[[1]. FAO.; FaostatDataBase Results, Roma FAO, 2007.]Search in Google Scholar
[[2]. Badaoui, M, I.; Berkani, A.; Lotmani, B., Les entomopathogènes autochtones, Nouvel espoir dans le contrôle biologique de Tuta absoluta Meyrick 1917 (Lepidoptera Gelechiidae) en Algérie, Faunistic Entomology,2011, 63, 3, 165-169.]Search in Google Scholar
[[3]. Khelifi, S, A, D.; Pavlista, M, M.; Meagher, P,E, Read., Invertase activity as affected by cytokinin-like compounds during potato tuberization in vitro, Am. J. Potato Res,2000, 77, 57-61.]Search in Google Scholar
[[4]. Momena, K.; Adeeba, R.; Rahman, L., In vitro Microtuberization of Potato (Solanum tuberosum L.) Cultivar through Sucrose and Growth Regulator, Journal of Bioscience and Agriculture Research,2014,Vol. 02, 02, 76-82.10.18801/jbar.020214.22]Search in Google Scholar
[[5]. Agud, E.; Laslo, V., Tratament with low temperatures applied to the bulbs of Narcissus poeticus L. for the stimulation of the in vitro regeneration and bulbification, Natural resources and sustainable development,2018,Vol. 8, No 1, 49-58.10.31924/nrsd.v8i1.007]Search in Google Scholar
[[6]. Fouarge, G., Quel avenir pour l’amélioration des plantes? Ed. Aupelf-Uref. Paris,1994, 205-209.]Search in Google Scholar
[[7]. LÊ, C.; L, Thomas, D., Production de microtubercules de pomme de Terre in vitro: effet de la durée de culture, Revue Suisse Agric,2010,1, 11-12, 404-409.]Search in Google Scholar
[[8]. Murashige, T.; Skoog, F., A revised medium for rapid growth and bioassays with tobacco tissue culture, Plant. Physiol,1962,Vol. 15, 473-497.10.1111/j.1399-3054.1962.tb08052.x]Search in Google Scholar
[[9]. Dieng, A., Micropropagation et microtubérisation de deux variétés de pomme de Terre (Solanum tuberosum L.) adaptées aux conditions agroclimatiques du sénégal Mémoire de DEA, FST/BV/UCAD,1993, 84.]Search in Google Scholar
[[10]. Sidikou, R, D, S.; Sihachakr, D.; Lavergne, A, N.; Ellisséche, D.; Jouan,B.; Ducreux, G., Etude de la micotubérisation de la pomme de Terre (Solanum tuberosum L.) au sahel, Revue Agricultures (Montrouge),2003,12, 1, 7-14.]Search in Google Scholar
[[11]. Mani, F.; Mhamdi, M.; Bettaieb, T.; Hannachi, C., Effet du saccharose Sur la tubérisation in vitro de la pomme de terre (Solanum tuberosum L.), Revue, Nature & Technologie,2012,07/Juin, 38-43.]Search in Google Scholar
[[12]. Diémé, A.; Sambe, M, A, N.; Agbangba, E, C.; Ouréye, Sy, M., Residual effects of sucrose and hormonal treatments of the tuberization medium on in vitro germination of potato (Solanum tuberosum L.) microtubers, American Journal of Plant Sciences,2013,4, 1872-1878.]Search in Google Scholar
[[13]. Cysty, Borda Yapez C.; Toledo, J.; Golmirzaie, A.; Roca, W., Effecto de inductors de tuberización y fotoperiodo sobre la microtuberización de Solanum tuberosum L. in vitro, Centro International de la Papa (CIP), 2001.]Search in Google Scholar
[[14]. Du Jardin, Y.; Hdider, C.; de Rick, J., Carbon nutrition in vitro regulation and manipulation of carbon assimilation in micropropagated system. Automaten and environmental control in Plant Tissue Culture, Kluwer Academic Publishers. Dordrecht, 1995, 411-471.]Search in Google Scholar
[[15]. Roitch, T.; Ehness, R., Regulation of sucrose/sink relations by cytokinins, Plant Growth Regul,2000,32, 359-367.]Search in Google Scholar
[[16]. Mercier, M.; Laffite, C.; Borderies, G.; Fournier, G., The alagal polysaccharide carrageenans can act as an elicitor for plant defence, New Phytologist,2001,Vol. 149, 43-51.10.1046/j.1469-8137.2001.00011.x33853239]Search in Google Scholar
[[17]. Kamarainen-Karppinen, T.; Virtanen, E.; Rokka, V, M.; Pirttilä, A, M., Novel bioreactor technology for mass propagation of potato microtubers, Plant Cell Tiss. Org. Cult,2010, 101, 245-249.]Search in Google Scholar
