UNLABELLED: • PREMISE OF THE STUDY: Two marker systems were developed for the molecular identification of three Trapa species based on the length variation of nuclear AP2 and trnL-F chloroplast intergenic spacer region. • METHODS AND RESULTS: Our marker systems analyzed 118 individuals among 36 populations from three Trapa species. Trapa incisa was found to have a unique genotype from the other two species. Individuals of T. bispinosa were distinguished from T. japonica because the former had only a single AP2 genotype. Moreover, our results suggest a hybrid status of T. japonica in terms of two bands within an individual. One band was specific to T. japonica and the other one shared with T. bispinosa. • CONCLUSIONS: Our marker system demonstrates that nucleotide sequence variations can serve as a fast, reliable, and reproducible tool for molecular genotyping and examining the natural hybrid of water chestnut species.
UNLABELLED: • PREMISE OF THE STUDY: Two marker systems were developed for the molecular identification of three Trapa species based on the length variation of nuclear AP2 and trnL-F chloroplast intergenic spacer region. • METHODS AND RESULTS: Our marker systems analyzed 118 individuals among 36 populations from three Trapa species. Trapa incisa was found to have a unique genotype from the other two species. Individuals of T. bispinosa were distinguished from T. japonica because the former had only a single AP2 genotype. Moreover, our results suggest a hybrid status of T. japonica in terms of two bands within an individual. One band was specific to T. japonica and the other one shared with T. bispinosa. • CONCLUSIONS: Our marker system demonstrates that nucleotide sequence variations can serve as a fast, reliable, and reproducible tool for molecular genotyping and examining the natural hybrid of water chestnut species.