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References
| Amigues JP, Debaeke P, Itier B, Lemaire G, Seguin B, Tardieu F, Thomas A ( 2006). Sécheresse et agriculture. Réduire la vulnérabilité de l'agriculture à un risque accru de manque d'eau. Expertise scientifique collective, synthèse du Rapport INRA (France). pp 72. | ||||
| Amokrane A, Bouzerzour H, Benmahammed A, Djekoun A (2002). Caractérisation des variétés locales, syriennes et européennes de blé dur évaluées en zone semi-aride d'altitude. Sciences et Technologie C, Biotechnologies:pp. 33-38. | ||||
|
Anderson WK (2010). Closing the gap between actual and potential yield of rainfed wheat. The impacts on environment, management and cultivar. Field Crops Research. pp.14-22. Crossref |
||||
| Assem N, El Hafid L, Haloui B, El Atmani K (2006). Effets du stress hydrique appliqué au stade trois feuilles sur le rendement en grains de dix variétés de blé cultivées au Maroc oriental. Science et changements planétaires/Sécheresse 17(4):499-505. | ||||
| Begg JE (1980). Morphological adaptations of leaves to water stress. In Adaptation of plants to water and high temperature stress. pp.33-42. | ||||
| Belaid A, Nsarellah N, Laamari A, Nachit M, Amri A (2003). Assessing the economic impact of durum wheat research in Morocco. International Center for Agricultural Research in the Dry Areas. pp. 51. | ||||
| Belhassen E, This D, Monneveux P (1995). L'adaptation génétique aux contraintes de la sécheresse. Cahiers Agricultures. pp. 251-261. | ||||
| Bogale A, Tesfaye K, Geleto T (2011). Morphological and physiological attributes associated to drought tolerance of Ethiopian durum wheat genotypes under water deficit condition. JBES: pp. 22-36. | ||||
| Bois JF, Dizes J, Lasceve G (1987). Réponse du riz à l'application d'acide abscissique exogène : Fermeture stomatique et enroulement foliaire. Comptes rendus de l'Académie des sciences. Série 3, Sciences de la vie 305(11) :449-452 | ||||
|
Chennafi H, Aidaoui A, Bouzerzour H, Saci A (2006). Yield response of durum wheat (Triticum durum Desf.) cultivar Waha to deficit irrigation under semi-arid growth conditions. Asian J. Plant Sci. pp. 854-860. Crossref |
||||
|
Debaeke P, Puech J, Casal M (1996). Elaboration du rendement de blé d'hiver en condition de déficit hydrique. Mise au point et test d'un modèle de stimulation de la culture de blé d'hiver en conditions d'alimentation hydriques et azotée variées. Agron. pp. 25-46. Crossref |
||||
|
Duvick DN (2005). The contribution of breeding to yield advances in maize (Zea mays L.) Advances in agronomy 86:83-145. Crossref |
||||
| Fisher RA (1973). The effect of water stress at various stages of development in yield processes in wheat. In Plant Response to Climatic Factors Proceedings of theuppsala Symposium pp. 233- 241. | ||||
| Hamon, S. (2007). L" amélioration de la résistance à la sécheresse | ||||
| peut-elle être basée sur les méthodes de sélection traditionnelle et/ou sur les méthodes biotechnologiques modernes. Possibilités et limites respectives. Acte des JSIRAUF, Hanoi 6-9. | ||||
|
Hu N, Lu CG, Yao KM, Zou JS (2009). Simulation on distribution of photosynthetically active radiation in canopy and optimum leaf rolling index in rice with rolling leaves. Rice Sci. pp.217-225. Crossref |
||||
|
Hsiao TC, O'Toole JC, Yambao EB, Turner NC (1984). Influence of osmotic adjustment on leaf rolling and tissue death in rice (Oryza sativa L.). Plant Physiology. pp. 338-341. Crossref |
||||
|
Itoh JI, Nonomura KI, Ikeda K, Yamaki S, Inukai Y, Yamagishi H, Kitano H, Nagato Y (2005). Rice plant development: from zygote to spikelet. Plant and cell physiology 46(1):23-47. Crossref |
||||
| Jane WN, Chiang SHT (1991). Morphology and development of bulliform cells in Arundo formosana Hack. Taiwania International Journal of Life Sciences 36(1) | ||||
| Kantety R, Diab A, Sorrells M (2005). Comparative genetics of durum wheat and other triticeae. In: Royo C, Nachit M, di Fonzo N, Araus J, Pfeiffer W, Slafer G (Eds.), Durum Wheat Breeding: Current Approaches and Future Strategies. Haworth Press, New York, USA, pp. 209-223. | ||||
|
Kadioglu A, Terzi R, Saruhan N, Saglam A (2012). Current advances in the investigation of leaf rolling caused by biotic and abiotic stress factors. Plant Science. 182 : 42-48. Crossref |
