Answer:
decomposer
Explanation:
just like the word decompose it eats away corpse so they can make fertilizer.
Answer:
Directional selection
Explanation:
The type of natural selection that favors one of the extreme phenotypes due to its higher survival and reproductive success is known as directional selection. It shifts the peak of the distribution curve of the phenotype towards one extreme end.
In the given example, the plants with thickest leaves have better survival and reproductive success under the drier climate of their new habitat. This would allow the plants with thickest leaves to survive well and leave more progeny.
After several generations, the population would exhibit an increased frequency of plants with thickest leaves over the plants with intermediate and thinnest leaves.
Since the natural selection has favored one extreme phenotype (thickest leaves) over the average (intermediate thickness) and the other extreme (thinnest leaves) phenotype, it is directional selection.
Answer:
Feedback mechanism that maintain homeostasis
Explanation:
This is because homeostasis is the ability to maintain internal environment and therefore a person with anhidrosis cannot sweat and it's body cannot cool because homeostasis is not maintained. It has effect on the negative feedback mechanism that maintain homeostasis because negative feedback can increase or decrease response to stimulus and inhibiting the stimulus ability to continue. This decrease the ability of the body to response to stimulus of heat which make to body to bring about cooking.
<span>The S strain of bacteria that Griffith used was virulent meaning that when injected into the mouse, the mouse would die from pneumonia The R strain was nonvirulent and did not result in the death of the mouse. When Griffith injected mice with a dead S strain of pneumatic bacteria the mice remained healthy.
I hope this helps!
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GM is a technology that involves inserting DNA into the genome of an organism. To produce a GM plant, new DNA is transferred into plant cells. Usually, the cells are then grown in tissue culture where they develop into plants. The seeds produced by these plants will inherit the new DNA