1. Aghdam, M. S., Asghari, M. R., Moradbeygi, H., Mohammadkhani, N., Mohayeji, M., & Rezapour-Fard, J. (2012). Effect of postharvest salicylic acid treatment on reducing chilling injury in tomato fruit. Romanian Biotechnological Letters, 17(4), 7466–7473.

2. Aghdam, M. S., Mostofi, Y., Motallebiazar, A., Ghasemneghad, M., & Fattahi Moghaddam, J. (2009, April 8–12). Effects of MeSA vapour treatment on the postharvest quality of Hayward kiwifruit. In 6th International Postharvest Symposium. 8–12 April, 2009, Antalya, Turkey.

3. Alibert, G., & Ranjeva, R. (1971). Recharches sur les enzymes catalysant la biosynthese des acides phenoliques chez Quarcus pedunculata (Ehrn): I—formation des series cinnamique et benzoique. FEBS Letters, 19, 11–14.

4. Alibert, G., & Ranjeva, R. (1972). Recharches sur les enzymes catalysant la biosynthesis des acid phenoliques chez Quarcus pedunculata (Ehrn): II—localization intercellulaire de la phenylalanin mmonique-lyase, de la cinnamate 4-hydroxylase, et de la “benzoote synthase”. Biochimica et Biophysica Acta, 279, 282–289.

5. Alverez, A. L. (2000). Salicylic acid in machinery of hypersensitive cell death and disease resistance. Plant Molecular Biology, 44, 429–442.