Morphology of flower bud differentiation and floral organ specialization in Caucasian clover

Abstract

Flower bud differentiation is the commencement of plant reproductive development. Flower organ specialization follows flower bud differentiation. This biological mechanism controls whether plants reproduce successfully via seed. Caucasian clover (Trifolium ambiguum) is used in mixed temperate pastures. However, its low natural seed setting rate contributes to a low seed yield. This study aimed to elucidate how the reproductive biology of Caucasian clover could affect seed production. Caucasian clover flower bud differentiation and flower organ development were systematically examined. Flower bud differentiation has six consecutive stages: pre-differentiation, differentiation of the inflorescence, the floret, the perianth, the stamen, and finally the pistil primordium. The anther has two chambers. Pollen grains have six development phases: the tetraspore, early-uninucleate, late-uninucleate, vegetative cell and germ-cell form, binucleate, and maturation phase. The microspore tetrad is tetrahedral, and the mature pollen grains are bicellular. Pollen grain viability was found 35%. The Caucasian clover monocarpelate ovary contains 1–2 ovules that are covered with a 2-layer integument. The ovule is anatropous. The embryo sac development type is a polygonum. The floral formula is “⚥↑K₍₅₎ C₁₊₁₊₂ A₍₉₎₊₁ G_(1:1:1−2)”. These genetic traits of two pollen sacs and low viability pollen grains may be responsible for the low natural seed setting. Poor seed setting may also be due to embryo sac dysplasia that leads to ovule sterility. Therefore, the breeding aim should be to improve pollen viability, to decrease embryo sac dysplasia and to reduce embryo abortion that could be targeted for genetic improvement to enhance seed yields.