ABSTRACT
Aim: To determine acute toxicity (96 hrs) of malachite green for Lamellidens marginalis and to assess it’s biochemical consequences and antioxidant response against control. Methodology: Fresh water bivalve, Lamellidens marginalis were collected from Rajaram tank, Kolhapur and acclimatized for 7 days. To ascertain the acute effect (96 hrs) of malachite green dye, static bioassay was conducted at 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2 ppm on fresh water bivalve, Lamellidens marginalis. The rate of mortality was recorded and LC0 and LC50 values for 96 hrs were calculated. Estimation of biomolecules like protein, glycogen and lipid and antioxidant activity in different tissues of the organism was estimated. Results: The LC0 and LC50 values were determined by static bioassay method. The effects of LC0 and LC50 concentrations of MG were evaluated by examining the biochemical profile and antioxidant response against control in different tissues like gill, mantle, hepatopancreas and gonad. The maximum significant decrease in glycogen (-29%) (-40.86) and protein (-31.73%) (-43.63%) content was observed in gills at both the concentrations LC0 and LC50 respectively as compared to other tissues. There was highly significant depletion in protein content of all the tissues. Lipid content in all tissues at LC0 concentration showed moderately significant depletion (p <0.01), while at LC50 concentration highly significant depletion (p< 0.001) was recorded. From SOD, CAT and GPx enzymes, SOD enzyme activity increased significantly (p < 0.001) in all tissues at LC50 concentration. Gill and heptopancreas showed significant increase in antioxidant enzymes response at both, LC0 and LC50 groups. Interpretation: Malachite dye induces toxicity, by lowering biochemical content and inducing antioxidant enzyme activity.
ABSTRACT
In present investigation, oxygen consumption rate (OCR) and ammonia excretion rate (AER) of estuarine clam Soletellina diphos was estimated seasonally. The OCR in clams was higher in all size groups during winter season, while in summer lowest OCR was observed. Smaller clams consumed more oxygen than medium and large sized groups, respectively. AER was maximum during winter season, while minimum during summer season. The OCR and AER in small size clams were higher than medium and large sized clams. The maximum O: N ratio value (5.16) was observed in small size clams during summer followed by medium (3.27) and large size (2.66) clams, while minimum O:N ratio value was recorded in post-monsoon for small (3.23), medium (2.01) and large size (1.77) clams respectively. The smaller clams showed higher O:N ratio than medium and large size groups respectively. In present study, the O: N ratio was used as a tool to identify the stress or impact of seasonal variation on the natural population of clams from Bhatye estuary at Ratnagiri.
ABSTRACT
In acute toxicity (96 hr) experiment the fingerlings of freshwater fish Labeo rohita was exposed to tannery, electroplating and textile mill effluents. The LC0 and LC50 concentrations were 15% and 20% for tannery effluents, 3% and 6% for electroplating effluents and 18% and 22% for textile mill effluents respectively. It was found that, electroplating effluent was more toxic than tannery and textile mill wastes. After acute toxicity experiments for different industrial effluents, various tissues viz. gill, liver, muscle and kidney were obtained separately from control, LC0 and LC50 groups. These tissues were used for biochemical estimations. The glycogen content in all the tissues decreased considerably upon acute toxicity of three industrial effluents except muscle in LC50 group of tannery effluent and kidney in LC50 group of textile mill effluent, when compared to control group. The total protein content decreased in all tissues in three effluents except gills in LC50 group of tannery effluent, kidney in LC50 group of electroplating effluent and kidney in LC0 group of textile mill effluent. In general total lipid content decreased in all tissues after acute exposure when compared to control group. The results obtained in the present study showed that, the industrial effluents from tannery, electroplating and textile mills caused marked depletion in biochemical composition in various tissues of the fish Labeo rohita after acute exposure.