Mutant induction in gametophytes of Undaria pinnatifida (Phaeophyceae) by heavy ion beam irradiation

Undaria pinnatifida, the brown macroalga, is a major commercial edible seaweed, and there is increasing interest in breeding new, improved cultivars for market expansion. In this study, we attempted to establish mutagenesis in U. pinnatifida using Ar and C ion beams as mutagens to meet future demands. To screen irradiated generations for mutants, U. pinnatifida zoospores irradiated with Ar and C ion beams were cultivated in plastic Petri dishes. Some gametophytes derived from the irradiated zoospores showed growth arrest or cell death at the initial developmental stage. Although the growth inhibition and lethal effects were observed at high doses of each ion irradiation, the Ar ion irradiation had high biological effects on cell division and growth. The gametophytes that showed a reduction in cell elongation were designated as an inhibited cell elongation mutant. A comparison of the mutant induction frequencies revealed that the C ion beam showed a higher frequency than the Ar ion beam. The highest frequency was 0.83% at 12.5 Gy of the C ion beam. We determined the total number of sporophytes and embryos per female gametophyte after sporophyte induction. High-dose irradiation with the Ar ion beam decreased the embryo and sporophyte formation, suggesting that the Ar ion beam also has exhibited high biological effects on the fertilization or embryogenesis processes or both. The developed heavy ion mutagenesis and mutant screening methods would be useful for mutation breeding and constructing specific mutant libraries in brown algae, and not only in U. pinnatifida.