The effect of slow-growth strategy on a production of Petunia × hybrida Vilm. microcuttings

Petunia × hybrida Vilm. is a fast-growing ornamental plant that was cultured under varying storage conditions to address seasonal fluctuations in microcutting demand. The effects of storage period (16 to 32 wk), temperature (15 to 23°C), low and high light intensity, sucrose (1 to 5% w/v ), and mannitol (0 to 4% w/v ) in factorial arrangements were analyzed. Stored and non-stored shoots were compared for microcutting production, harvested twice at 3-wk intervals, and were subsequently transferred to the greenhouse for 17 d. Nearly all plants from 16-wk storage survived well at all treatment conditions and the quality and quantity of microcuttings were enhanced from shoots stored at 15°C and 3% ( w/v ) sucrose, without mannitol for all storage periods. Another experiment tested 11- to 25-wk storage period with Petunia hybrida ‘Ragtime’ and ‘Suncatcher’ at 12°C and low light intensity. Repeated cycles of microcutting at 2-wk intervals were extended with ex vitro rooting in the greenhouse for 15 d. More and better quality microcuttings were obtained from the second and third cutting cycles than from the first or fourth cycles. By reducing temperature and light intensity, Petunia hybrida was successfully stored for 32 wk (without mannitol). A seasonal schedule with a short production window, followed by cutting large numbers of high-quality shoot-tips, could be affected and efficiently managed through storage. The value of stored shoots was enhanced by extending the number of times a shoot could be cut over repeated cutting cycles with a gain in microcutting quality.