Answer Explanation:
Due to technical difficulties, the answer and explanation for this problem are available in the attached file.
So in this scenario, we have to consider two things: the plants are super different from each other. Some plants have huge leaves, others have tiny ones-- some plants have really long roots, others barely have them; it is because of these differences that the some plants survive better than others.
Say that at the start, plants are thriving like crazy-- I mean they're everywhere man.
But afterwards, this huge environmental change occurs.
Plants that have bigger leaves lose more water due to a greater rate of transpiration. Plants with shorter roots can't reach the water deep in the soil.
Plants with smaller leaves, and waxier cuticles could protect their water more. Plants with longer roots could get more water.
Basically, all plants that have good traits for drier environments tend to survive more.
Because they tend to survive more-- they could make more baby plants (i.e. greater rate of reproduction)
Because they could make more baby plants, the overall newer generation of plants will have more of these hardy, dry-environment adapted plant traits (i.e. phenotype).
Answer: A. Average rainfall has decreased
Explanation:
I might be wrong. sorry if i'm wrong
Answer: The heat index is an index that combines air temperature and relative humidity, in shaded areas, to posit a human-perceived equivalent temperature, as how hot it would feel if the humidity were some other value in the shade.
Explanation: did the test
Answer:
2 The Solution Removes Carbon Dioxide From The Atmosphere
Explanation:
This is my example (Photosynthesis)
Photosynthesis removes carbon dioxide naturally — and trees are especially good at storing carbon removed from the atmosphere by photosynthesis.
