
Deardorff, TL and Overstreet, RM (1981) Review of Hysterothylacium and Iheringascaris (both previously = Thynnascaris) (Nematoda: Anisakidae) from the northern Gulf of Mexico. Proceedings of the Biological Society of Washington 93, 1035–1079.Google Scholar
Diesing, KM (1860) Revision der Nematoden. Akademie der Wissenschaften zu Wien, Sitzungsberichte, Mathematisch-naturwissenchaftlische Klasse 42, 595–763.Google Scholar
Dollfus, RP (1966) Helminthofaune de Kogia breviceps (Blainville, 1838) cétacé odontocète récoltes du Dr R. Duguy. Annales de la Société des sciences naturelles de la Charente-Maritime 4, 3–6.Google Scholar
Euzet, L (1994) Order Tetraphyllidea Carus, 1863. In Khalil, LF, Jones, A and Bray, RA (eds), Keys to the Cestode Parasites of Vertebrates. Wallingford: CAB International, pp. 149–194.Google Scholar
Folmer, O, Black, M, Hoeh, W, Lutz, R and Vrijenhoek, R (1994) DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology 3, 294–299.Google ScholarPubMed
Froese, R and Pauly, D (eds) (2019) FishBase. World Wide Web electronic publication. Available at www.fishbase.org.Google Scholar
García-Varela, M and Nadler, SA (2005) Phylogenetic relationships of Palaeacanthocephala (Acanthocephala) inferred from SSU and LSU rDNA gene sequences. Journal of Parasitology 91, 1401–1409.CrossRefGoogle ScholarPubMed
Gartner, JV and Zwerner, DE (1989) The parasite faunas of meso- and bathypelagic fishes of Norfolk Submarine Canyon, western North Atlantic. Journal of Fish Biology 34, 79–95.Google Scholar
Gibson, DI (1996) Trematoda. In Margolis, L and Kabata, Z (eds), Guide to the Parasites of Fishes of Canada Part IV. Nanaimo, British Columbia: Canadian Special Publication of Fisheries and Aquatic Science, pp. 124–373.Google Scholar
Gibson, DI (2002) Family Bathycotylidae Dollfus, 1932. In Gibson, DI, Jones, A and Bray, RA (eds), Keys to the Trematoda Volume 1. London: CABI Publishing and The Natural History Museum, pp. 349–350.CrossRefGoogle Scholar
González-Solís, D, Vidal-Martínez, VM, Antochiw-Alonso, DM and Ortega-Argueta, A (2006) Anisakid nematodes from stranded pygmy sperm whales, Kogia breviceps (Kogiidae), in three localities of the Yucatan Peninsula, Mexico. Journal of Parasitology 92, 1120–1122.CrossRefGoogle Scholar
Grabda, J (1975) Observations on the localisation and pathogenicity of Haemobaphes diceraus Wilson, 1917 (Copepoda: Lernaeoceridae) in the gills of Theragra chalcogramma (Pallas). Acta Icthyologica et Piscatoria 5, 13–23.CrossRefGoogle Scholar
Henson, RN (1975) Cestodes of elasmobranch fishes of Texas. Texas Journal of Science 26, 401–406.Google Scholar
Ho, JS, Nagasawa, K and Kim, IH (2007) Sarcotretes longirostris n. sp. (Copepoda: Pennellidae) parasitic on bluefin driftfish (Psenes pellucidus) from the stomachs of short-finned pilot whales caught off Japan. Journal of Crustacean Biology 27, 116–120.CrossRefGoogle Scholar
Hogans, WE (1988) Review of Sarcotretes Jungersen, 1911 (Copepoda: Pennellidae) from midwater and demersal fishes in the north Atlantic Ocean. Canadian Journal of Zoology 66, 1371–1375.CrossRefGoogle Scholar
