The mechanism of the toxic effects on plant cells of sulfite, a product of the air pollutant sulfur dioxide, is not well understood. Therefore, changes in the fine structure and organization of microtubules and microfibrils induced by sulfite were studied by electron and light microscopy in the protonemata of the fernAdiantum capillusveneris L.Under red-light conditions, growing protonemata fumigated with 0.05 or 0.1 μ1/1 SO2 for 1 to 4 days showed abnormalities, such as apical swelling, and they sometimes burst at the apex. The incidence of abnormalities seemed to be correlated with the concentration of the sulfite dissolved in the culture medium.At an appropriate concentration (3.3–6.6. mM) of sulfite (applied as K2SO3), cell swelling at the apical region of protonema was also induced. When the concentration of sulfite was as high as 6.6 mM, more than 60% of protonemata burst at the tip. During the apical swelling, no distinct changes were observed in the fine structure of organelles, such as the chloroplasts, mitochondria, microbodies, Golgi bodies and nucleus. However, the arrangement of cortical microtubules and that of the innermost layer of microfibrils around the subapical region of protonemata were changed from transverse to the cell axis (i.e., circular) to random and the cell wall was thickened. These observations suggest that sulfite may influence the mechanisms that maintain the transverse orientation of microtubules in the subapical region of a protonema and that the resultant random arrangement of microtubules induces the random arrangement of microfibrils and leads to apical swelling.