Root exudates as mediators of mineral acquisition in low-nutrient environments FD Dakora, DA Phillips Food security in nutrient-stressed environments: exploiting plants’ genetic …, 2002 | 1936 | 2002 |
The contributions of nitrogen-fixing crop legumes to the productivity of agricultural systems MB Peoples, J Brockwell, DF Herridge, IJ Rochester, BJR Alves, ... Symbiosis 48, 1-17, 2009 | 955 | 2009 |
Diverse functions of isoflavonoids in legumes transcend anti-microbial definitions of phytoalexins FD Dakora, DA Phillips Physiological and Molecular Plant Pathology 49 (1), 1-20, 1996 | 376 | 1996 |
Contribution of legume nitrogen fixation to sustainable agriculture in Sub-Saharan Africa FD Dakora, SO Keya Soil Biology and Biochemistry 29 (5-6), 809-817, 1997 | 358 | 1997 |
Potential use of rhizobial bacteria as promoters of plant growth for increased yield in landraces of African cereal crops VN Matiru, FD Dakora African Journal of Biotechnology 3 (1), 1-7, 2004 | 296 | 2004 |
Defining new roles for plant and rhizobial molecules in sole and mixed plant cultures involving symbiotic legumes FD Dakora New Phytologist 158 (1), 39-49, 2003 | 270 | 2003 |
Yield and economic benefits of common bean (Phaseolus vulgaris) and soybean (Glycine max) inoculation in northern Tanzania PA Ndakidemi, FD Dakora, EM Nkonya, D Ringo, H Mansoor Australian Journal of Experimental Agriculture 46 (4), 571-577, 2006 | 208 | 2006 |
Alfalfa (Medicago sativa L.) root exudates contain isoflavonoids in the presence of Rhizobium meliloti FD Dakora, CM Joseph, DA Phillips Plant Physiology 101 (3), 819-824, 1993 | 196 | 1993 |
Legume seed flavonoids and nitrogenous metabolites as signals and protectants in early seedling development PA Ndakidemi, FD Dakora Functional Plant Biology 30 (7), 729-745, 2003 | 193 | 2003 |
Plant flavonoids: biological molecules for useful exploitation FD Dakora Functional Plant Biology 22 (1), 87-99, 1995 | 186 | 1995 |
African legumes: a vital but under-utilized resource JI Sprent, DW Odee, FD Dakora Journal of experimental botany 61 (5), 1257-1265, 2010 | 167 | 2010 |
Symbiotic functioning and bradyrhizobial biodiversity of cowpea (Vigna unguiculataL. Walp.) in Africa F Pule-Meulenberg, AK Belane, T Krasova-Wade, FD Dakora BMC microbiology 10, 1-12, 2010 | 144 | 2010 |
Assessment of N2 fixation in groundnut (Arachis hypogaea L.) and cowpea (Vigna unguiculata L. Walp) and their relative N contribution to a succeeding maize … FD Dakora, RA Aboyinga, Y Mahama, J Apaseku MIRCEN journal of applied microbiology and biotechnology 3, 389-399, 1987 | 141 | 1987 |
Plant-associated symbiotic Burkholderia species lack hallmark strategies required in mammalian pathogenesis AA Angus, CM Agapakis, S Fong, S Yerrapragada, ... PloS one 9 (1), e83779, 2014 | 135 | 2014 |
Nature and mechanisms of aluminium toxicity, tolerance and amelioration in symbiotic legumes and rhizobia SK Jaiswal, J Naamala, FD Dakora Biology and fertility of soils 54, 309-318, 2018 | 122 | 2018 |
Rhizobia as a source of plant growth-promoting molecules: potential applications and possible operational mechanisms SK Jaiswal, M Mohammed, FYI Ibny, FD Dakora Frontiers in Sustainable Food Systems 4, 619676, 2021 | 118 | 2021 |
Yield components of nodulated cowpea (Vigna unguiculata) and maize (Zea mays) plants grown with exogenous phosphorus in different cropping systems PA Ndakidemi, FD Dakora Australian Journal of Experimental Agriculture 47 (5), 583-589, 2007 | 97 | 2007 |
Grain yield of common bean (Phaseolus vulgaris L.) varieties is markedly increased by rhizobial inoculation and phosphorus application in Ethiopia TY Samago, EW Anniye, FD Dakora Symbiosis 75, 245-255, 2018 | 93 | 2018 |
Rhizosphere ecology of lumichrome and riboflavin, two bacterial signal molecules eliciting developmental changes in plants FD Dakora, VN Matiru, AS Kanu Frontiers in plant science 6, 700, 2015 | 88 | 2015 |
Synthesis, release, and transmission of alfalfa signals to rhizobial symbionts DA Phillips, FD Dakora, E Sande, CM Joseph, J Zoń Plant and Soil 161, 69-80, 1994 | 84 | 1994 |