||||
| Karrou M (2003). Conduite du blé au Maroc. Institut National de la recherche agronomique (INRA), Rabat :1-57. | ||||
|
Kobata T, Palta JA, Turner NC (1992). Rate of development of post-anthesis water deï¬cit and grain ï¬lling of spring wheat. Crop science 32(5):1238-1242. Crossref |
||||
| Laberche JC (2004). La nutrition de la plante. In Biologie Végétale. Dunod. 2e (éd). Paris. pp. 154-163. | ||||
|
Li C, Zou X, Zhang C, Shao Q, Liu J, Liu B, Li H, Zhao T, (2016a). OsLBD3-7 overexpression induced adaxially rolled leaves in rice. PLoS One 11(6):e0156413. Crossref |
||||
|
Li L, Shi ZY, Li L, Shen GZ, Wang XQ, An LS, Zhang JL (2010). Overexpression of ACL1 (abaxially curled leaf 1) increased bulliform cells and induced abaxial curling of leaf blades in rice. Molecular plant, 3(5):807-817. Crossref |
||||
|
Li YY, Shen A, Xiong W, Sun QL, Luo Q, Song T, Li Z.L, Luan WJ( 2016b). Overexpression of OsHox32 results in pleiotropic effects on plant type architecture and leaf development in rice. Rice 9(1): 46. Crossref |
||||
| MAPM "Ministère de l'Agriculture et de la Pêche Maritime", 2014. L'agriculture marocaine en chiffres. | ||||
| MAPMDREF "Ministère de l'agriculture, de la pêche maritime du Développement Rural et des Eaux et Forêts", 2016. L'agriculture en chiffres. | ||||
|
Mongensen VO, Jensen HE, Abduerab MD (1985). Grain yield, yield components, drought sensitivity and water use efficiency of spring wheat subjected to water stress at various growth stages Irrigation Science 6(2):131-140 Crossref |
||||
|
Monneveux, P., & Belhassen, E. (1996). The diversity of drought adaptation in the wide. In Drought Tolerance in Higher Plants: Genetical, Physiological and Molecular Biological Analysis (pp. 7-14). Springer, Dordrecht. Crossref |
||||
|
Monneveux P, Reynolds MP, Gonzalez-Santoyo H, Pena RJ, Mayr L, Zapata F (2004). Relationships between grain yield, flag leaf morphology, carbon isotope discrimination and ash content in irrigated wheat. Journal of Agronomy and Crop Science 190(6):395-401. Crossref |
||||
|
Moon J, Hake S (2011). How a leaf gets its shape. Current opinion in plant biology 14(1):24-30 Crossref |
||||
| Moore R, Clarke WD (1998). Botany. 2nd edition. WCB/McGraw Hill, Dubuque, IA, USA. | ||||
| Moulia B (1994). The biomechanics of leaf rolling. Biomimetics, 267-281. | ||||
| Nachit MM, Picard E, Monneveux P, Labhilili M, Baum M, Rivoal R (1998). Présentation d'un programme international d'amélioration du blé dur pour le bassin méditerranéen. Cahiers Agricultures 7(6):510-515 | ||||
| Nsarellah N, Amamou A, Taghouti M, Annicchiarico P (2011). Adaptation of Moroccan durum wheat varieties from different breeding eras. Journal of Plant Breeding and Crop Science 3(2):34-40 | ||||
| Ortiz Ferrara G, Mulitze D, Yau SK (1991). Bread wheat breeding for tolerance to thermal stresses occuring in West Asia and North Africa. In Improvement and Management of Winter Cereals under Temperature, Drought and Salinity Stresses, Acevedo, A., Fereres, E., Gimenez, C. and Srivastava, J.P. (eds). INIA, Madrid, pp. 267-282. | ||||
|
O'Toole JC, Cruz RT (1979). Leaf rolling and transpiration. Plant Sci. Lett. 16(1):111-114. Crossref |
||||
|
O'Toole JC, Cruz RT (1980). Response of leaf water potential, stomatal resistance, and leaf rolling to water stress. Plant Physiol, pp. 428-432. Crossref |
||||
|
Passioura JB (1996). Drought and drought tolerance. Plant Growth Regul, pp. 79-83. Crossref |
||||
|
Peleg Z, Fahima T, Krugman T, Abbo S, Yakir D, Korol AB, Saranga Y (2009). Genomic dissection of drought resistance in durum wheat x wild emmer wheat recombinant inbreed line population. Plant Cell and Environment 32(7):758-779. Crossref |
||||
|
Price AH, Young EM, Tomos AD (1997). Quantitative trait loci associated with stomatal conductance, leaf rolling and heading date mapped in upland rice (Oryza sativa). The New Phytologist 137(1): 83-91. Crossref |
||||
|
Riboldi LB, Oliveira RF, Angelocci LR (2016). Leaf turgor pressure in maize plants under water stress. Australian Journal of Crop Science 10(6):878 Crossref |
||||
|
