Dipterans (two-winged insects) are thought to have evolved from a four-winged ancestor that had wings on both T2 and T3 thoracic segments, as in extant butterflies and dragonflies. Describe an evolutionary scenario for the evolution of dipterans from four-winged ancestors. What types of mutations could lead to a butterfly developing with only two wings?

Evolutionary adaptation refers to the process by which species undergo changes over time to better fit their environment. In the context of dipterans, this could involve modifications in wing structure and function that enhance survival and reproductive success. For example, a reduction in wing size or number may allow for more efficient flight or energy conservation, leading to the eventual dominance of two-winged forms.

Genetic mutations are changes in the DNA sequence that can lead to variations in physical traits. In butterflies, mutations affecting the development of wings could involve alterations in genes responsible for wing formation, such as those in the Hox gene cluster. These mutations can result in phenotypic changes, such as the loss of wings on one thoracic segment, which may be beneficial under certain environmental conditions.

Natural selection is the mechanism by which individuals with advantageous traits are more likely to survive and reproduce. In the scenario of dipteran evolution, if two-winged individuals were better adapted to their environment than their four-winged counterparts, they would have a higher chance of passing on their genes. Over generations, this could lead to the prevalence of the two-winged phenotype in the population, illustrating the role of natural selection in evolutionary change.