Ethylene modulates the susceptibility of the root for nodulation in actinorhizal Discaria trinervis

Ethylene is produced by plants in response to a wide variety of environmental signals and mediates several developmental processes in higher plants. We investigated whether ethylene has a regulatory function in nodulation in the actinorhizal symbiosis between Discaria trinervis and Frankia BCU110501. Roots of axenic D. trinervis seedlings showed aberrant growth and reduced elongation rate in the presence of ethylene donors [i.e. 2‐aminocyclopropane carboxylic acid (ACC) and 2‐chloroethylphosphonic acid (CEPA)] in growth pouches. By contrast, inhibitors of ethylene synthesis (aminoethoxyvinylglycine, AVG) or perception (Ag + ) did not modify root growth. This indicates that the development of D. trinervis roots is sensitive to elevated ethylene levels in the absence of symbiotic Frankia . The drastic response to higher ethylene levels did not result in a systemic impairment of root nodule development. Nodulation occurred in seedlings inoculated with Frankia BCU110501 in the presence of ethylene donors or inhibitors. Overall, the ability of the seedlings to shut down nodule formation in the younger portions of the root (i.e. to autoregulate nodulation) was not significantly impaired by a modification of endogenous ethylene levels. In contrast, we detected subtle changes in the nodulation pattern of the taproots. As a result of exposing the roots to CEPA, less nodules developed in older portions of the taproot. In line with this observation, AVG or Ag + caused the opposite effect, i.e. a slight increase in nodulation of the mature regions of the taproot. These results suggest that ethylene is involved in modulating the susceptibility for nodulation of the basal portion of D. trinervis seedling roots.