From an environmentally-friendly perspective, it is ideal to eliminate an enantiomer of a less dominant activity, leaving another with higher activity. This may potentially reduce pollution and the amount of pesticide used, improve target specificity and promote sustainability. Paclobutrazol is one type that is used as both plant growth regulator and fungicide. It is frequently used in Taiwan and due to its long residual action, becomes critically researched plant growth regulator. The purpose of this study is to compare the toxicity between racemate paclobutrazol and its enantiomers on Arabidopsis thaliana and Chlorella vulgaris in order to carefully assess the future use of chiral pesticides. In this study, the effects of liquid chromatographic mobile phase composition and flow rate on separation efficiency were investigated, and the enantiomers were also collected to study the enantioselective effects of paclobutrazol. Successful enantiomeric separation of paclobutrazol by HPLC equipped with a chiral selective column was performed. The separated enantiomers were characterized by HPLC, GC-MS, CD spectrum and polarimeter. The purity of these enantiomers were 99%. The selective effects of the enantiomers of paclobutrazol on wild type A. thaliana were investigated. The appearance, physiological metabolism or oxidative stress were significantly affected by (2S,3S,-)-Paclobutrazol compared to (2R,3R,+)-Paclobutrazol. The leaf area were smaller, and moderation effect were more significant. The chlorophyll, proline content and MDA concentration were increased. ROS and antioxidant enzymes had the same trend. (2R,3R,+)-Paclobutrazol had no difference compared to control. Paclobutrazol inhibited the growth of C. vulgaris, and their IC50 values following the order: (2R,3R,+)-Paclobutrazol < (2S,3S,-)-Paclobutrazol. As such, this result showed a potential of developing effective paclobutrazol using only enantiomers of higher activities, thereby reducing usage amount and risk of pollution.