Ismail, N, Ohtsuka, S, Venmathi Maran, BA, Tasumi, S, Zaleha, K and Yamashita, H (2013) Complete life cycle of a pennellid Peniculus minuticaudae Shiino, 1956 (Copepoda: Siphonostomatoida) infecting cultured threadsail filefish, Stephanolepis cirrhifer. Parasite 20, 42.CrossRefGoogle ScholarPubMed
Jensen, K (2009) Cestoda (Platyhelminthes) of the Gulf of Mexico. In Felder, DL and Camp, DK (eds), Gulf of Mexico – Origins, Waters, and Biota Biodiversity. College Station, TX: Texas A&M University Press, pp. 487–522.Google Scholar
Jensen, K and Bullard, SA (2010) Characterization of a diversity of tetraphyllidean and rhinebothriidean cestode larval types, with comments on host associations and life-cycles. International Journal for Parasitology 40, 889–910.Google ScholarPubMed
Jungersen, HFE (1911) On a new gymnoblastic hydroid (Ichthyocodium sarcotretis) epizoic on a new parasitic copepod (Sarcotretes scopeli) infesting Scopelus glacialis Rhdt. Videnskabelige Meddeleser fra Dansk Naturhistorisk Forening 64, 1–33.Google Scholar
Kabata, Z (1979) Parasitic Copepoda of British Fishes. London: The Ray Society, p. 468.Google Scholar
Kabata, Z (1992) Copepods Parasitic on Fishes. Synopsis of British Fauna 47. London: Linnean Society, pp. 196–208.Google Scholar
Katkansky, SC and Warner, RW (1969) Infestation of the rough-sided littleneck clam, Protothaca laciniata, in Morro Bay, California, with larval cestodes (Echeneibothrium sp.). Journal of Invertebrate Pathology 13, 125–128.CrossRefGoogle Scholar
Kensley, B and Grindley, JR (1973) South African parasitic Copepoda. Annals of the South African Museum 62, 69–130.Google Scholar
Klimpel, S, Busch, MW, Kellermanns, E, Kleinertz, S and Palm, HW (2009) Metazoan deep-sea fish parasites. Acta Biologica Benrodis (Suppl. 11). Solingen: Verlag Natur & Wissenschaft, pp. 1–384.Google Scholar
Klimpel, S, Busch, MW, Sutton, T and Palm, HW (2010) Meso- and bathy-pelagic fish parasites at the Mid-Atlantic Ridge (MAR): low host specificity and restricted parasite diversity. Deep-Sea Research I 57, 596–603.Google Scholar
Klimpel, S, Kellermanns, E and Palm, HW (2008 b) The role of pelagic swarm fish (Myctophidae: Teleostei) in the oceanic life cycle of Anisakis sibling species at the Mid-Atlantic Ridge, Central Atlantic. Parasitology Research 104, 43–53.CrossRefGoogle ScholarPubMed
Klimpel, S, Kellermanns, E, Palm, HW and Moravec, F (2007) Zoogeography of fish parasites of the pearlside (Maurolicus muelleri), with genetic evidence of Anisakis simplex (Rudolphi, 1809) from the Mid-Atlantic Ridge. Marine Biology 152, 725–732.CrossRefGoogle Scholar
Klimpel, S, Palm, HW, Busch, MW and Kellermanns, E (2008 a) Fish parasites in the bathyal zone: the halosaur Halosauropsis macrochir (Günther, 1878) from the Mid-Atlantic Ridge. Deep-Sea Research II 55, 229–235.CrossRefGoogle Scholar
Køie, M (1995) The life-cycle and biology of Hemiurus communis Odhner, 1905 (Digenea, Hemiuridae). Parasite 2, 195–202. In Last, P, White, W, de Carvalho, M, Séret, B, Stehmann, M and Naylor, G (2016) Rays of the World.Google Scholar
Leigh-Sharpe, WH (1934) The Copepoda of the Siboga Expedition. Part II. Commensal and parasitic Copepoda. Siboga Expedition Monograph 29, 1–43.Google Scholar
