ABSTRACT
The genus Oryza has given rise to rice (Oryza sativa L.), a major source of food for much of the human population. The Oryza genus is small, including only 23 species, but it is remarkably diverse in terms of its ecological adaptation. This diversity may not be only restricted to ecological characteristics but also to kernel end-use quality characteristics. This study was undertaken to evaluate Oryza species as a gene pool for improving the properties of rice bran for human consumption. Several accessions of 13 Oryza species were grown in a greenhouse, along with eight rice (Oryza sativa L.) accessions displaying low and high bran oil content, as well as low and high palmitic acid content. The total lipid content of the Oryza species was within the range found for Oryza sativa accessions. However, the level of palmitic acid in the O. species was as high as that reported for soybean high-palmitic acid mutants. Oryza species also contained higher levels of the γ-oryzanol and phenolic fractions compared to cultivated rice. Low or not significant phenotypic correlations between lipid, palmitic acid, and γ-oryzanol suggest that these fractions in cultivated rice could be increased simultaneously using several of the Oryza species accessions identified in this study. A cultivar with enhanced levels of these fractions would be suitable for use in the production of high γ-oryzanol margarine, shortening, and frying oils.
