Litcius/Paper detail

Clay minerals as a source of cadmium to estuaries

Weiduo Hao, Teruhiko Kashiwabara, Rong Jin, Yoshio Takahashi, Murray K. Gingras, Daniel S. Alessi, Kurt O. Konhauser

2020Scientific Reports30 citationsDOIOpen Access PDF

Abstract

Given the high surface reactivity of clay minerals, it is assumed that flocculation will lead to metal accumulation in marginal marine settings. However, the degree of metal sorption to clays is impacted by solution pH and ionic strength, and it remains unknown whether riverine clays indeed serve as a metal sink once they encounter seawater where pH and ionic strength markedly increase. Here, we conducted cadmium (Cd) adsorption experiments to three types of common clay minerals - kaolinite, illite and montmorillonite. We found that 20-30% of Cd from illite and montmorillonite surfaces were desorbed when transitioning from freshwater to seawater pH and ionic strength conditions, while kaolinite showed no discernible differences. Synchrotron X-ray adsorption spectroscopy confirmed that Cd release corresponded to a change in bonding from outer- to inner-sphere complexes when clays encountered seawater pH and ionic strength conditions. If other trace nutrients (such as Cu, Zn, Co) adsorbed onto riverine clay minerals behave in a similar manner to Cd, we speculate that their desorption in marginal marine settings should exert a significant impact on the productivity of the biosphere.

Topics & Concepts

IlliteKaoliniteClay mineralsIonic strengthMontmorilloniteSeawaterCadmiumSorptionChemistryDesorptionAdsorptionEnvironmental chemistryTrace metalMetalInorganic chemistryMineralogyGeologyAqueous solutionOceanographyPhysical chemistryOrganic chemistryHeavy metals in environmentGroundwater and Isotope GeochemistryClay minerals and soil interactions