Litcius/Paper detail

Barium distribution, dynamics and fate in terrestrial and aquatic environments

Shailja Sharma, Shiv Bolan, Santanu Mukherjee, Luiz Roberto Guimarães Guilherme, Douglas Gomes Viana, Amanda Duim Ferreira, Mona Bakke Myrvang, Åsgeir R. Almås, Elin Gjengedal, Valérie Cappuyns, Marcelo Braga Bueno Guerra, Cynthia de Oliveira, Dane Lamb, Kadambot H. M. Siddique, Nanthi Bolan

2025Environmental Research7 citationsDOIOpen Access PDF

Abstract

Barium (Ba) can be found in nature as Ba minerals, such as barite (BaSO 4 ), hollandite (Ba 2 Mn 8 O 16 ), and witherite (BaCO 3 ), and is primarily located in rock-forming minerals, such as potassium-feldspars, micas, apatite, and calcite. Commercial applications for Ba include the production of pesticides, explosives, drilling fluids, and detergents. In addition, Ba is utilized as a pigment in paints, filler in rubber and paper, and as a contrast material for gastrointestinal tract X-ray inspection. In saline soils with high chloride concentrations, Ba forms soluble barium chloride (BaCl 2 ) and becomes more mobile. However, Ba ions are not highly adsorbed in acidic environments, and Ba precipitates become more soluble in acidic soils. Barium is recognized to negatively affect most organisms when it is present in large concentrations. By consuming drinking water and food sources that contain Ba, such as fish and marine life, the general population gets exposed to Ba. Humans with high levels of Ba may experience cardiac arrhythmia, vomiting, diarrhea, hypokalemia, severe hypertension, and even death. While reverse osmosis filtering systems can be used to remove Ba from aqueous media, including drinking water sources, immobilization and phytoremediation methods can help to reduce Ba contamination in soil. The present review provides an insight into the origin, geochemistry, health risks, remediation techniques, and risk management of Ba in complex environmental matrices, such as soil and aquatic ecosystems. • Barium (Ba) is present in the Earth’s lithosphere, in rocks, soils, and groundwater • Ba enters the environment through pesticides, explosives and detergents • Ba biogeochemistry is governed by pH, minerals, salinity, and organic matter • Ba is not essential to plants, humans and animals, and is toxic at high concentrations • Immobilization and phytoremediation methods can reduce Ba contamination in soil

Topics & Concepts

BariumEnvironmental chemistryBarium chloridePopulationEnvironmental scienceEnvironmental remediationContaminationChemistryChlorideReverse osmosisSoil waterAdsorptionWater treatmentBarium sulfateAqueous solutionAlgaeAquatic ecosystemWater pollutionGroundwaterFood chainAquatic environmentWater qualityDrilling fluidSalinityPelletsBarium sulphateEnvironmental engineeringProduced waterMineralogyGeochemistry and Elemental AnalysisAnalytical chemistry methods developmentHeavy metals in environment