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References
Abdulai AL, Kouressy M, Vaksmann M, Asch F, Giese M, Holger B (2012). Latitude and Date of Sowing Influences Phenology of Photoperiodâ€Sensitive Sorghums. Journal of agronomy and crop science 198(5):340-348. |
|
Adugna W, Labuschagne MT (2002). "Genotypeâ€environment interactions and phenotypic stability analyses of linseed in Ethiopia." Plant Breeding 121.1(2002):66-71. |
|
Aitken Y (1974). Flowering Time, Climate and Genotype: The Adapttion of Agricultural Species to Climate Through Flowering Responses. Melbourne university press. |
|
Alagarswamy G, Ritchie JT (1991). Phasic Development in CERES-Sorghum Model. Hodges, T. (Ed.), Predicting Crop Phenology, CRC Press, Boca Raton pp. 143-152. |
|
Andrews DJ (1973). Effects of date of sowing on photosensitive Nigerian sorghums. Experimental Agriculture 9(4):337-346. |
|
Bonneuil C, Thomas F (2009). Gènes, pouvoirs et profits. La recherche publique dans les transformations des régimes de production des savoirs en génétique végétale de Mendel aux OGM 64-91. |
|
Campbell BM, Thornton P, Zougmoré R, van Asten P, Lipper L (2014). Sustainable intensification: What is its role in climate smart agriculture?. Current Opinion in Environmental Sustainability 8:39-43. |
|
Cetin M, Adiguzel F, Kaya O, Sahap A (2018). Mapping of bioclimatic comfort for potential planning using GIS in Aydin. Environment, Development and Sustainability 20(1):361-375. |
|
Chantereau J, Trouche G, Rami JF, Deu M, Barro C, Grivet L (2001). RFLP mapping of QTLs for photoperiod response in tropical sorghum. Euphytica 120(2):183-194. |
|
Chapman SC, Cooper M, Hammer GL (2002). Using crop simulation to generate genotype by environment interaction effects for sorghum in water-limited environments. Australian Journal of Agricultural Research 53(4):379-389 |
|
Cochemé J, Franquin P (1967). A study of the agroclimatology of the semi-arid area south of the Sahara. FAO/UNESCO/WHO Tech. Bull. 86 p. |
|
Curtis DL (1968). The relation between yield and date of heading of Nigerian sorghums. Experimental Agriculture 4(1):93-101. |
|
de Rouw A (2004). Improving yields and reducing risks in pearl millet farming in the African Sahel. Agricultural Systems 81(1):73-93. |
|
Dieng I, Goze E, Sabatier R (2006). Linéarisation autour d'un témoin pour prédire la réponse de cultures. Comptes Rendus Biologies 329(3):148-155. |
|
Etasse C (1977). Synthèse des travaux sur le sorgho. Agron Trop 32:311-318. |
|
Farshadfar E, Mahmodi N, Yaghotipoor A (2011). AMMI stability value and simultaneous estimation of yield and yield stability in bread wheat ('Triticum aestivum'L.). Australian Journal of Crop Science 5(13):1837. |
|
Finlay K, Wilkinson G (1963). The analysis of adaptation in a plant-breeding programme. Australian journal of agricultural research 14(6):742-754. |
|
Folliard A, Traore PCS, Vaksmann M, Kouressy M (2004). Modeling of sorghum response to photoperiod: a threshold–hyperbolic approach. Field crops research 89(1):59-70. |
|
Gauch HG, Zobel RW (1988). Predictive and postdictive success of statistical analyses of yield trials. Theoretical and Applied genetics 76(1):1-10. |
|
Guindo D, Davrieux F, Teme N, Vaksmann M, Doumbia M, Fliedel G, Bastianelli D, Verdeil J-L, Mestres C, Kouressy M, Courtois B, Rami JF (2016). Pericarp thickness of sorghum whole grain is accurately predicted by NIRS and can affect the prediction of other grain quality parameters. Journal of Cereal Science 69:218-227. |
|
Guitton B, Théra K, Tékété ML, Pot D, Kouressy M, Témé N, Rami JF, Vaksmann M (2018). Integrating genetic analysis and crop modeling: A major QTL can finely adjust photoperiod-sensitive sorghum flowering. Field Crops Research 221:7-18. |
|
