[1] Ahmed, A. A., Gherraf, N., El-Bassuony, A. A., Rhouati, S., Gad, M. H., Ohta, S., & Hirata, T. (2006). Guyonianin A and B, two polyester diterpenes from Algerian Euphorbia guyoniana. Natural Product Communications, 1(4), 1934578X0600100402.
[2] Amar, Z., Labib, S. N., Noureddine, G., & Salah, R. (2012). Phytochemical screening of five Algerian plants and the assessment of the antibacterial activity of two Euphorbia guyoniana extracts. Der Pharmacia Lettre, 4(5), 1438-1444.
[3] Babula, P., Adam, V., Kizek, R., Sladký, Z., & Havel, L. (2009). Naphthoquinones as allelochemical triggers of programmed cell death. Environmental and Experimental botany, 65(2-3), 330-337.
[4] Batish, D. R., Arora, K., Singh, H. P., & Kohli, R. K. (2007). Potential utilization of dried powder of Tagetes minuta as a natural herbicide for managing rice weeds. Crop Protection, 26(4), 566-571.
[5] Bellakhdar, J. (1997). Medecine arabe ancienne et savoirs populaires. La Pharmacopée Traditionnelle; Ibis Press: Paris, France.
[6] Ben Khettou, H. (2010). Contribution à l'étude de l'aptitude à la germination des graines d'Agrania spinosa L.(SAPOTACEAE) dans la région d’Ouargla. MémoireIng Eco Univ-Ouargla.
[7] Benmeddour, T. (2016). Etude de l'activité biologique de quelques espèces végétales dans ma région de Aurés et au nord du Sahara algérien (Doctoral dissertation).
[8] Bensellam, E. H., Moutiq, R., Elyacoubi, H., & Rochdi, A. (2019). Effet allélopathique de quelques plantes médicinales sur la germination des graines de Phalaris canariensis L. et Lactuca sativa L. Revue Marocaine de Protection des Plantes, (13).
[9] Bhadoria, P. B. S. (2011). Allelopathy: a natural way towards weed management. American Journal of Experimental Agriculture, 1(1), 7-20.Bhowmik, P. C. (2003). Challenges and opportunities in implementing allelopathy for natural weed management. Crop protection, 22(4), 661-671.
[10] Bouaziz, M., Dhouib, A., Loukil, S., Boukhris, M., & Sayadi, S. (2009). Polyphenols content, antioxidant and antimicrobial activities of extracts of some wild plants collected from the south of Tunisia. African journal of biotechnology, 8(24).
[11] Boudiar, T., Hichem, L., Khalfallah, A., Kabouche, A., Kabouche, Z., Brouard, I., ... & Bruneau, C. (2010). A new alkaloid and flavonoids from the aerial parts of Euphorbia guyoniana. Natural product communications, 5(1), 1934578X1000500109.
[12] Cherif, R., Kemassi, A., Boual, Z., Bouziane, N., Benbrahim, F., Hadjseyd, A., & el Hadj, M. O. (2016). Activités biologiques des extraits aqueux de Pergularia tomentosa L. (Asclepiadaceae). Lebanese Science Journal, 17(1), 25.
[13] Cliffe, S., Fawer, M. S., Maier, G., Takata, K., & Ritter, G. (1994). Enzyme assays for the phenolic content of natural juices. Journal of Agricultural and Food Chemistry, 42(8), 1824-1828.
[14] Côme, D. (1970). Obstacles to germination. Obstacles to germination., (6).
[15] Dey, P., Chandra, S., Chatterjee, P., & Bhattacharya, S. (2012). Allelopathic Potential of Aerial Parts from Mikania scandens(L.) Willd. World Journal of Agricultural Sciences, 8(2), 203-207.
