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Plantae

Plantae. Seed Plants. Vascular Plants. Formation of vascular tissue Xylem (water) Phloem (food) True leaves, roots, and stems Lignin Sporophyte generation dominate. Alternation of Generation. Alternation of Generation. Sporophyte dependent on gametophyte mosses

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Plantae

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  1. Plantae Seed Plants

  2. Vascular Plants • Formation of vascular tissue • Xylem (water) • Phloem (food) • True leaves, roots, and stems • Lignin • Sporophyte generation dominate

  3. Alternation of Generation

  4. Alternation of Generation • Sporophyte dependent on gametophyte • mosses • Large sporophyte and small independent gametophyte • ferns • Gametophyte dependent on sporophyte • seed plants

  5. Why be Sporophyte Dominant? • Reduced mutations • UV light harmful to DNA • Diploid (2n) form copes better with mutations • two alleles

  6. Why Retain Gametophyte Generation? • Ability to screen alleles • doesn’t require a large amount of energy • Sporophyte embryos rely on some gametophyte tissue

  7. Seeds • A seed is a sporophyte in a package • spores are only single cells • packaged with food • All seed plants are heterosporous • megasporangia • microsporangia

  8. From Ovule to Seed

  9. Overview of Seed Plants • Produce Seeds • Can remain dormant for years • Pollination replaces swimming sperm • Gametophyte generation reduced • Gymnosperms lack antheridium • Angiosperms lack both archegonium and antheridium

  10. Phylogeny

  11. Gymnosperms(Naked Seed) • Division: Cycadophyta • Division: Ginkgophyta • Division: Gnetophyta • Division: Coniferophyta

  12. Ginkgophyta • Ginkgo or Maidenhair Tree • Characteristic leaves • Only one species • Only males are planted

  13. Cycadophyta • Cycads • Palm-like plants • Sago Palms • Leaves in cluster at top of trunks • True Secondary growth

  14. Gnetophyta • 3 Genera • Ephedra • Mormon Tea • Ephedrine • raises heart rate • raises blood pressure

  15. Coniferophyta

  16. Coniferophyta • Pine tree is the sporophyte generation • Contains both male and female cones • Pollen (staminate) cones (low in tree) • produces pollen • Ovulate cones (high in tree) with scales • produces seeds

  17. Pine Life Cycle • No Antheridium (microsporangia) produce pollen grain (4 cells) • 2 prothallial cells • 1 generative cell • become a sterile cell and a spermatogenous cell • produces 2 sperm • 1 tube cell • wings for dispersal

  18. Pine Life Cycle • Ovule in a ovulate cone • integument (seed coat) (2n) • megasporangia (meiosis) or nucellus (nutrition) (2n) • produces 4 megaspores (3 die) • develops into female gametophyte • archegonium with eggs (n)

  19. Angiosperms

  20. Angiosperm

  21. Sepals Petals Receptacle Stamen Anther Filament Carpel Stigma Style Ovary with ovule Flower

  22. Angiosperm Life Cycle

  23. Angiosperm Life Cycle • No Antheridium (microsporangia) • produce pollen grain • 1 generative cell • produces 2 sperm • 1 tube cell

  24. Angiosperm Life Cycle • Ovule in Ovary • megasporangia • produces 4 megaspores (3 die) • develops into female gametophyte called the embryo sac

  25. Angiosperm Life Cycle • Inside embryo sac • 7 cells (eight nuclei) due to 3 mitotic divisions • 3 antipodals • 2 polar nuclei (one cell) • 2 synergids • 1 egg

  26. Angiosperm Life Cycle • Double fertilization • one sperm unites with egg • one sperm unites with polar nuclei • develops into endosperm (3n) • Fruit and Seed development • ovule = seed • ovary = fruit

  27. Cross Pollination • Most flowers do not self-pollinate • stamen and carpal may develop at different times • stamen and carpal may be arranged in flower to avoid contact

  28. Angiosperm Radiation • Begins the Cenozoic era (65 mya) • Most closely related to the Gnetophyta • Coevolution • the mutual influence of two species on each other • plants and animals (insects, birds, bats)

  29. Pollination

  30. Dispersal

  31. The Global Impact • Transformed atmosphere • reduced carbon dioxide • cooled the earth • Nonrenewable resource

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