<p>Heavy metal contamination of the aquatic ecosystem is the top environmental hazard arising from industrial effluents and agricultural discharge. Humans are at high risk due to contamination of the food chain by these toxic heavy metals through bioaccumulation in fish. An assessment of muscle samples from 90 fish (<i>n</i> = 30 per species) using atomic absorption spectroscopy (AAS) for heavy metals like&#xa0;Cd, Cr, Co, Cu, Fe, Mn, Ni, Pb, and Zn in three commercially important fish species was done (<i>Labeo rohita</i>, <i>Aorichthys seenghala</i>, and <i>Notopterus notopterus</i>) from the Harike wetland, a Ramsar site in India. The study revealed lead, iron, and zinc to be the dominant contaminants, with the highest estimated daily intake (EDI) levels, surpassing those of other metals, and exceeding the oral reference doses prescribed by USEPA guidelines. Target hazard quotients (THQs) exceeding 1 for several metals in <i>L. rohita</i> (Co 1.51, Pb 24.31), <i>A. seenghala</i> (Co 1.31, Pb 10.75), and <i>N. notopterus</i> (Co 1.66, Pb 14.06, and Zn 19.63) indicated significant non-carcinogenic risks. Although <i>A. seenghala</i> exhibited lower THQ values, elevated levels of Fe contribute to the overall risk. The hazard index (HI) in all three fish species (<i>L. rohita</i> 26.1, <i>A. seenghala</i> 12.2, and <i>N.&#xa0;notopterus</i> 35.4) was more than 1, which further confirmed potential health threats from prolonged exposure. This study concludes that these three fish&#xa0;species from the Harike wetland pose a risk to human consumption, provides critical information for consumers in the region, and emphasizes the need for continuous monitoring of heavy metals in this wetland ecosystem to safeguard human health.</p> Graphical abstract <p></p>

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Heavy metal contamination and health risks incurred through fish consumption from Harike wetland, a Ramsar site in India

  • Mandeep Kaur,
  • Abhinav Modgil,
  • Amandeepika Bhagat,
  • Sidharth Chauhan,
  • Aashna Sharma,
  • Yogesh Kumar Rawal

摘要

Heavy metal contamination of the aquatic ecosystem is the top environmental hazard arising from industrial effluents and agricultural discharge. Humans are at high risk due to contamination of the food chain by these toxic heavy metals through bioaccumulation in fish. An assessment of muscle samples from 90 fish (n = 30 per species) using atomic absorption spectroscopy (AAS) for heavy metals like Cd, Cr, Co, Cu, Fe, Mn, Ni, Pb, and Zn in three commercially important fish species was done (Labeo rohita, Aorichthys seenghala, and Notopterus notopterus) from the Harike wetland, a Ramsar site in India. The study revealed lead, iron, and zinc to be the dominant contaminants, with the highest estimated daily intake (EDI) levels, surpassing those of other metals, and exceeding the oral reference doses prescribed by USEPA guidelines. Target hazard quotients (THQs) exceeding 1 for several metals in L. rohita (Co 1.51, Pb 24.31), A. seenghala (Co 1.31, Pb 10.75), and N. notopterus (Co 1.66, Pb 14.06, and Zn 19.63) indicated significant non-carcinogenic risks. Although A. seenghala exhibited lower THQ values, elevated levels of Fe contribute to the overall risk. The hazard index (HI) in all three fish species (L. rohita 26.1, A. seenghala 12.2, and N. notopterus 35.4) was more than 1, which further confirmed potential health threats from prolonged exposure. This study concludes that these three fish species from the Harike wetland pose a risk to human consumption, provides critical information for consumers in the region, and emphasizes the need for continuous monitoring of heavy metals in this wetland ecosystem to safeguard human health.

Graphical abstract