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Transcript
FLOWERS AND ANGIOSPERM REPRODUCTION Most of the plant--roots, leaves, flowers--is diploid The pollen and embryo sac cells are haploid Flowering plants arose recently, diversified rapidly Million years ago Angiosperms—flowering plants First fossil angiosperms are 140 million years old Diversified quickly: 250,000 species named (maybe 2,500,000 extant), compared to 550 species of conifers, 10,000 species of ferns Evolved first in dry, hilly areas (Mediterranean climates?); now present everywhere with the most diversity in tropics Why the success? Continued to refine vegetative adaptations to dry land and cold: e.g., developed vessels vs tracheids; sieve tubes (with larger diameter, larger pores, companion cells, and no big organelles) vs sieve cells Invented flower and fruit: better protection of megasporocytes, megaspores and megagametophytes (embryo sac); better distribution of microgametophytes (pollen); better distribution of seeds Double fertilization and endosperm: better nutrition of developing embryo The parts of the flower (exploded) Pollen is formed in the anthers The embryo sac is in the ovary Formation of the male haploid plant (pollen grain; gametophyte) Pollen grains in pollen sacs within an anther Pollen grains of Iris and ragweed (Ambrosia) Formation of the female haploid plant (embryo sac) and fertilization by the sperm nucleus in the pollen tube Flower with a superior ovary Flower with an inferior ovary This daffodil has a (an) ? ovary Ovules within a lily ovary Within the ovule, a megasporocyte After two meiotic divisions and three mitotic divisions, an embryo sac Pollen tube and fertilization visualized by genetically engineered fluorescence Once fertilized, the egg cell divides by mitosis to form the embryo: Below are some early stages of development of an embryo of Arabidopsis (the favorite “fruit fly” of plant biologists) Globular-stage embryo Heart-stage embryo Seeds in a “silique” Once fertilized, the egg cell divides by mitosis to form the embryo Summary •Reproduction in flowering plants involves male and female gametes (formed from microsporophytes and megasporophytes, the haploid plants resulting from meiosis) •Formation of gametes, fertilization, and embryo growth take place in flowers •Flower structures promote fertilization •Seed structures promote dissemination of embryos
