1. Happy [almost] Please do the following: pick up the handouts have out a sharpened pencil for today’s lab

2. Reproduction in Plants

3. Sexual Reproduction of the Flowering Plant

4. Structure of the flower

5. Function of floral parts Sepal : To protect the flower (and to prevent it from drying out Petals : To attract insects to the flower for pollination

6. Function of floral parts Stamen : To produce the pollen grains in the anthers. (Each pollen grain produces two male gametes/sperm, one of which can fertilize an egg cell)

7. Function of floral parts -Stamen Anther Produces pollen Filament Holds the anther in place

8. Function of floral parts Pistil : To produce the ovules (Each ovule contains an egg cell inside an embryo sac)

9. Function of floral parts - Pistil Stigma Where pollen lands after pollination Style Pollen travels down this Ovary Contains ovules (eggs)

10. Pollination Transfer of pollen from the anther to the stigma of a flower of the same species

11. Pollination Self pollination Transfer of pollen from an anther to a stigma of the same plant Cross pollination Transfer of pollen from the anther to the stigma of a different plant of the same species

12. Petals brightly colored, scented with nectar Small amounts of sticky pollen Anthers inside petals Stigmas sticky, inside petals Animal (insect) pollination

13. Petals small, not colored brightly Anthers outside petals Stigmas large, feathery and outside petals Pollen large numbers, light, dry and small Wind pollination

14. Fertilization Fertilization is the fusion of the male (n) and female (n) gametes to produce a zygote (2n) The pollen grain produces the male gametes Embryo sac produces an egg cell

15. Seed Formation in Flowering Plants Sperm + Egg  Zygote The zygote grows repeatedly by mitosis to form an embryo which is found within a seed

16. Fruit Formation The ovule becomes the seed The ovary becomes the fruit

17. Fruit Formation A fruit is a mature ovary that may contain seeds The process of fruit formation is stimulated by growth regulators produced by the seeds

18. Fruit and Seed Dispersal Need for dispersal  Minimizes competition for light, water etc.  Avoids overcrowding  Colonizes new areas  Increases chances of survival

19. 1. Wind 2. Water 3. Animal 4. Self TypesTypes of Dispersal

20. Germination The re-growth of the embryo after a period of dormancy, if the environmental conditions are suitable Water Oxygen Suitable temperature Events in germination cease when the plants leaves have developed and the plant has started to photosynthesize

21. Review of the stages of sexual reproduction in plants… 4

22. Asexual Reproduction in Plants Asexual reproduction Does not involve gametes, flowers, seeds or fruits  examples: binary fission, fragmentation, spore formation and budding It involves only one parent and offspring are genetically identical (have the same genetic content) to the parent So what happens? So what happens?  Part of the plant becomes separated from the parent plant and divides by mitosis to grow into a new plant

23. Plant Reproduction via Spores Spore - a reproductive cell capable of developing into a new individual without fusion with another reproductive cell Spores are different than seeds, they do not contain plant embryos or food stores A structure called sporangia produce the very tiny spores  When the sporangia break open, the spores are released and dispersed by water or wind…if the spore lands in a suitable environment, it can grow into a tiny plant Found in non-seed bearing plants such as mosses and ferns