The Crossing over during meiosis I between non-sister chromatids.
The random orientations and separations of homologous chromosomes and sister chromatids during metaphase I, anaphase I and metaphase II, anaphase II.
The random fusion of male and female gametes.
First there is the independent orientation of chromosomes during meiosis, secondly, there is crossing over during meiosis and the third thing is random pairing of gametes during fertilization.
Crossing over during prophase I of meiosis, the formation of four genetically unique haploid sex cells during meiosis, and the union of two haploid sex cells to form a genetically unique diploid zygote.
Independent Assortment of genes, Crossing over- switching parts of homologous chromosomes between gametes during formation, and Random Fertilization
IDK...figure it out urself.
^^^^^^
hate people like this, anyway, here is the real answer.
Mutation, natural section, and assortative mating
Mutation, natural section, and assortative mating.
I Hope that can answer your question =)
-E.T <3
Natural Selection, Red Robins, and Daniel Tosh
what three processes provide new genetic combinations
Mutation, Recombination, and Gene Flow
your mum
Sexual reproduction is more advantageous than asexual reproduction because it allows for genetic diversity. In asexual reproduction there is only one source of genetic material whereas with sexual reproduction there are two sources of genetic material.
Sexual reproduction leads to variety in offspring.
Meiosis takes place in sexual reproduction and genetic variations takes place in sexual reproduction. Genetic variations lead to evolution to new species.
Asexual reproduction is the process in which a single cell or set of cells produces offspring that inherit all their genetic material from one parent and sexual reproduction needs two parents to produce offspring, the offspring inherits genetic material from both parents.
That would be sexual reproduction. Sexual reproduction allows for independent assortment and crossing over to occur. This is fancy language for the genetic material gets mixed up a lot. Since the genetic material gets mixed up, variation will result.
increase
Yes
Sexual reproduction is most likely to increase genetic diversity.
Sexual reproduction increases the genetic material of a cell.
Sexual reproduction contributes to genetic diversity.
Sexual reproduction increases genetic diversity, because the offspring will not be genetically identical to either parent, being a genetic blend of the two parents.
by a asexuall reproduction
chromosomes which cotains strands of DNA( deoxynucleic acid, I might be little off on it) and RNA.
Increase population genetic diversity beyond that possible with asexual reproduction. This makes the population more resistant to disease and parasites.
In sexual reproduction, offspring are not identical to either parent.
Sexual reproduction.
Asexual reproduction impacts genetic variation by limiting future genetic change to mutations only; sexual reproduction allows future generation to mix in a nearly infinite range of phenotypes (external appearance).