Meiosis makes each new cell genetically unique in terms of DNA. This ensures that the offspring of the organism is also genetically unique as the two gametes (sex cells) combine together to give the cell a full set of chromosomes that the cell needs to divide/multiply into a new life.
Meiosis.
The order would be: Meiosis -> sex cells -> fertilization -> zygote -> mitosis Meiosis creates sex cells, called gametes, which combine during fertilization to create a zygote. The zygote then undergoes mitosis.
Meiosis II is completed after entry of sperm.
The steps in the diploid life cycle are meiosis, to gametes, to fertilization, to diploid, to reproductive cell. The main steps are Meiosis and Fertilization.
meiosis
In a plant the site of meiosis and fertilization is the flower
Meiosis.
The order would be: Meiosis -> sex cells -> fertilization -> zygote -> mitosis Meiosis creates sex cells, called gametes, which combine during fertilization to create a zygote. The zygote then undergoes mitosis.
Meiosis II is completed after entry of sperm.
The steps in the diploid life cycle are meiosis, to gametes, to fertilization, to diploid, to reproductive cell. The main steps are Meiosis and Fertilization.
meiosis
fertilization and meiosis
meiosis → fertilization → zygote → embryo
The development of a new progeny organism is then initiated by the fusion of these gametes at fertilization
Meiosis is the replication of sexual gametes. The gametes are produced during meiosis and are used to fertilize other gametes in reproduction.
Any cell that forms by meiosis (sexual reproduction) is going to be haploid, half the number of chromosomes. Fertilization brings together these two haploid cells that were produced by meiosis and produces on diploid cell, a zygote.
At the end of meiosis, haploid cells are produced. These cells need to further develop into mature gametes capable of fertilization, a process called gametogenesis.