A COMPARATIVE STUDY OF OVULE AND MEGAGAMETOPHYTE DEVELOPMENT IN FIELD‐GROWN AND GREENHOUSE‐GROWN PLANTS OF GLYCINE MAX AND PHASEOLUS AUREUS (PAPILIONACEAE)

Abstract

A study of ovule and megagametophyte development in field‐ and greenhouse‐grown plants of Glycine max (L.) Merrill and Phaseolus aureus Roxb. reveals several consistent features for both species. These features include: a multiple archesporium, enlargement of a primary sporogenous cell directly into a megasporocyte, production of unequal dyad cells, a functional chalazal megaspore, Polygonum‐type development, and a hypostase. A filiform apparatus was not observed in either species. Several marked differences in development also occur. Phaseolus usually produces one sporogenous cell per ovule; Glycine produces 2–3 sporogenous cells per ovule. Meiosis II is synchronous in Phaseolus but nonsynchronous in Glycine. Linear tetrads are produced in Phaseolus, whereas linear and T‐shaped tetrads are found in Glycine. Starch grains accumulate in the mature megagametophyte of Glycine but are absent at that stage in Phaseolus. The usefulness of the modified clearing fluid, benzyl benzoate‐4½, for the study of ovule and megagametophyte development in Glycine max and Phaseolus aureus is here demonstrated. In addition, the study indicates for both species that megagametophyte development in plants grown under field conditions is markedly similar to development in plants grown in the more uniform conditions of the greenhouse. Accordingly, these findings suggest generally that embryological data collected from plants grown under greenhouse conditions will reflect those from plants found in nature.