Heavy summer rain in subtropical and tropical areas causes soil hypoxia, resulting in poor growth or death of field-grown chrysanthemums [Dendranthema ×grandiflorum (Ramat.) Kitam.]. Growth responses to waterlogging were measured in chrysanthemum cultivars in this study. The effects of oxygen release compound (ORC) and CaCl2 pretreatments on growth, photosynthesis, oxidative stress, and antioxidant enzyme activities responses were studied in waterlogging-tolerant and intolerant cultivars subjected to short-term (3 days) waterlogging and high temperature (25-31 oC) conditions followed by the recovery (9-14 days). Three-day waterlogging caused wilting of young leaves and the formation of adventitious roots, which died soon after the recovery in many cultivars. Shoot growth, plant height, leaf number, and root growth in most cultivars reduced after 3-d waterlogging followed by 14-d recovery. Among the chrysamthemum cultivars tested,‘Huang Gin-Ging’is the most tolerant while‘Kaa Dei-Na’is the most sensitive to waterlogging, as shown by the reduction in root dry weight. Photosynthesis was measured in‘Huang Gin-Ging’and‘Kaa Dei-Na’, with control (without waterlogging), waterlogging (3-d waterlogging followed by 9-d recovery) and pretreatments with 1 g·L-1 ORC before waterlogging at 30/25 oC. In‘Huang Gin-Ging’net photosynthesis rate (Pn), stomatal conductance, and transpiration rate all decreased after 3-d waterlogging but recovered at 9-d recovery, regardless of ORC pretreatment. In contrast, 3-d waterlogging caused significicant decrease of Pn in‘Kaa Dei-Na’. Plants pretreated with ORC were taller, had more root dry weight, higher Pn and lower intercellular CO2 concentration (Ci), as compared to the waterlogged plants without ORC. Plants of‘Huang Gin-Ging’after 3-d waterlogging did not exhibit marked changes in leaf H2O2 and MDA concentrations, and CAT, APX, and GR activities at 30/25 oC. In contrast, waterlogged plants of‘Kaa Dei-Na’showed dramatic increase in leaf H2O2 and MDA concentrations, despite the higher APX and GR activities. Plants pretreated with 1 g·L-1 ORC could reduce leaf H2O2 concentration through early activated APX before waterlogging, while leaf MDA concentration was still high. Plant growth of 3-d waterlogged‘Hunag Gin-Ging’did not differ among pretreatments with 30 mL of 0, 60, 90, 120 mM CaCl2, while plants of‘Kaa Dei-Na’exhibited increased plant height, leaf number, and root dry weight as CaCl2 concentration increased from 0 to 120 mM. Application of 120 mM CaCl2 pretreatment alleviated waterlogging-injury of‘Kaa Dei-Na’through maintaining higher root dry weight (80.9% vs.42.2%). Shoot growth, photosynthetic parameters, H2O2, MDA, CAT, APX, GR did not differ in waterlogged‘Huang Gin-Ging’whether pretreated with 120 mM CaCl2 or not. However, plants of‘Kaa Dei-Na’pretreated with 120 mM CaCl2 had lower leaf MDA concentration and remained leaf CAT, APX, and GR activities after 9-d recovery.