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RESEARCH ARTICLE

In-situ sampling of available calcium using diffusive gradients in thin-films technique based on benzo-crown ether-functionalised silica as the binding agent

Hui Yao A B E , Nan You C E , Hong-Guang Cao D E , Li-Xia Kang B E , Jin-Bao Wu B , Yu-Jie Zhao A F , Hong-Tao Fan B C F and Yan-Li Yi D F
+ Author Affiliations
- Author Affiliations

A Key Laboratory for Environmental Factors Control of Agro-Product Quality Safety, Ministry of Agriculture, Tianjin 300191, China.

B College of Applied Chemistry, Shenyang University of Chemical Technology, Shenyang 100142, Liaoning, China.

C College of Chemistry Chemical Engineering, and Environmental Engineering, Liaoning University of Petroleum & Chemical Technology, Fushun 113001, Liaoning, China.

D Land & Environment College, Shenyang Agricultural University, Shenyang 110161, Liaoning, China.

E These authors contributed equally to this paper.

F Corresponding authors. Email: yujiezhao@126.com (Y.-J. Zhao); httyf_77@163.com (H.-T. Fan); yiyanli@126.com (Y.-L. Yan)

Environmental Chemistry 15(4) 205-214 https://doi.org/10.1071/EN17228
Submitted: 16 December 2017  Accepted: 21 March 2018   Published: 26 June 2018

Environmental context. Low availability of calcium (Ca2+) in soils is one of the major factors in Ca2+ deficiency of plants and physiological plant disorders. A device based on functionalised silica was developed for in-situ measurement of the available Ca2+ in soils. Application of the proposed device to measure available Ca2+ may help to develop and improve agricultural practices.

Abstract. Calcium is an ion of particular interest due to its importance in plant nutrition and soil structure. A novel device of diffusion gradients in thin-films (DGT) based on the benzo-crown ether-functionalised silica (BCES) as the binding agent and the polyethersulfone (PES) membrane as diffusive layer (BCES-DGT) was developed for in-situ sampling of available calcium (Ca2+) in freshwater and soil samples. The performance characteristics of the BCES-DGT device were assessed. The BCES was prepared using the sol-gel process and characterised by Fourier transform infrared spectroscopy, scanning electron microscopy, thermal gravimetric analysis and N2 adsorption–desorption. Results evinced that BCES was obtained successfully with a rough wrinkled surface and good specific surface area of 111.3 m2 g−1. The diffusion coefficient of Ca2+ ions in PES membrane was found to be 1.23 × 10−6 cm2 s−1 at 25 °C and was independent of pH in the range of 3–10 and ionic strength (as pNaCl) from 1 to 3. The high binding capacity of BCES binding gel for Ca2+ ions was determined to be 9822.4 ± 452.9 μg Ca2+/disk and was conducive to the deployment of long-term or high concentration. The BCES-DGT device can accurately measure the concentrations of Ca2+ over wide ranges of ionic strengths (1–3 as pNaCl) and pH (5–10). There was no significant interference on the uptake of Ca2+ by the BCES-DGT device at the tolerance limits up to 500 for Mg2+, Li+, HCO3, H2PO4, NO3 and SO42−, 250 for Sr2+, 2000 for K+ and 50 for fulvic acid. The results from BCES-DGT device were in excellent agreement with those measured directly using ion selective electrode in several water and soil samples. Field application in river water indicated that a good agreement was obtained between BCES-DGT value and mean grab sample measurements of Ca2+ and that the relative standard deviation of BCES-DGT measurement (4.7 %) was superior to that of grab sample measurements (13.5 %), suggesting that BCES-DGT was reliable for in-situ sampling and measurement of available Ca2+ with good accuracy and precision.


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