Plants (Nov 2021)

Molecular Authentication, Phytochemical Evaluation and Asexual Propagation of Wild-Growing <i>Rosa canina</i> L. (Rosaceae) Genotypes of Northern Greece for Sustainable Exploitation

  • Eleni Maloupa,
  • Eleftherios Karapatzak,
  • Ioannis Ganopoulos,
  • Antonis Karydas,
  • Katerina Papanastasi,
  • Dimitris Kyrkas,
  • Paraskevi Yfanti,
  • Nikos Nikisianis,
  • Anthimos Zahariadis,
  • Ioanna S. Kosma,
  • Anastasia V. Badeka,
  • Giorgos Patakioutas,
  • Dimitrios Fotakis,
  • Nikos Krigas

DOI
https://doi.org/10.3390/plants10122634
Journal volume & issue
Vol. 10, no. 12
p. 2634

Abstract

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Dogroses belong to a taxonomically difficult genus and family and represent important phytogenetic resources associated with high ornamental, pharmaceutical-cosmetic and nutritional values, thus suggesting a potentially high exploitation merit. Triggered by these prospects, wild-growing Rosa canina populations of Greece were selected for investigation and evaluation of their potential for integrated domestication. We collected ripe rosehips from Greek native wild-growing populations (samples from seven genotypes) for phytochemical analysis (total phenolics, total flavonoids, antioxidant activity and vitamin C content), leaf samples for DNA analysis using the ITS2 sequence (nine genotypes) and fresh soft-wood stem cuttings for propagation trials (seven genotypes). After evaluation of these materials, this study reports for the first-time distinct DNA-fingerprinted genotypes from Greece with interesting phytochemical profiles mainly in terms of Vitamic C content (up to 500.22 ± 0.15 mg of ascorbic acid equivalents/100 g of sample) as well as effective asexual propagation protocols for prioritized R. canina genotypes via cuttings. The latter highlights the importance of the levels of external hormone application (2000 ppm of indole-3-butyric acid), the effect of season (highly-effective spring trials) and genotype-specific differences in rooting capacities of the studied genotypes. All inclusive, this study offers new artificially selected material of Greek native R. canina with a consolidated identity and interesting phytochemical profile. These materials are currently under ex-situ conservation for further evaluation and characterization in pilot field studies, thus facilitating its sustainable exploitation for applications in the agro-alimentary, medicinal-cosmetic, and ornamental sectors.

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