Responses of vegetative gametophytes of Undaria pinnatifida to high irradiance in the process of gametogenesis

Abstract

SUMMARYThe population of Undaria pinnatifida in its ecologic niche sustains itself in high temperature summer in the form of vegetative gametophytes, the haploid stage in its heteromorphic life cycle. Gametogenesis initiates when seawater temperature drops below the threshold levels in autumn in the northern hemisphere. Given that the temperature may fall into the appropriate range for gametogenesis, the level of irradiance determines the final destiny of a gametophytic cell, either undergoing vegetative cell division or initiating gametogenesis. In elucidating how vegetatively propagated gametophytes cope with changes of irradiance in gametogenesis, we carried out a series of culture experiments and found that a direct exposure to irradiance as high as 270 μmol photons m−2 s−1 was lethal to dim‐light (7–10 μmol photons m−2 s−1) adapted male and female gametophytes. This lethal effect was linearly corelated with the exposure time. However, dim‐light adapted vegetative gametophytes were shown to be able tolerate as high as 420 μmol photons m−2 s−1 if the irradiance was steadily increased from dim light levels (7–10 μmol photons m−2 s−1) to 90, 180 and finally 420 μmol photons m−2 s−1, respectively, at a minimum of 1–3 h intervals. Percentage of female gametophytic cells that turned into oogonia and were eventually fertilized was significantly higher if cultured at higher but not lethal irradiances. Findings of this investigation help to understand the dynamic changes of population size of sporophytic plants under different light climates at different site‐specific ecologic niches. It may help to establish specific technical details of manipulation of light during mass production of seedlings by use of vegetatively propagated gametophytes.