Such direct observational evidence is limited, however, and clouds remain the biggest source of uncertainty--apart from human choices to control greenhouse gases—in predicting how much the climate will change
According to the graph attached to support the task, I think that I recognized the correct answer, and I bet one negative consequence of using an insecticide is that it <span>selects for insecticide-resistant organisms. Actually, this option is the most impactful for environment, as the rest of the options pose as advantages. (besides the last one, but it does not make sense as the iformation doe not coincide with graph)
I hope you will agree with me.</span>
Fucus vesiculosus<span> has a number of morphological adaptations that are extremely beneficial. First, the organism has evolved what is called a holdfast. This is root-like structure that connects the entire organism to the substrate or ground. The holdfast ensures that the organism doesn't float away from an area that it has evolved to thrive in, for example, moving from an area of lower temperatures to higher temperatures, and also changes in the salinity of the water. The picture to the right shows a holdfast of another brown algae. Notice the root-like structures that are all over the substrate.</span>
Answer:
16 genetically different offspring
Explanation:
This is the case as each parent has the ability to produce 4 uniquely different gametes through independent assortment. With such a scenario where each parent can product 4 uniquely different gametes multiplied by 4 parents, you have 16 offspring. So there's the possibility of producing 16 offspring that are unique.
Hey there, Faith.
An organism grows by increasing the number of cells it has and the size of those cells. For example; a human being. At first, we're a small clump of cells, but as we age (for the most part), we grow in size because of the cells in our body and so does the size of those cells.
Your answer is C.)
I hope this helps!