Bioactive Trace Elements’ Composition and Their Fractional Solubility in Aerosols from the Arabian Sea during the Southwest Monsoon

Panda, P.P.; Aswini, M.A.; Bhatt, Poonam; Srimuruganandam, B.; Peketi, A.; Kumar, Ashwini

doi:10.1021/acsearthspacechem.2c00067

Cited by 5 publications

(1 citation statement)

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“…Subsample 3c was leached and analyzed at NIO using the NIO protocol (Panda et al, 2022). In brief, each subsample was shredded and placed into a pre-cleaned Savillex vial (50 mL); after that, the vial was filled with 20 mL ultrapure water, caped, and then sonicated for 30 minutes to agitate the aqueous mixture (but in 2 cycles with 15 min for each cycle, in order to maintain the water bath at room temperature).…”

Section: Dissolved Elementsmentioning

confidence: 99%

Aerosol trace element solubility determined using ultrapure water batch leaching: an intercomparison study of four different leaching protocols

Li,

Panda,

Chen

et al. 2024

Preprint

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Abstract. Solubility of aerosol trace elements, which determines their bioavailability and reactivity, is operationally defined and strongly depends on the leaching protocol used. Ultrapure water batch leaching is one of the most widely used leaching protocols, while the specific leaching protocols used in different labs can still differ in agitation methods, contact time, and filter pore size. It is yet unclear to which extent the difference in these experimental parameters would affect the aerosol trace element solubility reported. This work examined the effects of agitation methods, filter pore size and contact time on the solubility of nine aerosol trace elements, and found that the difference in agitation methods (shaking vs. sonication), filter pore size (0.22 vs. 0.45 μm), and contact time (1 vs. 2 h) only led to small and sometimes insignificant difference in the reported solubility. We further compared aerosol trace element solubility determined using four ultrapure water leaching protocols which are adopted by four different labs and vary in agitation methods, filter pore size and/or contact time, and observed good agreement in the reported solubility. Therefore, our work suggests that although ultrapure water batch leaching protocols used by different labs vary in specific experimental parameters, the determined aerosol trace element solubility is comparable. We recommend ultrapure water batch leaching to be one of the reference leaching schemes, and emphasize that additional consensus in the community on agitation methods, contact time and filter pore size is needed to formulate a standard operating procedure for ultrapure water batch leaching.

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Section: Dissolved Elementsmentioning

confidence: 99%