An improved digestion and analysis procedure for silicon in plant tissue

Author:

Langenfeld Noah JamesORCID,Bugbee Bruce

Abstract

Silicon (Si) in plant tissues reduces abiotic and biotic stress, but it is incorporated as silica (SiO2), which is difficult to solubilize for analysis. We modified an oven-induced tissue-digestion and analysis method to improve Si solubilization and validated its accuracy by quantifying the mass-balance recovery of Si from the hydroponic solution and plant tissues of cucumber (Cucumis sativus). Leaf, stem, and root tissues were dried, finely-ground, and digested in 12.5 molar sodium hydroxide at 95°C for 4 hours. Solutions were then acidified with 6 molar hydrochloric acid to achieve a pH below 2 for measurement of Si using the molybdate blue colorimetric method. Interference of phosphorus in the analysis was minimized by increasing the addition of oxalic acid from 0.6 to 1.1 molar. We recovered 101% ± 13% of the expected Si, calculated using mass-balance recovery, in leaf, stem, and root tissues across 15 digestions. This Si recovery was fourteen-fold higher than the standard acid-extraction method and similar to a USDA-ARS alkaline-extraction method. Our procedure offers a low-cost, accurate method for extraction and analysis of Si in plant tissues.

Funder

NASA

Utah Agricultural Experiment Station

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference28 articles.

1. Got silicon? The non-essential beneficial plant nutrient;KE Richmond;Current Opinion in Plant Biology,2003

2. Silicon and plants: Current knowledge and technological perspectives.;M Luyckx;Front Plant Sci,2017

3. Silicon and plant disease resistance against pathogenic fungi;F Fauteux;FEMS Microbiology Letters,2005

4. Functions and transport of silicon in plants;JF Ma;Cell Mol Life Sci,2008

5. The anomaly of silicon in plant biology;E. Epstein;Proc Natl Acad Sci USA,1994

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