Post pollination events in a self-sterile hexaploid monoembryonic lineage of Handroanthus serratifolius (Vahl) S. Grose (Bignoniaceae)

Mariana Ferreira Alves,Diana Salles Sampaio,Nelson Sabino Bittencourt Júnior,Paulo Eugênio Oliveira

doi:10.1590/0102-33062019abb0141

Mariana Ferreira Alves, Diana Salles Sampaio + Show 2 more

Open Access

https://doi.org/10.1590/0102-33062019abb0141

Copy DOI

Abstract

ABSTRACT In diploid late-acting self-incompatible (LSI) species of Bignoniaceae, self-pollinated pistils show a marked delay in ovule penetration by pollen tubes, followed by delayed, but otherwise normal, initial stages of endosperm development and subsequent pistil abscission. Most polyploid species of Bignoniaceae are apomictic and set selfed fruits with viable polyembryonic seeds carrying adventitious embryos. Handroanthus serratifolius is a polyploid species with sporophytic apomictic individuals that produce polyembryonic seeds after either self- or cross-pollination, and other LSI individuals that produce exclusively monoembryionic seeds. Our aim was to determine whether self-sterility events in the latter are similar to those observed in other diploid LSI species of Bignoniaceae. No conspicuous differences in the progress of ovule penetration, fertilization and early stages of endosperm development were observed between selfed and crossed pistils, which contrasts with the marked delay observed in these events after self-pollination in diploid LSI species of the family. Adventitious embryo precursor cells (AEPs) were observed in some ovules, but they apparently do not develop into embryos. We believe that the AEPs in these plants represent a ‘potential’ for sporophytic apomixis, which would explain the similar behaviour of post-pollination events in selfed vs. crossed pistils despite their inability to set fruits after selfing.

Highlights

Polyploidization has been recognized as a source of novelty and diversification for the angiosperms (Ramsey & Schemske 1998; Soltis & Soltis 2016)
Our aim was to determine whether self-sterility events in the latter are similar to those observed in other diploid late-acting self-incompatible (LSI) species of Bignoniaceae
We believe that the Adventitious embryo precursor cells (AEPs) in these plants represent a ‘potential’ for sporophytic apomixis, which would explain the similar behaviour of post-pollination events in selfed vs. crossed pistils despite their inability to set fruits after selfing

Summary

Introduction

Polyploidization has been recognized as a source of novelty and diversification for the angiosperms (Ramsey & Schemske 1998; Soltis & Soltis 2016). Most Bignoniaceae species present 2n=40 chromosomes, the diploid number for the family (Goldblatt & Gentry 1979; Piazzano et al 2015; Cordeiro et al 2017) Of these species, those that have been studied for the breeding system mostly show late-acting self-incompatibility (LSI), and no conventional gametophytic or sporophytic SI has been reported These pollen tubes penetrate and fertilize most ovules before the selfed pistils abscise (Seavey & Bawa 1986; Sage et al 1994; Gibbs 2014; Bittencourt 2017)

Objectives

Methods

Results

Conclusion