Sexual Reproduction in Plants Flashcards
What are the male sex organs called
Stamen consisting of filament and anther
What are the female sex organs called
Carpel consisting of ovule, ovary, style and stigma
How are wind pollinated plants adapted
Feathery stigmas which hang out of flower
No petals
Vast numbers of smooth, lightweight pollen grains
How are insect pollinated plants adapted
Colourful petals with guidelines
Produces nectar
Sticky stigma
Large pollen grains with spiky surface
Describe the formation of pollen
A mother cell undergoes meiosis to form a tetrad which then undergoes mitosis to create a pollen grain with two haploid nuclei. This then matures to form a generative nucleus and a tube nucleus
Describe the development of an ovule
The megaspore mother cell undergoes meiosis and forms 4 megaspore haploid cells. Three of these degenerate and one matures into the embryo sac. 3 mitotic divisions occur and eight haploid nuclei form.
Three form antipodal cells that have no further use, two form synergids which degenerate later, 1 forms the egg cell, and the other two fuse and form a diploid polar nucleus.
Describe cross-pollination
Transfer of pollen from the flower of one plant onto the flower of a different plant. Allows for genetic variation
Describe self pollination
Transfer of pollen from the flower of a plant onto the same flower or another flower of the same plant. Decreases variation, only allows for crossing over.
How do plants try and prevent self pollination
Dichogamy - anthers and stigmas mature at different times
Have separate male and female flowers
Have separate male and female plants
Describe the process of double fertilisation
The pollen lands on the stigma, and the tube nucleus begins to burrow down into the style by digesting the tissue. The generative nucleus splits by mitosis forming two haploid nuclei. Once the pollen tube has entered the embryo sac it degenerates. One of the generative nuclei fuses with the egg cell, the other with the polar nucleus to form the endosperm which will nourish the embryo.
What happens to the endosperm in monocots and dicots
Monocots - the endosperm remains and only one cotyledon forms
Dicots - the endosperm is absorbed and stored in two cotyledons
What becomes of the following after fertilisation Ovule Integuments Micropyle Ovary wall Ovary
Seed Seed coat Pore Fruit coat (skin) Fruit
Describe dormancy in seeds
Seeds can remain dormant for many years and will only germinate if there is water, oxygen, and a suitable temperature
Describe the germination process in a dicotyledon
Water is imbibed through the micropyle.
The cotyledons swell and the seed coat splits allowing entry of more water and oxygen for aerobic
respiration.
Starch and protein reserves in the cotyledons are hydrolysed.
Products of hydrolysis are used as:
• a source of energy for respiration,
• growth of the plumule and radicle.
Describe the germination process in a monocotyledon
Following the imbibing of water, gibberellin is released by the embryo. The gibberellin diffuses to the aleurone layer which contains
protein. Gibberellin induces the production of hydrolytic enzymes, e.g. amylase.
The hydrolytic enzymes diffuse into the inner layer of the endosperm and catalyse the
breakdown of stored nutrients, e.g. starch.
Glucose and other breakdown products of the stored nutrients diffuse into the embryo where
they are used for aerobic respiration and growth.
