| bradyrhizobium tropiciagri sp. nov. and bradyrhizobium embrapense sp. nov., nitrogen-fixing symbionts of tropical forage legumes. | biological nitrogen fixation is a key process for agricultural production and environmental sustainability, but there are comparatively few studies of symbionts of tropical pasture legumes, as well as few described species of the genus bradyrhizobium, although it is the predominant rhizobial genus in the tropics. a detailed polyphasic study was conducted with two strains of the genus bradyrhizobium used in commercial inoculants for tropical pastures in brazil, cnpso 1112t, isolated from perennia ... | 2015 | 26362866 |
| genome sequence of bradyrhizobium embrapense strain cnpso 2833(t), isolated from a root nodule of desmodium heterocarpon. | bradyrhizobium embrapense cnpso 2833(t) is a nitrogen-fixing symbiont of the legume pasture desmodium. its draft genome contains 8,267,832bp and 7876 cdss. the symbiotic island includes nodulation and nitrogen fixation genes resembling the operon organization of b. japonicum. several cdss related to secretion proteins and stress tolerance were also identified. | 2017 | 27818093 |
| interactions between six warm-season legumes and three species of root-knot nematodes. | | 1985 | 19294109 |
| responses of yearling steers to different stocking rates on a subtropical grass-legume pasture. | despite potential benefits, limitations of individual tropical legumes have restricted development of sustainable grass-legume pastures in tropical and subtropical regions. sowing mixtures of complementary legumes may overcome limitations of individual species. responses of yearling steers grazing a mixture of three tropical legumes with bahiagrass (paspalum notatum flugge) were evaluated at three stocking rates under continuous grazing. carpon desmodium (desmodium heterocarpon [l.] dc.), which ... | 1991 | 1894572 |