Morphological and Chemical Variation of Wild Sweet Chestnut (Castanea sativa Mill.) Populations

Sweet chestnut (Castanea sativa Mill., Fagaceae) is one of the oldest cultivated tree species in the Mediterranean, providing multiple benefits, and, since it has edible seeds, it represents an interesting model species for the research of morphological and chemical variability. In this study, morphometric methods and chemical analyses were used to quantify the extent of differences in phenotypic and nutritional traits between eight natural populations of sweet chestnut from different environmental conditions, where different management types are applied, high-forest and coppice. The samples were collected from the Prealps in Italy to the western part of Bosnia and Herzegovina. In total, 31 nut and kernel morphometric and nutritional traits were studied on 160 trees, and various multivariate statistical analyses were used to study intra- and interpopulation variations. Both analyses, morphometric and chemical, revealed a similar pattern of diversity, with morphological and chemical variability not associated with geographic or environmental variables. In addition, we found significant correlations between morphometric and chemical data. High phenotypic variability was determined both among and within the studied populations, and all populations had a similar level of diversity. The results of the analysis of morphological and chemical diversity can have many practical applications for the management, production, and conservation of the sweet chestnut genetic resources for nut production.

Automated summary

In this study, morphometric methods and chemical analyses were used to investigate the differences in phenotypic and nutritional traits of sweet chestnut in different environmental conditions. The results showed that the variability in morphological and chemical traits was not associated with geographic or environmental variables. Significant correlations were found between morphometric and chemical data. The study revealed high phenotypic variability among and within populations, suggesting the importance of managing and conserving the genetic resources of sweet chestnut.