In turnip seedlings, anthocyanin synthesis can be induced with light as soon as water uptake enables the seed coat to be removed. In very young seedlings the main site of production is in the cotyledons but this moves to the hypocotyl when the period of dark growth, before transfer to the light, is increased. The total amount of anthocyanin formed decreases as the seedlings become older. It is suggested that a substance stored in the cotyledons is needed for anthocyanin synthesis and that this substance disappears during growth in the dark. It cannot be replaced by known anthocyanin precursors such as phenylalanine, acetate, shikimic acid and sugars. Anthocyanin synthesis in the hypocotyl is almost completely prevented when the cotyledons are excised, or covered: no anthocyanin is formed in the hypocotyl when the cotyledons alone are irradiated. Cotyledons that have been excised from the hypocotyl synthesize about as much anthocyanin as is formed in the whole intact seedling, but covering the hypocotyl does not increase the amount formed in the cotyledons. These results suggest that pigment synthesis begins in the cotyledons, where a light reaction is needed for the formation of a precursor; the precursor is translocated to the hypocotyl where a second photochemical reaction is required for anthocyanin synthesis. If translocation to the hypocotyl is prevented, anthocyanin is formed in the cotyledons. The nature of the transported precursor is not yet known.