Angiosperm Reproduction - PowerPoint PPT Presentation

1 / 18
About This Presentation
Title:

Angiosperm Reproduction

Description:

creates monoecious & dioecious plants. bilateral vs. radial symmetry ... dioecious plants. floral organs mature at different times ... – PowerPoint PPT presentation

Number of Views:106
Avg rating:3.0/5.0
Slides: 19
Provided by: jodic5
Category:

less

Transcript and Presenter's Notes

Title: Angiosperm Reproduction


1
Angiosperm Reproduction
  • Chapter 38

2
Review of Angiosperm Life Cycle
3
Review of Flower Structure
  • sepals (infertile) enclose protect the floral
    bud
  • petals (infertile) attract pollinators
  • stamen (fertile) made of a filament (stalk)
    anther (site of pollen production)
  • carpel (fertile) consists of a stigma (pollen
    landing site), style, ovary (location of
    ovules)
  • all floral organs attached to the stem at the
    receptacle

4
Floral Variations
  • complete vs. incomplete flowers
  • all 4 basic floral organs present complete
    flower
  • 1 or more floral organs absent incomplete
    flower
  • flowers can be sterile, female (carpellate), male
    (staminate)
  • creates monoecious dioecious plants
  • bilateral vs. radial symmetry
  • superior, semi-inferior, or inferior ovary
    position
  • individual or clustered flower distribution
  • clusters are called inflorescences
  • other size, shape, color, odor, arrangement of
    floral organs

5
Gametophyte Development
6
Male Gametophyte Pollen Grain
  • develop within microsporangia located in anthers
  • diploid cells within microsporangia divide by
    meiosis to produce microspores
  • microspores develop into pollen grains
  • pollen grains become mature gametophytes when the
    generative nucleus divides forms 2 sperm
    (usually occurs post-pollination)

7
Female Gametophyte Embryo Sac
  • develop within megasporangia located within
    ovules
  • each megasporangium contains 1 large diploid cell
    that divides by meiosis to produce 4 haploid
    cells but only one survives (megaspore)
  • the megaspore divides 3 times by mitosis without
    cytokinesis, producing a large cell with 8
    haploid nuclei
  • this large cell is partitioned into 7 cells (one
    with 2 nuclei) producing a multicellular female
    gametophyte (embryo sac)

8
Pollination
  • transfer of pollen from an anther to a stigma
  • when successful, pollen grain produces a pollen
    tube which grows through the style to the ovary
    where it releases two sperm into the embryo sac

9
Preventing Self-Fertilization
  • dioecious plants
  • floral organs mature at different times
  • arrangement of floral organs pin vs. thrum
  • self-incompatibility a biochemical block that
    prevents pollen tube growth
  • controlled by S-genes
  • 2 mechanisms
  • S-genes of gametophyte govern blocking
  • S-genes of sporophyte govern blocking

S1
S1S2
S2S3
10
Double Fertilization
  • one sperm fertilizes the egg to form the zygote
  • the other sperm combines with 2 polar nuclei to
    form a triploid (3N) cell that gives rise to the
    endosperm (food-storing tissue of the seed)

11
Seed Formation
  • seeds develop from the ovules
  • endosperm development
  • usually precedes embryo development
  • in most monocots many eudicots, the endosperm
    stores nutrients that can be used by the seeding
    after germination
  • in other eudicots, the food reserves of the
    endosperm are transferred to the cotyledons
    before the seed completes its development

continued on next slide
12
  • embryo development
  • 1st division of the zygote produces 2 cells
  • terminal cell gives rise to the embryo
  • basal cell produces the suspensor which anchors
    the embryo to its parent functions in the
    transfer of nutrients from parent to embryo
  • cotyledons develop 1st on the young embryo then
    the embryo lengthens
  • the shoot apical meristem develops between the
    cotyledons
  • root apical meristem develops where the embryo
    attaches to the suspensor
  • seed maturation the seed dehydrates the
    embryo becomes dormant

13
Seed Structure
  • seed coat formed from integuments of ovule
  • hypocotyl portion of embryo below cotyledons
  • epicotyl portion of embryo above cotyledons
  • radicle embryonic root

14
Fruit Development
  • ovary develops into fruit at the same time seeds
    are developing from ovules
  • triggered by hormonal changes following
    fertilization
  • ovary wall becomes the pericarp (thickened wall
    of the fruit)
  • a fruit usually ripens at about the same time
    that its seeds complete their development

15
Types of Fruits
16
Seed Germination
  • breaking dormancy requires certain environmental
    conditions
  • ex substantial rainfall, intense heat (fire),
    extended exposure to cold, light, chemical attack
    (from animal digestive tract)
  • germination depends on imbibition the uptake of
    water due to the low water potential of the dry
    seed
  • causes the seed to expand break its seed coat
  • triggers metabolic changes in the embryo that
    enable it to resume its growth

continued on next slide
17
  • the radicle is the first organ to emerge from the
    seed
  • next, a hook forms in the hypocotyl and growth
    pushes the hypocotyl thru the soil surface, where
    exposure to light causes it to straighten raise
    the cotyledons and epicotyl
  • epicotyl then spreads its first foliage leaves
    (true leaves) which expand, become green, begin
    making food by photosynthesis
  • cotyledons shrivel fall away

NOTE monocots use a different method for
breaking ground. The sheath that encloses
protects the embryonic shoot (coleoptile) pushes
through the soil, providing a tunnel for the
shoot tip to grow out of.
18
Asexual Reproduction
  • a.k.a vegetative reproduction because offspring
    are usually mature, vegetative fragments from the
    parent plant
  • natural mechanisms
  • fragmentation the separation of a parent plant
    into parts that develop into whole plants
  • apomixis asexual reproduction of seeds
  • human-generated mechanisms
  • cuttings
  • grafting
  • test-tube cloning (which facilitates genetic
    engineering of transgenic plants)
Write a Comment
User Comments (0)
About PowerShow.com