Tolerance of Bradyrhizobium japonicum E109 to osmotic stress and the stability of liquid inoculants depend on growth phase

SORIA, MARCELO ABEL; PAGLIERO, FABIOLA E; CORREA, OLGA SUSANA; KERBER, NORMA LUCIA; GARCIA, AUGUSTO FERNANDO

WORLD JOURNAL OF MICROBIOLOGY & BIOTECHNOLOGY

Springer

Lugar: The Netherlands; Año: 2006 vol. 22 p. 1235 - 1241

0959-3993

Salinity and drought induce osmotic stress in plants and nodulating bacteria. The introduction of soybean in areas with higher soil salt contents or periods of drought pose a challenge for the rhizobial inoculants used to improve nodulation and enhance nitrogen fixation. Bradyrhizobium japonicum is a slow growing rhizobium used for soybean inoculation that was previously regarded as salt-sensitive. We tested the survival ability of cultures of B. japonicum E109 at the exponential and stationary phases of growth in liquid culture medium against different concentrations of NaCl. We found that stationary-phase cells could tolerate higher levels of salt than exponential-phase cells. This result suggested that the physiological manipulation of the cultures could improve the salt tolerance of this strain. Nonetheless, we also found that exponential phase cells adapted significantly better to two key situations that a commercial product must face, survival in liquid formulations and survival in soil microcosms resembling conditions of drought. These results suggest that the use of actively growing cells could be an improvement in the production of inoculants. However, it is not cost-effective, because bacteria should be harvested at a time when cell density is lower than that of early stationary-phase cultures, which are normally used in the industry. To overcome this drawback we proved that a fed-batch system can produce exponential phase cultures with higher cell densities and able to produce liquid inoculants with acceptable survival rates.