Soil conditioner can absorb and retain rain water in the soil by slow releasing water and reducing water loss. Hydrogels that derived from cellulose derivatives can be transformed into xerogels by drying in the oven and applied as soil conditioners. In this study, hydrogels derived from methylcellulose (MC) and Sodium carboxymethyl cellulose (NaCMC) were used. The temperature-responsive hydrogel was prepared by blending MC with potassium sulfate (K_2SO_4) to modify the hydrophobic interaction and influences the gelation at room temperature. The NaCMC based hydrogels was crosslinked by polyethylene glycol diglycidyl ether (PEGDE). The results indicated that increasing the dosage of hydrogels increased the water-holding capacity of sandy soil. Sandy soil treated with hydrogel significantly improved the water-holding capacities by 13% and the water-retention time by 8 days. Water-retention capacities of forest soil was also significantly improved. The MC based temperature-responsive hydrogel showed a better water-retention capacity than the NaCMC based hydrogels for both soil types. Our results suggested that the cellulose-based hydrogels have high potential to be applied as soil conditioners.