Pollen are produced in the anther of the stamen, which is the male part of the plant. The pollen is transferred to the ovule of the ovary (the female part of the plant). Both pollen and ovule are haploid gametes.
The sporophyte generation is the result of the fusion of gametes. :)
In a plant the anther is responsible for production of male gametes, that is, spores.
Sporophyte is the diploid (2n) stage of the plant life cycle. It is the multicellular spore-producing organism that develops from the zygote of a fertilized egg. The sporophyte is typically the primary photosynthetic form of the plant and is responsible for the production of spores. It is the stage of the plant that produces the spore-bearing structures such as the antheridia and archegonia which in turn produce the haploid gametes that are necessary for sexual reproduction.The sporophyte stage of the plant life cycle includes the following main components:Cellular growth and developmentProduction of haploid gametesSpore formationGrowth and maturation of sporophyte structuresThe sporophyte stage of the plant life cycle typically dominates the life cycle of most plants and is responsible for the growth and development of the plant. It is the main photosynthetic form of the plant and is responsible for producing the haploid gametes that are necessary for sexual reproduction.
In asexual reproduction of a plant, the plant reproduces offspring (normally referred to as daughter cell) in and of itself, without the the use of male and female gametes of the plants. There is no swapping or joining of gametes. Sexual reproduction uses the male and female gametes (both haploid), such as pollen from the male plant's stamen joining the ovule in the female plant's pistil - resulting in a diploid embryo.
The small, greenish heart-shaped structure or gametophyte (n-haploid) of a fern that produces the male and female gametes for fertilization and spore formation which leads to the development of the sporophyte generation--(2n-diploid) -->the plant you see above ground is the sporophyte generation.
The sporophyte generation is the result of the fusion of gametes. :)
In a plant the anther is responsible for production of male gametes, that is, spores.
In a plant the anther is responsible for production of male gametes, that is, spores.
spore producing plant generation. The dominant generation in pteridophytes and higher plants and alternates with the gametophyte generation.
Sporophyte is the diploid (2n) stage of the plant life cycle. It is the multicellular spore-producing organism that develops from the zygote of a fertilized egg. The sporophyte is typically the primary photosynthetic form of the plant and is responsible for the production of spores. It is the stage of the plant that produces the spore-bearing structures such as the antheridia and archegonia which in turn produce the haploid gametes that are necessary for sexual reproduction.The sporophyte stage of the plant life cycle includes the following main components:Cellular growth and developmentProduction of haploid gametesSpore formationGrowth and maturation of sporophyte structuresThe sporophyte stage of the plant life cycle typically dominates the life cycle of most plants and is responsible for the growth and development of the plant. It is the main photosynthetic form of the plant and is responsible for producing the haploid gametes that are necessary for sexual reproduction.
Yes, It is. The pollen is the male gametes of a plant a the ovules is the female gametes of a plant.
It is called a seed plant, not to be confused with ferns and mosses whose gametes require water for fertilization. Seed plants can be either gymnosperms or angiosperms.Spermatophyte
The gametes in a plant are called the sex organs. These organs are called the ovary and the stamen.
Gametes come from both the mother and the father. The mother's gamete is known as an egg and the father's gamete is known as a sperm.
Chloroplast
plant produce gametes through meiosis
The Chloroplast is responsible for producing the Glucose(sugar) and oxygen in the Plant cells.