Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)

Marine parasite communities can exhibit temporal and spatial changes in response to seasonal and local variations in several biotic and abiotic environmental factors. Limited attention has been given to the influence of abiotic factors, so their effects on parasite community structure remain unclear...

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Veröffentlicht in:	Invertebrate biology 2019-09, Vol.138 (3), p.n/a
Hauptverfasser:	Miranda‐Delgado, Jesus E., Violante‐González, Juan, Monks, Scott, Rojas‐Herrera, Agustín A., García‐Ibáñez, Sergio, Flores‐Rodríguez, Pedro, Romero‐Ramírez, Yanet, Santos‐Bustos, Nataly G.
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Schlagworte:	abiotic and biotic factors Abiotic factors Adults Annual variations Aquatic crustaceans Biodiversity Biotic factors Communities Community structure Composition Crustacea Crustaceans Environmental factors Euthynnus affinis Euthynnus lineatus Herbivores Larvae Marine invertebrates marine parasites Mathematical analysis Mexico Nematodes Pacific coast Parasites Shellfish Species composition Species diversity Species richness Variation
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creator	Miranda‐Delgado, Jesus E. Violante‐González, Juan Monks, Scott Rojas‐Herrera, Agustín A. García‐Ibáñez, Sergio Flores‐Rodríguez, Pedro Romero‐Ramírez, Yanet Santos‐Bustos, Nataly G.
description	Marine parasite communities can exhibit temporal and spatial changes in response to seasonal and local variations in several biotic and abiotic environmental factors. Limited attention has been given to the influence of abiotic factors, so their effects on parasite community structure remain unclear. A total of 496 specimens of Euthynnus lineatus were collected over a 7‐year period (2012–2018) from Acapulco Bay, Mexico. Their parasite communities were analyzed to determine if they experience interannual variations due to local biotic and abiotic factors. Thirty‐three metazoan parasite species were recovered and identified: four species of Monogenea (adults); 16 of Digenea (one larvae and 15 adults); two of Acanthocephala (adults); two of Cestoda (larvae); three of Nematoda (two larvae and one adult); and six of Crustacea (three Copepoda, and three Isopoda). Species richness was greatest among the digeneans, which represented 48% of the total species recovered, followed by the crustaceans (19% of total species). Species richness at the component community level (14–24 species) was similar to reported richness in other small tuna species. The component communities and infracommunities of E. lineatus exhibited a similar pattern: high species richness and diversity, and numerical dominance by a single species, mainly by one of the didymozoids Allopseudocolocyntotrema claviforme or Pseudocolocyntotrema yaito. Parasite community structure and species composition varied among sampling years. Variations were possibly caused by a combination of abiotic and biotic factors which generated notable changes in the infection levels of several component species during the study period. These communities may therefore be unpredictable in terms of structure and species composition, as has been suggested for other communities of marine parasites.
doi_str_mv	10.1111/ivb.12259
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Limited attention has been given to the influence of abiotic factors, so their effects on parasite community structure remain unclear. A total of 496 specimens of Euthynnus lineatus were collected over a 7‐year period (2012–2018) from Acapulco Bay, Mexico. Their parasite communities were analyzed to determine if they experience interannual variations due to local biotic and abiotic factors. Thirty‐three metazoan parasite species were recovered and identified: four species of Monogenea (adults); 16 of Digenea (one larvae and 15 adults); two of Acanthocephala (adults); two of Cestoda (larvae); three of Nematoda (two larvae and one adult); and six of Crustacea (three Copepoda, and three Isopoda). Species richness was greatest among the digeneans, which represented 48% of the total species recovered, followed by the crustaceans (19% of total species). Species richness at the component community level (14–24 species) was similar to reported richness in other small tuna species. 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Limited attention has been given to the influence of abiotic factors, so their effects on parasite community structure remain unclear. A total of 496 specimens of Euthynnus lineatus were collected over a 7‐year period (2012–2018) from Acapulco Bay, Mexico. Their parasite communities were analyzed to determine if they experience interannual variations due to local biotic and abiotic factors. Thirty‐three metazoan parasite species were recovered and identified: four species of Monogenea (adults); 16 of Digenea (one larvae and 15 adults); two of Acanthocephala (adults); two of Cestoda (larvae); three of Nematoda (two larvae and one adult); and six of Crustacea (three Copepoda, and three Isopoda). Species richness was greatest among the digeneans, which represented 48% of the total species recovered, followed by the crustaceans (19% of total species). Species richness at the component community level (14–24 species) was similar to reported richness in other small tuna species. The component communities and infracommunities of E. lineatus exhibited a similar pattern: high species richness and diversity, and numerical dominance by a single species, mainly by one of the didymozoids Allopseudocolocyntotrema claviforme or Pseudocolocyntotrema yaito. Parasite community structure and species composition varied among sampling years. Variations were possibly caused by a combination of abiotic and biotic factors which generated notable changes in the infection levels of several component species during the study period. These communities may therefore be unpredictable in terms of structure and species composition, as has been suggested for other communities of marine parasites.</abstract><cop>Hoboken</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1111/ivb.12259</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0001-6291-8763</orcidid></addata></record>
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subjects	abiotic and biotic factors Abiotic factors Adults Annual variations Aquatic crustaceans Biodiversity Biotic factors Communities Community structure Composition Crustacea Crustaceans Environmental factors Euthynnus affinis Euthynnus lineatus Herbivores Larvae Marine invertebrates marine parasites Mathematical analysis Mexico Nematodes Pacific coast Parasites Shellfish Species composition Species diversity Species richness Variation
title	Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)
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