Anther and gynoecium structure and development of male and female gametophytes of Koelreuteria elegans subsp. formosana (Sapindaceae): Phylogenetic implications

ÁVALOS, A. A.; ZINI, L. M.; FERRUCCI, M S; LATTAR, E. C.

FLORA

ELSEVIER GMBH

Año: 2019 vol. 255 p. 98 - 109

0367-2530

Anther and gynoecium structure and embryological information in Koelreuteria and Sapindaceae as a wholeremain understudied, as well as the evolution of imperfect flowers in the latter. The aims of this study were toanalys in K. elegans subsp. formosana the anther and gynoecium structure and the development of male andfemale gametophytes in the two floral morphs of putatively imperfect flowers. Standard techniques were appliedfor LM and SEM. Compared to the normal anther development in staminate flowers, a delayed programmed celldeath of tapetum, septum and middle layers on the onset of microspore stage result in indehiscent anthers in the functionally pistillate flowers. Orbicules are reported for the first time in Sapindaceae. Gynoecium development in functionally pistillate flowers is normal, whereas in functionally staminate ones a pistillode with degenerated ovules at the tetrad stage is formed. The pollen tube transmitting tract consists of one layer of epithelial cells with a small lumen in the style and ovary. The anatomy of the latter revealed an axile placentation and complete septum. Reproductive characters of Koelreuteria shared with other Sapindaceae taxa are a secretory binucleatetapetum, simultaneous cytokinesis, unicellular stigmatic papillae, Polygonum type megagametophyte with ephemeral antipodals, and ovules campylotropous, with funicular obturator and amphistomic micropyle. Imperfect flowers in the family are triggered by defective sporophytic tissues impacting on the normal development of microspores and megaspores, disrupting embryological events in staminate and pistillate organs at different developmental stages. Reconstructing ancestral character state under parsimony revealed that two ovules per locule, absence of obturator, presence of hypostase, and binucleate tapetum may be regarded as plesiomorphic for Sapindaceae. These analyses have provided information on the evolution of embryological characters in the family and its phylogenetic significance.