This study provides morphological and molecular data of a new parasite species found in the muscle layer of the intestinal tract of the South American silver catfish, Rhamdia quelen from Marajó Island region (Pará State, Brazil), an important fishery resource with recognized potential for fish farming. The morphology of these parasites was reanalyzed and phylogenetic analyses were run on their 18S rDNA gene sequences. The spores were morphologically distinct from those of other Myxobolus species described previously. The obtained partial sequence of the 18S rDNA gene sequences of the new species were compared to those of 24 other Myxobolus and Henneguya species available in GenBank. The results of morphological and molecular analyses indicated clearly the existence of a new species, Myxobolus marajoensis sp. n.
This study describes aspects of the infection caused by the myxosporean genus Henneguya, which forms cysts in the bony portion of the gill filaments of Hypophthalmusmarginatus. Specimens of this catfish were acquired dead from artisanal fishermen near the town of Cametá, state of Pará, northern Brazil, between July 2011 and May 2012. They were transported in refrigerated containers to the Carlos Azevedo Research Laboratory at the Federal Rural University of Amazonia, in Belém, where analyses were performed. After confirmation of parasitism by the genus Henneguya, observation were made using optical and differential interference contrast (DIC) microscopy. The histological technique of embedment in paraffin was used. Ziehl-Neelsen staining was applied to the histological sections. Necropsy analyses on specimens of H. marginatus showed that 80% of them (40/50) had cysts of whitish coloration inside the bony portion of the gill filaments, filled with Henneguya spores. The present study found inflammatory infiltrate in the vicinity of the cysts. Furthermore, the special Ziehl-Neelsen staining technique made it possible to mark the Henneguya sp. cysts in the bone tissue and in spore isolates in the gill tissue structure. The descriptions of these histopathological findings show that this parasite is very invasive and causes damage to its host tissues.
The myxosporidians of the genus Kudoa cause post mortem myoliquefaction in fishery products and may potentially transmit zoonoses. The present study describes the infection of the skeletal musculature by Kudoa sp. in two sea catfish species, Cathorops spixii (Agassiz, 1829) and Cathorops agassizii (Eigenmann & Eigenmann, 1888), captured monthly in an estuary of the municipality of Vigia de Nazaré, in Pará, northern Brazil between March, 2015, and August, 2016. The morphological features of the spores are described, and the influence of the seasonal variation on the occurrence of the parasite is discussed. The specimens were taken to the laboratory for analysis using a hand lens and light microscopy. When parasites were identified in the musculature, small fragments of the tissue were removed for histological processing and staining by the Hematoxylin-Eosin, Ziehl-Neelsen, May Grunwald-Giemsa, and Gomori techniques. The pseudocysts were found in the muscle fibers, and the spores were star-shaped with elongated extremities and 4 piriform/rounded polar capsules of equal size. No infections were observed in the fish specimens collected during the rainy season, whereas all (100%) of the Cathorops specimens examined during the dry season were infected. This indicates that the ecology and infection patterns of the parasite (identified as a species of the genus Kudoa, on the basis of its morphological features) is influenced by salinity levels.
Thoracocharax stellatus (KNER, 1858), belonging to the Gasteropelecidae family, is represented by small fish. The fish were captured using dragnets in an area adjacent to the Guamá River, with an average total length of 4.2±0.8 cm and total average weight of 0.9±0.3 g. Fragments of gills were collected and analyzed fresh under a light microscope, where the presence of cysts full of spores of Myxobolus sp. with unequal polar capsules was observed. This study reports the first record of Myxobolus sp. found in T. stellatus coming from a tropical river in the State of Amazonia, in which the morphological characteristics differ from those of the other species when compared.
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