Growth analysis, photosynthate partition and nodulation in bean and soybean

Photoassimilate partition and allocation among plant organs varies throughout their development and is also influenced by factors inherent to the genotype and the environment. Nodulation in the soybean-diazotrophic bacteria interaction is more effective than in the bean-diazotrophic bacteria interaction. This investigation studied growth and photoassimilate partitioning throughout the bean and soybean cycles and inferred how much it could affect the nodulation of the roots. For this purpose. an experiment with two treatments was carried out, soybean (cultivar BRS GO - 7760 - RR) and bean (cultivar BRS Estilo), with four replications. conducted in pots and entirely randomized. The seeds were inoculated with commercial rhizobia specific for bean and soybean LeguMax (R) (Novozymes-Titrfal). Plants were analyzed throughout their cycles based on leaf area and dry mass of all organs. including nodules. Mathematical models were fitted to the data and based on them. the instantaneous physiological indicators of growth were estimated. and the percentages of photoassirnilate partition among organs were evaluated. Crop growth rate, relative growth rates. net assimilation rate as well as net photosynthesis rate had higher values in soybean compared to bean. following the pattern of leaf area and total dry mass. For both species, the highest rates occurred at the beginning of the cycle, decreasing with age. Unlike the bean, soybean has a high capacity to supply photosynthates to all of its organs throughout its entire cycle. favoring the maintenance of nodule growth and explaining its greater capacity for nitrogen assimilation.