angiosperms reproduction in flowering plants. the gametophytes of flowering plants only consist of...
TRANSCRIPT
The gametophytes of flowering plants only consist of a few cells and are totally dependent on the sporophyte.
REPRODUCTION IN ANGIOSPERMS
The gametophytes of flowering plants only consist of a few cells and are totally dependent on the sporophyte.
The development of the sporophyte generation has resulted in the huge diversity of angiosperms we see today.
REPRODUCTION IN ANGIOSPERMS
The gametophytes of flowering plants only consist of a few cells and are totally dependent on the sporophyte.
The development of the sporophyte generation has resulted in the huge diversity of angiosperms we see today.
No external water is required for fertilisation – angiosperms have been able to colonise all terrestrial habitats.
REPRODUCTION IN ANGIOSPERMS
A flower is the organ of sexual reproduction in angiosperms.
Most flowers are hermaphrodite (both parts) but some flowers (such as kiwifruit) are unisexual (having only male or females parts on one flower).
FLOWERS
A flower is the organ of sexual reproduction in angiosperms.
Most flowers are hermaphrodite (both parts) but some flowers (such as kiwifruit) are unisexual (having only male or females parts on one flower).
Sepals protect the flower inside the flower bud.
FLOWERS
A flower is the organ of sexual reproduction in angiosperms.
Most flowers are hermaphrodite (both parts) but some flowers (such as kiwifruit) are unisexual (having only male or females parts on one flower).
Sepals protect the flower inside the flower bud. The male part – the stamens, consists of fi laments
which hold up anthers which produce pollen.
FLOWERS
A flower is the organ of sexual reproduction in angiosperms.
Most flowers are hermaphrodite (both parts) but some flowers (such as kiwifruit) are unisexual (having only male or females parts on one flower).
Sepals protect the flower inside the flower bud. The male part – the stamens, consists of fi laments
which hold up anthers which produce pollen. The female parts of the flower – pistils, consist of an
ovary which protects the eggs or ovules, a style, and a stigma which is often sticky to trap pollen during pollination
FLOWERS
Transfer of pollen from an anther to a stigmaSelf-pollination = transfer of pollen within the same
flower or between flowers of the same plant.
POLLINATION
Transfer of pollen from an anther to a stigmaSelf-pollination = transfer of pollen within the same
flower or between flowers of the same plant.Cross-pollination = transfer of pollen between flowers
on diff erent plants of the same species. This produces greater genetic diversity.
Can be done by wind, insects, water, and birds
POLLINATION
Transfer of pollen from an anther to a stigmaSelf-pollination = transfer of pollen within the same
flower or between flowers of the same plant.Cross-pollination = transfer of pollen between flowers
on diff erent plants of the same species. This produces greater genetic diversity.
Can be done by wind, insects, water, and birdsWind-pollinated plants usually have inconspicuous
flowers (eg. Grasses). Pollen is produced in vast quantities as most pollens will not land on the stigma of another flower of the same species.
POLLINATION
Transfer of pollen from an anther to a stigmaSelf-pollination = transfer of pollen within the same
fl ower or between fl owers of the same plant.Cross-pollination = transfer of pollen between fl owers on
diff erent plants of the same species. This produces greater genetic diversity.
Can be done by wind, insects, water, and birdsWind-pollinated plants usually have inconspicuous fl owers
(eg. Grasses). Pollen is produced in vast quantities as most pollens will not land on the stigma of another fl ower of the same species.
Insect-pollinated plants usually have large colourful fl owers. Nectaries provide the nectar which attracts the insects. As insects crawl in to get the nectar, they also pick up pollen.
POLLINATION
Inside a pollen grain, there are two haploid nuclei – a tube nucleus, and a generative nucleus.
THE MALE GAMETOPHYTE
Inside a pollen grain, there are two haploid nuclei – a tube nucleus, and a generative nucleus.
When a pollen grain germinates, the generative nucleus divides into two sperm cells and the tube nucleus forms a pollen tube.
THE MALE GAMETOPHYTE
Inside a pollen grain, there are two haploid nuclei – a tube nucleus, and a generative nucleus.
