During the present study, we describe a novel myxozoan that forms plasmodia in the gill filament of Schizothorax esocinus collected from River Jhelum of Kashmir Himalayan region (n = 26). Description of the new species is based on morphology of the myxospore and on partial 18S rDNA gene. The results showed that the plasmodia were large, visible with naked eye, elongate in shape, whitish in colour, 8mm in diameter, at the centre of gill filament, histozoic, single or two in number per gill, but too big in size and filled by 1,000-1,400 myxospores. The myxospores measure 13.4 (length) × 9.5µm (width), short oval in frontal view, blunt at both in anterior and posterior, but somewhat narrowing towards the posterior end. Shell valves measure 0.45µm in thickness. No parietal folds were recorded. Two polar capsules equal in size, pyriform in shape were measured 7.3 × 4.2 µm (L × W). The 18S rDNA of this species (accession number MK785257) clustered phylogenetically with other related myxozoan parasites and showed maximum homogeneity of 98.63% with M. sp. SKBU-RC1 (MK412937) and M. sp. SKBU-RC2 (MK412937) infecting gills of Labeo rohita from India followed by 92.51% with M. pronini (MH329619) infecting abdominal cavity of Carassius gibelio from China. The study of histopathological changes of the gills revealed hypertrophy, hyperplasia, uplifting of cellular elements and severe damage to gill filaments resulting in suffocation of fish. By its unique myxospore morphology and its 18S rDNA sequence, we propose naming this species as Myxobolus szekelyianus n. sp.
Schizothorax esocinus, commonly known as snow trout, is one of the main contributors of food and livelihood in the colder zone of Himalayan region. The comprehensive information on its hematological and serum biochemical reference intervals is not reported yet. In the present study an attempt has been made to elucidate the hematological and serum biochemical reference intervals of S. esocinus from River Jhelum using protocols of the American Society of Veterinary Clinical Pathology (ASVCP). Wild fish were sampled over a period of 2 years from the pollution free sites of river Jhelum. Fish blood was harvested through caudal venipuncture and hemato-biochemical analysis performed thereof. Data values from a total of healthy 432 adult fish specimens (216 male, 216 female) were systematically recorded. The reference intervals for hematological and serum biochemical parameters of S. esocinus were established using Reference Value Advisor software v 2.1. RIs for hematological and serum analytes ranged as: hemoglobin (Hb) 78.38–116.35 (g/L); white blood cells (WBC) 10–20 (×109/L); red blood cells (RBC) 1.30–2.15 (×1012/L); packed cell volume 27.00–39.45 (%); total protein 39.21–61.62 (g/L); albumin 8.20–22.02 (g/L); globulin 27.58–49.55 (g/L); glucose 3.25–7.18 (mmol/L); urea 0.96—2.38 (mmol/L); cholesterol 3.80–6.90 (mmol/L). The study also depicted that certain blood measurands were influenced with respect to sex. Significantly (p < 0.05) higher values of Hb, red blood cells count and serum glucose were noted in male as compared to female which, on the other hand, registered higher white blood cells count and serum cholesterol level (Mann Whitney U test, p < 0.05). The work, therefore, provides baseline information on hematological and serum biochemical analytes of this species which holds high commercial importance. RIs reported here can help monitor the health status of fish by improving the use of non-lethal diagnostic methods in piscine medicine.
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