INTERACTION BETWEEN LIGHT QUALITY AND LIGHT QUANTITY IN THE PHOTOREGULATION OF ANTHOCYANIN PRODUCTION

The interaction between phylochrome photoequilibrium (φ) and photon flux in the photoregulation of anthocyanin production under prolonged irradiation was studied in seedlings of Brassica oleracea L. and Lycopersicon esculentum Mill. In cabbage, anthocyanin production increases with decreasing ö, reaching a maximum at the lowest value (φ = 0.13) used in this study; in tomato, the extent of the response is higher at intermediate values, reaching a maximum at φ = 0.46. In cabbage, the response increases with increasing photon flux at all φ values; however, the response to changes in photon flux is minimal at φ = 0.85, and, at φ = 0.13, minimal at photon fluxes higher than 5 micro-molar per square meter per second. In tomato, the response increases with increasing photon flux at φ = 0.46, 0.65, and 0.85, the response to changes in photon fluxes being minimal at φ = 0.85; at φ = 0.13 and 0.29 the response first increases (significantly at φ = 0.29 and minimally at φ = 0.13) and then decreases with increasing photon fluxes, the transition occurring at about 1 micromolar per square meter per second at φ = 0.13, and at 5 micromolar per square meter per second at φ = 0.29. The patterns of light quality-quantity interaction in the photoregulation of anthocyanin production are significantly different in cabbage and tomato and are also significantly different than those observed for other photomorphogenic responses to prolonged irradiations.