Answer:
Low solute potential
Explanation:
Solute potential is simply defined as a pressure that is implemented to a given solution from preventing the water flowing inward across a distinct semi-permeable membrane
. This is also known as osmotic potential.
On the other hand, the water potential can be defined as the potential energy that is attained by water per unit volume.
There is a relationship between the solute potential and the solute concentrations, where the concentration of solute is inversely proportional to the solute potential.
Thus, in the desert areas, some plant cells are comprised of high solute concentration which favors them to survive in the arid climate because they have low solute potential that helps them in reducing the loss of water.
The rigth answer is cell membrane.
A cell membrane distinguishes a fundamental cellular structure formed from a double layer of phospholipids associated with other lipids, proteins and carbohydrates.
The membrane of the cell, also known as the plasma or cytoplasmic membrane, is a biological membrane (biomembrane) that separates the interior of all cells from the external environment.
The plasma membrane, cytoplasmic membrane or plasmalemma delimits the cytoplasm of the cell. Organelles are surrounded by a single cell membrane (peroxisomes, lysosomes, endoplasmic reticulum, dictyosomes, vacuole) or double (nucleus, plastids).
Answer:
true
Explanation:
they may live in the same climate therefore needing the same adaption in order to survive and thrive
Answer:
Enzymes known as DNA polymerases are responsible creating the new strand by a process called elongation. ... DNA polymerase then adds pieces of DNA, called Okazaki fragments, to the strand between primers. This process of replication is discontinuous as the newly created fragments are disjointed.
Explanation:
Walter Sutton discovered heredity