Haussmann BIG, Fred Rattunde H, Weltzien-Rattunde E, Traoré PSC, vom Brocke K, Parzies HK (2012). Breeding strategies for adaptation of pearl millet and sorghum to climate variability and change in West Africa. Journal of Agronomy and Crop Science 198(5):327-339. |
|
Jones CA, Kiniry JR (1986). CERES-Maize: A simulation model of maize growth and development. Texas A& M University Press. |
|
Kempton RA (1984). The use of biplots in interpreting variety by environment interactions. The Journal of Agricultural Science 103(1):123-135. |
|
Kouressy M, Dingkuhn M, Vaksmann M, Heinemann AB (2008a). Adaptation to diverse semi-arid environments of sorghum genotypes having different plant type and sensitivity to photoperiod. Agricultural and Forest Meteorology 148(3):357-371. |
|
Kouressy M, Niangado O, Dembélé T, Vaksmann M, Trouche G, Reyniers FN (1998). La sélection de sorghos photopériodiques. In: Bacci L., Reyniers F.-N. (Eds.), Le futur des céréales photopériodiques pour une production durable en Afrique tropicale semi-aride. CIRAD, Florence, Italie pp. 247-262. |
|
Kouressy M, Sissoko S, Teme N, Deu M, Vaksmann M, Camara Y, Bazile D, Sako AFM, Sidibé A (2014). Impact de la diffusion d'une variété améliorée de sorgho au Mali: interaction avec les variétés locales. Agronomie, Environnement et Sociétés 4(2):115-123. |
|
Kouressy M, Traoré SB, Vaksmann M, Grum M, Maikano I, Soumaré M, Traoré PS, Bazile D, Dingkuhn M, Sidibé A (2008b). Adaptation des sorghos du Mali à la variabilité climatique. Cahiers Agricultures 17(2):95-100. |
|
Lafarge TA, Broad IJ, Hammer GL (2002). Tillering in grain sorghum over a wide range of population densities: identification of a common hierarchy for tiller emergence, leaf area development and fertility. Annals of Botany 90(1):87-98. |
|
Lambert C (1983). Influence de la précocité sur le développement du mil en conditions naturelles. I Elaboration de la touffe. II Elaboration du rendement. Agronomie tropicale 38:7-26. |
|
Le Barbé L, Lebel T (1997). Rainfall climatology of the HAPEX-Sahel region during the years 1950–1990. Journal of Hydrology 188:43-73. |
|
Leroy T, Coumaré O, Kouressy M, Trouche G, Sidibé A, Sissoko S, Touré A, Guindo T, Sogoba B, Dembélé F, Dakouo B, Vaksmann M, Coulibaly H, Bazile Didier, Dessauw D (2014). Inscription d'une variété de sorgho obtenue par sélection participative au Mali dans des projets multiacteurs. Agronomie, Environnement et Sociétés 4(2):143-152. |
|
Lodoun T, Giannini A, Traoré PS, Somé L, Sanon M, Vaksmann M, Rasolodimby JM (2013). Changes in seasonal descriptors of precipitation in Burkina Faso associated with late 20th century drought and recovery in West Africa. Environmental Development 5:96-108. |
|
Luce C (1994). Le rendement d'écotypes de sorgho des races caudatum et guinea. Agriculture et développement (2):35-38. |
|
Major DJ, Johnson DR, Tanner JW, Anderson IC (1975). Effects of Daylength and Temperature on Soybean Development 1. Crop Science 15(2):174-179. |
|
Major DJ, Rood SB, Miller FR (1990). Temperature and photoperiod effects mediated by the sorghum maturity genes. Crop Science 30(2):305-310. |
|
Morris GP, Ramu P, Deshpande SP, Hash CT, Shah T, Upadhyaya HD, Riera-Lizarazu O, Brown PJ, Acharya CB, Mitchell SE, Harriman J, Glaubitz JC, Buckler ES, Kresovich S (2013). Population genomic and genome-wide association studies of agroclimatic traits in sorghum. Proceedings of the National Academy of Sciences 110(2):453-458. |
|
Olson SN, Ritter K, Rooney W, Kemanian A, McCarl BA, Zhang Y, Hall S, Packer D, Mullet J (2012). High biomass yield energy sorghum: developing a genetic model for C4 grass bioenergy crops. Biofuels, Bioproducts and Biorefining 6(6):640-655. |
|
