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DNA is fundamental to our understanding of evolution. DNA does not change and so showing evolution over time, but it is merely evidence of an evolutionary link between certain species. For example, DNA is extremely similar between humans and apes. Darwin and his theory suggested that modern humans developed from apes through evolution. The fact that human and ape DNA is about 97.5% the same shows a possible link between our possible ancestors and humans.
Because DNA provides much of the information about ourselves. DNA also can give clues about a person's intelligence. Intelligence seems to be more important than brute strength from an evolutionary standpoint, because we humans used our phenomenal smarts to outwit other stronger species to get food.
Mutation is an interesting topic because it can be for the better or for the worse. Mutations are caused by an error or misprint in the DNA as the DNA is being 'printed out' by enzymes. In other words, a mutation is simply a mistake in our DNA. Humans have about an average of 50 mutations in our DNA, and generally few or none are harmful.
A possible mutation that we humans have is dairy tolerance from cows and sheep, goats, even CAMELS after we reach the age of three.
The trait for blue eyes is actually a mutation that stems from one person almost 10,000 years ago and it and the lack of skin pigment that goes with it allowed us to live in areas with low sunlight.
Each organism gets chromosomes from both their mother and father, and the number obviously varies between species. Humans, for instance, have 46 chromosomes, which consist of one set of 23 from each parent. These 23 pairs of chromosomes are contained within the nucleus of our cells.
DNA replicates itself by unraveling the double helix and making copies of the original strands through the aid of enzymes.
Chromosomes are prone to 4 kinds of mutations: deletion, duplication, inversion, and translocation. Deletion happens when a section is not replicated. Inversion happens when a section flips itself inward (i.e. head over heels) from its original position. Duplication happens when a section is doubled. Translocation happens when the section of one chromosome is switched with a section from another chromosome. This happens because chromosomes fold over each other during replication. This can sometimes result in the complete fusion of separate chromosomes (this is why humans have 46 and our relatives the chimps have 48).
Humans and other organisms commonly have thousands of non-harmful mutations in their genes and chromosomes. However, these mutations can sometimes have negative or beneficial effects. A negative example would be the way base pair substitution in the hemoglobin gene can lead to Sickle-Cell Anemia. This nasty disease causes red blood cells to take on a sickle shape, which can lead to complications like stroke and kidney failure. The disease plagues many African-Americans. Oddly enough, SCE is also a beneficial example. The gene mutation that causes SCE is believed to have arisen in Africa where it provides people with a resistance to malaria.
The primary function of all life is to pass on genes to the next generation. Those who have more children are considered to be the fittest in their environment. If a random mutation provides an organism with a survival advantage, they will be able to pass on more genes than their peers.
A survival advantage could be a fish being born with a bony segment in its fins that would allow it to travel briefly between shrinking water sources during a time of drought or to catch prey on the shoreline during aquatic food shortages.
The fish would naturally survive longer than those born without this mutation and pass on more genes. This means the environment would determine the mutation to be beneficial. This is known as Natural Selection.
Natural Selection is the mechanism that drives evolution. This is because random mutations can accumulate over periods of deep time to produce large scale changes in the morphology of a species until they become a new species altogether.
The fish I described above is actually an ancient species known as the Lobed-Fin, which first waddled the earth some 400 million years ago. Natural selection eventually caused the descendants of this fish to take on more adaptations better suited for life on land, including lungs (adapted air bladders) and jointed limbs. Groups split off during the following ages to give rise to the amphibians, reptiles, birds, and mammals (including humans). All of this diversity came from only small incremental changes over millions of years.
Sexual Selection is a type of Natural Selection. But instead of the environment determining whether a trait is beneficial, it is the female of a species that determines the benefit.
Females tend to choose mating partners based on physical attributes that signal the resulting offspring will survive to pass on their genes.
Female Gorillas, for example, are half the size of males because they select powerful mating partners. Males battle each other for mating rights with the females. Males who are the biggest and the strongest stand a better chance of passing on their genes and producing offspring with the same traits.
This explains why gorillas are so much larger than the other great apes. Another example is the tail of a male Peacock. Females select males with larger, more ornate tails to mate with.
The tails are actually quite heavy and create a risk to the male because it costs extra energy to maintain such a secondary sexual characteristic not to mention the fact that the extra weight would slow escape from a predator. But the size and color of the tail signals to the female that the male is strong with good genes. These characteristics were initially conceived through mutation and then built upon through sexual selection.
What else can I help you with?
What is the role of the natural selection in evolution and what role does it play in environmental science?
Natural selection is the changing of organisms gradually over time. Natural selection and evolution are parts of environmental science due to them being the studies of organisms.
