Abstract
The alterations in the epithelium of the gill filaments and the secondary lamellae of the gills ofCirrhinus mrigala, on exposure to “Nuvan,” have been explored in the present investigation using light and scanning electron microscopy. The fishes were exposed to two sublethal concentrations, 5 mg/L and 15 mg/L, of “Nuvan.” The changes are more rapid and intensive at higher concentration than at lower concentration, suggesting that the changes are dose dependent. Increase in thickness of epithelium covering secondary lamellae, merger of epithelium of gill filaments and adjacent secondary lamellae, and aneurysm is considered to reduce efficiency of gills for gaseous exchange. A significant decline in the density and area of the mucous goblet cells in the epithelium of the gill filaments and the secondary lamellae ofC. mrigalaexposed to “Nuvan” could be correlated with excessive loss of the secretory contents of these cells, uncompensated by their production in sufficient quantities. The histopathological changes, in general, take longer time to recover in the fishes exposed to 15 mg/L than those exposed to 5 mg/L indicating that the changes in fishes exposed to higher concentration are more severe than those at lower concentration of the insecticide.
Highlights
The use of chemical insecticides is fairly recognized as a cost effective method of controlling the pests and parasites in agriculture and aquaculture practices, but these chemicals are highly toxic to other species in the environment
In Cirrhinus mrigala, the surfaces of the gill filaments and the secondary lamellae are covered with a mosaic pavement of irregularly polygonal epithelial cells of varied dimensions
The main cellular components of the epithelium of the gill filaments and the secondary lamellae consist of the epithelial cells and the mucous goblet cells
Summary
The use of chemical insecticides is fairly recognized as a cost effective method of controlling the pests and parasites in agriculture and aquaculture practices, but these chemicals are highly toxic to other species in the environment. They produce adverse effects on nontarget aquatic organisms living in areas near agricultural fields [1]. Gills are the main site of gaseous exchange [11,12,13,14,15]. Cinar et al (2009) [15] reported the histology of the gills of the fish Pseudophoxinus antalyae and Tano de la Hoz et al (2014) [32] reported the surface ultrastructure of the gills of Odontesthes argentinensis
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