Control of in vitro rooting and plant development in Corymbia maculata by silver nitrate, silver thiosulfate and thiosulfate ion

Plant regeneration and transformation in vitro is often improved by adding silver ion (Ag⁺) to the culture media as AgNO₃ or silver thiosulfate (STS). Ag⁺ reacts with substances to form insoluble precipitates, while thiosulfate (S₂O₃ ²⁻) interferes with these reactions. We studied the implications of silver precipitation and S₂O₃ ²⁻ in the medium for culture development by (1) examining formation of Ag⁺ precipitates from AgNO₃ versus STS in agar gels and their possible dependence on agar type; (2) comparing Corymbia maculata culture responses to AgNO₃ and STS and determining which better suits control of culture development; (3) clarifying whether STS-dependent alterations in culture development are due to Ag⁺ alone or also to a separate influence of S₂O₃ ²⁻. Silver precipitates appeared in aqueous gels of four agar brands supplemented with AgNO₃, but not in Phytagel^™, which remained transparent. No precipitation was observed in gels with STS. Indole-3-butyric acid (IBA)-mediated adventitious root induction and shoot growth were higher in C. maculata shoot tips cultured on gels with STS versus AgNO₃ (6–25 μM Ag⁺). IBA-treated shoot tips exhibited enhanced adventitious root regeneration, accelerated root elongation, increased frequency of lateral root formation, and stimulated shoot growth mediated by 100–250 μM sodium thiosulfate (Na₂S₂O₃) in medium without Ag⁺. The potency of S₂O₃ ²⁻ in facilitating culture development has never been recognized. It is inferred that superiority of STS in stimulating multiple responses of C. maculata culture results from sustained biological activity of Ag⁺ through prevention of its precipitation, and from impact of S₂O₃ ²⁻ on cell differentiation and growth.