Morphological and embryological studies in Nymphaeaceae. II. Brasenia schreberei Gmel. and Nelumbo nucifera Gaertn
Australian Journal of Botany
13(3) 379 - 387
Published: 1965
Abstract
The stamens are whorled in Brasenia schreberei and spirally arranged in Nelumbo nucifera. The anther is tetrasporangiate. Parietal layers are five-celled in thickness in B. schreberei and six-celled in N. nucifera. Endothecial cells contain a tannin-like substance and develop fibrous thickenings in N. nucifera. The middle layers are persistent in N. nucifera and ephemeral in B. schreberei. The tapetal cells become multinucleate and the layer develops cutinization on its inner walls in N. nucifera. It is secretory. Micronuclei are formed at the meiosis in the microspore mother cells. These degenerate in B. schreberei and form micropollen grains in N. nucifera. Polysporads and compound pollen grains occur frequently in the latter. Pollen sterility is common.
In B. schreberei the carpel is horseshoe-shaped, unites with its margins, and bears two to three pendulous ovules with lamina1 placentation. The carpel in N. nucifera, however, remains open in its early development, unites by the growth of the interlocking hairs, and contains a single ovule. A single parietal layer is present in B. schreberei, and four to five such layers in N. nucifera. A hypostase is formed in B. schreberei. The nucellus functions as perisperm in the latter and is consumed early in N. nucifera.
A linear megaspore tetrad is formed in which the chalazal megaspore is functional. The embryo sac is of the Polygonum type. The antipodal cells are ephemeral in B. Schreberei and persistent with secondary multiplication in N. nucifera.
In post-fertilized ovules one of the synergids is persistent. Fertilization is non-synchronous in N. nucifera and simultaneous in B. schreberei. In N. nucifera the antipodal cells become enlarged and multinucleate, and occupy the elongated tube formed by the downward penetration of the embryo sac. They degenerate at the early globular stage of the embryo and are not persistent when the embryo is pear-shaped.
In B. schreberei a transverse cytokinesis follows division of the primary endosperm nucleus and two unequal cells are formed. The small chalazal endosperm cell penetrates the nucellus below and forms a long tube-like haustorium occupying three-quarters of the length of the nucellus. Its nucleus subsequently hypertrophies and degenerates completely at the globular stage of the embryo. Endosperm is ab initio cellular in B. schreberei and free nuclear in N. nucifera.
https://doi.org/10.1071/BT9650379
© CSIRO 1965