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What is the difference of water uptake and minerals uptake?
Water uptake refers to the absorption of water by plant roots from the soil, which is essential for plant growth and nutrient transport. Minerals uptake, on the other hand, refers to the absorption of essential nutrients such as nitrogen, phosphorus, and potassium from the soil by plant roots for various physiological processes like photosynthesis and growth. Both processes are crucial for plant health and development.
Which of these processes are necessary for roots to be able to take up water and minerals?
Root hairs increase surface area for absorption, active transport allows uptake against concentration gradients, and mycorrhizal associations enhance nutrient uptake.
Why are minerals important for the plant and how do they get the minerals?
Minerals are essential for plants as they play crucial roles in processes such as photosynthesis, nutrient uptake, and overall growth and development. They contribute to the formation of plant structures, enzyme function, and the synthesis of chlorophyll. Plants obtain minerals primarily from the soil through their roots, utilizing water to dissolve these nutrients and facilitate their absorption. Additionally, the symbiotic relationships with mycorrhizal fungi can enhance mineral uptake efficiency.
Is turgor important for mineral uptake?
Yes, turgor pressure is important for mineral uptake in plants. It helps in the movement of water and minerals from the soil into the plant roots through osmosis. Turgor pressure also maintains cell rigidity and structure, which is essential for the proper functioning of the root system in absorbing minerals.
Uptake of nutrients by plants root is what process?
The uptake of nutrients by plant roots is a process called root uptake or absorption. Plant roots take in water and minerals through their root hairs, which then move up through the plant's vascular system to be used for growth and metabolism.
A supply of carbohydrate is needed to uptake minerals by roots?
AcTiVe UpTaKe lOw CoNcEnTrAtIoN tO hIgH cOnCeNtRaTiOn EnErGy /AtP rEsPiRaTiOn........ hope I helped.........................\m/
Are the minerals endless in the soil?
No, minerals in the soil are not endless. They can become depleted over time due to factors such as plant uptake, erosion, weathering, and leaching. It is important to practice sustainable soil management to maintain soil fertility and prevent mineral depletion.
How presence of root hair cells on roots enables the efficient absorption of water and minerals?
They develop a cytoplasmic hair-like elongation which increases its surface area for more absorption. It also has a large number of mitochondria which provides energy needed for the active uptake of minerals.
How the presence of root hair cells on root enables the efficient absorption of water and minerals?
They develop a cytoplasmic hair-like elongation which increases its surface area for more absorption. It also has a large number of mitochondria which provides energy needed for the active uptake of minerals.
How the presence of hair root cell on root enable the efficient absorption of water and minerals?
They develop a cytoplasmic hair-like elongation which increases its surface area for more absorption. It also has a large number of mitochondria which provides energy needed for the active uptake of minerals.
By what mechanism would root cells absorb needed minerals in the soil?
Root cells absorb needed minerals from the soil through a process called active transport. This involves using energy to move molecules against their concentration gradient into the root cells. The specific transport proteins in the root cells facilitate the uptake of different minerals such as ions like nitrate, phosphate, potassium, and others.
What is the difference of water uptake and minerals uptake?
Water uptake refers to the absorption of water by plant roots from the soil, which is essential for plant growth and nutrient transport. Minerals uptake, on the other hand, refers to the absorption of essential nutrients such as nitrogen, phosphorus, and potassium from the soil by plant roots for various physiological processes like photosynthesis and growth. Both processes are crucial for plant health and development.
Why is the Casparian strip advantageous in terms of selective mineral uptake?
The Casparian strip is advantageous for selective mineral uptake because it forces water and minerals to pass through the plasma membrane of endodermal cells, where they can be selectively absorbed. This helps regulate the types and amounts of minerals that enter the plant, preventing toxic buildup and ensuring efficient nutrient uptake.
Which of these processes are necessary for roots to be able to take up water and minerals?
Root hairs increase surface area for absorption, active transport allows uptake against concentration gradients, and mycorrhizal associations enhance nutrient uptake.
Which mineral is used in glucose uptake?
Chronium. Chronium is vital in regulating carbohydrate metabolism by enhancing insulin function for proper use of glucose in the body.
What important chemical does the pancreas secrete to control carbohydrate and glucose sugar levels in the blood?
It secretes the hormone insulin, which controls the uptake of glucose by cells.
Which of the following is not an adaptation that enhances the uptake of water and minerals by roots?
shallow, fibrous roots
