Superhydrophobic surfaces (SHS) have been constructed and applied by multitudinous methods in the past two decades. However, it is still a challenge to fabricate the staunch SHS based on natural bio-template through a universal strategy. Herein, we develop a method to fabricate the stable SHS via a bio-template replica method assisted by candle soot and plant wax. The deposited candle soot coating can more easily separate replicate samples and increase the surface roughness of the positive replica. In addition, natural plant wax could act as a potential substitute to fluoride reagents, resulting from its cost-efficient, eco-friendly, repairable and hydrophobic properties. According to this technique, we successfully constructed an artificial SHS with self-cleaning properties or anisotropic wettability using the lotus leaf and rice leaf as biological templates, respectively. Significantly, the resultant SHS demonstrates outstanding mechanical durability and reparability. We envision that a green and universal fabrication strategy reported in this paper, which should be to construct SHS concerning other bio-templates, and provide new insights for the development of SHS possessing durability and restorability.