[16] Dohou, R., Yamni, K., Tahrouch, S., Hassani, L. I., Badoc, A., & Gmira, N. (2003). Screening phytochimique d'une endémique iberomarocaine, Thymelaea lythroides. Bulletin-Société de Pharmacie de Bordeaux, 142(1/4), 61-78.
[17] Duke, S. O. (2003). Ecophysiological aspects of allelopathy. Planta, 217(4), 529-539.
[18] Einhellig, F. A. (1985). Effects of allelopathic chemicals on crop productivity,109-130.
[19] Gomaa, N. H., Hassan, M. O., Fahmy, G. M., González, L., Hammouda, O., & Atteya, A. M. (2014). Allelopathic effects of Sonchus oleraceus L. on the germination and seedling growth of crop and weed species. Acta Botanica Brasilica, 28, 408-416.
[20] Harborne, J. B. (1973). Phytochemical methods, London, Chapman Hall Ltd.
[21] Heap, I. (2013). The international survey of herbicide resistant weeds. Online. Internet.
[22] Hussain, M. I., Gonzalez, L., & Reigosa, M. J. (2011). Allelopathic potential of Acacia melanoxylon on the germination and root growth of native species. Weed Biology and Management, 11(1), 18-28.
[23] Inderjit, & Nilsen, E. T. (2003). Bioassays and field studies for allelopathy in terrestrial plants: progress and problems. Critical Reviews in Plant Sciences, 22(3-4), 221-238.
[24] Jaradat, N., Hussen, F., & Al Ali, A. (2015). Preliminary phytochemical screening, quantitative estimation of total flavonoids, total phenols and antioxidant activity of Ephedra alata Decne. J. Mater. Environ. Sci, 6(6), 1771-1778.
[25] Kemassi, A., Boukhari, K., Cherif, R., Ghada, K., Bendaken, N., Bouziane, N., ... & Ould Elhadh, E. M. (2015). Evaluation de l’effet larvicide de l’extrait aqueux d’Euphorbia guyoniana (Boiss. & Reut.)(Euphorbiaceae). Revue El Wahat pour les Recherches et les Etudes, 8(1), 44-61.
[26] Kemassi, A., Bouziane, N., Boual, Z., Mesbahi, Z., Ghenabzia, M., Kafi, M., ... & Ould Elhadj, M. D. (2013). Study of the toxicity of the crude acetone leaf extract of Euphorbia guyoniana Boiss. and Reut.(Euphorbiaceae) in Schistocerca gregaria (Forskål, 1775)(Orthoptera-Acrididea). PhytoChem & BioSub Journal, 7(1), 2-13.
[27] Kemassi, A., Herouini, A., Hadj, S. A., Cherif, R., & Elhadj, M. O. (2019). Effet insecticide des extraits aqueux d’Euphorbia guyoniana (Euphorbiaceae) récoltée dans Oued Sebseb (Sahara Algerien) sur le Tribolium castaneum. Lebanese science journal, 20(1), 55.
[28] Kim, D. O., Chun, O. K., Kim, Y. J., Moon, H. Y., & Lee, C. Y. (2003). Quantification of polyphenolics and their antioxidant capacity in fresh plums. Journal of agricultural and food chemistry, 51(22), 6509-6515.
[29] Kúsz, N., Orvos, P., Csorba, A., Tálosi, L., Chaieb, M., Hohmann, J., & Rédei, D. (2016). Jatrophane diterpenes from Euphorbia guyoniana are new potent inhibitors of atrial GIRK channels. Tetrahedron, 72(37), 5724-5728.
[30] Lee, T. T., Starratt, A. N., & Jevnikar, J. J. (1982). Regulation of enzymic oxidation of indole-3-acetic acid by phenols: structure-activity relationships. Phytochemistry, 21(3), 517-523.
[31] Li, Z. H., Wang, Q., Ruan, X., Pan, C. D., & Jiang, D. A. (2010). Phenolics and plant allelopathy. Molecules, 15(12), 8933-8952.
