The effect of illumination of the malic acid content and anion/cation balance of mustard leaves (Sinapis alba).

1. Mustard plants have been grown under conditions in which the length of artificial day could be controlled. 2. Leaf samples were analysed for malic acid and citric acid, and for a number of inorganic anions and cations. A simple method is described by which sap was obtained from 0.5g. samples of leaves. 3. In days of 16hr. or more, malic acid was accumulated; the chief cation accumulated was calcium. 4. When the day-length was reduced the malic acid content decreased considerably but the calcium content remained the same. There was little change in the pH value of the sap, the balance of anions and cations having been maintained mainly by increases in citrate and nitrate contents. Analyses of the whole leaf still showed some deficiency in anion after sodium, potassium, calcium, magnesium, nitrate, sulphate, inorganic phosphate, chloride, malate and citrate had been accounted for. 5. Analyses at shorter intervals revealed a large diurnal variation in malic acid content, which increased during the first 5-6hr. of the light period, and fell during darkness. 6. The significance of these findings is discussed, and it is suggested that malic acid accumulation is a by-product of photosynthesis, calcium being taken up irreversibly to maintain anion/cation balance, and hence creating a continuing need for anions to balance it.