Inheritance of leaf and flower morphologies in Kalanchoe spp.

Abstract

Members of the genus Kalanchoe are morphologically diverse; this increases their commercial value. Understanding the genetic mechanism of development of morphological characters could contribute to parent screening and offspring selection in future breeding programs. In this study, we investigated the inheritance of leaf color, leaf shape, anther color, and flower orientation of Kalanchoe species or varieties. Kalanchoe garambiensis, K. garambiensis G., K. gracilis, K. spathulata, and K. manginii ‘Wendy’ were used as experimental parents to establish self and interspecific crosses. The separation ratios of the leaf and flower traits were analyzed using Chi square tests. The results showed that all progenies produced by selfing of K. garambiensis (purple leaf phenotype) had purple leaves, whereas those from selfing of K. garambiensis G. (green leaf phenotype) exhibited green and purple leaves at a ratio of approximately 3:1. The S1 and S2 populations of K. garambiensis G. exhibited an expected 3:1 ratio of leaf color, whereas the S3 populations produced all green leaf inbred lines. Reciprocal hybridization of the progenies of K. gracilis (deeply lobed leaf) with K. garambiensis G. (shallowly lobed leaf) resulted in a 1:1 ratio of shallowly lobed leaves to deeply lobed leaves. The progenies of the two cross combinations (K. garambiensis G. × K. manginii ‘Wendy’ and K. garambiensis × K. manginii ‘Wendy’) produced upright-type flowers and anthers having purplish red color. These findings suggested that leaf color, leaf shape, anther color, and flower orientation of Kalanchoe are controlled by a single pair of alleles. Green leaf, deeply loped leaves, purplish red anthers, and upright-type flowers were found to be dominant traits.