Silicon in cacao plants exposed to UV-B radiation

– The objective of this work was to evaluate silicon capacity to mitigate the damaging effects of UV-B radiation on cacao ( Theobroma cacao ) plants. For the experiment, homogeneous cacao plants produced from seeds collected from a clonal population were subjected to the following treatments: UVB- Si, no UV-B exposure and no addition of Si (control); UV-B+ Si, UV-B exposure of 3.0 kJ m -2 per day and no addition of Si; and UV-B+ Si+, UV-B exposure of 3.0 kJ m -2 per day and addition of 2.0 mmol L -1 Si. The molybdenum blue technique was used to determine Si concentrations. For each selected plant, the following were determined: number of leaves; leaf area; root, stem, and leaf dry mass; anatomy of fully expanded leaves; gas exchange; chlorophyll a fluorescence; total soluble sugar concentrations using ethanol extract; and antioxidant enzyme activity. The plants showed a higher leaf and total biomass when treated with Si, as well as lower concentrations of chlorophyll, carotenoids, anthocyanins, flavonoids, and polyphenols under UV-B radiation. Si inhibits the net CO 2 assimilation rate and the dark mitochondrial respiration rate. Therefore, Si application on cacao plants mitigates the damaging effects of UV-B, reduces carbon consumption through cellular respiration, and decreases the production of UV-B-absorbing compounds.