**10. References**

Adewale, B.D.,Kehinde, O.B., Aremu, C. O. Popoola, and Dumet, J. 2010. Seed metrics for genetic and shape determinations in African yam bean [Fabaceae] (*Sphenostylis stenocarpa)* African Journal of Plant Science Vol. 4(4): 107-115


Ajmone-Marsan P., Carstiglioni, P., Fusari, F., Kuiper, M. and Motto, M. 1998. Genetic

Akbar, A.A. and Kamran, M. (2006). Relationship among yield components and selection

Akoroda, M.O. 1987. Principal component analysised metroglyph of variation among

Aremu C.O. 2005. Diversity selection and genotypes Environment interaction in cowpea unpublished Ph.D Thesis. University of Agriculture, Abeokuta, Nigeria. P. 210. Aremu, C.O., Adebayo M.A., and Adeniji O.T. 2008: Seasonal performance of cowpea in humid tropics using GGE biplot analysis world jour. of Biol.. Research. 1: (1) 8-13. Aremu, C.O., Adebayo, M.A., Ariyo O.J., and Adewale B.D. 2007b. Classification of genetic

Aremu, C.O., Adebayo, M.A., Oyegunle, M. and Ariyo, J.O.2007a. TRhe relative

Ariyo, O.J. and Odulaja, A. 1991. Numerical analysis of variation among accessions of Okra.

Barrett, B.A. and Kidwell, K.K. 1998. AFLP-based genetic diversity assessment among wheat

Baudoin, J. and Mergeai G. 2001. Yam bean sphenostylis stendcarpa. In: R.H. Raemaekers

Bearmont, M.A., Ibrahim, K.M., Boursot, P. and Bruqord, M.W. 1998. Measuring genetic

Bohn, M.,H.F. Hutz and A.E.Melchinegr. 1999. Genetic similarities among winter wheat

Brown, A.H.D. 1989. The case for core collection. P. 135-156. In A.H.D England Brown et al. (ed). The use of plant genetic resources. Cambridge Univ. press Cambridge. Brown-Guedira, G.L; Thompson J. Ajnelson, R.L. and Warburton M.L. 2000. Evaluation of

Bueninger, L.T. and Busch, Ritt. 1997. Genetic diversity among North American spring

Chippindale, P.T. and Weins J.I. 1994. Weighting portioning and combining characters in

Christine, Joshua, H., William, A., Stacy, A. 2009. Genetic diversity of creeping bentgrass cultivars using SSR markers. Intern. Turfgrass Soc. Research Jour. 11. Dje, Y, Hevretz, M., Letebure, C. and Vekemans, X. 2000. Assessment of genetic diversity

soybean (Glycine max). Agricultural journ. 2 (2).: 210-215

cultivars from the pacific Northwest crop Sci. 38:1261-1271.

predicting progeny variance. Crop Sci. 39; 228-237.

RAPD and SSR markers crop Sci. 40:815-823.

phylogenetic analyses. Syst. Biol. 43:273-287.

microsatellite marked theor. Appl. Gent. 100:918-925.

and AFLP markers. Theor. Appl. Genet. 96:219-227.

Nigerian yellow yam. Euphytica 32:565-573.

2853-2855.

2339.

Ann. Bot. 67:527-531.

Brussels, Belgium. Pp. 372 – 377.

Chapman and Hall, London.

diversity and its relationship to hybrid performance in maize as revealed by RFLP

criteria for yield improvement of Safflower – *Carthamustinctorious* L. J. Appl. Sci. 6:

diversity and choice of parents for hydridization in cowpea vigna unguiculata (L) walip for humid savanna ecology. African journal of biotechnology 6: (20) 2333-

discriminatory abilities measuring Genotype by environment interaction in

(ed) crop production in tropical Africa Directorate general for international (DGIC)

distance. P. 315-325. In A. karp et al. (ed) molecular tools for screening biodiversity.

cultivars determined on the basis of RFLPs, AFLPs ans SSRs and their used ion

genetic diversity of soybean introduction and North American ancestors using

wheat cultivars. Analysis of the coefficient of parentage matrix. Crop Sc. 37:570-579.

within and among germplasm accessions in cultivated sorghum using

