APA

Vivek B. S., Krishna G. K., Vengadessan V., Babu R., Zaidi P. H., Kha L. Q., Mandal S. S., Grudloyma P., Takalkar S., Krothapalli K., Singh I. S., Ocampo E. T. M., Xingming F., Burgueño J., Azrai M., Singh R. P. & Crossa J. (20181002). Use of Genomic Estimated Breeding Values Results in Rapid Genetic Gains for Drought Tolerance in Maize. : The plant genome.

Chicago

Vivek B S, Krishna Girish Kumar, Vengadessan V, Babu R, Zaidi P H, Kha Le Quy, Mandal S S, Grudloyma P, Takalkar S, Krothapalli K, Singh I S, Ocampo Eureka Teresa M, Xingming F, Burgueño J, Azrai M, Singh R P and Crossa J. 20181002. Use of Genomic Estimated Breeding Values Results in Rapid Genetic Gains for Drought Tolerance in Maize. : The plant genome.

Harvard

Vivek B. S., Krishna G. K., Vengadessan V., Babu R., Zaidi P. H., Kha L. Q., Mandal S. S., Grudloyma P., Takalkar S., Krothapalli K., Singh I. S., Ocampo E. T. M., Xingming F., Burgueño J., Azrai M., Singh R. P. and Crossa J. (20181002). Use of Genomic Estimated Breeding Values Results in Rapid Genetic Gains for Drought Tolerance in Maize. : The plant genome.

MLA

Vivek B S, Krishna Girish Kumar, Vengadessan V, Babu R, Zaidi P H, Kha Le Quy, Mandal S S, Grudloyma P, Takalkar S, Krothapalli K, Singh I S, Ocampo Eureka Teresa M, Xingming F, Burgueño J, Azrai M, Singh R P and Crossa J. Use of Genomic Estimated Breeding Values Results in Rapid Genetic Gains for Drought Tolerance in Maize. : The plant genome. 20181002.