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

IF 2.7 3区 农林科学 Q1 AGRONOMY Grass and Forage Science Pub Date : 2024-03-08 DOI:10.1111/gfs.12658
Hui-min Zhang, Ming-jiu Wang, John Hampton, Phil Rolston, Richard Lucas, Zhong-hui Ti
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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.

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高加索三叶草花芽分化的形态和花器官的特化
花芽分化是植物生殖发育的开始。花芽分化后,花器官也随之特化。这一生物机制控制着植物是否能通过种子成功繁殖。高加索三叶草(Trifolium ambiguum)用于温带混合牧场。然而,它的自然结籽率很低,导致种子产量很低。本研究旨在阐明高加索三叶草的生殖生物学如何影响种子产量。研究系统地考察了高加索三叶草的花芽分化和花器官发育。花芽分化分为六个连续阶段:预分化、花序分化、小花、花被、雄蕊,最后是雌蕊原基。花药有两个室。花粉粒有六个发育阶段:四分体、早期无核、晚期无核、无性细胞和生殖细胞形态、双核和成熟阶段。小孢子四分体为四面体,成熟花粉粒为双核。花粉粒的存活率为 35%。高加索苜蓿单核子房包含 1-2 个胚珠,胚珠被两层包被。胚珠为倒生。胚囊发育类型为多角体。花式为"⚥↑K(5) C1+1+2 A(9)+1G(1:1:1-2)"。两个花粉囊和低存活率花粉粒的这些遗传特性可能是造成自然结实率低的原因。结实率低的原因还可能是胚囊发育不良导致胚珠不育。因此,育种目标应是提高花粉活力、减少胚囊发育不良和减少胚胎流产,并以此为目标进行遗传改良,以提高种子产量。
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来源期刊
Grass and Forage Science
Grass and Forage Science 农林科学-农艺学
CiteScore
5.10
自引率
8.30%
发文量
37
审稿时长
12 months
期刊介绍: Grass and Forage Science is a major English language journal that publishes the results of research and development in all aspects of grass and forage production, management and utilization; reviews of the state of knowledge on relevant topics; and book reviews. Authors are also invited to submit papers on non-agricultural aspects of grassland management such as recreational and amenity use and the environmental implications of all grassland systems. The Journal considers papers from all climatic zones.
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