1. Abbes, Z., Bouallegue, A., Trabelsi, I., Trabelsi, N., Taamalli, A., Amri, M., Mhadhbi, H., & Kharrat, M. (2020). Investigation of some biochemical mechanisms involved in the resistance of faba bean (Vicia faba L.) varieties to Orobanche spp. Plant Protection Science 56, 317–328. https://doi.10.17221/103/2019-PPS
2. Asan, H., & Ozen, C. (2016). The effect of Cuscuta babylonica Aucher (Cuscuta) parasitism on the phenolic contents of Carthamus glaucus Bieb.subsp. glaucus. Igdir University Journal of the Institute of Science and Technology 6(4), 31–39. https://doi.10.21597/jist.2016624153
3. Use of free radical method to evaluate antioxidant activity;Brand-Williams W;Lebensmittel-Wissenschaft und -Technologie,1995
4. Briache, F.Z., Ennami, M., Mbasani-Mansi, J., Lozzi, A., Abdelhadi, A., El Rodeny, W., Amri, M., Triqui, Z.A., & Mentag, R. (2020). Effects of salicylic acid and indole acetic acid exogenous applications on induction of faba bean resistance against Orobanche crenata. Plant Pathology Jornal 36(5), 476–490. https://doi.10.5423/PPJ.OA.03.2020.0056.
5. Cen, Z., Zheng, Y., Guo, Y., Yang, S., & Dong, Y. (2023). Nitrogen fertilization in a faba bean–wheat intercropping system can alleviate the autotoxic effects in faba bean. Plants 12, 1232. https://doi.org/10.3390/plants12061232.