@article{oai:soar-ir.repo.nii.ac.jp:00021745,
 author = {Han, Jisun and Jeon, Bong-Seok and Mizuno, Katsunori and Yoshida, Kenji and Park, Ho-Dong},
 issue = {13},
 journal = {Journal of Environmental Science and Health, Part A},
 month = {Jan},
 note = {We investigated the effects of small-scale oscillation (SSO) on toxic Microcystis cells. The oscillating device was made of silicon with two axes that had a diameter of similar to 40 mm, and a frequency of 2.5 Hz was observed at 150 rpm. The SSO was effective in inhibiting Microcystis growth. Microcystin release was not observed, whereas cell density barely increased in the oscillating group. Cell size and morphology of the oscillating group were no different from the control group. However, cell quotas of chl.a and microcystin in the oscillating group were half the level of the control group. Crucially, a number of large-sized holes were observed and layered long linear thylakoids were rarely observed in the oscillating group. Therefore, SSO was found to be very effective in Microcystis growth inhibition, and it caused ultrastructural changes without damage to the cell membrane and subsequent microcystin release., Article, Journal of Environmental Science and Health, Part A.53(13):1161-1166(2018)},
 pages = {1161--1166},
 title = {Influences of small-scale oscillations on growth inhibition and ultrastructural changes of Microcystis cells},
 volume = {53},
 year = {2019}
}