Structural aspects of ovule and seed development and nonrandom abortion in Melilotus officinalis (Fabaceae)

Akhalkatsi, Maia and Pfauth, M and Calvin, C. L. (1999) Structural aspects of ovule and seed development and nonrandom abortion in Melilotus officinalis (Fabaceae). Protoplasma, 208 (1). pp. 211-223. ISSN 1615-6102

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Abstract

Only one ovule matures into a seed inMelilotus officinalis. Although eight ovules form within an ovary, only the basal ovule develops into a mature seed, whereas the other ovules degenerate. The investigation of ovule and seed structure at different developmental stages and a comparison of quantitative characters of differently fated ovules within an ovary were undertaken by light, phase contrast, and fluorescence microscopy. In this species, campylotropous ovules develop simultaneously on marginal placentae in an apocarpous unilocular gynoecium. Megasporo- and megagametogenesis proceed normally and are completed in bud. The maturation of the Polygonum type embryo sac takes place after the flower opens. Shortly before fertilization, synergids show signs of degeneration in all ovules. At this stage, neither the structure nor the sizes of ovules within one ovary differ significantly. In spite of this, only the basal ovule develops into a seed. Rarely, one of the upper-situated ovules or the basal and another ovule mature into seeds. Seed enlargement is insignificant until the stage when globular embryo and nuclear endosperm are formed. At the seed-filling stage, other ovules have collapsed and the seed gradually comes to occupy the total volume of the pod. The fruit-to-seed length ratio decreases considerably during seed ripening. At fertilization, ovary length is four times greater than ovule length. In the mature state, the fruit and seed lengths are approximately equal. Seed size and weight diminish with an increase in seed number within a pod, although pod size remains constant. It is assumed that nonrandom abortion of young seeds inM. officinalis is under maternal control and is not related to structural abnormalities in ovule development or with limitation in pollen. We suppose that evolution of this species may have proceeded in the direction of a decrease in seed number and an increase in its sizes, which may play an important role in seed dispersal and seedling establishment.

Item Type: Article
Subjects: Q Science > Ecology
Q Science > QK Botany
Depositing User: Prof.Dr. Maia Akhalkatsi
Date Deposited: 29 Jan 2014 19:49
Last Modified: 01 Apr 2015 05:39
URI: http://eprints.iliauni.edu.ge/id/eprint/747

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