Lewis, AG (1959) A new species of parasitic copepod of the family Lernaeidae, Lernaeenicus multilobatus, from a deepsea angler-fish. Bulletin of Marine Science 9, 169–173.Google Scholar
Linton, E (1897) Notes on larval cestode parasites of fishes. Proceedings of the United States National Museum 19, 787–824.CrossRefGoogle Scholar
Machida, M, Ogawa, K and Okiyama, M (1982) A new nematode (Spirurida, Physalopteridae) from frill shark of Japan. Bulletin of the National Science Museum Series A (Zoology) 8, 1–5.Google Scholar
Manter, HW (1934) Some digenetic trematodes from deep-water fish of Tortugas, Florida. Carnegie Institution of Washington Publication 435, 257–345.Google Scholar
Manter, HW (1947) The digenetic trematodes of marine fishes of Tortugas, Florida. The American Midland Naturalist 38, 257–416.CrossRefGoogle Scholar
Mateu, P, Nardi, V, Fraija-Fernández, N, Mattiucci, S, de Sola L, Gil, Raga, JA, Fernández, M and Aznar, FJ (2015) The role of lantern fish (Myctophidae) in the life-cycle of cetacean parasites from western Mediterranean waters. Deep-Sea Research I 95, 115–121.CrossRefGoogle Scholar
Mattiucci, S, Nascetti, G, Dailey, M, Webb, SC, Barros, N, Cianchi, R and Bullini, L (2005) Evidence for a new species of Anisakis Dujardin, 1845: morphological description and genetic relationships between congeners (Nematoda: Anisakidae). Systematic Parasitology 61, 157–171.CrossRefGoogle Scholar
McEachran, JD (2009) Fishes (Vertebrata: Pisces) of the Gulf of Mexico. In Felder, DL and Camp, DK (eds), Gulf of Mexico – Origins, Waters, and Biota Biodiversity. College Station, TX: Texas A&M University Press, pp. 1223–1316.Google Scholar
McEachran, JD and Fechhelm, JD (1998) Fishes of the Gulf of Mexico. Volume I, Myxiniformes to Gasterosteiformes. Austin, TX: University of Texas Press, p. 1112.CrossRefGoogle Scholar
McEachran, JD and Fechhelm, JD (2005) Fishes of the Gulf of Mexico. Volume 2: Scorpaeniformes to Tetraodontiformes. Austin, TX: University of Texas Press, p. 1004.Google Scholar
Miller, GC (1967) A new species of western Atlantic armored searobin, Peristedion greyae (Pisces: Peristediidae). Bulletin of Marine Science 17, 16–41.Google Scholar
Moravec, F and Nagasawa, K (2000) Two remarkable nematodes from sharks in Japan. Journal of Natural History 34, 1–13.CrossRefGoogle Scholar
Mudry, DR and Dailey, MD (1971) Postembryonic development of certain tetraphyllidean and trypanorhynchan cestodes with a possible alternative life cycle for the order Trypanorhyncha. Canadian Journal of Zoology 49, 1249–1253.CrossRefGoogle ScholarPubMed
Ñacari, LA and Oliva, ME (2016) Metazoan parasites of deep-sea fishes from the South Eastern Pacific: exploring the role of ecology and host phylogeny. Deep Sea Research I 115, 123–130.CrossRefGoogle Scholar
Nikolaeva, VM and Paruhin, AM (1968) To the study of fish helminths in the Gulf of Mexico. Sovetsko – Kubinskaja Morskaja Ekspeddieja 2, 126–149. [In Russian.]Google Scholar
Noble, ER (1973) Parasites and fishes in a deep-sea environment. Advances in Marine Biology 11, 121–195.CrossRefGoogle Scholar
Noble, ER and Collard, SV (1970) The parasites of midwater fishes. In Snieszko, FS (ed.), A Symposium of the American Fisheries Society on Diseases of Fishes and Shellfishes. Washington, DC: American Fisheries Society (Special Publications American Fisheries Society No. 5), pp. 57–68.Google Scholar