Purchase JL, Hatting H, van Deventer CS (2000). Genotype× environment interaction of winter wheat (Triticum aestivum L.) in South Africa: II. Stability analysis of yield performance. South African Journal of Plant and Soil 17(3):101-107. |
|
R_Development_Core_Team (2008). R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria, |
|
Ritchie JT, Alagarswamy G (1989). Genetic coefficients for CERES models. Modeling the growth and development of sorghum and pearl millet. Research Bullettin (12):27-29. |
|
Sabaghnia N, Sabaghpour SH, Dehghani H (2008). The use of an AMMI model and its parameters to analyse yield stability in multi-environment trials. The Journal of Agricultural Science 146(5):571-581. |
|
Sanon M, Hoogenboom G, Traoré SB, Sarr B, Garcia AGy, Somé L, Roncoli C (2014). Photoperiod sensitivity of local millet and sorghum varieties in West Africa. NJAS-Wageningen Journal of Life Sciences 68:29-39. |
|
Sapin P (1983). Le sorgho et son amélioration. CNEARC/IRAT. |
|
Sissoko S, Doumbia S, Vaksmann M, Hocdé H, Bazile D, Sogoba B, Kouressy M, Vom Brocke K, Coulibaly MM, Touré A, Dicko BG (2008). Prise en compte des savoirs paysans en matière de choix variétal dans un programme de sélection. Cahiers Agricultures 17(2):128-133 |
|
Sivakumar MVK (1988). Predicting rainy season potential from the onset of rains in Southern Sahelian and Sudanian climatic zones of West Africa. Agricultural and Forest Meteorology 42(4):295-305. |
|
Soumaré M, Kouressy M, Vaksmann M, Maikano I, Bazile D, Traoré PS, Traoré S, Dingkuhn M, Touré A, Vom Brocke K, Somé L, Barro Kondombo CP (2008). Prévision de l'aire de diffusion des sorghos photopériodiques en Afrique de l'Ouest. Cahiers Agricultures 17(2):160-164. |
|
Swaminathan MS (2006). An evergreen revolution. Crop Science 46(5):2293-2303. |
|
Teme N, Traoré K, Kouressy M, Sidibé S, Traoré K, Niangado O, Coulibaly S, Dembélé B, Coulibaly M, Vaksmann M, Diallo AG, Traoré K, Touré AO, NDiaye M, Touré A, Boubacar A, Diourté M (2017). Unfolding history of local guinea sorghum enhanced for food quality through potassium hydroxide and bleach test: Farmer alternative to climate variability resilience. Asian Journal of Advances in Agricultural Research 1:1-11. |
|
Thornton PK, Gerber PJ (2010). Climate change and the growth of the livestock sector in developing countries. Mitigation and adaptation strategies for global change 15(2):169-184. |
|
Traoré PCS, Kouressy M, Vaksmann M, Tabo R, Maikano I, Traoré S, Cooper P (2007). Climate prediction and agriculture: What is different about Sudano-Sahelian West Africa?. In Climate Prediction and Agriculture (pp 189-203). Springer, Berlin, Heidelberg. |
|
Traoré SB, Reyniers F-N, Vaksmann M, Koné B, Sidibé A, Yoroté A, Yattara K, Kouressy M (2001). Adaptation à la sécheresse des écotypes locaux de sorghos du Mali. Science et changements planétaires/Sécheresse 11(4):227-37. |
|
Vaksmann M, Kouressy M, Chantereau J, Bazile D, Sagnard F, Touré A, Sanogo O, Diawara G, Danté A (2008). Utilisation de la diversité génétique des sorghos locaux du Mali. Cahiers Agricultures 17:140-145. |
|
Vaksmann M, Traoré SB, Niangado O (1996). Le photopériodisme des sorghos africains. Agriculture et développement 9:13-18. |
|
van Ittersum MK, van Bussel LGJ, Wolf J, Grassini P, van Wart J, Guilpart N, Claessens L, de Groot H, Wiebe K, Mason-D'Croz D, Yang H, Boogaard H, van Oort PAJ, van Loon MP, Saito K, Adimo O, Adjei-Nsiah S, Agali A, Bala A, Chikowo R, Kaizzi K, Kouressy M, Makoi JHJR, Ouattara K, Tesfaye K, Cassman KG (2016). Can sub-Saharan Africa feed itself?. Proceedings of the National Academy of Sciences 113(52):14964-14969. |
|
Viguier P (1947). Les sorghos et leur culture au Soudan français. Grande imprimerie africaine. |
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