Effect of irradiance on shoot development in vitro

Abstract

The growth of Disanthus cercidifolius and Rhododendron cultivars, and to a lesser extent Crataegus oxyacantha cv. Paul's Scarlet, was modified by altering either the spectral quality or the level of irradiance received by shoot cultures; which were otherwise maintained under uniform medium and plant growth regulator (PGR) conditions in vitro. When the spectrum of Philips colour 84 (white) fluorescent lamps was modified by coloured cellulose acetate filters, red light promoted shoot extension and axillary branching, whereas blue light inhibited shoot growth and reduced leaf chlorophyll content in the sensitive cultivar R. cv. Dopey. By using single or multiple layers of neutral density filters, or moving cultures nearer to the light source, irradiance from white light was varied. All cultures grew well at low levels of irradiance (c. 11 µmol m−2 s−1), but the growth and leaf chlorophyll content of cultures of Disanthus and Rhododendron cultivars were suppressed by increasing irradiance. In three related Rhododendron cultivars, increased irradiance promoted the development of adventitious shoots. Crataegus shoots were tolerant of a wide range of irradiances and only shoot extension was inhibited at the highest level tested; leaf chlorophyll content was unaffected. These results are discussed in terms of the differential perception of light relative to the natural habitats of these plants, and of the possible direct effect of irradiance upon PGRs in the culture system.