Is natural selection an adequate explanation for the origin and diversity of life on earth?
Natural selection is a key mechanism for evolution by which favorable traits are passed on to future generations, leading to the diversity of life. However, other factors like genetic drift, mutation, and gene flow also play a role in shaping the origin and diversity of life on Earth. Therefore, while natural selection is an important explanation, it is not the sole factor in the evolution of life.
What is the impact of mutation Why?
Mutations can have a range of impacts on organisms, affecting traits and functions. They can lead to beneficial adaptations, harmful diseases, or neutral changes that do not affect the organism. The significance of a mutation often depends on its environment and the specific genes involved, influencing evolutionary processes and biodiversity. Additionally, mutations play a crucial role in genetic variation, which is essential for natural selection.
What role does the environment play natural selection?
toilet paper...... just kidding it helps the plants grow and people live
What role does the environment play in Darins theory of evolution by natural selection?
In Darwin's theory of evolution by natural selection, the environment is a key driver of the process. Organisms that are better adapted to their environment are more likely to survive and reproduce, passing on their advantageous traits to the next generation. Environmental pressures, such as competition for resources or changes in climate, drive the process of natural selection by selecting for traits that increase an organism's fitness for survival.
Which form of natural selection is most likely to play a role in speciation?
Reproductive isolation through sexual selection is often an important factor in speciation. This type of natural selection can lead to the evolution of reproductive barriers that prevent individuals from different populations from successfully interbreeding, ultimately resulting in the formation of distinct species.
What is the role of the natural selection in evolution and what role does it play in environmental science?
Natural selection is the changing of organisms gradually over time. Natural selection and evolution are parts of environmental science due to them being the studies of organisms.
What is the the role of natural selection in evolution and what roles does it play in environmental science?
Natural selection is the changing of organisms gradually over time. Natural selection and evolution are parts of environmental science due to them being the studies of organisms.
Is natural selection an adequate explanation for the origin and diversity of life on earth?
Natural selection is a key mechanism for evolution by which favorable traits are passed on to future generations, leading to the diversity of life. However, other factors like genetic drift, mutation, and gene flow also play a role in shaping the origin and diversity of life on Earth. Therefore, while natural selection is an important explanation, it is not the sole factor in the evolution of life.
How do mutations play a note in evolutionary change?
Mutations take a huge part in evolutionary change for a few reasons. A species can be altered permanently if a mutation occurs that is beneficial. On the other hand, if a mutation that is harmful occurs, it will not be in the offspring most likely because of natural selection. Sometimes mutations will be dormant, but this isn't as big in evolution, but can be helpful if the environment changes and their mutation deals with something accepting more harsh conditions.
What is the impact of mutation Why?
Mutations can have a range of impacts on organisms, affecting traits and functions. They can lead to beneficial adaptations, harmful diseases, or neutral changes that do not affect the organism. The significance of a mutation often depends on its environment and the specific genes involved, influencing evolutionary processes and biodiversity. Additionally, mutations play a crucial role in genetic variation, which is essential for natural selection.
What role does the environment play on natural selection?
Nature plays no direct role in artificial selection. That is the difference between artificial selection and natural selection. Nature does play some indirect roles in artificial selection. One indirect role is in providing the organisms with which one beings the artificial selection. Another is in influencing the choices of the organism performing the artificial selection.
What role do mutations play in natural selection?
Mutations may introduce novel phenotypes due to a change in DNA. If beneficial to the organism, the environment will continue to select that trait in future generations. However, most mutations are harmful to the organism, usually preventing the trait from passing to offspring.
What is a driving force of evolution?
Natural selection is a key driving force of evolution, whereby traits that provide a survival or reproductive advantage are favored and passed on to future generations. Other factors such as genetic drift, mutation, and gene flow also play a role in shaping the diversity of species over time.
Is NOT a component of the theory of evolution by natural selection?
Acquired traits. The theory of evolution by natural selection focuses on inherited traits that provide a reproductive advantage. Acquired traits, which are not genetically determined, do not play a direct role in this process.
What role do alleles play in natural selection?
Genes are the medium by which inherited traits are passed on to offspring. It is inherited traits, and thus genes, that receive positive or negative selection.
How is sexual dimorphism caused?
Sexual dimorphism is caused primarily by differences in genetic and hormonal influences between males and females of a species. These influences lead to the development of distinct physical traits, such as size, coloration, and morphology, that are often associated with reproductive roles. Natural selection and sexual selection also play crucial roles, as traits that enhance mating success or survival may become more pronounced in one sex over time. Environmental factors can further shape these differences, leading to variations across species.
