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The plant cuticle is the outermost layer of the aerial organs and an important barrier against biotic and abiotic stresses. The climate varies greatly between the north and south of China, with large differences in temperature and humidity, but Chinese chestnut is found in both regions. This study investigated the relationship between the wax layer of chestnut leaves and environmental adaptation. Firstly, semi-thin sections were used to verify that there is a significant difference in the thickness of the epicuticular wax layer between wild chestnut leaves in northwest and southeast China. Secondly, a whole-genome selective sweep was used to resequence wild chestnut samples from two typical regional populations, and significant genetic divergence was identified between the two populations in the <i>CmCER1-1</i>, <i>CmCER1-5</i> and <i>CmCER3</i> genes. Thirty-four <i>CER</i> genes were identified in the whole chestnut genome, and a series of predictive analyses were performed on the identified <i>CmCER</i> genes. The expression patterns of <i>CmCER</i> genes were classified into three trends—upregulation, upregulation followed by downregulation and continuous downregulation—when chestnut seedlings were treated with drought stress. Analysis of cultivars from two resource beds in Beijing and Liyang showed that the wax layer of the northern variety was thicker than that of the southern variety. For the Y-2 (<i>Castanea mollissima</i> genome sequencing material) cultivar, there were significant differences in the expression of <i>CmCER1-1</i>, <i>CmCER1-5</i> and <i>CmCER3</i> between the southern variety and the northern one-year-grafted variety. Therefore, this study suggests that the <i>CER</i> family genes play a role in environmental adaptations in chestnut, laying the foundation for further exploration of <i>CmCER</i> genes. It also demonstrates the importance of studying the adaptation of Chinese chestnut wax biosynthesis to the southern and northern environments.