Developmental and cytogenetic analyses of pollen sterility in Valeriana scandens L.

Valeriana scandens presents perfect and pistillate flowers, the latter with sterile anthers. The species is composed of two varieties with different ploidy; V. scandens var. scandens (2n = 28) and V. scandens var. candolleana (2n = 56), both of which occur in RS, Brazil. Crosses between these varieties may give rise to hybrids with pollen sterility. In this study, we analyzed the microsporogenesis and microgametogenesis of sterile and fertile anthers, and also investigate whether pollen sterility is caused by an irregular meiotic process. Developmental analysis using light microscopy and scanning electron microscopy showed that sterile anthers develop similarly to fertile anthers until the end of meiosis. After this stage, sterile tetrads do not separate as a consequence of exine fusion between adjacent microspores, which is similar to sterile pollen of Brassica ms-cdl1 mutants. In addition, vacuolated immature pollen grains degenerate after separation. The cytogenetic analysis of the microspore mother cell (MMC) showed that the diploid population of V. scandens var. scandens (2n = 28) has pollen sterility that is not caused by a cytogenetic disturbance. The MMCs analyzed from prophase I to tetrad stage showed a regular meiotic process, indicating the phenotype of V. scandens sterile pollen is a postmeiotic process formed by fusion of exine between opposite microspores.