Richards RA., Rebetzke GJ, Condon AG, van Herwaarden AF (2002). Breeding opportunities for increasing the efficiency of water use and crop yield in temperate cereals. Crop science 42(1):111-121 Crossref |
||||
|
Richard OC, Barnett T, Dwyer S, Chadwick K (2004). Cultural diversity in management, firm performance, and the moderating role of entrepreneurial orientation dimensions. Academy of management journal, 47(2):255-266. Crossref |
||||
|
Ricroch AE, Bergé JB, Kuntz M (2011). Evaluation of genetically engineered crops using transcriptomic, proteomic, and metabolomic profiling techniques. Plant physiology 155(4):1752-1761. Crossref |
||||
|
Royo C, Maccaferri M, Álvaro F, Moragues M, Sanguineti MC, Tuberosa R, Maalouf F, García del Moral LF, Demontis A, Rhouma S, Nachit M, Nserallah N, Villegas D (2010). Understanding the relationships between genetic and phenotypic structures of a collection of elite durum wheat accessions. Field Crops Research 119(1):91-105. Crossref |
||||
|
Royo C, Nazco R, Villegas D (2014). The climate of the zone of origin of Mediterranean durum wheat (Triticum durum Desf.) landraces affects their agronomic performance. Genetic Resources and Crop Evolution 61(7):1345-1358. Crossref |
||||
|
Singh BN, Mackill DJ (2008). Genetics of leaf rolling under drought stress. In Rice Genetics II. pp. 159-166. Crossref |
||||
| Taghouti M, Gaboun F, Nsarellah N, Rhrib R, El-Haila M, Kamar M, Abbad-Andaloussi F, Udupa SM (2010). Genotype x Environment interaction for quality traits in durum wheat cultivars adapted to different environments. African Journal of Biotechnology 9(21):3054-3062. | ||||
|
Tardieu F (2003). Virtual plants: modelling as a tool for the genomics of tolerance to water deficit. Trends Plant Sci. pp. 9-14. Crossref |
||||
|
Tardieu F (2005). Plant tolerance to water deficit: physical limits and possibilities for progress. Comptes Rendus Geoscience. pp. 57-67. Crossref |
||||
|
Tardieu F (2012). Any trait or trait-related allele can confer drought tolerance: just design the right drought scenario. J. Exp. Bot. pp. 25-31. Crossref |
||||
|
Tardieu F, Tuberosa R (2010). Dissection and modelling of abiotic stress tolerance in plants. Curr. Opin. Plant Biol. pp. 206-212. Crossref |
||||
| Taghouti M, Nsarellah N, Rhrib K, Benbrahim N, Amallah L, Rochdi A (2017). Evolution from durum wheat landraces to recent improved varieties in Morocco in terms of productivity increase to the detriment of grain quality. Revue Marocaine des Sciences Agronomiques et Vétérinaires 5(4): 351-358. | ||||
| Turner NC (1982). The role of shoot characteristics in drought resistance of crop plants. In Drought resistance in crops with emphasis on rice, pp115-134. | ||||
|
Wang YH, Li JY ( 2005). The plant architecture of rice (Oryza sativa). Plant molecular biology 59(1):75-84 Crossref |
||||
| Watts DG, El-Mourid M (1988). Rainfall patterns and probabilities in the semi-arid cereal production region of Morocco. USA I. D. project No. pp. 608-0136. | ||||
| Willmer CM (1983). In Stomata, Longman, London, p. 17. | ||||
|
Xiang JJ, Zhang GH, Qian Q, Xue HW (2012). SEMI-ROLLED LEAF1 encodes a putative glycosylphosphatidylinositol-anchored protein and modulates rice leaf rolling by regulating the formation of bulliform cells. Plant Physiol. pp. 1488-1500. Crossref |
||||
| Yokota A, Takahara K, Akashi K (2006). Physiology and Molecular Biology of Stress Tolerance in Plants. Springer. pp. 15-39. | ||||
| Yuan LP (1997). Super-high yield hybrid rice breeding. Hybrid Rice. pp. 1-6. | ||||
| Zarkti H, Ouabbou H, Udupa SM, Gaboun F, Hilali A (2012). Agro-morphological variability in durum wheat landraces of Morocco. Australian Journal of Crop Science 6(7):1172-1178. | ||||
|
Zhang GH, Xu Q, Zhu XD, Qian Q, Xue HW (2009). SHALLOT-LIKE1 is a KANADI transcription factor that modulates rice leaf rolling by regulating leaf abaxial cell development. Plant Cell .pp. 719-735. Crossref |
||||
|
Zhang Q, Zheng T, Hoang L, Wang C, Nafisah Joseph C, Zhang W, Xu J, Li Z (2016). Joint mapping and allele mining of the rolled leaf Zou LP, Sun XH, Zhang ZG, Liu P, Wu JX, Tian CJ, Qiu JL, Lu TG (2011). Leaf rolling controlled by the homeodomain leucine zipper class IV gene Roc5 in rice. Plant Physiol. pp. 1589-1602. Crossref |
||||
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