The vacuole is the organelle that uses water to maintain turgor pressure in plant cells, which helps to keep plants upright. When the vacuole is full of water, it creates internal pressure that makes the plant cells rigid and supportive.
The vacuole is responsible for holding WATER, not waste, but yes the vacuole is the water holding organelle in a plant.
The central vacuole is the organelle filled with water in plant cells. It helps maintain turgor pressure, which supports the plant's structure and prevents wilting.
The two structures that provide strength and support for plants to stand upright are the cell wall and the vascular tissue, specifically xylem. The cell wall, composed mainly of cellulose, offers rigidity and structural integrity. Meanwhile, xylem transports water and minerals, creating internal pressure through turgor that helps maintain the plant's upright position. Together, these structures enable plants to support their weight and resist bending or collapsing.
Lignin, a major component of the vascular plant cell wall, provides mechanical support for plants to stand upright and enables xylems to withstand the negative pressure generated during water transport.
The organelle that absorbs carbon dioxide in plants is the chloroplast. It also absorbs sunlight and use it in conjunction with water and carbon dioxide gas to conduct the process of photosynthesis.
The vacuole is responsible for holding WATER, not waste, but yes the vacuole is the water holding organelle in a plant.
water pressure in the leaf, by the continuous transpiration pull.
Water is important in the plants shape as the pressure from the water in the cells help to keep the plants shape. When a plant is devoid of water it begins to droop, this means there is no water in the cells to help keep it upright.
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The central vacuole is the organelle filled with water in plant cells. It helps maintain turgor pressure, which supports the plant's structure and prevents wilting.
Fluid pressure from freshwater helps plants stand upright through a process called turgor pressure. When plant cells absorb water, they become turgid and press against the cell wall, providing support and rigidity to the plant structure. This pressure helps plants maintain their shape and stand upright.
Plants may lose mass when they don't have water due to dehydration and shrinking of cells. Water is essential for maintaining turgor pressure, which keeps plant cells rigid and upright. Without water, plants may wilt and appear to lose mass.
The two structures that provide strength and support for plants to stand upright are the cell wall and the vascular tissue, specifically xylem. The cell wall, composed mainly of cellulose, offers rigidity and structural integrity. Meanwhile, xylem transports water and minerals, creating internal pressure through turgor that helps maintain the plant's upright position. Together, these structures enable plants to support their weight and resist bending or collapsing.
The Contractile Vacoule.
Turgor pressure is responsible for the maintenance of a plant's erect position. It is the pressure of the cell contents against the cell wall, providing structural support and rigidity to the plant. When the cells are filled with water, they become turgid, helping the plant to stand upright.
well they are found in some oimportant plants like light, sun and also last but not least water
Lignin, a major component of the vascular plant cell wall, provides mechanical support for plants to stand upright and enables xylems to withstand the negative pressure generated during water transport.