Zhaode Wang scite author profile

Phosphite (P) is of emerging chemical interest due to its importance within the global phosphorus cycle. Yet, to date, precise/accurate measurements of P are still lacking due to the inherent analytical challenges linked to its instability/ease of oxidation and ultra-trace concentration. Here, we present the first in-situ sampling and speciation analysis method, for dissolved P, using the diffusive-gradients-in-thin-films (DGT) technique, combined with capillary-column-configured-dual-ion-chromatography (CC-DIC). Method optimization of the DGT elution regime, to simultaneously maximize desorption efficiency and CC-DIC sensitivity, along with the characterization of diffusion coefficients for P, were undertaken before full method validation. Laboratory-performance testing confirmed DGT-P acquisition to be independent of pH (3.0-10.0) and ionic strength (0-500 mM). The capacity for P was 45.8 μg cm, while neither P (up to 10 mg L) nor As (up to 1 mg L) impacted the DGT-P measurement. This novel method's functionality stems from the herein confirmed speciation preservation and double pre-concentration of P, resulting in quantification limits as low as 7.44 ng L for a 3-day deployment. Applications of this method in various terrestrial/aquatic environments were demonstrated and simultaneous profiles of P and P across a sediment-water interface were captured at mm resolution in two contrasting redox-mesocosm systems.

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Zhaode Wang

Impact of different benthic animals on phosphorus dynamics across the sediment-water interface

Phosphorus interception in floodwater of paddy field during the rice-growing season in TaiHu Lake Basin

In situ sampling and speciation method for measuring dissolved phosphite at ultratrace concentrations in the natural environment

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