{Reference Type}: Journal Article
{Title}: Source-specific geochemical and health risk assessment of anthropogenically induced metals in a tropical urban waterway.
{Author}: Hossain MK;Islam F;Karmaker KD;Akhtar US;Parvin A;Parvin A;Moniruzzaman M;Saha B;Suchi PD;Hossain MA;Shaikh MAA;
{Journal}: Mar Pollut Bull
{Volume}: 203
{Issue}: 0
{Year}: 2024 Jun 21
{Factor}: 7.001
{DOI}: 10.1016/j.marpolbul.2024.116483
{Abstract}: Thorough deliberation is necessary to safeguard the tropical urban streams near the shoreline from human interference, as it is becoming a notable environmental danger. Consequently, an in-depth study was carried out on a significant urban waterway located on the southern seashore of Bangladesh, which is positioned in the Bengal delta, renowned as the largest delta in the globe. The current investigation assesses the potential health hazards associated with trace metals (Hg, Cu, As, Pb, Ni, Zn, Cd, Cr, Fe, and Mn) and uses chemometric analysis to determine where they originate. Likewise geochemical methods are used to analyze the levels of trace metal enrichment and pollution in the sediments of the river. Almost all of the elements' mean concentrations were observed to be within the standard limits. The findings not only demonstrate the extent of trace metal contamination but also the health threats that it poses to the public (male, female, and children) by polluting the sediment. For all age groups of people, the hazard index was <1, suggesting there was no non-carcinogenic threat. Regardless of age and sex, exposure occurred in descending order: ingestion > dermal > inhalation. Total carcinogenic risk (TCR) values for males, females, and children were 1.45E-05, 1.56E-05, and 1.34E-04, respectively, recommending that children are at greater vulnerability than adults. The geochemical approach and chemometric analysis corroborate the human-induced impact of trace metal loading in the sediment of the waterway, which is predominantly caused by the oil industry, domestic garbage, and untreated waste discharge.