AI Article Synopsis
- The study investigates the presence of heavy metals in fish feeds and their impact on fish quality in different aquaculture systems, highlighting potential risks to human health.
- Results showed that certain fish feeds had significantly higher levels of heavy metals, like Cu and Cd, while the levels in fish muscle were generally below WHO safety standards except for Pb, which exceeded safe limits.
- Researchers emphasize the need for better monitoring of fish feed quality to prevent harmful contamination, as heavy metals from feeds correlate with those found in fish, posing risks to consumers.
Article Abstract
For successful aquaculture, the primary need is the quality of fish feed, which determines fish flesh quality. The current study was conducted to evaluate the number and concentration of heavy metals in commonly used fish feeds and fish gills, liver, and muscle of biofloc technology and earthen pond systems. Besides this, the correlation between heavy metals in fish feeds with detected metals in the gills, liver, and muscle of fish was also determined. Results revealed that heavy metals concentration, including Cu and Cd, in feed B was significantly greater than in feed A, but the Zn level in feed A was significantly higher than in feed B. Furthermore, the concentration of heavy metals in fish of both aquaculture systems was significantly higher in the liver than in the gills and muscle. The metal concentration in fish feeds and fish edible parts (muscle) was lower than the WHO standard level; however, the amount of Pb was higher in the fish muscle, which is harmful for human consumption. Though the correlation test revealed that all of the metals from the feeds were positively correlated to the metals detected in the fish, but most of the estimated correlation was insignificant. From the current study, it can be concluded that the fish feed producers need to measure feed quality adequately to avoid hazardous contamination by heavy metals in the feed. The ultimate consumer, fish and humans, may, otherwise, be predisposed to assimilate and accumulate these heavy metals.
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| http://dx.doi.org/10.1007/s12011-022-03379-0 | DOI Listing |
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