1 / 20

Chapter 24: Plant Reproduction and response

Chapter 24: Plant Reproduction and response. Sections 1-2. The Structure of Flowers. Reproductive structures made of specialized leaves. The Structure of Flowers. Sepals (outermost) enclose bud before it opens, protect flower during development

gil-rasmussen
Download Presentation

Chapter 24: Plant Reproduction and response

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 24:Plant Reproduction and response Sections 1-2

  2. The Structure of Flowers • Reproductive structures made of specialized leaves

  3. The Structure of Flowers • Sepals (outermost) enclose bud before it opens, protect flower during development • Petals just inside sepals – colors, shape, numbers attract pollinators

  4. The Structure of Flowers • Stamens – male leaves • Stalk called filament • Anther at the end – produces pollen grains (male gametophyte • Carpels – female leaves – shelter female gametophytes and seeds • Broad base forms ovary, containing one or more ovules where female gametophytes produced • Narrow stalk called style with sticky stigma at the top to catch pollen • Sometimes called pistil

  5. Angiosperm Life Cycle • Alternation of generations – male/female gametophytes live within sporophyte • Male gametophytes (pollen grains) develop within anthers • Meiosis produces 4 haploid cells, each undergoing mitosis to produce 2 haploid nuclei per pollen grain • Surrounded by thick wall for protection

  6. Angiosperm Life Cycle • Female gametophytes develop within carpel • Ovules (future seeds) protected by ovary (future fruit) • Single diploid cell goes through meiosis to produce 4 haploid cells • 3 disintegrate, one undergoes mitosis to produce 8 nuclei • Surrounded my embryo sac – within ovule (female gametophyte) • Cell walls form around 6 of the nuclei

  7. Angiosperm Life Cycle • Female gametophyte con’t • One nucleus is the nucleus of the egg • If fertilization occurs, egg with fuse with male gamete • Zygote grows into new sporophyte

  8. Angiosperm Life Cycle • Most angiosperms pollinated by animals • Wind pollinated plants (oak trees) rely on good weather, lots of pollen • Animal pollinated plants have bright flowers, sweet nectar • Pollinator’s bodies adapted to reach nectar • Insect pollination a win-win

  9. Angiosperm Life Cycle • If a pollen grain lands on the stigma of the same species, pollen tube begins to grow • One cell within pollen grain becomes pollen tube, the other divides into 2 sperm cells (“generative” cell) • Pollen tube grows into style to ovule

  10. Angiosperm Life Cycle • Double fertilization takes place in embryo sac • One sperm nucleus fuses with egg nucleus, diploid zygote will grow into embryo • Other sperm nucleus fuses with 2 polar nuclei in embryo sac to form triploid cell (3n) • This grows into endosperm – nourishes seedling • Saves resources

  11. Vegetative Reproduction • Asexual reproduction in flowering plants – produce identical offspring by mitosis • New plants can grow from roots, stems, leaves, plantlets (potatoes, strawberries, cacti) • Very quick, plants can take over favorable environments • No genetic recombination

  12. Plant Propagation • Use cuttings - length of stem cut and planted in soil to encourage root formation • Use grafting - a piece of stem or a lateral bud is cut from the parent plant and attached to another plant

  13. Seed and Fruit Development • The term “fruit” refers to a matured angiosperm ovary, usually containing seeds • Nutrients support development of growing embryo • Ovary wall thickens – can be fleshy, tough/dry

  14. Seed Dispersal • Dispersal by animals through eating or carrying • Have tough coating and can pass through the digestive system, sprout in feces • Dry fruits catch on fur • Dispersal by wind/water • Lightweight fruits carried by wind (dandelion) or float (coconut)

  15. Seed Dormancy and Germination • After they mature, some seeds remain dormant where the embryo is alive and not growing before they germinate • Germination is the resumption of growth • Affected by temperature, moisture

  16. How Seeds Germinate • Before germination, seeds absorb water, tissues swell, seed coat cracks open • Young root emerges first, then the shoot • Cotyledons are the first leaves – store nutrients and transfer them to growing embryo • Monocots – leaf usually remains underground, shoot protected by sheath • Dicots – no sheath – end of shoot bends into a hook, straightens in sun

  17. Advantages of Dormancy • Long distance dispersal • Germination only under ideal growth conditions

More Related