FEEDBACK-REGULATION OF NODULE FORMATION IN HIPPOPHAE-RHAMNOIDES

Seedlings of Hippophae rhamnoides possessing two equally infectible root systems ('split roots') were used in conjunction with specific Frankia strains to investigate plant control over nodulation. When a wild-type Frankia strain was inoculated onto both root systems simultaneously or 1, 2, 4, or 8 weeks apart, an inhibitory response occurred which retarded nodulation on the root exposed to the delayed inoculum. Similar suppressive responses were also observed when two different wild-type Frankia inocula were applied onto opposite sides of a split-root system at different times. The depressed response shown by the delayed inoculum was more pronounced as the delay period was increased. The roots exposed to the delayed inoculum displayed a complete lack of nodulation when the delay was 4 or 8 weeks. The nodulation response on the root inoculated first depended on subsequent inoculation of the second root system of the plant, so that maximum nodulation of the first root was observed when the second root was unnodulated. These results provide evidence that sea buckthorn has an active, systemic mechanism for feedback control of nodulation that suppresses further nodule formation and prevents excessive nodulation. The significance of these results to the understanding of nodule ontogeny is discussed.