Root cells are primarily responsible for absorbing water from the soil through their root hairs. Nitrogen is absorbed by plant cells through specialized structures called root nodules, which contain nitrogen-fixing bacteria that convert atmospheric nitrogen into a usable form for the plant. These cells work together to ensure plants have the necessary resources for growth and development.
Plant cells absorb nitrogen from the soil in the form of nitrate (NO3-) or ammonium (NH4+). These forms of nitrogen are taken up by the plant roots and then transported to different parts of the plant for protein synthesis and other essential physiological processes.
The type of plant cell that absorbs water and nitrogen compounds from the soil is called a root hair cell. Root hair cells are responsible for increasing the surface area of the roots to maximize nutrient absorption. They form a close association with soil particles to efficiently uptake water and nutrients for the plant's growth and development.
The plant cells that absorb water and swell up are called parenchyma cells. These cells have thin cell walls and can expand to store water, aiding in plant support and growth.
Plants roots absorb nitrates through active transport, using specialized transport proteins. These proteins facilitate the movement of nitrates into the root cells against the concentration gradient. Once inside the cells, nitrates can be utilized for protein synthesis and other metabolic processes within the plant.
Root hair cells are the type of plant cell that absorbs water and nitrogen from the soil. These cells are found along the surface of the plant root and have a large surface area to increase absorption efficiency.
Plant cells absorb nitrogen from the soil in the form of nitrate (NO3-) or ammonium (NH4+). These forms of nitrogen are taken up by the plant roots and then transported to different parts of the plant for protein synthesis and other essential physiological processes.
Free nitrogen means chemically free, it has not combined with any other elements. Fixed nitrogen has combined to make ammonium compounds or nitrate compounds which can be easily absorbed by plants and used to make amino acids in the plant cells.
Plants are able to use simple nitrogen compounds from the soil, such as ammonium and nitrate, to synthesize proteins and other complex compounds through a process called nitrogen assimilation. This involves incorporating the nitrogen into amino acids, which are the building blocks of proteins, through a series of biochemical reactions in the plant cells.
Root hair cells absorb water and the nutrients in it through osmosis. These cells have thin walls and a large surface area.
Nitrogen gas is converted into a form that plant cells can use through a process called nitrogen fixation. This can be done by certain bacteria that live in the soil or in the root nodules of leguminous plants. These bacteria convert nitrogen gas into ammonia, which can then be taken up by plant roots and used to synthesize proteins and other essential molecules.
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The type of plant cell that absorbs water and nitrogen compounds from the soil is called a root hair cell. Root hair cells are responsible for increasing the surface area of the roots to maximize nutrient absorption. They form a close association with soil particles to efficiently uptake water and nutrients for the plant's growth and development.
The plant cells that absorb water and swell up are called parenchyma cells. These cells have thin cell walls and can expand to store water, aiding in plant support and growth.
Yes, rhizobium bacteria in the root nodules of leguminous plants convert nitrogen gas into ammonia through a process called nitrogen fixation. This ammonia is further used by the plant to produce amino acids and other essential nutrients.
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They absorb it from carbon dioxide and the sun and water.
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