Rev Bras Parasitol Vet rbpv Revista Brasileira de Parasitologia Veterinária Rev. Bras. Parasitol. Vet. 0103-846X 1984-2961 Colégio Brasileiro de Parasitologia Veterinária Resumo Este estudo reporta a ocorrência de metacercárias de Austrodiplostomum compactum na espécie de peixe de água doce Schizodon intermedius (ximborê/piava), oriunda de um reservatório Neotropical no rio Paranapanema, Estado de São Paulo, Brasil. Um total de 75 peixes foram coletados, sendo que 38 estavam infectados com metacercárias de A. compactum (prevalência = 50,67%) nos olhos. A intensidade média de infecção e abundância média foram 9,05 ± 4,26 (1-155) e 4,59 ± 2,20 (0-155), respectivamente. O Índice de Discrepância de Poulin foi de 0,87, e quatro exemplares apresentaram mais do que 10 metacercárias em seus olhos. Não foram observadas correlação entre abundância média e comprimento padrão, peso total e fator de condição (p>0,05). Esse é o primeiro registro dessa espécie de metacercária para S. intermedius. Metacercariae of diplostomids are widely distributed in the Neotropical region, and have a life cycle with three hosts: a snail (first intermediate host); a fish (second intermediate host) or, rarely, an amphibian (paratenic host); and a piscivorous bird as the definitive host (KARVONEN et al., 2006; VIOLANTE-GONZÁLEZ et al., 2009). Adults of diplostomids release their eggs into water via the feces of infected piscivorous birds, and hatching of free-swimming larva (miracidia) can occur up to 22 days later, depending on the water temperature (GROBBELAAR et al., 2014). In Brazil, miracidium actively infect aquatic snails of the genus Biomphalaria Preston, 1910 (PINTO & MELO, 2013), and polyembriony occurs in the digestive gland and liver of snails (CROWDEN & BROOM, 1980; HOFFMAN & HUNDLEY, 1957). Infected snails release cercariae, which actively infect fish (second intermediate host), preferentially through their gills and mouth (HAAS et al., 2007), although penetration may also occur through their fins and body surface (GROBBELAAR et al., 2014). In fish, the parasites develop to the metacercariae, which generally parasitize the eyes (SEPPÄLÄ et al., 2004) and brain (GROBBELAAR et al., 2014). The adult/reproductive form of this parasite species is found in the digestive system of piscivorous birds, when these birds feed on infected fish. Neotropical cormorants, Phalacrocorax brasilianus (Gmelin, 1789), which are a widespread generalist species, are considered to be the definitive host of this diplostomid in Brazil (MONTEIRO et al., 2011). According to Grobbelaar et al. (2014), the life cycle of diplostomids depends on predation by piscivorous birds and exposure of susceptible fish and snail species to the larval stages (cercariae and miracidium, respectively). Thus, the effects relating to loss of vision in fish with high rates of infection can contribute towards predation and facilitate transmission of the parasite to the definitive hosts (SEPPÄLÄ et al., 2004). Austrodiplostomum compactum (Lutz, 1928) metacercariae have been reported in 36 species of Brazilian freshwater fish (MARTINS et al., 2002; SANTOS et al., 2012; RAMOS et al., 2013). However, considering that Brazilian fish richness is estimated to comprise 2,587 species (BUCKUP et al., 2007), the number of fish species that have been evaluated with regard to infection with A. compactum metacercariae is very low. This study reports occurrences of A. compactum metacercariae in Schizodon intermedius Garavello & Britski, 1990, an omnivorous Brazilian fish species, from the Jurumirim reservoir, Paranapanema River, Brazil. This study was conducted in the Jurumirim reservoir (upper Paranapanema River; 23º19’38.8” S, 48º44’02.04” W), in the municipality of Angatuba, State of São Paulo, Brazil (Figure 1). Figure 1 Jurumirim reservoir (upper Paranapanema River, state of São Paulo), indicating the five sampling stretches (●). Fish were collected between January 2010 and February 2011 using gillnets (mesh size of 3 to 14 cm between adjacent knots) that were set for 14 hours overnight (from 5:00 PM to 7:00 AM) according to ICMBio authorization nº 15549-1. Seventy-five fish were collected, frozen and transported to the laboratory, where they were weighed (total weight in grams (g) of the fish with viscera) and measured (standard length in centimeters (cm) measured from tip of the snout to the last vertebra). The eyes were removed and examined using a stereomicroscope. Metacercariae were collected from the vitreous humor, fixed