Afuape SO, Okocha PI, Njoku D (2011). Multivariate assessment of the agromorphological variability and yield components among sweet potato (Ipomoea batatas (L.) Lam) landraces. African Journal of Plant Science 5(2):123-132.

Ahmadizadeh M, Valizadeh M, Shahbazi H, Zaefizadeh M, Habibpor M (2011). Morphological diversity and interrelationships traits in durum wheat landraces under normal irrigation and drought stress conditions. Advances in Environmental Biology 2011:1934-1941.

Ahmadizadeh M, Shahbazi H (2012). Assessment relationship between agro-morphological traits and grain yield in bread wheat genotypes under drought stress condition. African Journal of Biotechnology 11(35):8698-8704.
Crossref

Al-Naggar AMM, Abd El MAEM, El-Shal MH, Anany AH (2020). Molecular Assessment of Genetic Diversity among Egyptian Landraces of Wheat (Triticum aestivum L.) Using Microsatellite Markers. Asian Journal of Biochemistry, Genetics and Molecular Biology 3(4):46-58.
Crossref

Altuhaish AAK, Yahya S (2014). Field adaptation of some introduced wheat (Triticum aestivum L.) Genotypes in two altitudes of tropical agro-ecosystem environment of Indonesia. Hayati Journal of Biosciences 21(1):31-38.
Crossref

Anonyme (2021).

View

Bramel PJ, Hinz PN, Green DE, Shibles RM (1984). Use of principal factor analysis in the study of three stem termination types of soybean. Euphytica 33(2):387-400.
Crossref

Feng W, Cheng FM, Zhang GP (2007). Difference in grain yield and quality among tillers in rice genotypes differing in tillering capacity. Rice Science 14(2):135-140.
Crossref

Food and Agricultural Organisation of the United Nations.

View

Fufa H, Baenziger PS, Beecher BS, Dweikat I, Graybosch RA, Eskridge KM (2005). Comparison of phenotypic and molecular marker-based classifications of hard red winter wheat cultivars. Euphytica 145(1- 2):133-146.
Crossref

Gaines CS, Finney PF, Fleege LM, Andrews LC (1996). Predicting a hardness measurement using the single-kernel characterization system. Cereal chemistry (USA).

Harman HH (1976). Modern factor analysis. University of Chicago Press.

Okuyama LA, Federizzi LC, Barbosa NJF (2004). Correlation and path analysis of yield and its components and plant traits in wheat. Ciência Rural 34(6):1701-1708.
Crossref

Malik R, Sharma H, Sharma I, Kundu S, Verma A, Sheoran S, Chatrath R (2014). Genetic diversity of agro-morphological characters in Indian wheat varieties using GT biplot. Australian Journal of Crop Science 8(9):1266.

Mocauley H, Ramadjita T (2015). Cereal crops: Rice, Maize, Millet, Sorghum, Wheat. pp. 1-36.

Mohammadi SA, Prasanna BM (2003). Analysis of genetic diversity in crop plants-salient statistical tools and considerations. Crop Science 43(4):1235-1248.
Crossref

Monneveux P, Reynolds MP, González?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

Mponda OK, Morse S, Gibbon D, Arthur AE (1997). Genetic studies on seedling vigour in sesame. Annals of Applied Biology 131(1):161- 170.
Crossref

Nassir A (2002). Studies on Genotype X Environment Interactions Variability and Plant Character Correlation in Rice (Doctoral dissertation, PhD Thesis, University of agriculture, Abeokuta, Nigeria).

Negassa A, Shiferaw B, Koo J, Sonder K, Smale M, Braun HJ, Payne TS (2013). The potential for wheat production in Africa: analysis of biophysical suitability and economic profitability. 

Ngo Ngom KA (2017). Évaluation du potentiel génétique des accessions de ble (Triticum aestivum L.) en zone forestière humide a pluviométrie bimodale du Cameroun. Master. UYI.

Liu K, Xu H, Liu G, Guan P, Zhou X, Peng H, Du J (2018). QTL mapping of flag leaf-related traits in wheat (Triticum aestivum L.). Theoretical and Applied Genetics 131(4):839-849.
Crossref

Omokhafe KO, Alika JE (1999). Multivariate of agronomic data on Hevea brasiliensis. In Proceeding of SUSANIBS Meeting (pp. 168- 173).

PAM, Situation de la securite alimentaire et des marches au Cameroun: Analyse globale de la securite alimentaire et de la vulnerabiliter (CFSVA) Avril-Mai, 2011.

Peeters JP, Martinelli JA (1989). Hierarchical cluster analysis as a tool to manage variation in germplasm collections. Theoretical and Applied Genetics 78(1):42-48.
Crossref

Rachovska G, Dimova D, Bojinov B (2002). Application of cluster analysis and principal component analysis for evaluation of common winter wheat genotypes. Proceedings of the Scientific Session of Jubilee pp 68-72.

Siahbidi MMP, Aboughadareh AP, Tahmasebi GR, Seyedi A, Jasemi M (2012). Factor analysis of agro-morphological characters in durum wheat (Triticum durum Desf.) lines. International Journal of Agriculture and Crop Sciences 4(23):1758-1762.

Singh RK, Chaudhary BK (1979). Biometrical methods in quantitative genetic analysis (P 304). New Delhi: Kalyani Pub.

Špani? V, Buerstmayr H, Drezner G (2012). Assessment of genetic diversity of wheat genotypes using microsatellite markers. Periodicum Biologorum, p. 114.

Tékeu H, Ngonkeu EM, Djocgoué FP, Ellis A, Lendzemo V, Springfield L, Béna G (2017). Genetic diversity of Cameroonian bread wheat (Triticum aestivum L.) cultivars revealed by microsatellite markers. African Journal of Biotechnology 16(36):1832-1839.
Crossref

Uddin MS, Boerner A (2008). Genetic diversity in hexaploid and tetraploid wheat genotypes using microsatellite markers. Plant Tissue Culture and Biotechnology 18(1):65-73.
Crossref

Wu Li-Li, Liu Zhong-Li, Wang J-M, Zhou C-Y, Chen K-M (2011). Morphological, anatomical, and physiological characteristics involved in development of the large culm trait in rice. Australian Journal of Crop Science 5(11):1356.

Yamdjeu A (2012). Données statistiques sur importation exportation des produits de bases.