Creation of superhydrophobic materials bio-inspired by nature fascinates many scientists. One of the most intriguing challenges in this field is the fabrication of these materials using biopolymers from the viewpoint of green chemistry and environmental chemistry. Here, superhydrophobic and biodegradable nonwovens are constructed by electrospinning from a naturally occurring poly(amino acid), poly(gamma-glutamic acid) (gamma-PGA), modified with a hydrophobic a-amino acid, L-phenylalanine. The contact angle of a water droplet on the materials is 154 degrees, and the droplet remains stuck to the material surface even if it is inverted, clearly indicating a petal-type superhydrophobic property. Biodegradability and post-functionalization of the nonwovens as well as cell adhesion on the superhydrophobic materials are also evaluated. As far as we know, this is the first report on biodegradable materials exhibiting a petal-type superhydrophobicity. The material design and processing shown here can be applied to various bioresources and such functional materials will become a new class of functional materials satisfying some of the requirements in green science.