Md. Abu Musa , Abdullah-Al-Mamun , Sonia Nasrin , Tamanna Jakia , Kiron Sikdar , Md. Nure Alam Siddik , Sharmin Aktar Hasi , Md. Imam Sohel Hossain , Milton Halder
{"title":"孟加拉国西南部Bhairab河水、沉积物和鱼类中的重金属及其对健康的影响","authors":"Md. Abu Musa , Abdullah-Al-Mamun , Sonia Nasrin , Tamanna Jakia , Kiron Sikdar , Md. Nure Alam Siddik , Sharmin Aktar Hasi , Md. Imam Sohel Hossain , Milton Halder","doi":"10.1016/j.wmb.2025.100237","DOIUrl":null,"url":null,"abstract":"<div><div>Rapid industrialization in southwestern Bangladesh has led to significant accumulation of heavy metals (HMs) in riverine ecosystem. However, the extent of HMs accumulation in the Bhairab River and its potential risk still remain unknown. The current study quantified HMs in water, sediment, and different fish species of Bhairab River to evaluate the ecological and human health risk. Water, sediment, and fish samples were collected during two seasons (monsoon and winter) from three locations and measured for HMs (Pb, Cd, Cr, Fe, Mn, Zn) using flame atomic absorption spectrophotometer (F-AAS, Model: Shimadzu AA-7000, Japan). HMs in water and sediment were found in the order of Cd < Pb < Cr < Zn < Mn < Fe. The Fe, Mn, and Zn exceeded the threshold limit for drinking standard as per WHO (2004) and USEPA (1999). The contamination factor and geo-accumulation index were < 1, indicating that river bank sediment is suitable for crop cultivation during winter. HMs in water, sediment, and fish were lower during the monsoon compared to winter, due to dilution effects. According to WHO (2004), FAO (1983), and MOFL (2014), HMs in fish did not exceed the tolerable limit except for Cr. According to WHO (2004) guidlines, the daily intake of HMs was less than reference dose. For non-carcinogenic risk, THQ and HI < 1, indicating no potential health risk for Khulna urban inhabitants due to consumption of the studied fish. Cr posed a potential carcinogenic risk from lifelong consumption of these fish. These findings may support national policy-making and riverine ecosystem management in achieving the Sustainable Development Goals (SDGs).</div></div>","PeriodicalId":101276,"journal":{"name":"Waste Management Bulletin","volume":"3 3","pages":"Article 100237"},"PeriodicalIF":0.0000,"publicationDate":"2025-08-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Heavy metals in water, sediment and fish species of the Bhairab River in southwest Bangladesh and their health implications\",\"authors\":\"Md. Abu Musa , Abdullah-Al-Mamun , Sonia Nasrin , Tamanna Jakia , Kiron Sikdar , Md. Nure Alam Siddik , Sharmin Aktar Hasi , Md. Imam Sohel Hossain , Milton Halder\",\"doi\":\"10.1016/j.wmb.2025.100237\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>Rapid industrialization in southwestern Bangladesh has led to significant accumulation of heavy metals (HMs) in riverine ecosystem. However, the extent of HMs accumulation in the Bhairab River and its potential risk still remain unknown. The current study quantified HMs in water, sediment, and different fish species of Bhairab River to evaluate the ecological and human health risk. Water, sediment, and fish samples were collected during two seasons (monsoon and winter) from three locations and measured for HMs (Pb, Cd, Cr, Fe, Mn, Zn) using flame atomic absorption spectrophotometer (F-AAS, Model: Shimadzu AA-7000, Japan). HMs in water and sediment were found in the order of Cd < Pb < Cr < Zn < Mn < Fe. The Fe, Mn, and Zn exceeded the threshold limit for drinking standard as per WHO (2004) and USEPA (1999). The contamination factor and geo-accumulation index were < 1, indicating that river bank sediment is suitable for crop cultivation during winter. HMs in water, sediment, and fish were lower during the monsoon compared to winter, due to dilution effects. According to WHO (2004), FAO (1983), and MOFL (2014), HMs in fish did not exceed the tolerable limit except for Cr. According to WHO (2004) guidlines, the daily intake of HMs was less than reference dose. For non-carcinogenic risk, THQ and HI < 1, indicating no potential health risk for Khulna urban inhabitants due to consumption of the studied fish. Cr posed a potential carcinogenic risk from lifelong consumption of these fish. 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Heavy metals in water, sediment and fish species of the Bhairab River in southwest Bangladesh and their health implications
Rapid industrialization in southwestern Bangladesh has led to significant accumulation of heavy metals (HMs) in riverine ecosystem. However, the extent of HMs accumulation in the Bhairab River and its potential risk still remain unknown. The current study quantified HMs in water, sediment, and different fish species of Bhairab River to evaluate the ecological and human health risk. Water, sediment, and fish samples were collected during two seasons (monsoon and winter) from three locations and measured for HMs (Pb, Cd, Cr, Fe, Mn, Zn) using flame atomic absorption spectrophotometer (F-AAS, Model: Shimadzu AA-7000, Japan). HMs in water and sediment were found in the order of Cd < Pb < Cr < Zn < Mn < Fe. The Fe, Mn, and Zn exceeded the threshold limit for drinking standard as per WHO (2004) and USEPA (1999). The contamination factor and geo-accumulation index were < 1, indicating that river bank sediment is suitable for crop cultivation during winter. HMs in water, sediment, and fish were lower during the monsoon compared to winter, due to dilution effects. According to WHO (2004), FAO (1983), and MOFL (2014), HMs in fish did not exceed the tolerable limit except for Cr. According to WHO (2004) guidlines, the daily intake of HMs was less than reference dose. For non-carcinogenic risk, THQ and HI < 1, indicating no potential health risk for Khulna urban inhabitants due to consumption of the studied fish. Cr posed a potential carcinogenic risk from lifelong consumption of these fish. These findings may support national policy-making and riverine ecosystem management in achieving the Sustainable Development Goals (SDGs).
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