Antimony contamination and its risk management in complex environmental settings: A review

Nanthi Bolan; Manish Kumar; Ekta Singh; Aman Kumar; Lal Singh; Sunil Kumar; S. Keerthanan; Son A. Hoang; Ali El-Naggar; Meththika Vithanage; Binoy Sarkar; Hasintha Wijesekara; Saranga Diyabalanage; Prasanthi Sooriyakumar; Ajayan Vinu; Hailong Wang; M.B. Kirkham; Sabry M. Shaheen; Jörg Rinklebe; Kadambot H.M. Siddique

Environment International (Jan 2022)

Antimony contamination and its risk management in complex environmental settings: A review

Nanthi Bolan,
Manish Kumar,
Ekta Singh,
Aman Kumar,
Lal Singh,
Sunil Kumar,
S. Keerthanan,
Son A. Hoang,
Ali El-Naggar,
Meththika Vithanage,
Binoy Sarkar,
Hasintha Wijesekara,
Saranga Diyabalanage,
Prasanthi Sooriyakumar,
Ajayan Vinu,
Hailong Wang,
M.B. Kirkham,
Sabry M. Shaheen,
Jörg Rinklebe,
Kadambot H.M. Siddique

Affiliations

Nanthi Bolan: School of Agriculture and Environment, The University of Western Australia, Perth, WA 6001, Australia; The UWA Institute of Agriculture, The University of Western Australia, Perth, WA 6001, Australia; Global Innovative Centre for Advanced Nanomaterials (GICAN), College of Engineering, Science and Environment, The University of Newcastle Callaghan, NSW 2308, Australia; Corresponding authors at: School of Agriculture and Environment, The University of Western Australia, Nedlands, Western Australia, Australia (N. Bolan). University of Wuppertal, School of Architecture and Civil Engineering, Institute of Foundation Engineering, Water- and Waste Management, Laboratory of Soil- and Groundwater-Management Pauluskirchstraße 7, 42285 Wuppertal, Germany (J. Rinklebe).
Manish Kumar: CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur 440020, Maharashtra, India
Ekta Singh: CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur 440020, Maharashtra, India
Aman Kumar: CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur 440020, Maharashtra, India
Lal Singh: CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur 440020, Maharashtra, India
Sunil Kumar: CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur 440020, Maharashtra, India
S. Keerthanan: Ecosphere Resilience Research Center, Faculty of Applied Sciences, University of Sri Jayewardenepura, Nugegoda 10250, Sri Lanka
Son A. Hoang: Global Innovative Centre for Advanced Nanomaterials (GICAN), College of Engineering, Science and Environment, The University of Newcastle Callaghan, NSW 2308, Australia
Ali El-Naggar: Department of Soil Sciences, Faculty of Agriculture, Ain Shams University, Cairo 11241, Egypt
Meththika Vithanage: Ecosphere Resilience Research Center, Faculty of Applied Sciences, University of Sri Jayewardenepura, Nugegoda 10250, Sri Lanka
Binoy Sarkar: Lancaster Environment Centre, Lancaster University, Lancaster LA1 4YQ, UK
Hasintha Wijesekara: Department of Natural Resources, Faculty of Applied Sciences, Sabaragamuwa University, Belihuloya 70140, Sri Lanka
Saranga Diyabalanage: Ecosphere Resilience Research Center, Faculty of Applied Sciences, University of Sri Jayewardenepura, Nugegoda 10250, Sri Lanka
Prasanthi Sooriyakumar: Global Innovative Centre for Advanced Nanomaterials (GICAN), College of Engineering, Science and Environment, The University of Newcastle Callaghan, NSW 2308, Australia
Ajayan Vinu: Global Innovative Centre for Advanced Nanomaterials (GICAN), College of Engineering, Science and Environment, The University of Newcastle Callaghan, NSW 2308, Australia
Hailong Wang: Biochar Engineering Technology Research Center of Guangdong Province, School of Environmental and Chemical Engineering, Foshan University, Foshan, Guangdong 528000, People’s Republic of China; Key Laboratory of Soil Contamination Bioremediation of Zhejiang Province, School of Environmental and Resource Sciences, Zhejiang A&F University, Hangzhou, Zhejiang 311300, People’s Republic of China
M.B. Kirkham: Department of Agronomy, Kansas State University, Manhattan, KS, United States
Sabry M. Shaheen: University of Wuppertal, School of Architecture and Civil Engineering, Institute of Foundation Engineering, Water- and Waste Management, Laboratory of Soil- and Groundwater-Management, Pauluskirchstraße 7, 42285, Germany; King Abdulaziz University, Faculty of Meteorology, Environment, and Arid Land Agriculture, Department of Arid Land Agriculture, Jeddah 21589, Saudi Arabia; University of Kafrelsheikh, Faculty of Agriculture, Department of Soil and Water Sciences, 33 516 Kafr El-Sheikh, Egypt
Jörg Rinklebe: University of Wuppertal, School of Architecture and Civil Engineering, Institute of Foundation Engineering, Water- and Waste Management, Laboratory of Soil- and Groundwater-Management, Pauluskirchstraße 7, 42285, Germany; Department of Environment, Energy and Geoinformatics, Sejong University, 98 Gunja-Dong, Seoul, Republic of Korea; Corresponding authors at: School of Agriculture and Environment, The University of Western Australia, Nedlands, Western Australia, Australia (N. Bolan). University of Wuppertal, School of Architecture and Civil Engineering, Institute of Foundation Engineering, Water- and Waste Management, Laboratory of Soil- and Groundwater-Management Pauluskirchstraße 7, 42285 Wuppertal, Germany (J. Rinklebe).
Kadambot H.M. Siddique: School of Agriculture and Environment, The University of Western Australia, Perth, WA 6001, Australia; The UWA Institute of Agriculture, The University of Western Australia, Perth, WA 6001, Australia

Journal volume & issue: Vol. 158
p. 106908

Abstract

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Antimony (Sb) is introduced into soils, sediments, and aquatic environments from various sources such as weathering of sulfide ores, leaching of mining wastes, and anthropogenic activities. High Sb concentrations are toxic to ecosystems and potentially to public health via the accumulation in food chain. Although Sb is poisonous and carcinogenic to humans, the exact mechanisms causing toxicity still remain unclear. Most studies concerning the remediation of soils and aquatic environments contaminated with Sb have evaluated various amendments that reduce Sb bioavailability and toxicity. However, there is no comprehensive review on the biogeochemistry and transformation of Sb related to its remediation. Therefore, the present review summarizes: (1) the sources of Sb and its geochemical distribution and speciation in soils and aquatic environments, (2) the biogeochemical processes that govern Sb mobilization, bioavailability, toxicity in soils and aquatic environments, and possible threats to human and ecosystem health, and (3) the approaches used to remediate Sb-contaminated soils and water and mitigate potential environmental and health risks. Knowledge gaps and future research needs also are discussed. The review presents up-to-date knowledge about the fate of Sb in soils and aquatic environments and contributes to an important insight into the environmental hazards of Sb. The findings from the review should help to develop innovative and appropriate technologies for controlling Sb bioavailability and toxicity and sustainably managing Sb-polluted soils and water, subsequently minimizing its environmental and human health risks.

Published in Environment International

ISSN: 0160-4120 (Print)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.journals.elsevier.com/environment-international

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