[32] Lin, D., Tsuzuki, E., Sugimoto, Y., Dong, Y., Matsuo, M., & Terao, H. (2004). Elementary Identification and biological activities of phenolic allelochemicals from dwarf lilyturf plant (Ophiopogon japonicus K.) against two weeds of paddy rice field. Plant Prod. Sci, 7(3), 260-265.
[33] Lin, D., Tsuzuki, E., Sugimoto, Y., Dong, Y., Matsuo, M., & Terao, H. (2003). Assessment of dwarf lilyturf (Ophiopogon japonicus K.) dried powders for weed control in transplanted rice. Crop Protection, 22(2), 431-435.
[34] Madike, Lerato Nellvecia., Takaidza, S., & Pillay, M. (2017). Preliminary phytochemical screening of crude extracts from the leaves, stems, and roots of Tulbaghia violacea. Int J Pharmacogn Phytochem Res, 9(10), 1300-1308.
[35] Monem, R., Mirsharifi, S. M., & Mirtaheri, S. M. (2012). Evaluation allelopathic effects of barley shoot aqueous extract on germination, seedling growth, cell membrance permeability and malondialdehyde content of corn weeds. Advances in Environmental Biology, 2490-2496.
[36] Ozenda, P. (1991). Flora and vegetation of the Sahara. CNRS.
[37] Qasem, J. R. (2002). Allelopathic effects of selected medicinal plants on Amaranthus retroflexus and Chenopodium murale. Allelopathy journal, 10(2), 105-122.
[38] Quézel, P., & Santa, S. (1962). Nouvelle flore de l'Algérie et des régions désertiques méridionales.
[39] Rédei, D., Kúsz, N., Chaieb, M., & Hohmann, J. (2015, November). Two new jatrophane diterpenes from Euphorbia guyoniana. In Planta Medica (Vol. 81, No. 16, pp. 1443-1443). RUDIGERSTR 14, D-70469 STUTTGART, GERMANY: GEORG THIEME VERLAG KG.
[40] Cherif R. (2020). Etude comparative des activités biologiques des extraits de deux plantes spontanées récoltées au Sahara Algérien (Doctoral dissertation, Université de Ghardaia).
[41] Rice, E. L. (1979). Allelopathy—an update. The Botanical Review, 45(1), 15-109.
[42] Rice, E. L. (1984). Allelopathy. Second edition. New York: Academic Press, Orlando, FL.
[43] Rice, E.L. (1974). Allelopathy. Academic Press, New York, NY. pp.353.
[44] Salhi, N. (2011). Allelochemicals from some medicianal and aromatique plants and theirpotontale use as biohererbicides (Doctoral dissertation, Université de Annaba-Badji Mokhtar).
[45] Sato, T., Kiuchi, F., & Sankawa, U. (1982). Inhibition of phenylalanine ammonia-lyase by cinnamic acid derivatives and related compounds. Phytochemistry, 21(4), 845-850.
[46] Scavo, A., Restuccia, A., Pandino, G., Onofri, A., & Mauromicale, G. (2018). Allelopathic effects of Cynara cardunculus L. leaf aqueous extracts on seed germination of some Mediterranean weed species. Italian Journal of Agronomy, 13(2), 119-125.
[47] Trease E., Evans, W.C. 1987. Pharmacognosie. Billiaire Tindall, London 13 th Edition.
[48] Tukey, H. B. (1969). Implications of allelopathy in agricultural plant science. The botanical review, 35(1), 1-16.
[49] Weih, M., Didon, U. M. E., Rönnberg-Wästljung, A. C., & Björkman, C. (2008). Integrated agricultural research and crop breeding: Allelopathic weed control in cereals and long-term productivity in perennial biomass crops. Agricultural Systems, 97(3), 99-107.
[50] Weston, L. A. (1996). Utilization of allelopathy for weed management in agroecosystems. Agronomy journal, 88(6), 860-866.