[[18]. Sattelmacher, B.; Marschner, H., Relation between nitrogen nutrition, cytokinin activity and tuberization in Solanum tuberosum L., Physiologia Plantarum,1978,44, 65-68.]Search in Google Scholar
[[19]. Zarrabeitia A., Lejarcegui X., Veramendi J., Mingo-Castel A. M., Influence of nitrogen supply on micropropagation and subsequent microtuberization of four potato cultivars, Am Potato J,1997,370, 369-378.10.1007/BF02852776]Search in Google Scholar
[[20]. Sarkar, D.; Naik, P, S., Effect of inorganic nitrogen nutrition on cytokinininduced potato microtuber production in vitro, Potato Res,1998,41, 211-217.]Search in Google Scholar
[[21]. Jarret, R, L; Hasegawa, P, M.; Erickson, H,T., Factors affecting shoot initiation from tuber discs of potato (Solanum tuberosum. L.), Article in Physiologia Plantarum,1980, 49, 2, 177-184.10.1111/j.1399-3054.1980.tb02648.x]Search in Google Scholar
[[22]. Belguendouz, A., Essai de substitution des milieux de culture en micropropagation et la Physiologie de la microtubérisation de la pomme de terre terre (Solanum tuberosum L.), Memoir de fin d’étude en vue de l’obtention de magistèr en sciences agronomiques, université de Tlemcen, Algerie, 2012.]Search in Google Scholar
[[23]. Pelacho, A, M.; Mingo-Castel, A, M., Jasmonic acid-induced tuberization of potato stolons cultured in vitro, Plant Physiology,1991,97, 1253-1255.]Search in Google Scholar
[[24]. SAGRODEV, Société Agro-développement Sétif, Algérie, 2019.]Search in Google Scholar
[[25]. Sarkar D.; Pandey, S, K and Sharma S., Cytokinins antagonize the jasmonates action on the regulation of potato tuber formation in vitro. Plant Cell, Tissue and Organ Culture, 2006,87, 285-295.]Search in Google Scholar
[[26]. Seabrook, J, E, A.; Coleman, S.; Levy, D., Effect of photoperiod on in vitro tuberization of potato (Solanum tuberosum L.), Plant Cell. Tissue and Organ Culture,1993,34, 43-51.10.1007/BF00048462]Search in Google Scholar
[[27]. AL-Hussaini, Z, A.; Yousif, SH, A.; AL-Ajeely, S, A., The role of sucrose and light duration on in vitro tuberization for two cultivars of Potato (Solanum tuberosum L.), Int. J. Curr. Microbiol. App. Sci,2015,4, 2, 277-283.]Search in Google Scholar
[[28]. Pruski, K.; Astatkie, T.; Nowak, J., Jasmonate effects on in vitro tuberization and tuber bulking in two potato cultivars (Solanum tuberosum L.) under different media and photoperiod conditions, Society for in vitro Biology. in vitro Cell. Dev. Biol.-Plant,2002,38, 203-209.]Search in Google Scholar
[[29]. Aryakia, E.; Hamidoghli, Y., Comparison of Kinetin and 6-Benzyl Amino Purine Effect on in vitro Microtuberization of Two Cultivars of Potato (Solanum tuberosum L.), American-Eurasian J. Agric. & Environ. Sci,2010, 8, 6, 710-714.]Search in Google Scholar
[[30].Anjum, M, A.; Villiers, T, A., Induction of microtubers in vitro from stem segments of Solanum tuberosum L., S. compersion Due and S. acaule Bitt., Scientia Horticulturae,1997,70, 231-235.]Search in Google Scholar
[[31].Amina, Kanwal.; A, A, Shoaib, K., In vitro microtuberization of potato (Solanum tuberosum L.) cultivar Kuroda-a new variety in Pakistan, International J. Agriculture and Biol.,2006,8, 337-340.]Search in Google Scholar
[[32]. Ranalli, P.; Bizarri, M.; Borghi, L.; Mari, M., Genotypic influence on in vitro induction, dormancy length, advancing age and agronomical performance of potato microtubers (Solanum tuberosum L.), Ann. Appl. Biol.,1994,125, 161-172.]Search in Google Scholar
[[33]. Hossein, M, J., In vitro microtuberisation in potato obtained from diverse sources, Plant Tissue Cult. & Biotech,2005,15, 2, 157-166.]Search in Google Scholar
[[34]. Margara, J., Base de la multiplication végétatives. Les méristèmes et l’organogenèse, Institut National de la recherche Agronomique (INRA),1984.]Search in Google Scholar
