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P. Caris E. Smets K. De Coster L. P. Ronse De Craene 《Plant Systematics and Evolution》2006,257(3-4):223-232
The floral ontogeny of the Spurge olive (Cneorum tricoccon L.) is studied by means of scanning electron microscopic observations. Special attention is paid to the sequence of initiation
of the floral parts, the occurrence of septal cavities, and the development of the nectariferous tissue. The nectary disc
arises as a receptacular outgrowth below the ovary and independently from stamen development. By the extensive growth of this
voluminous androgynophore, stamen filaments become enclosed by nectary tissue and as a result, they are seated in pits between
the lobes of the disc. Between ovary and style, three lobes are present, which are covered with stomata – their function is
unknown. The significance of the unusual trimery of the flower is discussed. Floral developmental evidence supports a Rutalean
affinity, although more ontogenetic investigations are needed in Rutaceae, subfamily Spathelioideae. 相似文献
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Auxin and physical constraint exerted by the perianth promote androgynophore bending in Passiflora mucronata L. (Passifloraceae)
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The androgynophore column, a distinctive floral feature in passion flowers, is strongly crooked or bent in many Passiflora species pollinated by bats. This is a floral feature that facilitates the adaptation to bat pollination. Crooking or bending of plant organs are generally caused by environmental stimulus (e.g. mechanical barriers) and might involve the differential distribution of auxin. Our aim was to study the role of the perianth organs and the effect of auxin in bending of the androgynophore of the bat‐pollinated species Passiflora mucronata. Morpho‐anatomical characterisation of the androgynophore, including measurements of curvature angles and cell sizes both at the dorsal (convex) and ventral (concave) sides of the androgynophore, was performed on control flowers, flowers from which perianth organs were partially removed and flowers treated either with auxin (2,4‐dichlorophenoxyacetic acid; 2,4‐D) or with an inhibitor of auxin polar transport (naphthylphthalamic acid; NPA). Asymmetric growth of the androgynophore column, leading to bending, occurs at a late stage of flower development. Removing the physical constraint exerted by perianth organs or treatment with NPA significantly reduced androgynophore bending. Additionally, the androgynophores of plants treated with 2,4‐D were more curved when compared to controls. There was a larger cellular expansion at the dorsal side of the androgynophores of plants treated with 2,4‐D and in both sides of the androgynophores of plants treated with NPA. This study suggests that the physical constraint exerted by perianth and auxin redistribution promotes androgynophore bending in P. mucronata and might be related to the evolution of chiropterophily in the genus Passiflora. 相似文献
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