Answer:
B. Mimicry
Explanation:
Mimicry is a method used by several species for their survival and benefit. It literally means to resemble another organism or object. The resemblance can be in looks or in behaviour.
Various kinds of mimicry exist, for example the one used by viceroy butterflies. They resemble monarch butterflies in appearance, i.e. both of them have orange wings with black ridges and they are hard to differentiate from each other. Monarch butterflies are poisonous so predators do not eat them. Since viceroy butterflies look similar to them, they are also confused as them and not consumed. Hence, they are able to protect themselves due to mimicry.
Answer:
The correct answer is - the phenotypic ratio would be 9:3:3:1.
Explanation:
The two traits that are dominant are free earlobe and straight thumb that are denoted by the E and T on their alternative recessive alleles attached lobe and hitchhiker thumbs denoted by the e and t respectively. The heterozygous condition will be EeTt.
The cross between EeTt and EeTt will produce gametes ET, Et, eT, and et by each. The phenotypic ratio of the cross would be 9:3:3:1, which means 9 out of 16 offspring will be dominant in both trait, 3 will be free lobe and hitchhiker thumb, 3 will be straight thumb and attached earlobe, and 1 will be recessive in both traits. For the cross please check the attached image.
Thus, the correct answer is - the phenotypic ratio would be 9:3:3:1.
Answer:
The position it holds in the food chain
Explanation:
A food chain is a succession of organisms that eat other organisms and may, in turn, be eaten themselves.
Answer:
i could not figure it out though i tried my best
Explanation:
Answer:
<em>In order to reach equilibrium, water will move outside the cell to reach equilibrium. </em>A cell tends to lose or gain water in order to reach equilibrium.
If there are more number of solutes outside the cell, then the water will move out of the cell in order to maintain equilibrium. On the other hand, if there are more number of solutes inside the cell then the water will move inside the cell to maintain equilibrium.
