Litcius/Paper detail

Characterization of indigenous populations of cannabis in Iran: a morphological and phenological study

Mehdi Babaei, Hossein Nemati, Hossein Arouiee, Davoud Torkamaneh

2024BMC Plant Biology12 citationsDOIOpen Access PDF

Abstract

Abstract Background Cannabis is a historically, culturally, and economically significant crop in human societies, owing to its versatile applications in both industry and medicine. Over many years, native cannabis populations have acclimated to the various environments found throughout Iran, resulting in rich genetic and phenotypic diversity. Examining phenotypic diversity within and between indigenous populations is crucial for effective plant breeding programs. This study aimed to classify indigenous cannabis populations in Iran to meet the needs of breeders and breeding programs in developing new cultivars. Results Here, we assessed phenotypic diversity in 25 indigenous populations based on 12 phenological and 14 morphological traits in male and female plants. The extent of heritability for each parameter was estimated in both genders, and relationships between quantitative and time-based traits were explored. Principal component analysis (PCA) identified traits influencing population distinctions. Overall, populations were broadly classified into early, medium, and late flowering groups. The highest extent of heritability of phenological traits was found in Start Flower Formation Time in Individuals (SFFI) for females (0.91) Flowering Time 50% in Individuals (50% of bracts formed) (FT50I) for males (0.98). Populations IR7385 and IR2845 exhibited the highest commercial index (60%). Among male plants, the highest extent of Relative Growth Rate (RGR) was observed in the IR2845 population (0.122 g.g − 1 .day − 1 ). Finally, populations were clustered into seven groups according to the morphological traits in female and male plants. Conclusions Overall, significant phenotypic diversity was observed among indigenous populations, emphasizing the potential for various applications. Early-flowering populations, with their high RGR and Harvest Index (HI), were found as promising options for inclusion in breeding programs. The findings provide valuable insights into harnessing the genetic diversity of indigenous cannabis for diverse purposes.

Topics & Concepts

BiologyPhenologyHeritabilityIndigenousPopulationPhenotypic traitCropGenetic diversityEcologyDemographyPhenotypeEvolutionary biologyGeneticsGeneSociologyCannabis and Cannabinoid ResearchPsychedelics and Drug StudiesBerberine and alkaloids research