The discussion has centered on the field of population genetics and developments in DNA science. Some have contended that the migrations mentioned in the Book of Mormon did not occur because the majority of DNA identified to date in modern native peoples most closely resembles that of eastern Asian populations. The conclusions of genetics, like those of any science, are tentative, and much work remains to be done to fully understand the origins of the native populations of the Americas.
This evolution mechanism occurs as a result of random chance and not natural selection. In the case of genetic drift, the population experiences changes in frequency of a specified allele which is triggered by arbitrary luck instead of adaptation need. Consequently, it is different from natural selection through which allelic frequency gets altered on the basis of the fittest genes which survive while the weaker genes die off.
The phenomenon of genetic drift usually occurs among small populations while larger populations are often subjected to natural selection.
A genetic variant or allele is the gene component that produces a particular trait. A good example is the existence of both white and red worms within the same population. If these two worms mate, each passes an allele to the offspring white or red forming a gene.
The strong or dominant allele determines which traits the new born worm is going to have. In the event the white one is dominant, then the new worm is going to be white as well and vice versa. During instances when the worm gets two similar recessive alleles, then it exhibits recessive features.
Note that while genetics is complex compared to this example, it provides the general concept of what genetic drift is all about.
Often, genetic drift causes gene variants to completely disappear and can also cause genetic variation. Whenever there are a few allele copies, genetic drift effect is larger and whenever the copies are more the effect is less.
Debate has always been rife on the comparative importance of natural selection versus that of neutral processes such as genetic drift.
The view held by Ronald Fisher was that genetic drift plays a crucial role in evolution and for decades, this view was held as the dominant one.
The debate was however rekindled by Motoo Kimura when he came up with the neutral molecular evolution theory which states in most cases where there is a change in genetics spread across the population, the cause if genetic drift.
Genetic drift also occurs as a result of random sample errors. An error arises when the sample exhibits results that are different from what the entire population exhibits.
For instance in the case where scientists have 50 red and white forms then they select 10 randomly, the sample is small and hence, the alleles that are passed in the group does not even out as would be the case in a group consisting of worms.
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Do you need to buy Custom Written Sample Papers? Look no further; our company offers high quality custom-made papers, written by professionals in different fields at affordable prices. What you can read next.Genetic drift is one of the mechanisms of evolution, along with descent with modification, mutation, migration, and natural selection (Mechanisms: The Processes of Evolution).
Benefits and drawbacks can come from genetic drift. When a population's genetic makeup is changed randomly, it . Clearly, migration modifies the effects of a genetic drift. The term genetic drift could be elucidated as changes in the genetic composition of a population that is brought about by random events instead of natural selection and results in changes of the populationâ€™s allele frequency over time.
Genetic Drift Genetic Drift and the Founder Effect There are two types of genetic drift. Describe and give an example of both the bottle neck effect and the founder effect. Your assignment should be words in length. Genetic drift is another form of micro-evolution and leads to random changes in allele frequencies.
It is fundamentally a result of finite population size and has the most rapid and dramatic effect on small populations who show reduced variability. Drift increases divergence between populations so genetic variation must be replenished.
Genetic drift is one of the mechanisms of evolution, along with descent with modification, mutation, migration, and natural selection (Mechanisms: The Processes of Evolution).
Benefits and drawbacks can come from genetic drift. When a population's genetic makeup is changed randomly, it is called genetic drift. Genetic Drift. The term genetic drift is applied in the genetics of population and it refers to statistical drift that is noted with time of gene frequencies within a population which is as a result of random sample effects in successive generations’ formation.
This evolution mechanism occurs as a result of random chance and not natural selection.