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).
Any two of: Mutations Non-disjunctions during anaphase of meiosis Polyploidy Sexual reproduction e.g. crossing-over/recombination during meiosis IF YOU ARE LOOKING FOR THE STUDYISLAND ANSWER IT IS a population whose members have many different traits
First, meiosis independently assorts chromosomes when gametes are made for sexual reproduction and second, human heredity involves the same relationsips between alleles-dominant and recessive interactions, polygenic traits, and sex-linked genes.
Genetic traits are variations of features passed on to offspring from there parents.
The genetic traits, both physical and behavioral, that the individual possesses on his personal genome.
what part of the cell contains genetic material or genes that determine traits
The main advantage of sexual reproduction compared to asexual reproduction is genetic diversity. Sexual reproduction involves the combination of genetic material from two parents, resulting in offspring with unique genetic traits. This diversity can increase the chances of survival and adaptation to changing environments.
sexual reproduction leads to genetic variations in the progeny. It helps to create organisms with better adaptability to the prevailing environmental conditions.
Sexual reproduction is a process that involves the fusion of gametes from two parents to create offspring with genetic diversity. This form of reproduction allows for variations in traits due to genetic recombination, enhancing the adaptability and survival of the species.
sexual reproduction gives traits of both parents to the child where as asexual reproduction is just a copy of the original with no change at all
Asexual reproduction makes offspring that are identical to the parent(s). Sexual reproduction takes 1/2 of the traits from one parent and the other half from the other. Sexual reproduction causes variance because of the interaction of dominant and recessive traits and some cases blended traits.
sexual reproduction, where gametes combine to create a new individual with a unique genetic makeup that is a combination of traits from both parents. This genetic diversity allows for variations in offspring and promotes evolutionary adaptation.
Sexual reproduction allows for genetic diversity through the combination of genetic material from two parents, leading to offspring with unique genetic traits. This diversity increases the chances of adaptation to changing environments compared to asexual reproduction, which produces genetically identical offspring.
A type of offspring reproduction is sexual reproduction, where two parent organisms contribute genetic material to produce offspring with a unique combination of traits.
Sexual reproduction allows for genetic diversity through the combination of genetic material from two parents, leading to offspring with unique traits and increased adaptability to changing environments. This diversity can enhance the survival and evolution of a species.
Sexual reproduction increases the variance of traits within a population by combining genetic material from two parents, leading to offspring with unique combinations of traits. This genetic diversity allows for a wider range of adaptations to environmental changes, increasing the overall fitness of the population.
Sexual reproduction allows for genetic diversity through the combination of genetic material from two parents, increasing the chances of producing offspring with beneficial traits for survival. Asexual reproduction, on the other hand, can lead to rapid reproduction and the production of genetically identical offspring, which can be advantageous in stable environments where the parent's traits are well-suited for survival.
Sexual reproduction allows for genetic diversity through the combination of genetic material from two parents, leading to offspring with unique genetic traits. This diversity increases the chances of adaptation to changing environments and enhances the overall fitness of a population.