this graph is addressing the beginner one
Answer:
There is a certain water potential maintained in the body of the paramecium, which can change in response to changes in its environment. When the water solute level is increased all the way up, the water potential in the surrounding is a lot lower than the water potential inside the paramecium. Due to this steep water potential gradient, water will leave the paramecium's cell into the surrounding via osmosis. Water being transported out of the paramecium will cause it to dehydrate and die.
In the opposite case where the solute level is lowered all the way down, no water will enter the paramecium cell because its water potential is lower than the surroundings. The difference in water potentials is so great that the water entering the paramecium's cell will cause to burst and die.
Note: remember that diffusion and osmosis takes place down the concentration gradient. The concentration of one environment is determined in reference to another.
Hope that answers the question, have a great day!
Answer- Cellular respiration.
Answer:
Temperate Grasslands!
Explanation:
Mild prairies have sweltering summers and cold winters. Precipitation is moderate. The measure of yearly precipitation impacts the stature of field vegetation, with taller grasses in wetter districts. As within the savanna, regular time of year and infrequent flames are imperative to biodiversity.
So based on the description you have gave me, the temperate grasslands matches what you asked for!
Amino acids are the building blocks of protein