Ohtsuka, S, Lindsay, DJ and Izawa, K (2018) A new genus and species of the family Pennellidae (Copepoda, Siphonostomatoida) infecting the Pacific viperfish Chauliodus macouni. Parasite 25, 6.CrossRefGoogle ScholarPubMed
Overstreet, RM, Cook, JO and Heard, RW (2009) Trematoda (Platyhelminthes) of the Gulf of Mexico. In Felder, DL and Camp, DK (eds), Gulf of Mexico – Origins, Waters, and Biota Biodiversity. College Station, TX: Texas A&M University Press, pp. 419–486.Google Scholar
Özdikmen, H (2010) Substitute names for some Nematoda. Munis Entomology & Zoology 5, 780–784.Google Scholar
Paggi, L, Nascetti, G, Webb, SC, Mattiucci, S, Cianchi, R and Bullini, L (1998) A new species of Anisakis Dujardin, 1845 (Nematoda, Anisakidae) from beaked whales (Ziphiidae): allozyme and morphological evidence. Systematic Parasitology 40, 161–174.CrossRefGoogle Scholar
Polyanskii, YI (1970) Ecology of parasites of marine fishes. In Dogiel, VA, Petrushevski, GK and Polyanskii, YI (eds), Parasitology of Fishes [Engl. transl.] Hong Kong: T. F. H. Publications, pp. 48–83.Google Scholar
Ramírez, JM, Vázquez-Bader, AR and Gracia, A (2019) Ichthyofaunal list of the continental slope of the southern Gulf of Mexico. ZooKeys 846, 117–132.CrossRefGoogle ScholarPubMed
Riser, NW (1956) Early larval stages of two cestodes from elasmobranch fishes. Proceedings of the Helminthological Society of Washington 23, 120–124.Google Scholar
Rodríguez, SM, D'Elía, G and George-Nascimento, M (2012) New host and geographical record for Mooleptus rabuka (Nematoda: Gnathostomatidae) in the largenose catshark Apristurus nasutus (Carchariniformes: Scyliorhinidae) off Juan Fernández Archipelago, Chile. Revista de Biología Marina y Oceanografía 47, 161–165.CrossRefGoogle Scholar
Ross, SW, Quattrini, AM, Roa-Varon, AY and McClain, JP (2010) Species composition and distributions of mesopelagic fishes over the slope of the north-central Gulf of Mexico. Deep-Sea Research II 57, 1926–1956.Google Scholar
Rudolphi, KA (1809) Entozoorum sive vermium intestinalium historia naturalis volume 2, parat 1. Tabernae Librariae et Artium, Amsterdam, the Netherlands. 457 pp.Google Scholar
San Vicente-Añorve, L, Flores-Coto, C and Sanchez-Velasco, L (1998) Spatial and seasonal patterns of larval fish assemblages in the southern Gulf of Mexico. Bulletin of Marine Science 62, 17–30.Google Scholar
Shiino, SM (1958) Copepods parasitic on Japanese fishes. 17. Lernaeidae. Report of the Faculty of Fisheries 3, 75–100.Google Scholar
Singhas, LS, West, TL and Ambrose, WG (1993) Occurrence of Echeneibothrium (Platyhelminthes, Cestoda) in the calico scallop Argopecten gibbus from North Carolina. Fishery Bulletin 91, 179–181.Google Scholar
Smith, JL, Wootten, R and Sommerville, C (2007). The pathology of the early stages of the crustacean parasite, Lernaeocera branchialis (L.), on Atlantic cod, Gadus morhua L. Journal of Fish Diseases 30, 1–11.CrossRefGoogle Scholar
Sutton, TT and Hopkins, TL (1996) Trophic ecology of the stomiid (Pisces: Stomiidae) assemblage in the eastern Gulf of Mexico: strategies and impact of a mesopelagic top predator group. Marine Biology 127, 179–192.CrossRefGoogle Scholar
