Biowaste-based sorbents for arsenic removal from aqueous medium and risk assessment.
Maham Akhtar NagraNatasha NatashaIrshad BibiTasveer Zahra TariqRabia NazSabah AnsarMuhammad ShahidBehzad MurtazaMuhammad ImranMuhammad Shafique KhalidNasir MasoodGhulam Mustafa ShahNabeel Khan NiaziCamille DumatPublished in: Environmental geochemistry and health (2022)
Water contamination by arsenic (As) is widespread and is posing serious health threats globally. Hence, As removal techniques/adsorbents need to be explored to minimize potentials hazards of drinking As-contaminated waters. A column scale sorption experiment was performed to assess the potential of three biosorbents (tea waste, wheat straw and peanut shells) to remove As (50, 100, 200 and 400 µg L -1 ) from aqueous medium at a pH range of 5-8. The efficiency of agricultural biosorbents to remove As varies greatly regarding their type, initial As concentration in water and solution pH. It was observed that all of the biosorbents efficiently removed As from water samples. The maximum As removal (up to 92%) was observed for 400 µg L -1 initial As concentration. Noticeably, at high initial As concentrations (200 and 400 μg L -1 ), low pH (5 and 6) facilitates As removal. Among the three biosorbents, tea waste biosorbent showed substantial ability to minimize health risks by removing As (up to 92%) compared to peanut shells (89%) and wheat straw (88%). Likewise, the values of evaluated risk parameters (carcinogenic and non-carcinogenic risk) were significantly decreased (7-92%: average 66%) after biosorption experiment. The scanning electron microscopy, Fourier transform infrared spectroscopy, energy-dispersive X-ray and X-ray diffraction analyses confirmed the potential of biosorbents to remediate As via successful loading of As on their surfaces. Hence, it can be concluded that synthesized biosorbents exhibit efficient and ecofriendly potential for As removal from contaminated water to minimize human health risk.
Keyphrases
- heavy metals
- health risk
- risk assessment
- electron microscopy
- human health
- sewage sludge
- drinking water
- high resolution
- ionic liquid
- healthcare
- endothelial cells
- mental health
- solid phase extraction
- public health
- magnetic resonance
- anaerobic digestion
- computed tomography
- climate change
- pseudomonas aeruginosa
- magnetic resonance imaging
- cystic fibrosis
- social media
- contrast enhanced
- candida albicans
- alcohol consumption