a fish is able to breathe outside of water but does not reproduce, that trait is a disadvantageous mutation . will be inherited by other fish. does not impact evolution . will be acquired by other fish.

The statement that a fish is able to breathe outside of water but does not reproduce is not necessarily a disadvantageous mutation. It is important to consider the context and environmental factors in which this mutation occurs.

If the fish species lives in an environment with fluctuating water levels or occasional droughts, the ability to breathe outside of water could actually be advantageous. It would allow the fish to survive in temporarily waterless areas and potentially access new habitats or food sources. In such a situation, this mutation might increase the chances of survival and could be selected for by natural selection, hence impacting evolution.

However, if the fish lives in a stable aquatic habitat with no need to go out of water, this mutation might not provide any significant advantage and may not be beneficial for survival or reproduction. In such cases, if the fish does not reproduce, the mutation would not be passed on to the next generation and would not be inherited by other fish.

It's important to note that the impact of a mutation on evolution depends on various factors, including the environment, mating behaviors, and overall fitness of the organism. Mutations that increase the fitness and reproductive success of individuals are more likely to be passed on to future generations.

a fish is able to breathe outside of water but does not reproduce, that trait
is a disadvantageous mutation .
will be inherited by other fish.
does not impact evolution .
will be acquired by other fish.

If a fish has a disadvantageous mutation, such as the inability to reproduce, it is less likely to be inherited by other fish. Disadvantageous mutations tend to decrease the fitness and reproductive success of individuals, which means they are less likely to pass on their genetic traits to future generations. Over time, this can lead to the mutation being eliminated from the population through natural selection.

In terms of the impact on evolution, the inability to reproduce can hinder the passing on of the mutation to subsequent generations and thus reduce its potential impact on the overall gene pool of the species. Therefore, it is less likely to have a significant impact on the evolutionary trajectory of the species. Other fish are also less likely to acquire this trait unless there are specific environmental conditions that make it advantageous for survival or reproductive success.