Become extinct over time
Variation within a species is due to genetic diversity, which arises from random mutations, recombination during reproduction, and gene flow from other populations. This variation provides the raw material for natural selection and enables species to adapt to changing environments.
A population with a lot of genetic variation is more likely to have individuals that can adapt to a changing environment. This diversity provides a broader range of traits, increasing the likelihood that some individuals will possess characteristics suited to the new conditions. In contrast, a population with little genetic variation may lack the necessary traits to survive and thrive in the face of environmental changes, making it less resilient overall.
Genetic combination increases genetic diversity within a species, providing a wider range of traits and characteristics. This diversity can enhance a species' ability to adapt to changing environments and challenges, increasing its chances of survival and evolution. Moreover, genetic combination can help dilute harmful mutations and increase the chances of beneficial ones being passed on to future generations.
Variation within a species, often referred to as genetic diversity, enhances a population's ability to adapt to changing environments and resist diseases. This diversity allows for a greater range of traits that can improve survival and reproduction under different conditions. Additionally, it helps mitigate the risks associated with inbreeding, which can lead to increased vulnerability to threats. Overall, genetic variation is crucial for the resilience and long-term survival of a species.
Advantage- On the species level, variation allows a population to maintain a healthy diversity, allowing it to cope with changing circumstances.Disadvantage- On the individual level, variation may lead to detrimental changes as well as neutral and beneficial changes.
It will most likely die because it is not use to the changes of shelter, food, and other VERY important things.
Genetic variation allows a species to have different traits and characteristics within its population. This diversity increases the chances that some individuals will have traits that are better suited to survive and thrive in changing environments. As the environment changes, individuals with advantageous traits are more likely to survive and reproduce, passing on their genes to future generations. This process, known as natural selection, helps a species adapt and evolve over time.
The species could not adapt quickly enough to their changing environment to survive.
Variation within a species is due to genetic diversity, which arises from random mutations, recombination during reproduction, and gene flow from other populations. This variation provides the raw material for natural selection and enables species to adapt to changing environments.
Little or no variation could lead to failure to adapt to changing conditions. Too much variation would prevent the species from passing on beneficial traits because they would change too rapidly.
Little or no variation could lead to failure to adapt to changing conditions. Too much variation would prevent the species from passing on beneficial traits because they would change too rapidly.
Little or no variation could lead to failure to adapt to changing conditions. Too much variation would prevent the species from passing on beneficial traits because they would change too rapidly.
If a species can adapt to a changing environment, it increases its chances of survival, as individuals that possess advantageous traits may thrive and reproduce. This adaptability can lead to evolutionary changes over generations, enabling descendants to better cope with new conditions. In contrast, if a species cannot adapt, it risks extinction, while those that can may evolve into new forms better suited to their environment. Thus, adaptability is crucial for the long-term survival of a species.
Variation within a species refers to differences in characteristics or traits among individuals of the same species. These variations can be genetic, environmental, or a combination of both. They are important for evolution as they provide the raw material for natural selection to act upon, helping species to adapt to changing environments.
A "variation" is a genetic feature expressed in some physical, physio chemical or behavioral manner by a living organism that is not present in the general population of the species to which that living organism belongs. If that variation advantages that animal as compared to others of that species then the likelihood is that that animal will breed more successfully, potentially passing on that variation to its offspring. Slowly variations accumulate and one species changes into a new species - this is called evolution.
If a species can adapt to a changing environment, it enhances its chances of survival and reproduction, increasing the likelihood that its descendants will thrive. Adaptation may involve physiological, behavioral, or genetic changes that help the species cope with new challenges. Over time, these adaptations can lead to evolutionary changes that promote resilience in future generations. Conversely, species that cannot adapt may face extinction, reducing or eliminating their descendants.
Go extinct.