Adams W (1967). Basis of yield components compensation in crop plants with special reference to the field bean, Phaseolus vulgaris. Crop Science 7(5):505-510 
Crossref

Amanullah, Khan AA, Nawab K, Sohail Q (2006). Performance of promising common bean (Phaseolus vulgaris L.) germplasm at Kala-Swat. Pakistan Journal of Biological Sciences 9(14):2642-2646 
Crossref

Anunda HN, Nyaboga EN, Amugune NO (2019). Evaluation of genetic variability, heritability, genetic advance and correlation for agronomic and yield components in common bean landraces from southwestern Kenya. Journal of Plant Breeding and Crop Science 11(5):144-147 
Crossref

Beebe S (2012). Common bean breeding in tropics. In: Janick J. (ed) Plant breeding Reviews 36:357-426 
Crossref

Beebe S, Ramirez J, Jarvis A, Rao I, Mosquera G(2011). Genetic improvement of common beans and the challenge of climate change. In: Yadav s, Redden J, Hatfield L, Lotze-Campen, Hall E (ed) Crop Adaptation to Climate change. Wiley-Blackwell, Oxford, pp356-369 
Crossref

Beebe SE, Rao IM, Blair MW (2013). Phenotyping common beans for adaptation to drought. Frontier in Physiology 4:35. 
Crossref

Bitocchi L, Nanini E, Belluci M, Rossi A(2012). Mesoamerican origin of the common bean (Phaseolus vulgaris L.) is revealed by sequence data. Proceedings of the National Academy of Sciences USA 109(14):788-796 
Crossref

Blair M, Diaz J, Hildago R, Diaz L, Duque M (2007). Microsatellite characterization of Andean races of common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics 116(1):29-43 
Crossref

Burle M, Fonseca J, Kami J, Gepts P (2010). Microsatellite diversity and genetic structure among common bean (Phaseolus vulgaris L.) landraces in Brazil, a secondary center of diversity. Theoretical and Applied Genetics 121:801-813 
Crossref

Burton GW, De vane EH(1953). Estimating heritability in tall fescue (Festuca arundinacea) from replicated clonal material. Agrononomy Journal 45(10):478-481 
Crossref

Gepts P, Aragao F, de Barros E, Blair M (2008). Genome of Phaseolus beans, a major source of dietary protein and micronutrients in the tropics. In: Moore P, Ming R (ed) Plant Genetics and Genomics: Crops and Models Springer New York pp. 113-143. 
Crossref

Johnson HW, Robinson H, Comstock R (1955). Estimates of genetic and environmental variability in soybean. Agronomy Journal 47(7):314-318. 
Crossref

Kamfwa K, Cichy K, Kelly J (2015). Genome wide association study for agronomic traits in common bean. The Plant Genome 8:1-12.
Crossref

Lei L, Wang L, Wang S and Wu J (2020). Marker-Trait Association Analysis of Seed Traits in Accessions of Common Bean (Phaseolus vulgaris L.) in China. Frontiers in Genetics 11:698. 
Crossref

Lobo I (2008). One gene can affect multiple traits. Nature education 1(1):10

Marzooghian A, Moghaddam M, Valizadeh M, Kooshki MH (2014). Genetic diversity of common bean genotypes as revealed by seed storage proteins and some agronomic traits. Plant Breeding and Seed Science 67:125-137 
Crossref

Mbugua GW, Wachiuri SM, Karoga JI, Kimamira JK, Ndegwa AM, Waigainjo MM(2006). Farmer-participatory evaluation of dry bean varieties with multiple constraints resistance in central Kenya, KARI-CIAT report P 8.

Mendes M, Botello F, Ramalho M, Abreu A, Furtini I (2008). Genetic control of the number of days to flowering in common bean. Crop Breeding and Applied Biotechnology 8:279-282 
Crossref

Negahi A, Bihamta MR, Negahi Z, Alidoust M (2014). Evaluation of some agronomical and morphological traits in Iranian and exotic common bean (Phaseolus vulgaris L.) Agricultural Communications 2(3):22-26

Okii D, Tukamuhabwa P, Odong T, Namayanja A, Mukabaranga J, Paparu P, Gepts P (2014). Morphological diversity of tropical common bean germplasm. African Crop Science Journal 22(1):59-67

Pérez-Vega P, Pañeda A, Rodríguez-Suárez C, Campa A, Giraldez R, Ferreira JJ (2010). Mapping QTLs for morph-agronomic and seed quality traits in RILs population of common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics 120:1367-1380. 
Crossref

Rau D, Nanni l, Attene G, Bellucci E (2010). Beans in Europe: origin and structure of the European landraces of Phaseolus vulgaris L. Theoretical and Applied Genetics 121:829-843. 
Crossref

Singh RK, Chaudhary BD (1985). Biometrical Methods in Quantitative Genetic Analysis. Kalyani Publishers, New Delhi, India pp. 78-101

Van Schoonhoven A, Pastor-Corrales MA (1987). Standard system for the evaluation of bean germplasm. International Center for Tropical Agriculture (CIAT)-Cali, Colombia, p. 54

Vandemark GJ, Brick MA, Orsono JM, Kelly JD, Urrea CA (2014). Edible Grain Legumes. In: Smith S, Diers B, Specht J, Carver B (ed) Yield Gains in Major U.S. Field Crops. Madison pp 87-124. 
Crossref

Wortmann C, Kirkby R, Eledu, C, Allen D (1998). Atlas of common bean (Phaseolus vulgaris L.) production in Africa. International Center for Tropical Agriculture (CIAT)-Pan-Africa Bean Research Alliance Cali, Colombia. publications (297):129.

Yohannes S, Loha G, Gessese MK (2020). Performance Evaluation of Common Bean (Phaseolus vulgaris L.) Genotypes for Yield and Related Traits at Areka, Southern Ethiopia. Advances in Agriculture 2020:1497530. 
Crossref