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Angiosperm Reproduction

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Angiosperm Reproduction & Biotechnology Alternation of Generations (Revisited) The life cycle of angiosperms and other plants are characterized by an alternation of ... – PowerPoint PPT presentation

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Title: Angiosperm Reproduction


1
Angiosperm Reproduction Biotechnology
2
Alternation of Generations (Revisited)
  • The life cycle of angiosperms and other plants
    are characterized by an alternation of
    generations, in which haploid (n) and diploid
    (2n) generations take turns producing each other
  • Diploid plant (sporophyte) produces haploid
    spores by meiosis
  • These haploid spores divide by mitosis, producing
    gametophytes
  • These small male and female haploid plants
    (gametophytes) produce gametes
  • Gametes unite through fertilization, resulting in
    a diploid zygote
  • The zygote divides by mitosis, producing the new
    sporophyte

3
Alternation of Generations
4
A Review of Flower Structure
  • Flowers are the reproductive structures of
    flowering plants
  • Review structure of an idealized flower
  • Male parts?
  • Female parts?

5
Flower Vocabulary
  • Complete vs. incomplete flowers
  • Complete flowers have all 4 floral parts
    (sepals, petals, stamens, carpels)
  • Incomplete flowers missing at least one floral
    part
  • Perfect vs. imperfect flowers
  • Perfect flowers have both stamens and carpels
  • Imperfect flowers are missing either stamens or
    carpels

6
Flower Vocabulary
  • Monoecious vs. Dioecious Plants
  • Plant species are monoecious (one house) if the
    male and female parts are found on the same
    individual plant
  • Plant species are dioecious (two houses) if the
    male and female parts are found on separate
    plants

7
Dioecious Plants
8
Pollination
  • Pollination is the placing of pollen onto the
    stigma of a carpel
  • Pollination is accomplished either by wind or by
    animals
  • A pollen grain absorbs moisture and produces a
    pollen tube that extends down the style to the
    ovary
  • The pollen grain divides by mitosis and produces
    two sperm
  • One sperm cell fertilizes the egg to form the
    zygote
  • The other sperm cell combines with the two polar
    bodies to form a triploid (3n) nucleus
  • This cell will become the endosperm, which serves
    as a food source to the developing embryo
  • This process (double fertilization) ensures that
    the endosperm (food source) will develop only in
    ovules where the egg has been fertilized

9
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10
From Ovule to Seed
  • After double fertilization, the ovule will
    develop into a seed
  • The seed dehydrates as it nears the end of its
    maturation
  • The embryo and its food supply (cotyledons,
    endosperm or both) are enclosed by a hard,
    protective seed coat

11
Seed Structure
  • The radicle is the root of the embryo and where
    germination begins
  • The part of the seed below the point at which the
    cotyledons are attached is called the hypocotyl
  • The portion of the embryonic axis above the
    cotyledons is the epicotyl

12
Seed Structure
13
From Ovary to Fruit
  • After double fertilization, the ovary will
    develop into a fruit enclosing the seed
  • The fruit protects the seeds inside and aids in
    dispersal (by wind or animals)

14
Fruits
  • Simple Fruits
  • A fruit derived from a single ovary
  • Can be fleshy (cherry) or dry (soybean pod)
  • Aggregate Fruit
  • A fruit that results from a single flower that
    has several separate carpels
  • Blackberries, strawberries
  • Multiple Fruit
  • Develops from a group of separate flowers tightly
    clustered together
  • Pineapple

15
Seed Dormancy
  • Seed dormancy means that a seed will not
    germinate, even if sown in a favorable place,
    until a specific environmental cue causes them to
    break dormancy
  • Seed dormancy increases the chances that
    germination will occur at a time and place most
    advantageous to the seedling
  • How did we break dormancy in our lab??

16
Stages of Seed Germination
  • The seed absorbs water, causing it to expand and
    rupture its seed coat
  • The embryo resumes growth, digesting the storage
    materials of the endosperm
  • The radicle (embryonic root) emerges from the
    germinating seed
  • The shoot tip breaks through the soil surface

17
Stages of Seed Germination
18
Asexual Reproduction
  • Book Analogy
  • Some of your fingers separate from your body, and
    eventually develop into entire copies of
    yourself!
  • When plant species clone themselves by asexual
    reproduction, its known as vegetative
    reproduction

19
Asexual Reproduction
  • Fragmentation is the separation of a parent plant
    into parts that re-form whole plants
  • This type of asexual reproduction is used to
    produce clones from cuttings (common with
    houseplants)

20
Plant Biotechnology Agriculture
  • Artificial Selection
  • Favorable traits can be selected for by using
    selective breeding tactics
  • Example maize
  • Maize (corn ?) has been selectively bred to
    contain higher levels of protein for consumption
    in developing countries

21
Reducing World Hunger Malnutrition
  • 800,000,000 people on Earth suffer from
    nutritional deficiencies
  • 40,000 people die each day of malnutrition
  • Increasing food production is an important part
    of addressing this global issue
  • There is a limited amount of land and water
    available for farming
  • The best option is to increase the productivity
    of the land currently being farmed
  • Developing transgenic plants that are resistant
    to herbicides and repel insects without the use
    of pesticides and increasing the nutritional
    quality of plants are possible with modern
    biotechnology techniques
  • However, the use of biotechnology in the
    production of genetically modified plants is
    controversial
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