Thompson, SE and Kenchington, TJ (2016). Distribution and diet of Cyclothone microdon (Gonostomatidae) in a submarine canyon. Journal of the Marine Biological Association of the United Kingdom 97, 1573–1580.CrossRefGoogle Scholar
Uyeno, D (2013) Two new species of Cardiodectes Wilson, 1917 (Copepoda: Siphonostomatoida: Pennellidae) from gobiid fishes (Actinopterygii: Perciformes) in the western Pacific Ocean. Zootaxa 3664, 301–311.CrossRefGoogle Scholar
Uyeno, D and Nagasawa, K (2010 a) Four new species of Peniculisa Wilson, 1917 (Copepoda: Siphonostomatoida: Pennellidae) parasitic on coastal marine fishes in Japanese waters. Journal of Parasitology 96, 689–702.Google ScholarPubMed
Uyeno, D and Nagasawa, K (2010 b) Three new species of the family Pennellidae (Copepoda: Siphonostomatoida) from gobiid fishes (Actinopterygii: Perciformes) in coastal waters of the western Pacific Ocean. Zootaxa 2687, 29–44.CrossRefGoogle Scholar
Uyeno, D, Wakabayashi, K and Nagasawa, K (2012) A new species of parasitic copepod, Sarcotretes umitakae sp. n. (Siphonostomatoida, Pennellidae), on the rattail (Actinopterygii, Macrouridae) from the East China Sea, Japan. ZooKeys 246, 1–10.CrossRefGoogle Scholar
Vande Vusse, FJ (1980) A pelagic gastropod first intermediate host or a hemiuroid trematode. Journal of Parasitology 66, 167–168.CrossRefGoogle Scholar
Van Steenkiste, N, Locke, SA, Castelin, M, Marcogliese, DJ and Abbott, CA (2015) New primers for DNA barcoding of digeneans and cestodes (Platyhelminthes). Molecular Ecology Resources 15, 945–952.Google Scholar
Vidal-Martínez, VM, Aguirre-Macedo, ML, Scholz, T, González-Solís, D and Mendoza-Franco, E (2001) Atlas of the Helminth Parasites of Cichlid Fishes of Mexico. Praha: Academia, p. 166.Google Scholar
von Linstow, O (1888) Report of the Entozoa collected by the HMS challenger during the years 1873–76. Challenger Report Zoology 23, 1–19.Google Scholar
Wilson, CB (1917) North American parasitic copepods belonging to the family Lernaeidae with a revision of the entire family. Proceeding of the United States National Museum 53, 1–150.CrossRefGoogle Scholar
Woodstock, M (2018) Trophic Ecology and Parasitism of a Mesopelagic Fish Assemblage. Master's thesis, Nova Southeastern University, Florida, USA.Google Scholar
Yamaguti, S (1934) Studies on the helminth fauna of Japan. Part 2. Trematodes of fishes I. Japanese Journal of Applied Entomology and Zoology 5, 249–514.Google Scholar
Yamaguti, S and Utinomi, H (1953) Lernaeenicus quadrilobatus n. sp. (Copepoda, Lernaeidae) parasitic on the lantern-fish Diaphus coeruleus. Publication of the Seto Marine Biological Laboratory 3, 51–53.CrossRefGoogle Scholar
Young, RT (1956) A review of the cestodes of the genus Echeneibothrium. Journal of the Washington Academy of Sciences 46, 256–265.Google Scholar
Zhang, Z, Schwartz, S, Wagner, L and Miller, W (2000) A greedy algorithm for aligning DNA sequences. Journal of Computational Biology 7, 203–214.Google ScholarPubMed
Soler-Jiménez et al. supplementary material
Table S1
File
20.9 KB
Soler-Jiménez et al. supplementary material
Table S2
File
16.7 KB