Answer: It helps control the water better and more efficiently. It also helps to save water
Explanation:
Cellular respiration occurs<span> in both </span>plant<span> and animals. It is the process by which cells convert ADP (adenosine diphoosphate) into ATP (adenosine triphosphate).</span>Plant<span> and animal cells cannot use ADP as a form of energy. The mitochondria within the cells convert ADP into a useable form of </span>cellular<span> energy: ATP.
Hope this helps :D</span>
Daughter cells in meiosis usually have half the number of chromosomes of their parents.
<h3>Chromosome number in meiosis</h3>
Meiosis is called reductional division for a reason. It is because the number of chromosomes of the parent cell is usually halved in the daughter cells.
For example, if a cell with 46 chromosomes undergoes meiosis to produce four daughter cells. Each of the daughter cells will have 23 chromosomes.
This is unlike mitosis in which daughter cells have the same number of chromosomes as their parents.
More on meiosis can be found here: brainly.com/question/11622266
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This startle reflex (aka moro reflex) is/was present in us as newborns.
It's triggered when there's an unexpected reaction. Example: Loud noise, sudden movement.
The baby will tighten his/her body, fling out arms, sort of like giving him/herself a hug. It happens because the baby is trying to protect itself from harm.
It normally leaves thanks to the mother's care, normally 6 weeks after the newborn is born.
Prokaryotes are single-celled organisms with no nucleus, and so this would make bacteria a prime example. Therefore, depending upon the system being used, the kingdom that contains single-celled prokaryotes could be Monera, or the combination of Archaeobacteria and Eubacteria.
The kingdom systems, which were previously taught in high school, consisted of a 5-kingdom system which was later expanded to 6. The 5- kingdom included Animals, Plants, Fungi, Monera and Protists. The 6- kindgom system expanded Monera into Archaeobacteria and Eubacteria.
The "kingdom" system of classification is now generally not recognized as a valid or helpful way of classification, at least not according to modern evidence. It tends to be "paraphyletic", meaning that it describes relationships which do not match the evolutionary relationships of the organisms being described, and tends to favor human conventions rather than biological evidence. Kingdoms have generally been replaced by "domains" in terms of organizing relationships between organisms, referring to the prokaryotes, eukaryotes, and archaea, based on genetic and protein data.