When a pollen grain germinates, the generative nucleus divides into two sperm cells and the tube nucleus forms a pollen tube.
Once the pollen grain has germinated, the gametophyte is mature.
Generative Nucleus – nucleus produced within a pollen grain that divides into two sperm cells.
THE MALE GAMETOPHYTE
Forms inside the ovules. Ovules are protected by the ovary, which forms the base of the female parts of a flower.
THE FEMALE GAMETOPHYTE
Forms inside the ovules. Ovules are protected by the ovary, which forms the base of the female parts of a flower.
Inside each ovule, specialised cells divide by meiosis to form four haploid cells.
THE FEMALE GAMETOPHYTE
Forms inside the ovules. Ovules are protected by the ovary, which forms the base of the female parts of a flower.
Inside each ovule, specialised cells divide by meiosis to form four haploid cells.
Only one of these haploid cells survive, dividing by mitosis to form 8 cells – an egg cell, an endosperm (nutrition inside the seed) mother cell and six other cells, all of which represent the female gametophyte.
THE FEMALE GAMETOPHYTE
After a pollen grain has landed on a stigma and germinated, the pollen tube grows down through the style to the ovary.
FERTILISATION
After a pollen grain has landed on a stigma and germinated, the pollen tube grows down through the style to the ovary.
One sperm from the pollen tube fuses with the egg cell to form a zygote which develops into an embryo.
FERTILISATION
After a pollen grain has landed on a stigma and germinated, the pollen tube grows down through the style to the ovary.
One sperm from the pollen tube fuses with the egg cell to form a zygote which develops into an embryo.
The remaining sperm cell fuses with the endosperm mother cell to form endosperms (endosperms and embryo form the seed)
FERTILISATION
After a pollen grain has landed on a stigma and germinated, the pollen tube grows down through the style to the ovary.
One sperm from the pollen tube fuses with the egg cell to form a zygote which develops into an embryo.
The remaining sperm cell fuses with the endosperm mother cell to form endosperms (endosperms and embryo form the seed)
After fertilisation the ovary forms into a fruit.
FERTILISATION
Succulent (or juicy fruits, such as berries and stonefruit) are eaten by animals, the seeds pass through the gut and are deposited complete with a rich supply of fertiliser.
SEED DISPERSAL
Succulent (or juicy fruits, such as berries and stonefruit) are eaten by animals, the seeds pass through the gut and are deposited complete with a rich supply of fertiliser.
Many fruits become hard, tough and dry. In gorse and lupins, the dry fruit split open violently, ejecting the seeds up to several hundred metres from the parent plant.
SEED DISPERSAL
Succulent (or juicy fruits, such as berries and stonefruit) are eaten by animals, the seeds pass through the gut and are deposited complete with a rich supply of fertiliser.
Many fruits become hard, tough and dry. In gorse and lupins, the dry fruit split open violently, ejecting the seeds up to several hundred metres from the parent plant.
Other seeds become dry and are dispersed by the wind (Dandelion)
SEED DISPERSAL
Succulent (or juicy fruits, such as berries and stonefruit) are eaten by animals, the seeds pass through the gut and are deposited complete with a rich supply of fertiliser.
Many fruits become hard, tough and dry. In gorse and lupins, the dry fruit split open violently, ejecting the seeds up to several hundred metres from the parent plant.
Other seeds become dry and are dispersed by the wind (Dandelion)
By water, and by hooking onto animal fur
SEED DISPERSAL
Must require - Moisture to mobilise enzymes and increase the
metabolic rate of seed cells
GERMINATION
Must require - Moisture to mobilise enzymes and increase the
metabolic rate of seed cells- Oxygen for respiration
GERMINATION
Must require - Moisture to mobilise enzymes and increase the
metabolic rate of seed cells- Oxygen for respiration- Warmth to increase cell metabolic rates
GERMINATION
Must require - Moisture to mobilise enzymes and increase the
metabolic rate of seed cells- Oxygen for respiration- Warmth to increase cell metabolic ratesSome seeds become dormant (inactive) even when
supplied with moisture, oxygen, and warmth. Dormancy in these seeds is overcome in various ways – by exposure to light, cold temperatures, or even fi re.
GERMINATION