standard 4 natural selection & adaptations\ninquiry question: how do environmental changes drive adaptations…

standard 4 natural selection & adaptations\ninquiry question: how do environmental changes drive adaptations in populations?\nreading:\nin the 1800s, industrial pollution darkened tree bark in england, leading to an increase in dark - colored moths. the lighter - colored moths, once common, became more visible to predators and declined in number. this is an example of directional selection in response to environmental change.\ndata: frequency of light vs. dark moths over time\n| year | light moths (%) | dark moths (%) |\n| ---- | ---- | ---- |\n| 1800 | 90% | 10% |\n| 1850 | 60% | 40% |\n| 1900 | 20% | 80% |\n| 1950 | 10% | 90% |\nmultiple - choice questions:\n1. what pattern does the data suggest?\na) light moths increased over time\nb) dark moths became more common as pollution increased\nc) moth populations remained stable\nd) both light and dark moths disappeared\n2. what would happen if pollution were reduced?\na) light moths would become more common again\nb) dark moths would continue to dominate\nc) no change in moth population\nd) moths would go extinct

standard 4 natural selection & adaptations\ninquiry question: how do environmental changes drive adaptations in populations?\nreading:\nin the 1800s, industrial pollution darkened tree bark in england, leading to an increase in dark - colored moths. the lighter - colored moths, once common, became more visible to predators and declined in number. this is an example of directional selection in response to environmental change.\ndata: frequency of light vs. dark moths over time\n| year | light moths (%) | dark moths (%) |\n| ---- | ---- | ---- |\n| 1800 | 90% | 10% |\n| 1850 | 60% | 40% |\n| 1900 | 20% | 80% |\n| 1950 | 10% | 90% |\nmultiple - choice questions:\n1. what pattern does the data suggest?\na) light moths increased over time\nb) dark moths became more common as pollution increased\nc) moth populations remained stable\nd) both light and dark moths disappeared\n2. what would happen if pollution were reduced?\na) light moths would become more common again\nb) dark moths would continue to dominate\nc) no change in moth population\nd) moths would go extinct

Answer

Explanation:

Step1: Analyze the data trend

From 1800 - 1950, the percentage of light - moths decreased from 90% to 10%, and the percentage of dark - moths increased from 10% to 90%. This was due to industrial pollution darkening tree bark, making dark - moths more camouflaged.

Step2: Consider the impact of pollution reduction

If pollution is reduced, tree bark will lighten. Light - moths will be better camouflaged again, so their population will increase.

Answer:

  1. B. Dark moths became more common as pollution increased
  2. A. Light moths would become more common again