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PLANT DIVERSITY Plants have an alternation of generations: the diploid spore-producing plant (sporophyte) alternates with the haploid gamete-producing plant (gametophyte). ANGIOSPERMS (flowering plants) FLOWER SEED FLOWER AGAIN *Bright colored petals/attractive scent attract *Flower has many parts *Sepal, petals, stamen, stigma, ovary Sepals sepal • The sepals protect the flower before it opens. Petals • The petals attract pollinating insects with their bright colour and attractive scent. Stamens stamens are the male part of the flower. • The plant makes pollen in the top part of the stamen, called the anther. • The stigma The Stigma • The stigma is the top of the female part of the flower. • The pollen from another flower collects on the stigma’s sticky surface. The Ovary • The ovary protects the ovules. • Pollen travels to the ovules and fertilization takes place. • Now the ovules will develop into seeds. Pollination • Insects visit flowers to search for nectar – their food. • But the flowers use the insects for their own purposes! • As the insect probes for nectar, its body rubs against the stamens. • Pollen gets stuck on the insect’s legs. • You can often see bees with a heavy load of yellow pollen on their hind legs. Pollination When the insect visits another flower of the same type, the pollen will stick to the stigma. This is called pollination. Fertilization The pollen travels to the ovary, where it joins with an ovule. This is called fertilization. Seeds • The seeds develop inside the ovary, which grows to become the seed pod or fruit. Seed Dispersal • The seeds are dispersed; some by animals, some by the wind, some by explosion and some by water. Angiosperms have 2 divisions Angiosperm Life Cycle The sporophyte is the dominant generation, but multicellular male and female gametophytes are produced within the flowers of the sporophyte. Cells of the microsporangium within the anther undergo meiosis to produce microspores. Subsequent mitotic divisions are limited, but the end result is a multicellular pollen grain. The megasporangium is protected by two layers of integuments and the ovary wall. Within the megasporangium, meiosis yields four megaspores— three small and one large. Only the large megaspore survives to produce the embryo sac. Fertilization occurs when the pollen germinates and the pollen tube grows toward the embryo sac. The sporophyte generation may be maintained in a dormant state, protected by the seed coat Gymnosperms • Gymnosperms include gnetophytes, cycads, ginkgoes, and conifers • Cone bearing plants Bryophytes • Bryophytes have life cycles that depend on water for reproduction. Lacking vascular tissue, these plants can draw up water by osmosis only a few centimeters above the ground • they are low-growing plants that can be found in moist, shaded areas. • mosses, liverworts, and hornworts Bryophyte Life Cycle Seedless Vascular Plants • Ferns & Horsetails • Like other vascular plants, ferns and their relatives have true roots, leaves, and stems. Roots are underground organs that absorb water and minerals Seedless Vascular Plants Life Cycle REVIEW a. seed b. zygote c. sporophyte d. microspores e. megaspore f. microgametophyte g. Megagametophyte h. Ovary i. anther b. Sporophyte c. megaspores d. microspores a. Epidermis b. Cortex c. Vascular bundle/xylem d. Pith e. Phloem f. Bark g. . h. . a. Epidermis b. Palisade mesophyll c. Leaf vein d. Spongy mesophyll e. Epidermis f. Stomate g. Guard cell h. Leaf veins i. Cuticle A, B and C j. Stomates k. Palisade mesophyll l. Spongy mesophyll a. Pressure b. Osmotic c. Higher d. Higher e. turgid a. Anther b. Filament c. Stamen d. Pollen e. Stigma f. Style g. Ovary h. Pistil i. Petal j. Sepal k. Ovule l. Pollen tube a. b. c. d. e. f. g. h. i. j. k. l. Zone of cell division Zone of elongation Zone of maturation endodermis pericycle phloem xylem cortex epidermis Root hair Vascular cylinder Root cap 1. The sun causes water to evaporate at leaves 2. Negative pressure 3. Water molecules cling to one another (cohesion) and to sides of vessels (adhesion) 4. Negative pressure potential 5. Cohesion refers to water molecules clinging together and tension refers to negative pressure potential. Water flows upward along the length of the plant Plant Adaptations to Life On Land • Drying out: waterproof surfaces • Gas exchange: stomata (above ground)/swim bladder • Support: vacuole/cell walls • Conduction: xylem and phloem/conducting cells • Reproduction: moist surfaces/specialized delivery systems (pollen tubes)