A. Bibliographie, J. Schupp, B. Hennion, and N. , Les besoins en froid du fraisier décembre 1997, Infos CTIFL. N°137, pp.30-33

. Bosc-j-p and . Bardet-a,

, Fraisier Physiologie et type de plants, p.CTIFL

. Chloupek-o, P. Hrstkova, and P. Schweigert, Yield and its stability, crop diversity, adaptability and response to climate change, weather and fertilisation over 75 years in the Czech Republic in comparison to some European countries, Field Crops Research. N°85, pp.167-190, 2004.

C. Cilas and C. Montagnon, Yield stability over several years in Coffea canephora: definition of synthetic traits and longitudinal data analyses, 2009.

G. M. Darrow, The Strawberry : History, Breeding and Physiology, vol.8, 1966.

. De-souza-goncalves-p, . Luiz, M. De-moraes, T. Lima-gouvea-l, . Da-eira-aguiar-a et al., Temporal stability for Unpredictable Annual Climatic Variability for Hevea Genotype Selection, janvier-février, Brazilian Archives of Biology and Technology, vol.51, pp.11-18, 2008.

T. F. Doring, Detecting global trends of cereal yield stability by adjusting the coefficient of variation, European Journal of Agronomy, vol.99, pp.30-36, 2018.

. Duranton-eveillard-n, L. Lecherbonnier, and . Riaux-n, La fraise au stade détail en 2018 Enquête semaine 14, 2018.

M. Ferrahi and M. Jlibene, Selection of superior advanced lines of bread wheat (Triticum aestivum L.) by using some stability parameters, AL AWAMIA, vol.2, pp.91-104, 2005.

F. K. Wilkinson and G. N. , The analysis of adaptation in a plant-breeding programme, 23 janvier 1963, Australian Journal of Agriculture Research. N°, vol.14, pp.742-754

, Disponible sur, 2ahUKEwjf5qSm65TlAhWHsRQKHaj4BEsQFjAAegQIBRAC&url=https%3A%2F%2Fwww.fra nceagrimer.fr%2FBibliotheque%2FINFORMATIONS-ECONOMIQUES%2FFRUITS-ET-LEGUMES%2FCHIFFRES-ET-BILANS%2F2017%2FLes-filieres-des-fruits-et-legumes-Chiffres-cles-2016&usg=AOvVaw0LVT4-f7j6fn8hpWCcKS6O, 2018.

. Franceagrimer, Pratique et habitude de consommation de fruits et légumes Etude 1400866, 2015.

D. Furtado-ferreira, C. Garcia-borges-demetro, and . F. John-manly-b,

A. Machado and A. Vencovsky-r, Statistical models in agriculture: biometrical methods for evaluating phenotypic stability in plant breeding, In : CERNE, vol.12, pp.104-7760, 2006.

. Kumar-b, . Kumar-s, and Y. C. Yadav, Genetic variability for some metric traits in strawberry (Fragaria × ananassa Duch, HortFlora Research Spectrum, vol.1, pp.2250-2823, 2012.

. Lecherbonnier-l, La fraise de printemps en, 2018.

. S. Lin-c and M. R. Binns, A superiority measure of cultivar performance for cultivar x location data, Plant Science, vol.68, pp.193-198, 1988.

. K. Mishra-p, . B. Ram-r, and . Kumar-n, Genetic variability, heritability, and genetic advance in strawberry (Fragaria × ananassa Duch.), 30 juin, Turkish Journal of Agriculture and Forestry, vol.39, pp.451-458, 2015.

P. Raynal-lacroix-c, . Navatel-j.-c, J. Longuesserre, J. Bigey, . Guerineau-c.-;-ctifl-rosmaina et al., Estimation of variability, heritability and genetic advance among local chili pepper genotypes cultivated in peat lands, Bulgarian Journal of Agricultural Science, vol.2, pp.431-436, 2003.

. Rousseau-gueutin-m, . Gaston-a, . Ainouche-a, M. L. Ainouche, K. Olbricht et al., Tracking the evolutionary history of polyploidy in Fragaria L. (strawberry) : New insights from phylogenetic analyses of low-copy nuclear genes. Molecular, Phylogenetics and Evolution, vol.51, p.36, 2009.

. Wyss-e, . Van-bueren-e, M. Hulscher, and M. Haring, Techniques de sélection végétale Dossier FiBL. N°2, p 15

B. Sitographie,

, CIREF. Les variétés de fraises du Ciref

, Planasa lance sa nouvelle variété Savana sur le marché, vol.23, 2018.

, Disponible sur

, Fraises fraisiers remontants, Disponible sur

. Inra and . Drosophile, Disponible sur

, Disponible sur

, Agen : météo en, 2018.

, Disponible sur

A. Vi, Comparaison des températures et des précipitations entre l année de 2018 et celle de, 2018.

A. Viii, Corrélation entre les fortes températures journalières et les pics de production au cours de la saison