Histopathological changes in the gonads, liver, and kidney of Glossogobius giuris exposed to sub-lethal concentration of diazinon

Banik, U. K.; Rahman, MM; Khanam, TS; Mollah,

doi:10.3329/pa.v27i4.32143

Cited by 9 publications

(7 citation statements)

References 8 publications

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“…These abnormal behavioral alterations include loss of hunger and equilibrium, fast swimming, surfacing activity frequency, gulping of surface water, erratic and hysteric swimming, circling motion, convulsion, and remaining immobile on the aquarium bottom. Similar abnormal behavioral signs were described by, (Banik et al, 2016) who stated that exposure of Glossogobius giuris to sublethal diazinon concentration, showed such as anxiety, loss of control, increased working motions, surface to-bottom motion, unexpected rapid motion and bottom resting. In the present study, we noticed that mucous secretion increases considerably in the exposed fishes, and turbidity of the water of the test troughs increases gradually during continuous DM exposure.…”

Section: Discussionsupporting

confidence: 82%

“…According to (Neelima et al, 2015), fish exposed to cypermethrin liver exhibited hepatocyte degeneration, necrosis, inflammatory cell aggregation, dilatation, congestion in the blood sinusoid, and fibrosis. All fish treated with diazinon showed severe degenerative deviations, extensive necrosis, pyknosis of the nucleus, and vacuolation (Banik et al, 2016). In the current study, the kidney of the DM toxicity group displayed vacuolation in the tubular epithelium, shrinkage of the glomerulus, expansion of space inside Bowman's capsule, and mild dilation of the lumen of some epithelial tubules.…”

Section: Discussionsupporting

confidence: 43%

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Histopathological and Biochemical Studies on the Acute Toxicity of Dimethoate on Nile Tilapia Fish

HASSAN,

ALI,

IDRISS

et al. 2024

Assiut Veterinary Medical Journal

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Dimethoate (DM) is one type of organophosphorus insecticide, that kills insects and mites both systemically and immediately upon contact and harms a range of non-target animals, including fish when it enters the aquatic habitat. This study aimed to determine the potentially harmful histopathological and biochemical impacts of Dimethoate on Nile tilapia fish. Sixty Oreochromis Niloticus freshwater fish, each weighing an average of 130 ± 10 g, were divided into two groups in triplicates. There were 6 groups, 3 control groups, and 3 experiment groups that received Dimethoate at a dose of 8 mg/l in water for 15 days. Blood samples were collected and used for biochemical indexes. For histological analysis, samples of the brain, gills, liver, and kidney were collected. The findings of the study demonstrated that fish treated with Dimethoate exhibited pale gills, anxious symptoms, as well as congestion and hemorrhages in many internal organs, comprising the brain, kidney, and liver. There was a significant increase in the blood levels of nitric oxide, lipid peroxide, and glutathione peroxidase and a significant fall in catalase levels in the Dimethoate group when compared to the control group. Pesticides, especially DM, should not be used carelessly in agriculture and allowed to accumulate in streams because of deleterious effects on fish.

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Section: Discussionsupporting

confidence: 82%

Section: Discussionsupporting

confidence: 43%

Histopathological and Biochemical Studies on the Acute Toxicity of Dimethoate on Nile Tilapia Fish

HASSAN,

ALI,

IDRISS

et al. 2024

Assiut Veterinary Medical Journal

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“…This extensive intra-cellular vacuolization resulted in the displacement of the nucleus to the cell margin. Most of the scientists considered this vacuolation as the accumulation of fat in the hepatocytes (Sulekha and Mercy, 2021b;2022;Banik, 2016;Cengiz and Unlu, 2006). In the present study, the diet and other conditions were normal, the fishes were juveniles and therefore, the observed fatty livers must be considered as pathological due to pesticides.…”

Section: Discussionmentioning

confidence: 55%

Sublethal Effects of Monocrotophos on Histological Architecture of Liver and Kidney of a Freshwater Fish, Anabas testudineus

Sulekha¹,

Mercy²

2022

EEC

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Histological changes appear as a medium term response to sublethal stressors and histology provides arapid method to detect the effects of irritants, especially chronic ones in various tissues and organs. Pesticidesusage in agricultural fields to control pests is extremely toxic to non-target organisms like fish and affectsfish health through impairment of histological structure, sometimes leading to mortality. The presenthistopathological study reveals the potential adverse effects of monocrotophos, an organophosphatepesticide, on a fresh water fish, Anabas testudineus and it document a dose- dependent reaction of liver andkidney histology. The histological changes observed in liver included fatty-vacuolation and the displacementof nuclei to the periphery of the hepatocytes, congested and constricted liver sinusoids, condensedhepatocytes, destructed hepatocytes and pyknotic nuclei. The major histological alterations identified inthe kidney were melano-macrophage centres, shrunken renal tubules and degenerated renal tubule.Calculation of organ index is used for comparing the severity of lesions in different organs. These organindices are used for calculating total index. In the present study the total index showed the health status offishes in each sublethal concentration âCalculation of organ index is used for comparing the severity oflesions in different organs. These organ indices are used for calculating total index. In the present study thetotal index showed the health status of fishes in each sublethal concentration and the status became worsein the higher sublethal concentrations. â and the status became worse in the higher sublethal concentrations. Histopathology can be used as a tool for assessing the sublethal conditions of water quality and it gives aârapid early warning systemâ.

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“…The fishes exposed in experimental tanks without chemical (control aquaria) behaved normal. Changes in body colour have been reported in Anabas testudineus and Channa punctatus after exposure to diazinon, C. punctatus to glyphosate and red drum fish to atrazine (Sritbanditmongkol et al, 2012: Banik et al, 2017. Exposure of C.gariepinus to these chemicals, resulted in erratic swimming, abnormal posture, sluggishness, increase in surface activity, gradual loss of equilibrium and spreading of excess of mucus all over the surface of the body.…”

Section: Discussionmentioning

confidence: 99%

Behavioural Responses of African Catfish (Clarias gariepinus) Exposed to Different Chemicals

Bridget¹,

Leo²,

Mudiaga³

2020

CMUJNS

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The African Catfish (Clarias gariepinus) was exposed to different toxicant concentrations of 100, 200, 300, 400, 500 mg/L using a static nonrenewable bioassay method. Another set up without the toxicant was set up to serve as control. Two replicate concentrations for the different toxicants used in thirty (30 L) litres rectangular tanks were also set up. The aquariums were filled to fifteen-liter mark, loaded with ten fishes and properly labelled. Parameters such as cumulative average value of operculum movement; tail beat frequency, cumulative number of discoloration, erratic swimming, and mortality were monitored in-situ. The results showed that the lethal effect of the toxicants on the fishes depends on concentration and duration of exposure to the toxicant. Also in-situ observation showed that the cumulative average number of discoloration, erratic swimming, and mortality increased with increase in concentration and exposure time, while the cumulative average of operculum movement and tail beat frequency decreased with increase concentration and exposure time.

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Histopathological changes in the gonads, liver, and kidney of Glossogobius giuris exposed to sub-lethal concentration of diazinon

Cited by 9 publications

References 8 publications

Histopathological and Biochemical Studies on the Acute Toxicity of Dimethoate on Nile Tilapia Fish

Histopathological and Biochemical Studies on the Acute Toxicity of Dimethoate on Nile Tilapia Fish

Sublethal Effects of Monocrotophos on Histological Architecture of Liver and Kidney of a Freshwater Fish, Anabas testudineus

Behavioural Responses of African Catfish (Clarias gariepinus) Exposed to Different Chemicals

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