| The importance of the anthesis-silking interval in breeding for drought tolerance in tropical maize J Bolaños, GO Edmeades Field Crops Research 48 (1), 65-80, 1996 | 837 | 1996 |
| Crop yields and global food security RA Fischer, D Byerlee, G Edmeades ACIAR: Canberra, ACT, 8-11, 2014 | 746 | 2014 |
| Molecular and physiological approaches to maize improvement for drought tolerance WB Bruce, GO Edmeades, TC Barker Journal of experimental botany 53 (366), 13-25, 2002 | 714 | 2002 |
| Improving drought tolerance in maize: a view from industry H Campos, M Cooper, JE Habben, GO Edmeades, JR Schussler Field crops research 90 (1), 19-34, 2004 | 684 | 2004 |
| Breeding and cereal yield progress RA Fischer, GO Edmeades Crop science 50, S-85-S-98, 2010 | 675 | 2010 |
| Breeding for drought and nitrogen stress tolerance in maize: From theory to practice M Bänzinger Cimmyt, 2000 | 675 | 2000 |
| Identification of quantitative trait loci under drought conditions in tropical maize. 2. Yield components and marker-assisted selection strategies JM Ribaut, C Jiang, D Gonzalez-de-Leon, GO Edmeades, DA Hoisington Theoretical and Applied Genetics 94 (6-7), 887-896, 1997 | 482 | 1997 |
| Eight cycles of selection for drought tolerance in lowland tropical maize. I. Responses in grain yield, biomass, and radiation utilization J Bolaños, GO Edmeades Field Crops Research 31 (3-4), 233-252, 1993 | 441 | 1993 |
| Genetic analysis of inbred and hybrid grain yield under stress and nonstress environments in tropical maize FJ Betran, D Beck, M Bänziger, GO Edmeades Crop Science 43 (3), 807-817, 2003 | 419 | 2003 |
| Selection improves drought tolerance in tropical maize populations: I. Gains in biomass, grain yield, and harvest index GO Edmeades, J Bolaños, SC Chapman, HR Lafitte, M Bänziger Crop science 39 (5), 1306-1315, 1999 | 401 | 1999 |
| Eight cycles of selection for drought tolerance in lowland tropical maize. II. Responses in reproductive behavior J Bolaños, GO Edmeades Field Crops Research 31 (3-4), 253-268, 1993 | 383 | 1993 |
| Causes for silk delay in a lowland tropical maize population GO Edmeades, J Bolaños, M Hernandez, S Bello Crop Science 33 (5), 1029-1035, 1993 | 356 | 1993 |
| Selection for drought tolerance increases maize yields across a range of nitrogen levels M Bänziger, GO Edmeades, HR Lafitte Crop science 39 (4), 1035-1040, 1999 | 340 | 1999 |
| Can technology deliver on the yield challenge to 2050? RA Fischer, DR Byerlee, GO Edmeades | 321 | 2009 |
| Drought tolerance improvement in tropical maize source populations: evidence of progress P Monneveux, C Sanchez, D Beck, GO Edmeades Crop science 46 (1), 180-191, 2006 | 279 | 2006 |
| Eight cycles of selection for drought tolerance in lowland tropical maize. III. Responses in drought-adaptive physiological and morphological traits J Bolaños, GO Edmeades, L Martinez Field Crops Research 31 (3-4), 269-286, 1993 | 275 | 1993 |
| Selection improves drought tolerance in tropical maize populations: II. Direct and correlated responses among secondary traits SC Chapman, GO Edmeades Crop Science 39 (5), 1315-1324, 1999 | 271 | 1999 |
| The role and regulation of the anthesis‐silking interval in maize GO Edmeades, J Bolanos, A Elings, JM Ribaut, M Bänziger, ME Westgate Physiology and modeling kernel set in maize 29, 43-73, 2000 | 241 | 2000 |
| Improvement for tolerance to low soil nitrogen in tropical maize I. Selection criteria HR Lafitte, GO Edmeades Field Crops Research 39 (1), 1-14, 1994 | 229 | 1994 |
| Physiological mechanisms contributing to the increased N stress tolerance of tropical maize selected for drought tolerance M Bänziger, GO Edmeades, HR Lafitte Field Crops Research 75 (2-3), 223-233, 2002 | 206 | 2002 |