in 70% alcohol under cover slip pressure and preserved in 70% alcohol (EIRAS et al., 2006). The metacercariae were stained with carmine and cleared with eugenol for further identification under a differential interference contrast microscope (Leica DM 5000B). Morphological analyses were performed using a computerized system for image analysis (LAS V3 – Leica Application Suite, Wetzlar, Germany). The prevalence, mean intensity of infection and mean abundance were calculated in accordance with Bush et al. (1997). The condition factor was calculated as described by Vazzoler (1996) and Poulin's Discrepancy Index (POULIN, 1993; 1996) was calculated using the Quantitative Parasitology 3.0 software program (REICZIGEL & RÓZSA, 2005. The Spearman correlation test was used to evaluate possible correlations between the total weight, standard length and condition factor of the fish and the mean abundance of metacercariae. The significance level used was p < 0.05 and all statistical tests were performed using the open access software Bioestat 5.0. Parasite and host voucher specimens were deposited in the Helminthological Collection of the Department of Parasitology (CHIBB 7480 until 7513) and the Collection of the Fish Biology and Genetics Laboratory (LBP 13311), respectively, in the Institute of Biosciences, Universidade Estadual Paulista (UNESP), municipality of Botucatu, state of São Paulo, Brazil. Seventy-five specimens of S. intermedius were collected and presented total weight mean of 135.20 ± 6.91 g (range: 19.40-271.43 g), mean standard length of 18.03 ± 0.34 cm (range: 10.00-25.00 cm) and mean condition factor of 2.22 ± 0.03 (range: 1.49-3.10). Three hundred and forty-four A. compactum metacercariae were recovered from 38 fish specimens infected (Prevalence [P] = 50.67%). The mean intensity of infection was 9.05 ± 4.26 (range: 1-155), mean abundance was 4.59 ± 2.20 (range: 0-155) and Poulin's Discrepancy Index was 0.87. Four specimens presented more than 10 metacercariae in their eyes (18, 28, 56 and 155 metacercariae, respectively). The mean intensity of infection did not show correlation with weight (p=0.10 and rs=-0.26) and length (p=0.43 and rs=-0.13). For condition factor, the Spearman’s correlation coefficient was positive but low (p=0.002 and rs=-0.46). At same way, the mean abundance also did not show correlation with weight (p=0.11 and rs=-0.18) and length (p=0.53 and rs=-0.07) and for the condition factor the Spearman’s correlation coefficient was positive and low (p=0.03 and rs=-0.24). Austrodiplostomum compactum metacercariae have been recorded in a wide variety of Brazilian fishes. The number of Brazilian fish species infected by A. compactum, including this record, has now increased to 37. These results corroborate the observations of Yamada et al. (2008), who hypothesized that the larval stage of the parasite species has low specificity for the second intermediate host (fish). According to Ramos et al. (2013), the majority of fish species infected with A. compactum metacercariae in Brazil belong to the orders Perciformes (12 species), Siluriformes (13 species) and Characiformes (nine species), and to the families Cichlidae (10 species) and Loricariidae (eight species). Moreover, with the record of the present study, the number of fish species infected with metacercariae of A. compactum in the order Characiformes has now increased to 10. The mean intensity of infection among the fish analyzed here was similar to what was observed by Karvonen et al. (2004), who reported that their fish harbored approximately 10 Diplostomum spathaceum metacercariae in their eyes, with up to 49% cataract coverage. In addition, high rates of infection with diplostomid metacercariae in fish can cause blindness or visual impairment (EIRAS, 1994), cataracts (SHARIFF et al., 1980; KARVONEN et al., 2004), problems with food intake and growth (OWEN et al., 1993) and increased susceptibility to predation (CROWDEN & BROOM, 1980; SEPPÄLÄ et al., 2004). The high value of Poulin's Discrepancy Index showed high aggregation for this parasite in S. intermedius and demonstrated that some individuals presented high rates of infection. Thus, the population of S. intermedius evaluated did not present mean intensity of infection compatible with serious damage, as reported above. However, some specimens may have been experiencing problems relating to presence of A. compactum metacercariae, due to the intensity of infection. 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