期刊
HORTICULTURAL PLANT JOURNAL
卷 9, 期 3, 页码 589-601出版社
KEAI PUBLISHING LTD
DOI: 10.1016/j.hpj.2022.06.002
关键词
Pleioblastus pygmaeus; Flower bud differentiation; Reproductive biology; Morphology; Anatomy
This study uses anatomical methods to explore the developmental reasons of the flowering process of Pleioblastus pygmaeus, a dwarf bamboo species. The research reveals that the development of stamen, pistil, and embryo in the plant occurs simultaneously in the same floret. This study provides important insights into the reproductive biology of bamboo plants and has fundamental significance in understanding the flowering mechanism of P. pygmaeus and promoting sustainable cultivation of bamboo plants.
As a woody grass, bamboo has special reproductive habits with an extremely long vegetative phase. Pleioblastus pygmaeus is a kind of ornamental dwarf bamboo species with high ecological and economic value in China. There was no documentary record of the flowering of P. pygmaeus until 2015, which bloomed in the Bamboo Garden of Nanjing Forestry University. Generally, bamboo plants rarely bear fruit or have a low seed setting rate, but this species has a high seed production. This study explores developmental reasons using anatomical methods. The process of flower bud differentiation and a series of important reproductive development processes including anther wall development, microsporogenesis, megasporogenesis, male and female gametophyte development, and embryonic development were investigated sequen-tially. Each stamen contained three tetrasporangiate anthers and the development of anther wall was of Monocotyledonous type. The mi-crospores finally matured into 3-celled pollen grains by two successive mitoses. The pistil was composed of three carpels, with an anatropous, tenuinucellate and bitegmic ovule in a single ovary. The formation of embryo sac belonged to Polygonum type. With three mitoses, functional megaspore developed into the embryo sac with eight nuclei within seven cells. The development of stamen and pistil was synchronous in the same floret. The development of embryo followed Grass type and the development of endosperm belonged to Nuclear type. The development of endosperm was earlier than that of embryo. The study enriches basic knowledge of reproductive biology of bamboo plants and is of great fundamental significance to furtherly explore flowering mechanism of P. pygmaeus and to cultivate bamboo plants sustainably.
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