RHIZOBIAL-INDUCED INCREASE IN INTERNODE LENGTH AND IDENTIFICATION OF ENDOGENOUS GAS OF COWPEA (VIGNA-UNGUICULATA [L] WALP) STEMS AND NODULES

Inoculation with Bradyrhizobium sp. strain 127E14 has been shown to cause a dramatic increase in the internode length of lima bean (Phaseolus lunatus L.), when compared to control plants inoculated with strain 127E15. This rhizobial-induced growth also occurs in cowpea (Vigna unguiculata [L.] Walp), an alternate host for the symbiont. Cowpea plants inoculated with strain 127E14 were 23% taller than those inoculated with strain 127EI4 after 6 weeks of growth. Petiole length was found to be significantly greater in plants inoculated with strain 127E14. Cowpea plants treated at the apex with exogenous GA3 or GA4/7 responded by increasing internode length when compared to controls. As in lima beans, the rhizobial-induced growth response observed in cowpeas may be in response to an imbalance in the levels of GA-like substances within the plants. Gibberellins A1, A3, A8, A19, A20, A29, and A44 have been identified by GC-MS analysis in stems of cowpea, whereas the gibberellins A1, A19, A20, A29, and A44 were found to be present in nodule tissue formed by strain 127E14. The presence of these GAs indicates that the early 13-hydroxylation biosynthetic pathway is operative in cowpea. GAs identified in cowpea nodules are similar to those found in lima bean nodules formed by the same rhizobia. The finding that rhizobial strain 127E14 induces GA-dependent growth responses in two host legumes further supports the hypothesis that the presence of this bacteria alters the GA balance within the plant.