Electron microscopy of sexual reproduction in Nephroselmis olivacea (Prasinophyceae, Chlorophyta)

The electron microscopy of zygote formation and the early stages of zygote germination in Nephroselmis olivacea Stein are presented. Although the gametes differ behaviorally during the early stages of gamete fusion, the alga is isogamous. The minus gamete settled on the substrate, and attached with its left side. The plus gamete swam to the minus gamete, attached ventral to the right side of the minus gamete, while slightly on its left side, and plasmogamy started. No specialized organelle for gamete fusion was seen using either scanning or transmission electron microscopy. Gametic fusion was uniform; the right side of the minus gamete always fused with the ventral, slightly left side of the plus gamete, which suggests the participation of the d-rootlets of the flagellar apparatus of the two gametes. Body scales were retained throughout the entire sexual process. Before karyogamy, a network of endoplasmic reticulum developed between the nuclei. This position corresponded to the contractile vacuole of the plus gamete. Fusion proceeded as the minus gamete was drawn to the plus gamete and resulted in a hemispherical zygote. Fibrous material appeared on the cell surface, embedding the body scales to form a layer that thickened and contributed to the strong adhesion of the zygote to the substrate. During this stage, karyogamy was completed. A thick zygotic wall composed of two layers, an electron-dense outer layer and a straticulate electron-lucent inner layer developed beneath the layer of fibrous material and scales. Zygote germination was induced. After the first meiotic division, the layer of fibrous material and scales ruptured and the inner layer of the zygotic wall thinned, allowing the emergence of two germ cells. They had newly formed scales and two starch grains, but no typical pyrenoid.